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Identification and characterization of TNFalpha responsive genes in human breast cancer cells
(2006)
One of the hallmarks of cancer is the escape of the transformed cells from apoptosis. Therefore, the identification of survival genes, allowing cancer cells to circumvent programmed cell death, could provide new diagnostic markers as well as targets for therapeutic intervention. A well known transcription factor regulating the balance between pro- and anti- apoptotic factors is NF-kappaB, which is strongly induced by tumor necrosis factor alpha (TNFalpha). When cells are stimulated by TNFalpha their response is biphasic with an initial NF-kappaB induction of survival genes which is overridden by the subsequent activation of initiator caspases triggering apoptosis. By combining gene trap mutagenesis with site specific recombination a strategy was developed, which enriches for genes induced by TNFalpha in the human breast cancer cell line MCF-7. The strategy relies on a one way gene expression switch based on Cre/loxP mediated recombination, which uncouples the expression of a marker gene from the trapped cellular promoter thereby enabling the recovery of genes that are only transiently induced by TNFalpha. The marker gene used in these experiments was a dominant negative variant of the TNFalpha-receptor associated protein FADD (dnFADD), which blocks the apoptotic branch of the TNFalpha induced signaling pathway. Initial experiments indicated that MCF-7 cells expressing high levels of dnFADD were insensitive to TNFalpha induced apoptosis and therefore suitable for the installment of a one way gene expression switch susceptible to Cre/loxP mediated recombination. A MCF-7 reporter clone harboring the recombinase dependent gene expression switch was infected with the gene trap retrovirus U3Cre, which inserts the Cre recombinase gene into a large collection of chromosomal sites. Insertion of Cre downstream of an active cellular promoter induces dnFADD expression from the gene expression switch enabling the cells to block TNFalpha triggered apoptosis. From a gene trap integration library containing approximately 2000000 unique proviral integrations, 69 unique TNFalpha inducible gene trap insertion sites were recovered in a two step selection procedure. Sequencing of the genomic regions adjacent to the insertion sites, which were obtained by inverse PCR (gene trap sequence tags, GTSTs), and data base analysis revealed that 42% of the GTSTs belonged to annotated genes, 13% to known cDNAs with open reading frames, 17% to Genscan predicted genes, 9% to ESTs, 9% to repetitive sequences and 10% to unannotated genomic sequence. Overall, 44% of the annotated genes recovered in this screen were directly or indirectly related to cancer, indicating that the gene trap strategy developed here is suitable for the identification of cancer relevant genes. Analysis of the expression patterns of the trapped and annotated genes in wild type cells revealed that 19 out of 24 genes were either up- or down- regulated by a factor of at least 1.45 by TNFalpha. A large fraction of the gene trap insertions were located upstream, in introns or in opposite orientation to annotated transcripts, indicating that the strategy efficiently recovers non-coding RNAs (ncRNAs). While the biological significance of these transcripts still needs to be elucidated, they fall into two main categories. The first category includes gene trap insertions upstream of genes, which could either represent regulatory RNAs interacting with promoter elements or transcripts driven by bidirectional promoters. The second includes inverse orientation gene trap insertions in introns of annotated genes suggesting the presence of natural antisense transcripts (NATs). Interestingly, more than 50% of all antisense integrations are located downstream of transcription start sites predicted by different algorithms supporting the existence of RNAs transcribed from the corresponding genomic regions. Intronic integrations on the coding strand could be derived from cryptic splicing, alternative promoter usage or additional, so far uncharacterized transcripts. Preliminary functional analysis of two genes recovered in this screen encoding the transcription factor ZFP67 and the FLJ14451 protein revealed that FLJ14451 but not ZFP67 inhibited anchorage independent growth in soft agar, suggesting that FLJ14451 might have some tumor suppressor functions. In summary, besides identifying a putative tumor suppressor protein, the present experiments have shown that gene trapping is useful in identifying non-coding transcripts in living cells and may turn out to be the method of choice in characterizing these transcripts whose functions are still largely unknown.
Die Ursache von Adipositas liegt im übermäßigen Wachstum von Fettgewebe, welches hauptsächlich aus Fettzellen, den Adipozyten, besteht. Die Zellen der stroma-vaskulären Fraktion, welche Vorläuferzellen, Makrophagen und Zellen des lokalen Gefäßnetzwerks enthält, sind außerdem an der Homöostase des Fettgewebes beteiligt. Insbesondere spielt das Gefäßsystem des Fettgewebes in Nagetieren eine wichtige Rolle im Fettgewebewachstum, da die Hemmung der Angiogenese in genetisch- und diät-induzierten fettleibigen Mäusen die Entstehung von Adipositas verhindert. Dennoch wurde das Gefäßsystem des menschlichen Fettgewebes bis heute nicht erforscht. Durch immuno-histochemische Analysen am subkutanen menschlichen Fettgewebe konnten wir zwei verschiedene Gefäßsysteme identifizieren: das vaskuläre Netzwerk des Bluts und das lymphatische vaskuläre Netzwerk. Während die Endothelzellen von beiden Gefäßsystemen die gemeinsamen Endothelzellmarker von Willebrand factor (vWf) und CD31 (PECAM, Platelet Endothelial Cell Adhesion Molecule) exprimierten, konnten die Endothelzellen der Blutgefäße an der Expression des Markers CD34 (Stamm/Blutgefäß-Endothel-Zell-Marker) und die Endothelzellen der Lymphgefäße an der Expression der beiden lymphatischen Marker Podoplanin und VEGFR3 (Vascular Endothelial Growth Factor Receptor 3) spezifisch erkannt werden. Ausschließlich für den Marker CD34-positive Zellen und in Rosetten angeordnete CD31-positive Zellen, welche als residente Makrophagen wurden auch charakterisiert. Um die beiden Gefäßsystemen des menschlichen Fettgewebes weiterhin zu erforschen, haben wir ein auf Immunoselektion basiertes Protokoll entwickelt. Es ermöglicht, Blut- (BEC) und lymphatische (LEC) Endothelzellen aber auch Makrophagen und CD34-positive Zellen spezifisch zu isolieren. Sowohl BEC als auch LEC exprimierten VEGFR1, VEGFR2, vWf und Notch4 und nehmen acetyliertes LDL auf. Darüber hinaus konnte in LEC die Expression von Genen, welche spezifisch für das Lymphgefäßsystem sind, wie Podoplanin, Reelin, VEGFR3, Desmoplakin, LYVE-1 nachgewiesen werden. Durch fluss-cytometrischen Analysen des Anzahls von BEC und LEC im Fettgewebe von Patienten mit unterschiedlichen Body Mass Indices (BMI) wurde entdeckt, dass Fettleibigkeit von einer Erweiterung des vaskulären Netzwerks des Bluts im Fettgewebe begleitet wird, jedoch nicht von einer Erweiterung des lymphatischen vaskulären Systems. Flusscytometrische Analysen belegen, dass es in der CD34-positive Stroma-Zellpopulation Zellen gibt, die den endothelialen Progenitor-Zellmarker CD133 und den primitiven Stammzellmarker ABCG2 exprimieren. Außerdem zeigten die CD34-positive Zellen eine signifikant stärkere Proliferation und Expression von Endothelzellmarkern wie CD31 und vWf, wenn dem Kulturmedium zuvor die Faktoren Vascular Endothelial Growth Factor A (VEGF A) und Insulin-Like Growth Factor-1 zugefügt worden waren. Wurden Mäusen mit Hinterbeinischämie CD34-positive Zellen in vivo