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Protein translocation across the chloroplast membrane is mediated by molecular machinery composed of protein complexes termed the TOC/TIC (the outer/inner envelope chloroplasts translocases). This translocation process is regulated by metabolic energy in form of GTP and ATP and is influenced by the lipid composition of the membrane. The ability to study the function of a single complex “TOC” in vitro using purified protein or purified chloroplast outer envelope vesicles has been instrumental for our understanding of the mechanism underlying this process.
Indeed, the TOC complex has been purified by previously established procedures. However its functional and structural analyses are impaired by the limited yield of purified protein. Therefore, protocols for native TOC complex purification are described here. The complex isolation is achieved by direct biochemical treatment of biological membrane hosting this complex or by tandem affinity purification of modified protein complex components from generated transgenic plants.
Furthermore, in this thesis, radioactive based in vitro import assays are described, namely those that allow monitoring translocation activity across the outer envelope of chloroplast. Based on the analysis of knock-out plants and isolated complexes it was previously suggested that lipid dependence of protein translocation might exist. Thus, the question was raised whether the lipid composition of the membrane has a direct influence on the behavior and functionality of the TOC translocon, or whether additional components of the chloroplast membrane account for the observed effect in vivo. To answer this question, a technique for vesicle fusion was developed. The principal aim was to explore the effect of an exchange of the lipid environment surrounding the complex translocon. This method helped to demonstrate that the SQDG and PI act stimulatory on the translocation across the outer envelope of chloroplast, whereas DGDG exhibits an inhibitory effect on TOC complex functionality.
Sponges are one of the major components of benthic communities and are considered to be a
key role organism in marine ecosystems. In addition to their importance in terms of
biodiversity, sponges are becoming increasingly attractive to the industry, as they themselves
or associated symbionts, produce various kinds of secondary metabolites of pharmaceutical
properties. Some of them have already been clinically applied.
The taxonomic characters of Porifera are limited to only a few morphological and
histological characters. In addition, sponges of the same species often show a wide
morphological variability, whereas the latter depends on different ecological parameters such
as water depth and current conditions. Thus, the taxonomic classification of sponges often
becomes a scientific challenge.
The fauna of the Yellow Sea rates among the least studied worldwide. At the same time,
according to the UN Atlas of the Ocean, the Yellow Sea is one of the most intensively
exploited marine areas in the world. This is not least due to the dense human population living
in the entire catchment area of the Yellow Sea region. In order to compile medium- and longterm
conclusions about the anthropogenic impact on biota of the Yellow Sea, the knowledge
of species and their distribution is of crucial importance, as these data form the baseline for all
future conservation efforts.
Until now the sponge fauna of the Chinese Yellow Sea is insufficiently investigated.
Thus, there is only one publication on sponges from this region that has been released
hitherto. This paper is dealing with only a view species. However, there is no reference
concerning the present location of the voucher material, on which this publication is based on.
Consequently, no scientific collection on Porifera from the Chinese part of the Yellow Sea
exists to date.
In order to compile a documentation of the recent sponge community of the Chinese
Yellow Sea, 12 study sites along the coast of the Liaoning Peninsula, China, Northeast
Yellow Sea, were investigated with focus on sponge distribution. The corresponding habitats
were characterized in regard to their topographical features, abiotic parameters, and common
composition of benthic megafaunal and macroalgal assemblages.
Due to the lack of comparable studies, a comprehensive literature research on sponges of the
shallow Northwest Pacific Ocean was required. As a result the first compilation of
publications is presented, dealing with sponges from shallow depths of the northwestern
Pacific Ocean.
Abstract
2
In the course of this study, 31 sponge species in total were recorded, which are scientifically
processed. With the exception of four all specimens were determined to species- level.
Twelve out of the total number of species are new to science and are described and classified
according to the recent taxonomic system of the phylum Porifera.
The results of this study indicate considerable differences in species composition between
investigated sites. It is shown that physical factors (particularly current regime, sedimentation,
seasonally related variations in temperatures), as well the availability of suitable substrates are
directly related to the diversity and abundance of investigated sponge communities. In this
context possible adaptation strategies of the corresponding sponges were discussed in detail.
Two sponge species, Clathria (Clathria) asodes and Antho (Acarnia) lithophoenix, formerly
known exclusively from the northeastern Pacific Ocean, are now recorded from the Northwest
Pacific Ocean for the first time. Furthermore, Penares hongdoensis, Clathria (Clathria)
hongdoensis and Celtodoryx girardae were synonymized with Penares cortius, Clathria
(Clathria) acanthostyli, and Celtodoryx ciocalyptoides respectively. Moreover, the occurrence
of eight sponge species, which were known from previous records from the Yellow Sea, could
be confirmed.
As a result of this study the Asian origin of a sponge species that is invasive to the French and
Dutch coasts of the Northeast Atlantic Ocean since the 1990s could be established. Moreover,
it is demonstrated that Celtodoryx girardae from the northeastern Atlantic is in fact
conspecific with Cornulum ciocalyptoides described by Burton (1935) from the Posiet Bay,
Sea of Japan. Apart from taxonomic remarks, variations between populations from both
oceans are examined and discussed thoroughly in regard to possible ecological implications.
The community of documented sponges shows overlapping with the one from the Sea of
Japan. According to the results it is assumed that the endemic degree of the sponges from the
Chinese Yellow Sea is rather low to moderate.
The material obtained in the course of this study was integrated in the collection of the
Senckenbergischen Naturforschenden Sammlungen. Therefore, it is the first scientific
collection of sponges from the Chinese Yellow Sea that can be consulted as a basis for all
further studies on sponges of this region.
The present study is the only investigation of sponges from Dalian and adjacent waters before
the spill occurred in the Dalian harbour in July 2010. Therefore, it provides an essential
baseline needed to assess the impact of the oil spill on benthic communities.