injiziert, beteiligten sich diese Zellen an der Neovaskularisation des ischämischen Hinterbeins. Eine signifikante Zunahme des Blutflusses im ischämischen Bein, gekoppelt an einer erhöhten Kapillardichte im ischämischen Muskel und einer Integration der menschlichen Zellen in die Vaskulatur der Maus waren erkennbar. Diese Ergebnisse weisen darauf hin, dass es unter den CD34-positive Zellen eine Population von endothelialen Progenitorzellen gibt, die -bei geeigneter Stimulation- zu Endothelzellen differenzieren. Parallel dazu wurden die lokalen Faktoren untersucht, die potentiell an der Wachstumskontrolle, der Migration und der Organisation der ruhenden, aus dem Fettgewebe stammenden, BEC und LEC beteiligt waren. Sekrete der Adipozyten, jedoch nicht der CD34-positive Zellen, induzierten eine signifikante BEC- und LEC-Proliferation. Außerdem induzierte die Kombination von Leptin und VEGF A oder des basic Fibroblast Growth Factor eine signifikante Zunahme der BrdU-Inkorporation in BEC während Adiponectin, VEGF C und VEGF D bereits alleine konzentrationsabhängig die Proliferation von LEC induzierten. Leptin, und nicht Adiponectin, führte zu signifikant höherer BEC-Migration und Röhrenformung, während Adiponectin, und nicht Leptin, die LEC-Migration und -Organisation förderte. Dabei führte Leptin in BEC und Adiponectin in LEC zeitabhängig zu einer signifikanten Zunahme der Phosphorylierung der Kinase Akt. Diese Ergebnisse belegen, dass die beiden aus Adipozyten stammenden Adipokine Leptin und Adiponectin eine tragende Rolle in der Umverteilung von BEC bzw. LEC spielen. Im Rahmen der Adipositas steigt die Plasmakonzentration von Leptin an während die Plasmakonzentration von Adiponectin sinkt. Unsere Ergebnisse deuten daraufhin, dass Leptin als lokaler pro-angiogenetischer Faktor identifizieren und Adiponectin als neuer lymphangiogenetischer Faktor im menschlichen Fettgewebe beschreiben konnte. Demnach könnten Veränderungen, in der Adipositas, der Adipokinfreisetzung durch Adipozyten am Umbau des vaskulären Netzwerks des Bluts und am ausbleibenden Wachstum des lymphatischen vaskulären Systems innerhalb des Fettgewebes beteiligt sein. Schließlich belegen die vorliegenden Ergebnisse das Vorhandensein einer Progenitor-Zell-Population in der Stroma-Fraktion des menschlichen Fettgewebes. Diese Progenitor-Zellen sind in der Lage sich an der Neovaskularisation ischämischen Gewebes zu beteiligen. Diese Population könnte im Hinblick auf zelltherapeutische Strategien eine interessante Alternative zu Stammzellen aus dem Knochenmark darstellen.
Characterisation of cytosolic prion protein-mediated putative cytotoxicity in neuronal cell lines
(2006)
Prion diseases are a complex group of fatal neurodegenerative disorders with a broad host spectrum, which are characterised by strong neuronal cell loss, spongiform vacuolation and astrocytic proliferation. The molecular mechanisms of prion-mediated neurodegeneration are not yet fully understood. Recently, it has been proposed that neuronal cell death might be triggered by cytosolic accumulation of misfolded cellular prion protein (PrPC) due to impairment of proteasomal degradation. Cytosolic PrPC could result from either retro-translocation via the endoplasmatic reticulum-associated degradation system (ERAD) or abortive translocation of PrPC into the ER. Indeed, expression of cytosolic PrP (Cy-PrP) was shown to be neurotoxic both in vivo and in vitro. However, contradicting results on cytosolic PrP-mediated neurotoxicity in cultured cells have been reported. Cytosolic PrP–mediated cytotoxicity may play a central role in the pathogenesis of prion diseases. In order to investigate the molecular mechanisms of this process, a detailed analysis of N2a cells conditionally expressing cytosolic PrP (Cy-PrP) was performed in this study. The following results were obtained: First, Cy-PrP expression is not per se sufficient to trigger cytotoxicity in N2a cells independently of proteasome inhibition. Second, Cy-PrP is degraded with kinetics resembling the degradation of cell membrane-anchored full-length PM-PrP. In this process, the 20/26S proteasome was responsible for Cy-PrP degradation while the proteolysis of matured full length PM-PrP is not affected by the proteasomal system. Third, Cy-PrP accumulates in fine foci when expressed at high levels and co-localises with the cytosolic chaperone Hsc70 in EEA-1 positive endocytic vesicles. From these data it was proposed that the chaperone Hsc70 acts as a regulator for the controlled formation of amorphous Cy-PrP aggregates and their transport to endosomal vesicles. This Hsc70-dependent mechanism may confer protection to N2a cells against toxic accumulation of Cy-PrP in the cytosol.
The mammalian retina contains around 30 morphological varieties of amacrine cell types. These interneurons receive excitatory glutamatergic input from bipolar cells and provide GABA- and glycinergic inhibition to other cells in the retina. Amacrine cells exhibit widely varying light evoked responses, in large part defined by their presynaptic partners. We wondered whether amacrine functional diversity is based on a differential expression of glutamate receptors among cell populations and types. In whole cell patch-clamp experiments on mouse retinal slices, we used selective agonists and antagonists to discriminate responses mediated by NMDA/ non-NMDA (NBQX) and AMPA/ KA receptors (cyclothiazide, GYKI 52466, GYKI 53655, SYM 2081). We sampled a large variety of individual cell types, which were classified by their dendritic field size into either narrow-field or wide-field cells after filling with Lucifer yellow or neurobiotin. In addition, we used transgenic GlyT2-EGFP mice, whose glycinergic neurons express EGFP. This allowed us to classify amacrines on basis of their neurotransmitter into either glycinergic or GABAergic cells. All cells (n = 300) had good responses to non-NMDA agonists. Specific AMPA receptor responses could be obtained from almost all cells recorded: 94% of the AII (n = 17), 87% of the narrow-field (n = 45), 81% of the wide-field (n = 21), 85% of the glycinergic (n = 20) and 78% of the GABAergic cells (n = 9). KA receptor selective drugs were also effective on the majority of the AII (79%, n = 14), narrow-field (93%, n = 43), wide-field (85%, n = 26), glycinergic (94%, n = 16) and GABAergic amacrine cells (100%, n = 6). Among the cells tested for the two receptors (n = 65), we encountered both exclusive expression of AMPA or KA receptors and co-expression of the two types. Most narrow-field (70%, n = 27), glycinergic (81%, n = 16) and GABAergic cells (67%, n = 6) were found to have both AMPA and KA receptors. In contrast, only less than half of the wide-field cells (43%, n = 14) were found to co-express AMPA and KA receptors, most of them expressing exclusively AMPA (36%) or KA receptors (21%). We could elicit small NMDA responses from most of the wide-field (75%, n = 13) and GABAergic cells (67%, n = 3), whereas only 47% of the narrow-field (n = 15), 14% of the AII (n = 22) and no glycinergic cell (n = 2) reacted to NMDA. Abstract 83 Our data suggest that AMPA, KA and NMDA receptors are differentially expressed among different types of amacrine cells rather than among populations with different neurotransmitters or different dendritic coverage of the retina. Selective expression of kinetically different glutamate receptors among amacrine types may be involved in generating transient and sustained inhibitory pathways in the retina. Since AMPA and KA receptors are not generally clustered at the same postsynaptic sites, a single amacrine cell expressing both AMPA and KA receptors may provide inhibition with different temporal characteristics to individual synaptic partners.