Strukturelle Organisation und Mobilisierung des Primaten-spezifischen Non-LTR-Retrotransposons SVA
(2011)
SVA-Elemente repraesentieren die juengste Familie der Non-LTR-Retrotransposons,
welche das humane Genom fortwaehrend modifizieren. SVA-Elemente zeichnen sich
durch ihre Organisation aus zusammengesetzten repetitiven Elementen aus. Um
Rueckschluesse auf den Assemblierungsprozess, der zur gegenwaertigen Organisation der
SVA-Elemente fuehrte, und ueber transkriptionelle Regulation dieser Elemente zu ziehen,
wurden Unterschiede in der Struktur der 116 SVA-Elemente, die auf humanem
Chromosom 19 lokalisiert sind, detailliert untersucht.
SVA-Elemente konnten in sieben unterschiedliche Strukturvarianten eingeteilt werden,
einschliesslich neuer Varianten wie SVA2, 3`-verkuerzte Elemente und Elemente mit 5`-
flankierenden Transduktionen. Ich habe auch eine extrem erfolgreiche human-spezifische
5`-Transduktionsgruppe identifiziert, SVA_F1, die trotz ihres jungen evolutionaeren Alters
ca. 32% aller Mitglieder der SVA-Subfamilie SVA_F umfasst. Die transkriptionelle
Kontrolle einer retrotransponierten und 5`-verkuerzten SVA_F-Kopie durch den Promotor
des MAST2-Gens diente als urspruengliches Source-Element dieser umfangreichen 5`-
Transduktionsgruppe, die mindestens 84 Elemente einschliesst. Die zusaetzlichen 5`-
sowie 3`-Transduktionsereignisse der vollstaendigen Alu-Sequenzen bei Mitgliedern der
SVA_F1-Transduktionsgruppe 4 weisen auf ihre wichtige Rolle in der erfolgreichen
Expansion im humanen Genom hin. Diese nachtraeglich erworbenen Alu-Sequenzen
machen SVA_F1-Familienmitglieder offensichtlich zum besseren Substrat fuer die Trans-
Mobilisierung durch die L1-Proteinmaschinerie. Die unterschiedlichen konsekutiven 5`-
Tansduktionsereignisse der SVA_F1-Familienmitglieder deuten auf transkriptionelle
Kontrolle ihrer Source-Elemente durch eine Vielzahl externer zellulaerer Promotoren hin,
die im Laufe der Evolution in Keimzellen aktiv waren. Ausserdem zeigt die Existenz von
5`-Transduktionen, dass SVA-Elemente sich die 5`-flankierenden Sequenzen aneignen
koennen. Die Daten zeigen auch, dass SVA-vermittelte 5-Tansduktionsereignisse
alternatives RNA-Spleissen an putativen Spleissstellen involvieren. Aus der EST-
Datenbankanalyse ist ersichtlich, dass Mitglieder der SVA_F1-Subfamilie auch
gegenwaertig transkribiert werden.
SVA-Elemente sind hoch aktiv im humanen Genom, aber der Mechanismus ihrer
Retrotransposition wurde bislang nicht aufgeklaert. Vorangehende Analysen genomischer
SVA-Kopien liessen auf eine L1-vermittelte Mobilisierung schliessen; allerdings wurde
der experimentelle Beweis dieser Hypothese bislang nicht geliefert. Mit Hilfe der
Zellkultur-basierten Trans-Mobilisierungsassays wurde in dieser Arbeit zum ersten Mal
experimentell bewiesen, dass SVA-Elemente tatsaechlich durch die L1-kodierten Proteine
in trans mobilisiert werden. Zu diesem Zweck wurden HeLa-Zellen mit einem
vollstaendigen oder mit einem 5`-verkuerzten SVA-Retrotranspositionsreporterkonstrukt
sowie mit einem L1-Expressionsplasmid bzw. Leervektor kotransfiziert und dann die
jeweiligen Raten der SVA-Retrotransposition anhand Neo-resistenter Kolonien, die
mindestens ein de novo-Retrotranspositionsereignis widerspiegeln, bestimmt. Die
Experimente zeigen, dass die Entstehung der Neo-resistenten Kolonien von der
Koexpression L1-kodierter Proteine abhaengig ist. Ich konnte auch zeigen, dass das
vollstaendige SVA-Testkonstrukt - im Gegensatz zum 5`-verkuerzten SVA-Konstrukt -
mit einer signifikant hoeheren Retrotranspositionsrate als die Kontrollkonstrukte, die zur
Generierung der prozessierten Pseudogenformation eingesetzt wurden, trans-mobilisiert
wird. Die Ergebnisse der Trans-Mobilisierungsassays belegen, dass SVA-Elemente ein
bevorzugtes Substrat fuer die L1-Proteinmaschinerie darstellen, und ihre 5`-Region
einschliesslich der Alu-homologen Sequenz fuer die hohe Retrotranspositionsrate essentiell
ist. Die elf analysierten SVA de novo-Integrationsereignisse weisen Merkmale der L1-
vermittelten Retrotransposition auf, wie Poly(A)-Enden, L1-EN-spezifische Konsensus-
Zielsequenz (NNAUNA), Zielsequenz-Verdoppelungen (TSDs), Mikrohomologien und
zusaetzliche Guanosin-Nukleotide am 5`-UEbergang.
Zusammenfassend demonstrieren die Ergebnisse dieser Studien, dass ein signifikanter Teil
der Mitglieder der human-spezifischen SVA-Subfamilie aus transkriptioneller Kontrolle
ihrer Source-Elemente durch externe Promotoren hervorgeht. Durch die in dieser Arbeit
durchgefuehrten in silico-Analysen wurde auch gezeigt, dass SVA-vermittelte 5`-
Transduktionsereignisse zur strukturellen Vielfalt der SVA-Elemente fuehren, und eine
neue Art von genomischen Umstrukturierungen darstellen, die zur Plastizitaet des
humanen Genoms beitragen. Ausserdem bestaetigen die Ergebnisse der Trans-
Mobilisierungsassays die Hypothese, dass SVA-Elemente tatsaechlich durch die L1-
kodierte Proteinmaschinerie trans-mobilisiert werden. Dabei sind Module am 5`-Ende der
SVA-Elemente fuer diesen Prozess hoechst relevant.
Die Ergebnisse der Dualen-Luciferase-Reportergen-Assays unterstuetzen die Hypothese,
dass innerhalb der SINE-R-Sequenz von SVA H19_27 cis-aktive Elemente vorhanden
sind, die auf aehnliche Weise wie die cis-aktiven Elemente innerhalb der 5`LTR von
HERV-K reguliert werden.
Ausserdem wurde in dieser Arbeit die Existenz interner reguatorischer Sequenzen
innerhalb der SVA-Sequenz bestaetigt. Mit Hilfe der Dualen-Luciferase-Reportergen-
Assays konnte zum ersten Mal gezeigt werden, dass SVA-Elemente cis-aktive Elemente
enthalten, die hauptsaechlich in der SINE-R-Region lokalisiert sind. Diese cis-aktiven
Elemente werden auf aehnliche Weise wie die cis-aktiven Elemente innerhalb der 5`LTR
von HERV-K reguliert. Die starke transkriptionelle Aktivitaet des vollstaendigen SVA-
Testelements und des L1RP-Promotors in den Teratokarzinom-Zelllinien bekraeftigen die
Annahme, dass haeufige SVA-Mobilisierung in Keimzellen durch die gleichzeitig
hochregulierte SVA- und L1-Transkription bedingt sein koennte.
Es konnte gezeigt werden, dass SVA-Elemente cis-aktive Elemente enthalten, die
hauptsaechlich in der SINE-R-Region lokalisiert sind, und auf aehnliche Weise wie die cis-
aktiven Elemente innerhalb der 5`LTR von HERV-K reguliert werden. Die starke
transkriptionelle Aktivitaet des vollstaendigen SVA-Testelements und des L1RP-Promotors
in Teratokarzinom-Zelllinien bestaetigen die Annahme, dass haeufige SVA-
Retrotransposition in Keimzellen durch die gleichzeitig hochregulierte SVA- und L1-
Transkription bedingt sein koennte.
PaCATB : a secreted catalase protecting Podospora anserina against exogenous oxidative stress
(2011)
A differential mass spectrometry analysis of secreted proteins from juvenile and senescentPodospora anserina cultures revealed age-related differences in protein profiles. Among other proteins with decreased abundance in the secretome of senescent cultures a catalase, termed PaCATB, was identified. Genetic modulation of the abundance of PaCATB identified differential effects on the phenotype of the corresponding strains. Deletion of PaCatB resulted in decreased resistance, over-expression in increased resistance against hydrogen peroxide. While the lifespan of the genetically modified strains was found to be unaffected under standard growth conditions, increased exogenous hydrogen peroxide stress in the growth medium markedly reduced the lifespan of the PaCatB deletion strain but extended the lifespan of PaCatB over-expressors. Overall our data identify a component of the secretome of P. anserina as a new effective factor to cope with environmental stress, stress that under natural conditions is constantly applied on organisms and influences aging processes.
A decade since the availability of Mycobacterium tuberculosis (Mtb) genome sequence, no promising drug has seen the light of the day. This not only indicates the challenges in discovering new drugs but also suggests a gap in our current understanding of Mtb biology. We attempt to bridge this gap by carrying out extensive re-annotation and constructing a systems level protein interaction map of Mtb with an objective of finding novel drug target candidates. Towards this, we synergized crowd sourcing and social networking methods through an initiative ‘Connect to Decode’ (C2D) to generate the first and largest manually curated interactome of Mtb termed ‘interactome pathway’ (IPW), encompassing a total of 1434 proteins connected through 2575 functional relationships. Interactions leading to gene regulation, signal transduction, metabolism, structural complex formation have been catalogued. In the process, we have functionally annotated 87% of the Mtb genome in context of gene products. We further combine IPW with STRING based network to report central proteins, which may be assessed as potential drug targets for development of drugs with least possible side effects. The fact that five of the 17 predicted drug targets are already experimentally validated either genetically or biochemically lends credence to our unique approach.
We describe and analyze a Neandertal postcranial skeleton and dentition, which together show unambiguous signs of right-handedness. Asymmetries between the left and right upper arm in Regourdou 1 were identified nearly 20 years ago, then confirmed by more detailed analyses of the inner bone structure for the clavicle, humerus, radius and ulna. The total pattern of all bones in the shoulder and arm reveals that Regourdou 1 was a right-hander. Confirmatory evidence comes from the mandibular incisors, which display a distinct pattern of right oblique scratches, typical of right-handed manipulations performed at the front of the mouth. Regourdou's right handedness is consistent with the strong pattern of manual lateralization in Neandertals and further confirms a modern pattern of left brain dominance, presumably signally linguistic competence. These observations along with cultural, genetic and morphological evidence indicate language competence in Neandertals and their European precursors.
Background: Cyanobacteria possess several cytochrome P450s, but very little is known about their catalytic functions. CYP110 genes unique to cyanaobacteria are widely distributed in heterocyst-forming cyanobacteria including nitrogen-fixing genera Nostoc and Anabaena. We screened the biocatalytic functions of all P450s from three cyanobacterial strains of genus Nostoc or Anabaena using a series of small molecules that contain flavonoids, sesquiterpenes, low-molecular-weight drugs, and other aromatic compounds.