Here I analyse 23 populations of D. galeata, a large-lake cladoceran, distributed mainly across the Palaearctic. I detected high levels of clonal diversity and population differentiation using variation at six microsatellite loci across Europe. Most populations were characterised by deviations from H-W equilibrium and significant heterozygote deficiencies. Observed heterozygote deficiencies might be a consequence of simultaneous hatching of individuals produced during different times of the year or of the coexistence of ecologically and genetically differentiated subpopulations. A significant isolation by distance was only found over large geographic distances (> 700 km). This pattern is mainly due to the high genetic differentiation among neighbouring populations. My results suggest that historic populations of Daphnia were once interconnected by gene flow but current populations are now largely isolated. Thus local ecological conditions which determine the level of biparental sexual reproduction and local adaptation are the main factors mediating population structure of D. galeata. The population genetic structure and diversity in D. galeata was investigated at a European scale using six microsatellite loci and 12S rDNA sequence data to infer and compare historical and contemporary patterns of gene flow. D. galeata has the potential for long-distance dispersal via ephippial resting eggs by wind and other dispersing vectors (waterfowl), but shows in general strong population differentiation even among neighbouring populations. A total of 427 individuals were analysed for microsatellite and 85 individuals for mitochondrial (mtDNA) sequence data from 12 populations across Europe. I detected genetic differentiation among populations across Europe and locations within sampling regions for both genetic marker systems (average values: mtDNA FST = 0.574; microsatellite FST = 0.389), resulting in a lack of isolation by distance. Furthermore, several microsatellite alleles and one haplotype were shared across populations. Partitioning of molecular variance was inconsistant for both marker systems. Microsatellite variation was higher within than among populations, whereas mtDNA data yielded an inverse pattern. Relative high levels of nuclear DNA diversity were found across Europe. The amount of mitochondrial diversity was low in Spain, Hungary and Denmark. Gene flow analysis at a European scale did not reveal typical pattern of population recolonization in the light of postglacial colonization hypotheses. Populations, which recently experienced an expansion or population-bottleneck were observed both in middle and northern Europe. Since these populations revealed high genetic diversity in both marker systems, I suggest these areas to represent postglacial zones of secondary contact among divergent lineages of D. galeata. In order to reveal the relationship between population genetic structure of D. galeata and the relative contribution of environmental factors, I used a statistical framework based on canonical correspondence analysis. Although I detected no single ecological gradient mediating the genetic differentiation in either lake regions, it is noteworthy that the same ecological factors were significantly correlated with intra- and interspecific genetic variation of D. galeata. For example, I found a relationship between genetic variation of D. galeata and differentiation with higher and lower trophic levels (phytoplankton, submerged macrophytes and fish) and a relationship between clonal variation and species diversity within Cladocera. Variance partitioning had only a minor contribution of each environmental category (abiotic, biomass/density and diversity) to genetic diversity of D. galeata, while the largest proportion of variation was explained by shared components. My work illustrates the important role of ecological differentiation and adaptation in structuring genetic variation, and it highlights the need for approaches incorporating a landscape context for population divergence.
Since its recognition as an endothelium-derived relaxing factor, the control and consequences of nitric oxide (NO) production have been investigated intensely. We know now that NO is not simply a vasodilator or regulator of smooth muscle tone but is a potent anti-platelet agent, neuromodulator and regulator of gene expression. NO is synthesized from the amino acid Larginine by a family of enzymes termed NO synthases (NOS). The ‘endothelial’ (eNOS or NOS III) and ‘neuronal’ (nNOS, NOS I or bNOS) NOS isoforms, which were named after the tissues in which they were first identified, are expressed constitutively and are generally regulated by Ca2+/calmodulin (CaM). Endothelium-derived NO is thought to be responsible for maintaining the vasculature in an anti-atherosclerotic state and a decrease in the bioavailability of NO (a state generally referred to as endothelial dysfunction) results in “proatherosclerotic” alterations in vascular gene expression. Recently it has become clear that the activity of eNOS is largely determined by its association with regulatory proteins as well as by the phosphorylation of the enzyme on serine, threonine and possibly tyrosine residues. Moreover, the enzyme can be “uncoupled” i.e. transformed from a NO generating to a superoxide (O2-)-generating enzyme, which would be expected to attenuate vasodilator responses and enhance vascular inflammation. The aim of this thesis was to study the consequences of phosphorylation on specific serine, threonine and tyrosine residues on the activity and intracellular localisation of eNOS and in particular to determine whether a phospho-switch for eNOS uncoupling exists. eNOS is phosphorylated under basal conditions and its serine phosphorylation can be enhanced following cell stimulation with hemodynamic stimuli such as cyclic stretch and fluid shear stress as well as by hormonal stimuli such as histamine and bradykinin. Our group has previously demonstrated the importance of Ser1177 in the activation of eNOS and here I set out to determine the relative importance of phosphorylation on Ser633 and Ser114. By generating point mutants in which serine was replaced by either alanine (nonphosphorylatable mutants) or aspartate (phosphomimetic mutants) it was observed that the activity of the S633D and S114A eNOS mutants exhibited an 2-fold increase over the activity of the wild-type enzyme or either of the S633/634A or S114D eNOS mutants as determined by monitoring the conversion of L-arginine to L-citrulline. eNOS is basally phosphorylated on Thr495 and stimulation of endothelial cells with Ca2+-elevating agonists generally results in the transient dephosphorylation of this residue. The latter is essential to allow the binding of calmodulin to the enzyme and is the actually initiating step in the generation of NO. Correspondingly, the T495A eNOS mutant can be activated at lower Ca2+ and calmodulin concentrations than the T495D mutant. However, some eNOS mutants (T494A/S1177D and T495A) showed an enhanced ability to generate O2- in a NOS inhibitor-sensitive manner suggesting that the phosphorylation of the enzyme may also play a role in the uncoupling process. To determine the physiological relevance of eNOS dephosphorylation on Thr495 we assessed the consequences of treating cells with oxidised low-density lipoprotein (ox-LDL) on eNOS phosphorylation as well as on the eNOS-dependent generation of NO and O2-. Oxidised LDL concentration- and time-dependently decreased phosphorylation of eNOS on Thr495 and led to a concomitant decrease in cellular levels of cyclic GMP and an enhanced production of O2 - compared to cells treated with native LDL. Alterations in the activity of protein kinase C (PKC) were related to the change in eNOS Thr495 phosphorylation. There was not only the basal activity of PKCα inhibited by ox-LDL but the PKC activator phorbol-12-myristate-13-acetate also failed to elicit the phosphorylation of Thr495 in ox-LDL-treated endothelial cells. The dephosphorylation of eNOS on Thr495 in response to the addition of ox-LDL was not associated with an increase in the binding of calmodulin to eNOS, an association usually necessary for the activation of eNOS. Moreover, following treatment with ox-LDL for 24 hours eNOS was no longer detected at the plasma membrane but was redistributed to the cytosol indicating that ox-LDL may disrupt the eNOS signalling complex or signalosome. To date the role played by the tyrosine phosphorylation of eNOS in the regulation of its activity or intracellular association is controversial. However, during the preparation of this thesis we have been able to demonstrate a link between the tyrosine phosphorylation of eNO and the activation of the tyrosine kinases Src and PYK2. The application of fluid shear stress to endothelial cells resulted in the activation of Src and PYK2 as well as in the association of PYK2 with eNOS. Co-expression of eNOS and PYK2 led to the putative identification of Tyr657 as a potential modulatory site. Mutating eNOS at Tyr657 to Asp or Glu resulted in the localisation of the mutant eNOS predominantly in the cytoskeleton and also in a complete inactivation of the enzyme. The Y657F mutants, on the other hand, did not demonstrate any marked alteration in the activity when compared with the wild-type eNOS. However, the In conclusion, the results describe in this thesis indicate that eNOS is regulated by phosphorylation at multiple sites. Depending on the phosphorylation site involved phosphorylation can inhibit or activate NO production or even uncouple the enzyme so that it generates O2-. While the phosphor-status of eNOS on Ser114 and Ser633 influenced NO release they did not contribute to O2 - production and the dephosphorylation of Thr495 seems sufficient to uncouple eNOS. Cell treatment with ox-LDL, which is known to increase eNOS-derived O2- output was correlated with a dephosphorylation of Thr495 as well as a decrease in the activity of the kinase that phosphorylates this site i.e., PKCα. The phosphorylation status of all the eNOS serine and threonine residues studied however did not influence the ability of the enzyme to dimerise, indicating that contrary to previously published reports the eNOS dimer is highly stable in endothelial cells. The tyrosine phosphorylation of eNOS was not initially expected to play a determinant role in the regulation but rather to facilitate the docking of associated regulatory proteins. However, Tyr657 seems to play a critical role in the generation of NO as its mutation resulted in the generation of a completely inactive enzyme as well as in an apparent intracellular mislocalisation of the protein. The physiological relevance of these findings remain to be further elucidated.