Results: Escherichia coli cells carrying each P450 gene that was inserted into the pRED vector, containing the RhFRed reductase domain sequence from Rhodococcus sp. NCIMB 9784 P450RhF (CYP116B2), were co-cultured with substrates and products were identified when bioconversion reactions proceeded. Consequently, CYP110E1 of Nostoc sp. strain PCC 7120, located in close proximity to the first branch point in the phylogenetic tree of the CYP110 family, was found to be promiscuous for the substrate range mediating the biotransformation of various small molecules. Naringenin and (hydroxyl) flavanones were respectively converted to apigenin and (hydroxyl) flavones, by functioning as a flavone synthase. Such an activity is reported for the first time in prokaryotic P450s. Additionally, CYP110E1 biotransformed the notable sesquiterpene zerumbone, anti-inflammatory drugs ibuprofen and flurbiprofen (methylester forms), and some aryl compounds such as 1-methoxy and 1-ethoxy naphthalene to produce hydroxylated compounds that are difficult to synthesize chemically, including novel compounds.
Conclusion: We elucidated that the CYP110E1 gene, C-terminally fused to the P450RhF RhFRed reductase domain sequence, is functionally expressed in E. coli to synthesize a robust monooxygenase, which shows promiscuous substrate specificity (affinity) for various small molecules, allowing the biosynthesis of not only flavones (from flavanones) but also a variety of hydroxyl-small molecules that may span pharmaceutical and nutraceutical industries.
The biosynthesis pathway to diadinoxanthin and fucoxanthin was elucidated in Phaeodactylum tricornutum by a combined approach involving metabolite analysis identification of gene function. For the initial steps leading to β-carotene, putative genes were selected from the genomic database and the function of several of them identified by genetic pathway complementation in Escherichia coli. They included genes encoding a phytoene synthase, a phytoene desaturase, a ζ-carotene desaturase, and a lycopene β-cyclase. Intermediates of the pathway beyond β-carotene, present in trace amounts, were separated by TLC and identified as violaxanthin and neoxanthin in the enriched fraction. Neoxanthin is a branching point for the synthesis of both diadinoxanthin and fucoxanthin and the mechanisms for their formation were proposed. A single isomerization of one of the allenic double bounds in neoxanthin yields diadinoxanhin. Two reactions, hydroxylation at C8 in combination with a keto-enol tautomerization and acetylation of the 3′-HO group results in the formation of fucoxanthin.
Background: Hydrolysates of plant biomass used for the production of lignocellulosic biofuels typically contain sugar mixtures consisting mainly of D-glucose and D-xylose, and minor amounts of L-arabinose. The yeast Saccharomyces cerevisiae is the preferred microorganism for the fermentative production of ethanol but is not able to ferment pentose sugars. Although D-xylose and L-arabinose fermenting S. cerevisiae strains have been constructed recently, pentose uptake is still a limiting step in mixed sugar fermentations.
Results: Here we described the cloning and characterization of two sugar transporters, AraT from the yeast Scheffersomyces stipitis and Stp2 from the plant Arabidopsis thaliana, which mediate the uptake of L-arabinose but not of D-glucose into S. cerevisiae cells. A yeast strain lacking all of its endogenous hexose transporter genes and expressing a bacterial L-arabinose utilization pathway could no longer take up and grow with L-arabinose as the only carbon source. Expression of the heterologous transporters supported uptake and utilization of L-arabinose especially at low L-arabinose concentrations but did not, or only very weakly, support D-glucose uptake and utilization. In contrast, the S. cerevisiae D-galactose transporter, Gal2, mediated uptake of both L-arabinose and D-glucose, especially at high concentrations.
Conclusions: Using a newly developed screening system we have identified two heterologous sugar transporters from a yeast and a plant which can support uptake and utilization of L-arabinose in L-arabinose fermenting S. cerevisiae cells, especially at low L-arabinose concentrations.
Amino acids can induce yeast cell adhesion but how amino acids are sensed and signal the modulation of the FLO adhesion genes is not clear. We discovered that the budding yeast Saccharomyces cerevisiae CEN.PK evolved invasive growth ability under prolonged nitrogen limitation. Such invasive mutants were used to identify amino acid transporters as regulators of FLO11 and invasive growth. One invasive mutant had elevated levels of FLO11 mRNA and a Q320STOP mutation in the SFL1 gene that encodes a protein kinase A pathway regulated repressor of FLO11. Glutamine-transporter genes DIP5 and GNP1 were essential for FLO11 expression, invasive growth and biofilm formation in this mutant. Invasive growth relied on known regulators of FLO11 and the Ssy1-Ptr3-Ssy5 complex that controls DIP5 and GNP1, suggesting that Dip5 and Gnp1 operates downstream of the Ssy1-Ptr3-Ssy5 complex for regulation of FLO11 expression in a protein kinase A dependent manner. The role of Dip5 and Gnp1 appears to be conserved in the S. cerevisiae strain ∑1278b since the dip5 gnp1 ∑1278b mutant showed no invasive phenotype.
Secondly, the amino acid transporter gene GAP1 was found to influence invasive growth through FLO11 as well as other FLO genes. Cells carrying a dominant loss-of-function PTR3647::CWNKNPLSSIN allele had increased transcription of the adhesion genes FLO1, 5, 9, 10, 11 and the amino acid transporter gene GAP1. Deletion of GAP1 caused loss of FLO11 expression and invasive growth. However, deletions of FLO11 and genes encoding components of the mitogen-activated protein kinase pathway or the protein kinase A pathway were not sufficient to abolish invasive growth, suggesting involvement of other FLO genes and alternative pathways. Increased intracellular amino acid pools in the PTR3647::CWNKNPLSSIN-containing strain opens the possibility that Gap1 regulates the FLO genes through alteration of the amino acid pool sizes.
NOSTRIN belongs to the recently defined F-BAR protein family. F-BAR proteins are
multi-domain proteins, which serve as adaptors between plasma membrane and
cytoskeleton components in processes such as membrane protrusion formation,
endocytosis and migration. NOSTRIN encompasses a F-BAR domain at the N-terminus,
which mediates membrane association, followed by a HR1 motif and an intermediate
domain (ID) domain in the middle, and a SH3 domain at the C-terminus. The domain
architecture and ability to form oligomers enable NOSTRIN to coordinate several
interaction partners namely dynamin, caveolin, N-WASP and endothelial nitric oxide
synthase (eNOS) in the process of eNOS trafficking. In this context NOSTRIN was
originally identified and hence termed eNOS traffick inducer. NOSTRIN is expressed in
vascularized tissues (e.g. liver and lung) and in primary endothelial cells.
Aims of the present work were (1) to investigate if NOSTRIN is involved in other
processes besides eNOS trafficking, (2) to analyse the function of NOSTRIN in vivo
through knockdown of NOSTRIN in developing zebrafish and (3) to study the
consequences of the loss of NOSTRIN on signal transduction in a primary cell culture
model derived from NOSTRIN knockout mice.
To study the possible involvement of NOSTRIN in other processes besides eNOS
trafficking a yeast two-hybrid screen was performed in which fibroblast growth factor
receptor 1 (FGFR1) was identified as a putative novel interaction partner of NOSTRIN. In
a series of yeast two-hybrid, pulldown and co-immunoprecipitation experiments the
interaction between NOSTRIN and FGFR1 was confirmed to occur between
endogenously expressed proteins and determined to be direct and to depend on the ID
domain of NOSTRIN and the 130 C-terminal amino acid residues of FGFR1. FGFR1 is
activated by binding of fibroblast growth factors (FGFs) and induces several different
signal transduction pathways (e.g. MAPK and Akt pathway). Overexpression of
NOSTRIN in HeLa cells specifically enhanced FGF2-dependent MAPK activation.
Accordingly, depletion of NOSTRIN attenuated FGF2-dependent MAPK activation and
did not affect FGF2-induced Akt activation.
In summary, NOSTRIN has been identified as a novel interaction partner of FGFR1
involved in FGF2-dependent signal transduction.
The morpholino oligonucleotide-mediated knockdown of NOSTRIN in developing
zebrafish caused vascular leakage and irregular vascular patterning e.g. a loss of the
proper trajectory of intersegmental vessel and interruptions of the dorsal longitudinal
anastomotic vessel. The vascular phenotype was consistent upon use of two different
morpholinos and could be rescued in a dose dependent manner by the injection of
zebrafish NOSTRIN mRNA. Detailed analysis involving confocal and time lapse
microscopy in zebrafish with endothelial specific expression of EGFP revealed that the
knockdown of NOSTRIN impacts in vivo on the migration and morphology of endothelial
tip cells and leads to a reduction of filopodia number and length.
Additionally a NOSTRIN knockout mouse was generated. The analysis of FGFR1 signal
transduction in primary mouse lung endothelial cells (MLECs) from NOSTRIN knockout
and wild type mice revealed that FGF2-dependent MAPK activation was attenuated in
MLECs isolated from NOSTRIN knockout mice when compared to MLECs isolated from
wild type mice. The effect of NOSTRIN on FGF2-dependent signal transduction seems to
be specific, since VEGF-induced MAPK activation was not affected in NOSTRIN
knockout MLECs. The importance of NOSTRIN for FGF2 signal transduction in vivo is
demonstrated by the greatly impaired angiogenic response to FGF2 in NOSTRIN
knockout mice in matrigel plug assay. In a detailed biochemical analysis it was
discovered that NOSTRIN interacts with the activated small GTPase Rac1 and that
overexpression of NOSTRIN enhances Rac1 activation. Furthermore, the interactions of
NOSTRIN with both Rac1 and its GEF Sos1 are required for NOSTRIN-mediated
activation of Rac1. In accordance, activation of Rac1 was not detected upon FGF2
stimulation in NOSTRIN knockout MLECs.
In conclusion, the present work describes a novel function of the F-BAR protein
NOSTRIN in FGFR1 signal transduction. Data presented in this work demonstrate that
NOSTRIN is required for the assembly of a complex consisting of FGFR1, Sos1 and
Rac1 and subsequently for the FGF2-dependent activation of Rac1 in endothelial cells.
Die Makrophytenvegetation eines stillgelegten Kanalabschnittes ("Alte Fahrt") bei Senden in Westfalen hat sich seit Beginn der 90er Jahre drastisch verändert. Aus einem typischen Potamogetonetum lucentis sind Reinbestände von Myriophyllum spicatum geworden, denen stellenweise Ceratophyllum demersum beigemischt ist. Die Ursachen für diese gravierenden Vegetationsveränderungen sind nicht klar. Da es sich um einen der bedeutendsten westfälischen Standorte des Potamogetonetum lucentis, einer in Nordrhein-Westfalen stark gefährdeten Pflanzengesellschaft, handelte, sind weiterführende Untersuchungen und Versuche zur Wiederansiedlung zu fordern.
Mitochondrial dynamics and mitophagy play a key role in ensuring mitochondrial quality control. Impairment thereof was proposed to be causative to neurodegenerative diseases, diabetes, and cancer. Accumulation of mitochondrial dysfunction was further linked to aging. Here we applied a probabilistic modeling approach integrating our current knowledge on mitochondrial biology allowing us to simulate mitochondrial function and quality control during aging in silico. We demonstrate that cycles of fusion and fission and mitophagy indeed are essential for ensuring a high average quality of mitochondria, even under conditions in which random molecular damage is present. Prompted by earlier observations that mitochondrial fission itself can cause a partial drop in mitochondrial membrane potential, we tested the consequences of mitochondrial dynamics being harmful on its own. Next to directly impairing mitochondrial function, pre-existing molecular damage may be propagated and enhanced across the mitochondrial population by content mixing. In this situation, such an infection-like phenomenon impairs mitochondrial quality control progressively. However, when imposing an age-dependent deceleration of cycles of fusion and fission, we observe a delay in the loss of average quality of mitochondria. This provides a rational why fusion and fission rates are reduced during aging and why loss of a mitochondrial fission factor can extend life span in fungi. We propose the ‘mitochondrial infectious damage adaptation’ (MIDA) model according to which a deceleration of fusion–fission cycles reflects a systemic adaptation increasing life span.