Soluble guanylyl cyclase (sGC) is a cytosolic enzyme producing the intracellular messenger cyclic guanosine monophosphate (cGMP) on activation with nitric oxide (NO) which leads to the activation of GMP dependent protein kinases and to vasodilation. NO signaling may be affected by altered expression of sGC subunits, as has been shown in different pathological and physiological conditions and developmental stages. The molecular mechanisms underlying altered sGC expression in these and other conditions have not yet been revealed. Gene expression can also be regulated at the level of mRNA through alterations in translational efficiency and in mRNA stability. HuR (Human R) is a ubiquitously expressed member of the embryonic lethal abnormal vision (ELAV) family of RNA-binding proteins. Among other RNAs, there has been recent evidence that the expression of sGC is subject to post-transcriptional regulation by HuR. It has been shown that chronic hypertension induces changes in HuR expression and activity, which account for decreased sGC expression and activity in the aorta of hypertensive rats. This thesis should study was performed in an effort to provide some insight to the transcriptional and post-transcriptional regulation of sGC expression in a mammal, the rat. We investigated rat sGC alpha-1 transcriptional regulation in rat lung fibroblast (RLF-6) cells. The 3000bp 5' upstream region of the alpha-1 sGC gene was isolated and analyzed for promoter activity by using luciferase reporter constructs- Alpha3000 (with -2794 bp), Alpha1100 (-1092 bp), Alpha350 (-346 bp) and Alpha200 (-200 bp). The promoter activity was the highest in the 200bp construct (about 6-fold higher than Alpha3000) suggesting that this fragment contains all the crucial elements necessary to support basal transcription of the alpha-1 sGC gene. Analysis of the 200 bp of the 5’ UTR of the alpha-1 gene was performed using the MATINSPECTOR V2.2 software for putative transcription factors. The constructs containing the deleted sites for NFY and Sp1 showed a significant decrease in constitutive promoter activity by almost 80% and 60% respectively, implying that these transcription factors are crucial elements in the basal expression of the of sGC alpha-1 subunit. Treatment of RLF-6 cells with genistein 50 microM and mithramycinA 100 nM, known to inhibit the NFY and Sp1 binding to DNA respectively, reflected the same effects. Furthermore the cGMP content of the cells was significantly reduced by both inhibitors, almost completely by genistein, and by about 40 % by mithramycinA. Electrophoretic mobility-shift assay (EMSA) clearly showed the formation of multiple complexes with the biotinylated ODN (decoy oligodeoxynucleotide) probes for NFY and Sp1 when incubated with RLF-6 nuclear extract. A “supershift” observed in the presence of antibodies to the individual transcription factors confirmed that these factors were present in the shifted band, indeed. NFY and Sp1 are instrumental in several physiological and pathophysiological effects mediated by several growth factors in smooth muscle cells. Thus the regulation of the promoter, in response to serum, was also analysed. 10% foetal calf serum led to decreased alpha-1 sGC level as shown by western blots performed with rat aorta. Decreased sGC alpha-1 mRNA expression was observed in RLF-6 cells and cultured rat aortic smooth muscle cells incubated with FCS for 24 hours. This decrease was reflected in the promoter activity in RLF-6 cells using both Alpha3000 and Alpha200 constructs confirming that the regulation took place at promoter level. EMSA performed with nuclear extracts from FCS treated RLF-6 cells led to diminished binding to NFY, but to an enhanced binding to Sp1 site. We concluded that the factors Sp1 and NFY (the sites overlapping) compete for binding, and in the presence of FCS, it is Sp1 that binds stronger, and hence results in diminishing promoter activity. In order to delineate the post-transcriptional regulation of sGC alpha-1 subunit, studies were performed to demonstrate the regulation of expression of the mRNA stabilizing protein HuR. It has been observed that exposure of isolated rat aortic segments to the activator of adenylyl cyclase, forskolin, strongly reduced sGC alpha-1/beta-1 and HuR protein and mRNA expression in a time-dependent and actinomycin D-sensitive fashion. Transcription factor decoy approach proved that the cAMP-induced down-regulation of HuR is mediated by the activation of AP-1. It has been established that HuR stabilises the sGC alpha-1 and beta-1 mRNA. However the pathway underlying this regulation remains unknown. In order to identify the mechanism of this regulation, we looked for HuR interacting proteins employing the yeast two hybrid assay. The enzyme of the polyamine catabolic pathway spermidine/spermine N1-acetyltransferase (SSAT) was found to interact with the hinge region of HuR. This interaction was confirmed by performing immunoprecipitation and GST-pulldown experiments. A direct effect of these proteins on each other’s biological activity was not visible as tested through the SSAT activity assay and HuR gel shift. It might be possible that SSAT-mediated modulation of local polyamine concentrations enhances/reduces HuR activity and sGC expression to affect cell proliferation. In summary, this study represents an analysis of the rat sGC alpha-1 promoter regulation in rat fibroblast cells and identifies NFY and Sp1 as important factors in sGC alpha-1 expression. It also gives first evidence of sGC regulation at the transcriptional level in response to an external stimulus, and proposes the possible mechanism. It also identifies SSAT as a HuR interacting protein. These might have implications in the various pathophysiological conditions where sGC plays an important role.