The long sought molecular function of membrane raft-associated flotillin proteins is slowly becoming resolved, partially owing to the increasing knowledge about their interaction partners. Being ubiquitously expressed and evolutionarily highly conserved, flotillins carry out important cellular functions, one of which is the regulation of signal transduction pathways. This study shows that the signaling adaptor protein fibroblast growth factor receptor substrate 2 (FRS2) directly interacts both in vivo and in vitro with flotillin-1 (flot-1). FRS2 is an important docking protein of many receptor tyrosine kinases. It regulates downstream signaling by forming molecular complexes with other adaptor proteins and tyrosine phosphatases, and seems to be a critical mediator of sustained extracellular signal regulated kinase (ERK) activity. Flot-1 has also been implicated in the regulation of ERK activity upon EGF and FGF stimuli. Furthermore, flot-1 forms signalosomes with EGFR and the downstream components of the MAP kinase pathway. The newly discovered interaction between FRS2 and flot-1 was shown to be mediated by the phosphotyrosine binding (PTB) domain and, to a lesser extent, the C-terminus (CT) of FRS2 and by the C-terminus of flot-1. Flot-1 coprecipitated together with FRS2 from murine tissues and cell lysates, demonstrating that this interaction also takes place in vivo. Interestingly, flot-2, which shows a high homology to flot-1 and forms stable oligomeric complexes with it, does not appear to directly interact with FRS2. Novel insights into the functional role of the interaction between flot-1 and FRS2 were provided by the results showing that depletion of flot-1 affects the cellular localization of FRS2. In hepatocytes stably depleted of flot-1, FRS2 appeared to be more soluble. Furthermore, upon pervanadate stimulation of the cells, a small fraction of FRS2 was recruited into detergent resistant membranes, but the recruitment did not take place in the absence of flot-1. Triggered by the same stimulus, a fraction of FRS2 was translocated to the nucleus independently of flot-1. Overexpression of FRS2 has previously been shown to result in increased ERK activation. However, in cells depleted of flot-1, FRS2 was not able to compensate for the compromised ERK activation after EGF or FGF stimulation. This might imply that FRS2 and flot-1 are functionally interconnected and that FRS2 resides upstream of flot-1. Taken together, the results presented here indicate that this complex may be involved in the control of signaling downstream of receptor tyrosine kinases and is important for ensuring a proper signaling response. In the absence of flot-1, increased Tyr phosphorylation of FRS2 was observed. It is known that Tyr and Thr phosphorylation of FRS2 are reciprocally regulated. Since ERK is a known executor of the FRS2 Thr phosphorylation, and ERK activity was shown to be severely diminished upon flot-1 depletion, the increased Tyr phosphorylation of FRS2 was in agreement with this and might be a direct consequence of a decreased ERK activity upon flot-1 depletion. FRS2 owes its name to the major and the first described function of this protein as a substrate for FGFR. PTB domain of FRS2 was published to constitutively bind the juxtamembrane domain of FGFR. In this study, the PTB domain was mapped to be involved in the constitutive interaction with flot-1 and the competition was shown to exist between flot-1 and FGFR1 for binding to FRS2. Another novel interaction partner of FRS2 was discovered in the present study. Cbl-associated protein (CAP) is an adaptor protein with three SH3 domains and it plays a role during insulin signaling by recruiting the signaling complex to lipid rafts. CAP was previously shown to interact with flot-1 via the SoHo domain, and this interaction was found to be crucial for the lipid raft recruitment of other signaling components. Both the PTB domain and CT of FRS2 were found to mediate the interaction with CAP, whereas in CAP, the SoHo domain, together with the third SH3 domain, seems to bind to FRS2. SH3 domains mediate the assembly of specific protein complexes by binding to proline rich sequences, several of which are present in FRS2. Due to overlapping interaction domains, FRS2 and flot-1 competed for the binding to CAP. However, the interaction with neither CAP nor flot-1 was necessary for the observed nuclear translocation of FRS2. Since CAP is expressed as several tissue- and developmental stage-specific isoforms, a further aim of this study was to analyze the expression of its isoforms in mouse embryonic fibroblasts (MEFs). Many new isoforms were discovered here which have not been described in the literature so far. They all contain the SoHo domain and three SH3 domains, but differ among themselves by the presence and length of a proline-rich region that preceeds the SoHo domain and by a novel 20-amino acid (AA) stretch between the second and the third SH3 domain. The length of the proline-rich region turned out to be an important factor determining the strength of the interaction with FRS2. The interaction was found to be weakened by the increasing length of this region. The new isoforms possessing the 20-AA stretch are specifically expressed in murine muscular tissues, with the highest level in the heart. During adipogenesis, we observed a shift in the abundance of the isoforms, in that only the isoforms without the insertion were shown to be upregulated on mRNA level. However, during myogenesis, preferentially expressed isoforms were those with the insertion. The collected data implicate that isoforms with the 20-AA insertion might be more ubiquitous in nondifferentiated/embryonic cells and that the observed "isoform-switch" might be dependent on the cell fate and differentiation state.
Die nicht-konventionelle Hefe P. ciferrii produziert große Mengen der tetra-acetylierten Sphingoidbase Phytosphingosin (TAPS). Sphingoidbasen sind essentielle Komponenten des stratum corneums, der multilamellaren Barriere der menschlichen Haut, und daher in der Kosmetik-Industrie von großem Interesse. Im Rahmen dieser Arbeit sollte die biotechnologische Produktion der Sphingoidbasen Phytosphingosin, Sphinganin und Sphingosin auf molekularbiologischer Ebene in P. ciferrii charakterisiert und optimiert werden. Die Hefe P. ciferrii konnte durch Etablierung einer einfachen und hoch-effizienten Transformations-Methode auf genetischer Ebene leicht zugänglich gemacht werden. Durch Inaktivierung des für NHEJ essentiellen PcLIG4 Gens konnte die Effizienz zielgerichteter genomischer Integrationen von transformierten DNA-Konstrukten von 1 % auf 87 % erhöht werden. Die Etablierung des Cre-loxP Systems erlaubte das mehrfache Verwenden eines Selektions-Markers wodurch sukzessiv mehrere genomische Integrationen in einem Stamm ermöglicht wurden. Durch diese Errungenschaften konnte das Ziel „Optimierung der Sphingoidbasen-Produktion der nicht-konventionellen Hefe P. ciferrii“ im Folgenden erfolgreich verfolgt werden. Der initiale Schritt der Sphingoidbasen-Biosynthese ist die von der Serin-Palmitoyl-Transferase katalysierte Kondensation von L-Serin und Palmitoyl-CoA. Durch die Deletion von Genen, die am L-Serin-Katabolismus von P. ciferrii beteiligt sind (PcSHM1, PcSHM2und PcCHA1), konnte die de novo Sphingoidbasen-Biosynthese optimiert werden und führte in einem lig4? Stamm zu einer etwa dreifachen Erhöhung der TAPS-Produktion. Weitere Ansätze den (vermutlich durch L-Serin feed back regulierten) L-Serin-Biosyntheseweg bzw. die in vivo L-Serin-Verfügbarkeit zu optimieren, führten nicht zu einer gesteigerten TAPS-Produktion. Durch weitere Deletion und Überexpression von Genen des Sphingolipid-Stoffwechsels konnte die TAPS-Produktion jedoch um ein Vielfaches verbessert werden. So konnte ein Stamm konstruiert werden, der die Gene PcLCB1, PcLCB2 und PcSYR2 überexprimiert und Deletionen der Gene PcSHM1, PcSHM2, PcCHA1, PcLCB4 und PcORM12 trägt. Dieser Stamm (CSS.L4.O.L2.L1.S2) wies eine mehr als fünffach erhöhte maximale spezifische TAPS-Produktbildungsrate (q Pmax ) auf und produzierte mit 2 g * L rund siebenmal mehr TAPS als der lig4? Ausgangsstamm, weshalb ein Einsatz dieses Stammes für die industrielle TAPS-Produktion denkbar wäre. Ausgehend von einem für die TAPS- (und somit Sphingoidbasen-) Produktion optimierten Stamm sollten Stämme mit optimierter TriASa- oder TriASo-Produktion für industrielle Zwecke generiert werden. Es stellte sich allerding heraus, dass erhöhte Mengen dieser Sphingoidbasen wahrscheinlich wachstumshemmend für P. ciferrii sind, weshalb eine weitere Produktions-Optimierung nicht ohne Weiteres möglich ist. In einem Laborstamm gelang es jedoch, durch Konstruktion und anschließende Transformation eines optimierten integrativen Plasmids (trägt die Gene, die für die Produktion von Sphingosin bzw. TriASo nötig sind) eine TriASo-Produktion von bis zu 30 mg * g (BTM) zu erzielen, wobei gleichzeitig die Bildung des Nebenprodukts TriASa auf weniger als 4 mg * g (BTM)reduziert wurde. Weiterhin konnte durch Deletion von PcSCS7 in einem TriASo-Produktionsstamm die TriASa-Produktion mehr als vierfach reduziert werden. Die Bildung eines weiteren von P. ciferrii gebildeten Nebenproduktes [Tri-Acetyl-Sphingadienin (TriASd)] konnte durch Deletion des PcSLD1 Gens unterbunden werden. Nach Inaktivierung von PcSCH9 konnte eine fast 20 %ige Verbesserung der TriASo-Produktion erreicht werden. Es konnten zwei putative Acetyl-Transferasen identifiziert werden (PcAft2 und PcSli1), die an der Acetylierung von Phytosphingosin (zu TAPS), Sphinganin (zu TriASa) und Sphingosin (zu TriASo) beteiligt sind. Die Aufklärung und Optimierung dieser von PcAtf2 und PcSli1 katalysierten Schritte sind vielversprechende Ansatzpunkte die Sphingoidbasen-Produktion in P. ciferrii weiter zu optimieren.
The synthesis of the recently characterized depsipeptide szentiamide (1), which is produced by the entomopathogenic bacterium Xenorhabdus szentirmaii, is described. Whereas no biological activity was previously identified for 1, the material derived from the efficient synthesis enabled additional bioactivity tests leading to the identification of a notable activity against insect cells and Plasmodium falciparum, the causative agent of malaria.
Im Zuge des hessischen Wiederansiedlungsprojektes für die Europäische Sumpfschildkröte (Emys orbicularis) konnten in den Jahren 2002-2007 insgesamt 79 juvenile Sumpfschildkröten an vier Standorten (NSG „Hölle von Rockenberg“, NSG „Reinheimer Teich“, NSG „Nachtweid von Dauernheim“ und NSG „Nidderauen von Stockheim“) in Hessen ausgewildert werden. Ziel der vorliegenden Untersuchung war es, hinreichende Kenntnisse zur Biologie, Physiologie und Ökologie der ausgesetzten Jungtiere zu erhalten. Die generellen Erfolgsaussichten eines solchen Langzeitprojektes, das Verhalten der ausgesetzten Jungtiere und deren Gesundheitszustand standen hierbei im Vordergrund der Arbeit. Anhand verschiedener Methoden (direkte Beobachtung, Radiotelemetrie, Fang-Wiederfang) wurde die Ansiedlung über einen Zeitraum von fünf Jahren überwacht. Radiotelemetrische Studien sowie eine direkte Beobachtung erbrachten hierbei Informationen zur Raum- und Habitatnutzung der Jungtiere und den daraus resultierenden Lebensraumansprüchen. Durch dieses Wissen konnten weitere, sowie bereits bestehende, Wiederansiedlungsgebiete in dieser Region durch individuelle Maßnahmen optimiert werden. Des Weiteren konnte mit temperatursensitiven Messmethoden ein Überblick über das tägliche und saisonale Körpertemperaturspektrum der Art in Hessen ermittelt werden. Vor der Wiederansiedlung sowie im weiteren Verlauf der Untersuchung wurden in den jeweiligen Gebieten diverse Biotopsmaßnahmen durchgeführt. So z.B. das Ausbringen von zusätzlichen Sonnenmöglichkeiten in Form von Stämmen, das Anlegen von permanenten und temporären Flachwasserteichen, verschiedenste Biotopspflegemaßnahmen (Entschlammen, Entbuschen) und die Offenhaltung potentieller Eiablageplätze. Diese Maßnahmen zeigten im Laufe der Untersuchung nicht nur einen positiven Effekt für die Zielart Emys orbicularis, sondern auch für weitere, bestandsbedrohte Begleitarten (z.B. die Wechselkröte Bufo viridis). Die ausgesetzten Jungtiere hatten ein mittleres Alter von 3,44 ± 1,29 Jahren (2-6 Jahre) bei einer mittlere Masse von 197,1 ± 110,2 g (66-619 g) und einer mittleren Carapaxlänge von 9,91 ± 1,77 cm (6,71-14,87 cm). Alle Tiere wurden vor dem Aussetzen durch einen Mikrotransponder und eine individuelle Farbmarkierung auf dem Panzer gekennzeichnet.