Lesion of the rat entorhinal cortex denervates the outer molecular layer of the fascia dentata followed by layer-specific axonal sprouting of uninjured fibers in the denervated zone. One of the candidate molecules regulating the laminar-specific sprouting response in the outer molecular layer is the transmembrane chondroitin sulfate proteoglycan NG2. NG2 is found in glial scars and has been suggested to impede axonal regeneration following injury of the spinal cord. The present study adressed the question whether NG2 could also regulate axonal growth in denervated areas of the brain. Therefore, (1) changes in NG2 mRNA and NG2 protein levels, (2) the cellular and the extracellular localisation of the molecule, (3) the identity of NG2 expressing cells, and (4) the generation of NG2-positive cells were studied in the rat fascia dentata before and following entorhinal deafferentation. Laser microdissection was employed to selectively harvest the denervated molecular layer and combined with quantitative reverse transcription-PCR to measure changes in NG2 mRNA amount (6h, 12h, 2d, 4d, 7d post lesion). The study revealed increases of NG2 mRNA at day 2 (2.5-fold) and day 4 (2-fold) post lesion. Immunocytochemistry was used to detect changes in NG2 protein distribution (1d, 4d, 7d, 10d, 14d, 30d, 6 months post lesion). NG2 staining was increased in the denervated outer molecular layer at 1 day post lesion, reached a maximum at 10 days post lesion, and returned to control levels within 6 month. Interestingly, the accumulation of NG2 protein was strongly restricted to the denervated outer molecular layer forming a border to the unaffected inner molecular layer. Using electron microscopy, NG2-immunoprecipitate was localized not only on glial surfaces and in the extracellular matrix but also in the vicinity of neuronal profiles indicating that NG2 is secreted following denervation. Double-labelings of NG2-immunopositive cells with markers for astrocytes, microglia/macrophages, and oligodendrocytes suggested that NG2-cells are a distinct glial subpopulation before and after entorhinal deafferentation. Bromodeoxyuridine-labeling revealed that some of the NG2-positive cells are postlesional generated. Taken together, the data revealed a layer-specific upregulation of NG2 in the denervated outer molecular layer of the fascia dentata that coincides with the sprouting response of uninjured fibers. This suggests that NG2 could regulate lesion-induced axonal growth in denervated areas of the brain.
Life of Varroa destructor, Anderson and Trueman, an ectoparasitic mite of honeybees, is divided into a reproductive phase in the bee brood and a phoretic phase during which the mite is attached to the adult bee. Phoretic mites leave the colony with workers involved in foraging tasks. Little information is available on the mortality of mites outside the colony. Mites may or not return to the colony as a result of death of the infested foragers, host change by drifting of foragers, or removal of mites outside the colony. That mites do not return to the colony was indicated by substantially higher infestation of outflying workers compared to the infestation of returning workers (Kutschker, 1999). The main objective of the study was to provide information whether V. destructor influences flight behaviour of foragers and consequently returning frequency of foragers to the colony. I first repeated the experiment of Kutschker (1999) examining the infestation of outflying and returning workers. Further, I registered flight duration of foragers using a video method. In this experiment I compared also the infestation and flight duration of bees of different genetic origin, Carnica from Oberursel and bees from Primorsky region. I investigated returning time of workers, returning frequency until evening, drifting to other colonies and orientation toward the nest entrance in the experiments in which workers were released in close vicinity of the colony. At last, I measured the loss of foragers in relation to colony infestation using a Bee Scan. Results from this study, listed below, showed considerable influence of V. destructor on flight behavior of foragers translating into loss of mites. Loss of mites with foragers add substantial component to mite mortality and was underestimated in previous studies. Such loss might be viewed as a mechanism of resistance against V. destructor. a) The mean infestation of outflying workers (0.019±0.018) was twice as the mean infestation of returning workers (0.009±0.018). The difference in the infestation between outflying and returning workers was more marked in highly infested colonies. b) Investigation of individually tagged workers by use of a two camera video recording device showed significantly higher infestation of outflying workers compared to returning workers. Mites were lost by the non returning of infested foragers (22%) and by loss of mites from foragers that returned to the colony without the mite (20%). A small portion of mites (1.8%) was gained. Loss of mites significantly exceeded mite gain. c) The flight duration of infested workers determined by using the same two camera video system was significantly higher in infested compared to uninfested workers of the same age that flew closest at time. The median flight duration of infested workers was 1.7 higher (214s) than the median duration of unifested workers (128s). d) Infested workers took 2.3 times longer to return to the colony than uninfested workers of the same age when released from the same locations, closest at time. The returning time increased with the distance of release. In a group of bees released simultaneously the infestation was higher in bees returning later and in those that did not return in the observation period of 15 min. e) Released workers did not return to the colony 1.5 more frequently than uninfested workers in evening. The difference in returning was significant for locations of 20 and 50m from the colony. No difference in returning between infested and uninfested workers were observed for the most distant location of 400m. f) No significant difference was found in returning time and/or in the returning frequency until evening between workers artificially infested overnight and naturally infested workers. Artificially infested workers returned later and less frequently than a control group indicating rapid influence of V. destructor on flight behavior of foragers. g) The orientation ability of infested workers toward the nest entrance was impaired. Infested workers compared to uninfested workers twice as often approached a dummy entrance before finding the nest entrance. h) No significant differences were found in drifting between infested and uninfested workers. Drifting in the neighboring nucleus colony occurred in about 1% occasions after release of marked workers. Similarly, more infested, but not significantly more infested workers (2.6%) entered a different colored hive than the same colored hive (1.9%). However, the number of drifting bees were to low to make results conclusive. i) The comparison between Carnica and Primorsky workers revealed higher infestation in Carnica compared to Primorsky. Further, Primorsky workers lost more mites during foraging due to mite loss from foragers and non returning of infested workers. No significant differences in flight duration were observed between the two bee stocks. j) Loss of foragers, as determined by the Bee Scan counts of outflying and returning foragers, and the infestation of outflying bees increased significantly over a period of 70 days. A colony with 7.7. higher infestation of outflying foragers lost 2.2. time more bees per flight per day compared to a low infested colony. k) The estimates of mite loss with foragers from mite population per day up to 3.1% exceeds approximately mite mortality of 1% within the colony as represented by counting dead mites on bottom board inserts.
In an attempt to search for potential candidate molecules involved in the pathogenesis of endometriosis, a novel 2910 bp cDNA encoding a putative 411 amino acid protein, shrew-1 was discovered. By computational analysis it was predicted to be an integral membrane protein with an outside-in transmembrane domain but no homology with any known protein or domain could be identified. Antibodies raised against the putative open-reading frame peptide of shrew-1 labelled a protein of ca. 48 kDa in extracts of shrew-1 mRNA positive tissues and also detected ectopically expressed shrew-1. In the course of my PhD work, I confirmed the prediction that shrew-1 is indeed a transmembrane protein, by expressing epitope-tagged shrew-1 in epithelial cells and analysing the transfected cells by surface biotinylation and immunoblots. Additionally, I could show that shrew-1 is able to target to E-cadherin-mediated adherens junctions and interacts with the E-cadherin-catenin complex in polarised MCF7 and MDCK cells, but not with the N-cadherin-catenin complex in non-polarised epithelial cells. A direct interaction of shrew-1 with beta-catenin could be shown in an in vitro pull-down assay. From this data, it could be assumed that shrew-1 might play a role in the function and/or regulation of the dynamics of E-cadherin-mediated junctional complexes. In the next part of my thesis, I showed that stable overexpression of shrew-1 in normal MDCK cells. causes changes in morphology of the cells and turns them invasive. Furthermore, transcription by ²-catenin was activated in these MDCK cells stably overexpressing shrew-1. It was probably the imbalance of shrew-1 protein at the adherens junctions that led to the misregulation of adherens junctions associated proteins, i.e. E-cadherin and beta-catenin. Caveolin-1 is another integral membrane protein that forms complexes with Ecadherin- beta-catenin complexes and also plays a role in the endocytosis of E-cadherin during junctional disruption. By immunofluorescence and biochemical studies, caveolin-1 was identified as another interacting partner of shrew-1. However, the functional relevance of this interaction is still not clear. In conclusion, it can be said that shrew-1 interacts with the key players of invasion and metastasis, E-cadherin and caveolin-1, suggesting its possible role in these processes and making it an interesting candidate to unravel other unknown mechanisms involved in the complex process of invasion.
Zahnwale sind die einzige Säugetiergruppe, die umfassend an ein Leben im Wasser angepasst ist und dabei ein aktives Sonarsystem zur Orientierung nutzt. Wahrscheinlich produzieren alle Zahnwalarten sonische oder ultrasonische Klicklaute, deren Echos die Tiere zu einem drei-dimensionalen "akustischen Bild" zusammensetzen. Im Gegensatz zu den meisten anderen Säugetieren produzieren Zahnwale diese Laute im Nasen-Komplex durch einen pneumatisch betriebenen Mechanismus. Jedoch spielt auch der Kehlkopf dabei eine wichtige Rolle, indem er den nötigen Luftdruck in der Nase erzeugt. Die Ergebnisse werden in Bezug auf die physikalischen Voraussetzungen eines Bio-Sonars in einer aquatischen Umwelt interpretiert. Um die morphologischen Eigenschaften (Struktur, Form, Topographie) der Organe im Kopf verschiedener Zahnwalarten vollständig zu erfassen, wurden diese mittels Computertomographie und Magnetresonanztomographie gescannt. Daraufhin wurden die Köpfe makroskopisch präpariert und histologische Schnitte von Gewebeproben angefertigt. Schließlich wurden die Ergebnisse durch digitale dreidimensionale Rekonstruktionen vervollständigt. Diese Studie basiert zum größten Teil auf der Untersuchung von Schweinswalen (Phocoena phocoena) und Pottwalen (Physeter macrocephalus). Zum Vergleich wurden fetale und postnatale Individuen anderer Zahnwalarten herangezogen wie Delphinartige (Delphinus delphis, Stenella attenuata, Tursiops truncatus), Flussdelphinartige (Pontoporia blainvillei, Inia geoffrensis) und der Zwergpottwal (Kogia breviceps). Im Allgemeinen konnte durch die morphologischen Daten dieser Studie die einheitliche "phonic lips-Hypothese der Schallproduktion bei Zahnwalen, wie sie von Cranford, Amundin und Norris [J. Morphol. 228 (1996): 223-285] aufgestellt wurde, bestätigt werden. Diese Hypothese beschreibt eine ventilartige Struktur in der Nasenpassage, den sogenannten "monkey lips/dorsal bursae complex" (MLDB) als Schallgenerator. Der pneumatische Mechanismus lässt die beiden Hälften des MLDB aufeinanderschlagen und erzeugt damit die initiale Schallschwingung im Gewebe ("phonic lips"). Diese Vibration wird über die Melone, einen großen Fettkörper in der vorderen Nasenregion der Zahnwale, fokussiert und in das umgebende Wasser übertragen. Die akzessorischen Nasensäcke und spezielle Schädel- und Bindegewebestrukturen können zu der Fokussierung beitragen. Obwohl die Echolotsignale der Schweinswale sehr spezialisiert zu sein scheinen, weisen die Übereinstimmungen in der Topographie und in der Form der Nasenstrukturen im Vergleich zu Delphinen und Flussdelphinartigen (Pontoporia und Inia) auf eine ganz ähnliche Funktion der Nase bezüglich der Produktion und Emission von Echolotschall hin. Allerdings gibt es einige anatomische Besonderheiten im Nasenkomplex des Schweinswals, welche die besondere Pulsstruktur der Sonarsignale erklären könnte. Diese werden in der Dissertation diskutiert. Bei einem Vergleich der Nasenmorphologie der Pottwale einerseits und der nicht-pottwalartigen Zahnwale andererseits fällt vor allem der Grad der Asymmetrie ins Auge. Im Gegensatz zu dem oben für Delphine und Schweinswale beschrieben Mechanismus betreiben Pottwale die Schallproduktion an den "monkey lips" mit Luft, die im rechten Nasengang unter Druck gesetzt wird (und nicht im nasopharyngealen Raum). Zudem könnte durch Änderung des Luftvolumens im rechten Nasengang die Schalltransmission zwischen den Fettkörpern, und somit die Schallemission, kontrolliert werden. In diesem theoretischen Szenario fungiert der breite rechte Nasengang als eine Art "akustische Schranke", welche zwischen zwei verschiedenen Modi der Klickproduktion wechselt: Der erste Modus mit luftgefülltem Nasengang führt zur Produktion der Kommunikationsklicks ("coda clicks") und der zweite Modus zur Aussendung von Echolotklicks, wenn der Nasengang kollabiert ist. Somit scheinen die zentrale Position und die nahezu horizontale Orientierung des rechten Nasengangs im Kopf der Pottwale als Schnittstelle (Schranke) zwischen den beiden großen Fettkörpern mit dem Mechanismus der Schallproduktion bei veränderten Luftvolumina korreliert zu sein. Die hier beschriebenen und andere Ergebnisse dieser Dissertation deuten darauf hin, dass die Gestalt und das Ausmaß der Nasenasymmetrie nicht mit der systematischen Zugehörigkeit der jeweiligen Art korrelieren, sondern durch den jeweiligen Typus des Sonarsystems als Ausdruck einer bestimmten ökologischen Anpassung bedingt sind. Bei Zahnwalen ist der Kehlkopf charakterisiert durch eine rostrale Verlängerung des Kehldeckels und der beiden Stellknorpel, die ein gänseschnabelartiges Rohr bilden, das von einem starken Sphinktermuskel umrundet und dabei in Position gehalten wird. Auf diese Weise ist das Atemrohr vollständig vom Digestionstrakt getrennt. Aus anatomischer Sicht ist es wahrscheinlich, dass die Schallerzeugung bei Zahnwalen durch eine Kolbenbewegung des Kehlkopfes in Richtung der Choanen zustande kommt, wodurch der Luftdruck im Nasenbereich erzeugt wird. Die Kontraktion des Sphinktermuskels als einem muskulösen Schlauch erzeugt wahrscheinlich die größte Kraft für diese Kolbenbewegung. Jedoch dürften die Muskelgruppen, die den Kehlkopf und das Zungenbein am Unterkiefer und an der Schädelbasis aufhängen, signifikant zur Druckerhöhung beitragen.
In contrast to the class A heat stress transcription factors (Hsfs) of plants, a considerable number of Hsfs assigned to classes B and C have no evident function as transcription activators on their own. In the course of my PhD work I showed that tomato HsfB1, a heat stress induced member of class B Hsf family, is a novel type of transcriptional coactivator in plants. Together with class A Hsfs, e.g. tomato HsfA1, it plays an important role in efficient transcrition initiation during heat stress by forming a type of enhanceosome on fragments of Hsp promoter. Characterization of promoter architecture of hsp promoters led to the identification of novel, complex heat stress element (HSE) clusters, which are required for optimal synergistic interactions of HsfA1 and HsfB1. In addition, HsfB1 showed synergistic activation of the expression of a subset of viral and house keeping promoters. CaMV35S promoter, the most widely expressed constitutive promoter turned out to be the the most interesting candidate to study this effect in detail. Because, for most house-keeping promoters tested during this study, the activators responsible for constitutive expression are not known, but in case of CaMV35S promoter they are quite well known (the bZip proteins, TGA1/2). These proteins belong to the acidic activators, similar to class A Hsfs. Actually, on heat stress inducible promoters HsfA1 or other class A Hsfs are the synergistic partners of HsfB1, whereas on house-keeping or viral promoters, HsfB1 shows synergistic transcriptional activation in cooperation with the promoter specific acidic activators, e.g. with TGA proteins on 35S promoter. In agreement with this the binding sites for HsfB1 were identified in both house-keeping and 35S promoter. It has been suggested during this study that HsfB1 acts in the maintenance of transcription of a sub-set of house-keeping and viral genes during heat stress. The coactivator function of HsfB1 depends on a single lysine residue in the GRGK motif in its CTD. Since, this motif is highly conserved among histones as the acetylation motif, especially in histones H2A and H4,. It was suggested that the GRGK motif acts as a recruitment motif, and together with the other acidic activator is responsible for corecruitment of a histone acetyl transferase (HAT). So, the effect of mammalian CBP (a well known HAT) and its plant orthologs (HAC1) was tested on the stimulation of synergistic reporter gene activation obtained with HsfA1 and HsfB1. Both in plant and mammalian cells, CBP/HAC1 further stimulated the HsfA1/B1 synergistic effect. Corecruitment of HAC1 was proven by in vitro pull down assays, where the NTD of HAC1 interacted specifically both with HsfA1 and HsfB1. Formation of a ternary complex between HsfA1, HsfB1 and CBP/HAC1 was shown via coimmunoprecipitation and electrophoretic mobility shift assays (EMSA). In conclusion, the work presented in my thesis presents a new model for transcriptional regulation during an ongoing heat stress.
For palaeotropical regions, only a few anecdotal reports had been published on the existence of 'ant-gardens' before this study started. As opposed to this, 'ant-house epiphytes' (i.e. domatiabearing epiphytes) were reported to be highly abundant in Southeast Asia and were presumed to be a second type of ant-epiphyte interaction. In the much better studied neotropical regions the situation seemed to be the reverse: Many reports on AGs in contrast to very few reports on anthouse epiphytes. In this study, I have presented extensive data which may help towards a better understanding of the 'Southeast Asian part' of this 'ant-epiphyte puzzle'. In Peninsular Malaysia, Borneo, Java, and Southern Thailand, a great variety of formerly unknown AG systems were discovered. 18 ant species (from 5 genera, 4 subfamilies) were identified as true AG ants, i.e. these ants actively retrieved seeds of certain epiphyte species into their carton nests. Another 49 ant species inhabited AGs as secondary, opportunistic settlers. On the epiphyte side, 84 plant species were found growing on AGs, 51 (19 genera, 12 families) of which were probably true AG epiphytes, i.e. ants retrieved the seeds to their arboreal carton nests, on which the epiphytes were then cultivated. Most of the epiphyte flora of lowland forests in Peninsular Malaysia (except for ferns, orchids and facultative epiphytes) seemed to be totally dependent on ants for their establishment in the canopy. Together with the high number of opportunistic AG inhabitants (ants, epiphytes, and many arthropod guests), these facts suggest that AGs function as pioneers in the canopy of Southeast Asian rain forests. Moreover, AG-associations might even have accounted for the unusual species richness in the epiphyte genera Dischidia, Hoya (Asclepiadaceae), Myrmecodia, and Hydnophytum (Rubiaceae). The definition of the term ant-garden only describes the basic interactions. In the ant-garden associations investigated in this study, interactions going beyond these basic ones varied depending on ant and epiphyte species. Ant-gardens initiated by Diacamma spKfmA111 were regarded as the 'most primitive' type, because this ponerine was totally dependent on preformed cavities for nest establishment, did not tend any trophobionts, and was the least selective in its seed-retrieving behavior. On the other end of the scale, Crematogaster spKfmA18 and Camponotus spKfmA9 were rated as 'most advanced' because both lived in free (i.e. cavityindependent) AGs, tended trophobionts underneath their nests, were associated with a couple of other organisms, and were highly selective in their seed-retrieving behavior. Moreover, Camponotus spKfmA9 occurred preferentially with one single epiphyte species, Hoya elliptica (Asclepiadaceae), and Crematogaster spKfmA18 was specialized on some species of giant bamboo as phorophyte. Philidris spKfmA160, which occupied a medium position in relation to the other AGs was particularly interesting for several reasons. This ant species was mainly associated with ant- house epiphytes and occurred in the heath forests of Borneo. However, the major part of the colonies, including the queen, was located underneath carton structures near the surface of the host tree and not inside the domatia of the associated plants. Moreover, very young Philidris spKfmA160 colonies had only small seedlings growing on their carton nests. The ant workers actively retrieved the seeds of their epiphyte partners into the nests. These results indicate that associations with ant-house epiphytes must be regarded as a special case of ant-gardens. I therefore suggest using the term 'ant-house' only to describe the epiphytes, but not to describe the association, and to include this type of association in the group of AGs. Strict species-specificity never occurred, but some epiphytes showed great preference for growing on the nests of certain ant species, while others occurred over a wider range. Vice versa, most ant species had several epiphytes growing on their nests, while others were mostly found with one or very few epiphyte species. These patterns were shown to be the effect of different factors, including common microclimatic preferences of ants and epiphytes, interspecific competition of epiphytes, and selective seed retrieval of AG ants. The main behavioral trait responsible for the establishment of AGs was the selectivity shown by the ants in the epiphyte seeds they carried. However, details of the mechanisms, i.e. what characteristics of the seeds are important and what motivates the ants to retrieve them, varied widely. In many cases, seed compounds located on the surface triggered carrying behavior. Detailed experimental investigations combined with literature data from the two other known 'myrmecochory systems', terricolous myrmecochores and neotropical AGs, suggested that myrmecochory is frequently triggered by a two-stage system. One relatively unspecific compound (or a combination of such compounds) constitutes the basic attractiveness for a number of ant species. Other seed characteristics (elaiosomes, mechanical properties, other surface-compounds) modulate this basic signal, accounting for species-specific preferences of ants towards certain plant species. A comparison of AGs in Southeast Asia and the neotropics shows that the numbers of AG ant and epiphyte species in each case are almost equal. Southeast Asian AG epiphytes might even turn out to outnumber the neotropical ones. Thus, not only was it possible to break down the distinction between ant-house and AG associations, but also to show that AGs in Southeast Asia are present in such high diversity and abundance as to diminish the apparent contrast between the two biogeographical regions yet further. These data help to solve at least the Southeast Asian part of the 'ant-epiphyte puzzle'.
The mechanism of peptide transport has been studied on two different ABC transporters of S. cerevisiae. Thereby, the aim of this PhD thesis was to characterise the transporter function on molecular level and shed light on the physiological role of these transporters. The ABC gene YLL048 encodes a novel intracellular transporter translocating peptides from the cytosol to the lumen of the ER. Deletion of the gene resulted in loss of peptide transport activity. The transport activity was fully restored after transformation of the deletion mutant by plasmid-encoded YLL048. Studying the substrate specificity using randomized peptide libraries it was demonstrated that peptides of the size from 6 to 56 amino acids are recognized. So far, no upper limit of the substrate size was obtained. Introduction of D-amino acids in various positions of a nonamer peptide did not impair transport activity. The physiological function of YLL048p is not well understood. The gene product is not essential for cell viability as the deletion mutant did not show any growth phenotype. To examine the possibility that YLL048 encoded protein is part of a quality control of yeast cells involved in the unfolded protein response (UPR), upregulation of YLL048 transcription by heat shock and stress conditions were investigated. We could not observe an influence of stress factors on YLL048 mRNA level. Upregulation of gene expression by the transcription factors Pdr1p and Pdr3p was excluded. The ABC transporter Mdl1p has been identified as peptide transporter of the inner mitochondrial membrane. This protein is required for the export of peptides with the size of 6 to 21 amino acids from the matrix into the intermembrane space. These peptides are generated by m-AAA proteases degrading non-assembled or missfolded membrane proteins. In order to understand the transport mechanism in detail, Mdl1p was expressed in S. cerevisiae and E. coli. Partially enriched protein was reconstituted into liposomes and was active in ATP binding. The association of the NBDs has been described as a central step of the ATPase cycle of ABC transporters, but it is still controversial how both motor domains cooperate and coordinate ATP hydrolysis. To address this question, the Mdl1p-NBD was overexpressed in E. coli and purified to homogeneity. The isolated NBD was active in ATP binding and hydrolysis with a turnover of 0.5 ATP per min and a Km value of 0.2 mM. Isolated NBDs did not show cooperativity in ATPase activity. However, the ATPase activity was observed to be non-linearly dependent on protein concentration suggesting the active form of this enzyme is not a monomer. Very importantly, for the first time an ATP-induced dimer was observed after trapping the NBD by ortho-vanadate or BeFx. The nucleotide composition of the trapped intermediate state was determined and two ADP molecules were simultaneously bound per dimer. An ATP-induced dimer of the ATPase inactive mutant (E559Q) was observed already in the absence of ATPase inhibitor. The E599Q dimer contained two ATP molecules in the absence of Mg2+ at 4°C. Prolonged incubation at 30°C in the presence of Mg2+ induced a stable dimer in which one ATP and ADP molecule were trapped at the same time. Based on these experiments, a new cycle for ATPase activity of ABC transporters was proposed. Binding of ATP to two NBD monomers induces dimerization. Both nucleotides are hydrolysed sequentially. During the hydrolysis cycle the nucleotides cannot be released from the dimer. After hydrolysis of two ATP molecules the domains dissociate and start a new cycle.
One of the most species-rich ant-plant mutualisms worldwide is the palaeotropical Crematogaster-Macaranga system. The pioneer-tree genus Macaranga (Euphorbiaceae) is mainly inhabited by at least nine specific species of Crematogaster (Myrmicinae), of which eight belong to the subgenus Decacrema, as well as several species of Camponotus (Formicinae). Ant species are not randomly distributed among the Macaranga host plants but distinct patterns of associations have been found (Fiala et al., 1999 and references cited therein). The specificity of the associations is maintained in spite of common sympatric distribution of several host-plant species. Associations are, however, usually not species-specific and especially the Decacrema ants, that are the focus of this study, usually colonize several host plant species each. In this study I used a combined approach of ecological data as well as phylogenetic data based on mitochondrial DNA sequences in order to elucidate the factors determining the patterns found in the associations and the evolution of this mutualistic system between the specific Decacrema ant partners and their Macaranga host plants. Life history traits of seven different morphospecies found on the most common Macaranga host plants were compared and colony development was followed from colony founding on saplings to adult trees. Temporal variability of the associations between Decacrema ants and their respective host plants was also examined. Associations between Crematogaster ants of the subgenus Decacrema and their Macaranga host plants were found to be stable over periods of time, long enough to enable reproduction of the ant colony and (in most cases) the host plants, too. Life-expectancy of the ant colony seems to be shorter than that of the host plant in general. All adult trees still provide nesting space as well as food for the ants. Colonies from different morphospecies differed in longevity, the onset of alate production, queen number and mode of colony founding. The examined Decacrema species could be placed into two groups according to their life-history traits as well as on morphological grounds: The decamera-group and the captiosa-group, each named after one species that could be synonymized with one morphospecies included in the group. Members of the captiosa-group have larger colonies, presumably with a longer life-span, and a later onset of reproduction compared to the decamera-group. Additionally, queens of the captiosa-group found colonies on saplings as well as in the crown region of bigger trees, whereas queens of the decamera-group found colonies on saplings and small treelets only. Queens belonging to the captiosa-group are brown with relatively large eyes (= 1/3 of the head length), whereas queens from the decamera-group are smaller in size, are dark brown to black in colour and have smaller eyes (< 1/3 of the head length). On some of the host plants examined in this study lifespan of the host plant and their specific ant partners seemed to be well matched whereas on others an ontogenetic succession of specific Decacrema partner ants was found, when host plants were abandoned due to the death of comparatively short-lived ant colonies, usually from species belonging to the decamera-group. Ant-partners of saplings or young plants often differed from specific partner ants found on bigger trees. Only species belonging to the captiosa-group were found to re-colonize the crown region of adult trees, thus facilitating a change of ant species, when longlived host plant species were colonized by relatively short-lived species from the decamera-group first. When long -lived host plants were colonized by long-lived species from the captiosa-group associations were stabler: I did not find any temporal variation in ant-inhabitants then. Life-span of the ant colony as well colony founding behaviour of the different partner ant species therefore play an important role for these ontogenetic changes and the specificity of the associations over time. For the host plant the ontogenetic changes have a strong impact as uninhabited host plants that are not patrolled by workers of specific ant partners suffer higher herbivore damage. Uninhabited host plants may also be colonized by unspecific arboreal ants that only make use of the nesting space and/ or food offered by the plant but do not confer protection against herbivores. Stable associations with a specific ant partner are therefore most beneficial for the host plants. Usually ant colonies are monogynous, but changes in the colony structure were found locally in two Decacrema species. I found colonies that turned secondarily polygynous, possibly after the death of the original founding queen. Secondary polygyny therefore can prolong the life-span of the antcolony on its host plant, leading to a parallel life-history and stable association as it was the case in Macaranga bancana-Crematogaster captiosa. However, in the other association (Macaranga hypoleuca-Crematogaster cf. decamera) life-expectancy of the ant-colony is still much shorter than that of its host plant species, leading to a change in the specific ant partner at a later stage. Pleometrotic foundress associations that directly led to polygynous colonies in one species were also found locally, a phenomenon hardly ever reported from ants in general. Foundress associations were found to be more successful in establishing colonies than single queens. I found indications that this change in colony founding behaviour might be due to interspecific competition for the same host plant species with another Decacrema species specific to Macaranga. For the phylogenetic analysis partial mitochondrial cytochrome oxidase I and II were sequenced and Neighbor-Joining, Maximum Parsimony, Maximum Likelihood as well as Bayesian analyses were performed. The four different analyses yielded phenetic as well as phylogenetic trees that all had a similar topology. Ants of the subgenus Decacrema formed a monophyletic clade, indicating a single colonization event at the beginning of the Macaranga-Decacrema symbiotic system. In the phylogenetic analysis the decamera-group as well as the captiosa-group were confirmed and clearly separated from each other. However, two species that would have been placed into the decamera-group, due to morphological as well as life-history traits, formed a third separate clade within the Decacrema. These two species (msp. 7- group) as well as the decamera-group came out as the basal groups in the phylogenetic analysis. Thus, life -history traits of these two groups (relatively small colonies, early onset of alate production, colony founding in ground region only) would be the ancestral state for Macarangaassociated ants of the subgenus Decacrema. Changes in colony structure, like secondary polygyny, were found in the captiosa- as well as the decamera-group and are therefore independent of the affiliation within the phylogeny. I did not find evidence for strict cocladogenesis between the subgenus Decacrema and their Macaranga host-plants, although ecological interactions between the two partner groups are close and associations can be rather specific. The phylogenies presented here, along with the known association patterns indicate that host-shifting of the ants is common in some of the species, opening the possibility of sympatric speciation as a result of increased host usage. Additionally, the considerable geographic substructuring found in the phylogenetic trees suggests that allopatric speciation has played a major role in diversification of the Decacrema ants.