Mit Hilfe der Radiotelemetrie wurden die Aufenthaltsbereiche sowie das Wanderverhalten der Sumpfschildkröten in den Gebieten NSG „Hölle von Rockenberg“, NSG „Reinheimer Teich“ und NSG „Nachtweid von Dauernheim“ dokumentiert. Zusätzlich zu den herkömmlichen Radiotelemetriesendern konnten temperatursensitive Radiotelemetriesender verwendet werden, die sowohl über den Standort des Tieres als auch seine momentane Körpertemperatur Auskunft gaben. Es wurden hierbei insgesamt 34 Telemetriesender (9 ohne, 25 mit Temperaturfunktion) für eine Besenderung von 27 Individuen verwendet. Das entspricht einer Besenderungsquote von 42,3 %. Die durchschnittliche Masse der Sumpfschildkröten bei der Erstbesenderung betrug 238,6 ± 68,2 g bei einer Carapaxlänge von 10,80 ± 1,07 cm. Um einen Überblick über das Körpertemperaturspektrum der Art in Hessen zu erhalten, wurden temperatursensitive Radiotelemetriesender und ergänzend Temperaturdatenlogger (iButtons®) verwendet. Es zeigten sich sowohl individuelle als auch stark saisonal geprägte Temperaturmuster. Erwartungsgemäß konnten die höchsten Körpertemperaturen im Sommer (bis zu 44 °C) und die niedrigsten im Winter (bis zu -0,8 °C) dokumentiert werden. Der bevorzugte Temperaturbereich von Emys orbicularis wird aufgrund der vorliegenden Daten bei 25-32 °C vermutet. Die Aktivitätsperiode von Emys orbicularis in Hessen lässt sich von Mitte/Ende März bis Mitte Oktober, mit einem Aktivitätsmaximum in den Monaten Mai und Juni, angeben. Eine Erhöhung bzw. Erniedrigung der Körpertemperatur wurde durch Verhaltensweisen, wie Sonnenbaden oder das Aufsuchen von Wasser, erreicht. Sonnenbadende Sumpfschildkröten konnten in der Zeit von 07:15 bis 19:45 Uhr direkt beobachtet werden, die Hauptsonnenaktivität lag zwischen 09:00-15:00 Uhr. Hierbei konnte eine Tagesrhythmik des Sonnenbadens dokumentiert werden, die im Normalfall einen einphasigen Verlauf hatte. Die Schildkröten erschienen im Laufe des Vormittags auf dem Sonnenplatz und verblieben dort, unterbrochen von kurzzeitigem Aufsuchen des Wassers, bis in den Nachmittag hinein. Die bevorzugten Aufenthaltsbereiche und Strukturen unterlagen sowohl saisonalen als auch individuellen Präferenzen. Die Tiere nutzten zu 69,9 % Baumstämme als Sonnenplatz. Es wurden sowohl größere als auch kleinere Gewässer als Aufenthaltsbereich genutzt. Charakteristisch waren hier vor allem ausgedehnte Unterwasser- und Schwimmblatt-Gesellschaften in den Randbereichen, wie z.B. die „Untergetauchte Laichkrautgesellschaft“.
Die Störanfälligkeit der beobachteten Sumpfschildkröten war sehr stark individuell ausgeprägt. Es konnte aber auch beobachtet werden, dass Tiere, die gerade das Wasser verließen, und noch nicht getrocknet waren, schneller auf eine Störung reagierten, als Tiere, die schon vollständig getrocknet waren. Es ist anzunehmen, dass dieses Verhalten mit der Thermoregulation der Tiere in Zusammenhang steht. Die besenderten Tiere verblieben in den Aussetzgebieten und es konnten nur geringe Wanderbewegungen (bis max. 250 m) notiert werden. Der hierbei ermittelte Aktionsraum („home range“) variierte sowohl individuell als auch in den einzelnen Gebieten. So konnte in dem kleineren Gebiet „Hölle von Rockenberg“ (13 ha) eine zehnmal geringere Aktionsraumgröße notiert werden als in dem weitaus größeren Gebiet „Reinheimer Teich“ (75 ha). Sie betrug in Rockenberg 0,21 ± 0,03 ha (0,19 bis 0,32 ha) und in Reinheim 2,00 ± 1,58 ha (0,24 ha bis 4,71 ha). In der Phase der Überwinterung konnte keinerlei Mortalität dokumentiert werden. Als Überwinterungsplatz nutzten die Tiere in der Regel schilfbewachsene Uferbereiche mit einer Wassertiefe von 50 cm. Im Gebiet „Hölle von Rockenberg“ konnten einige Tiere mehrmalig in der Überwinterung beobachtet werden und es zeigten sich hierbei individuelle Standortpräferenzen. Die Überwinterungsplätze wurden zu 50 % wiederholt aufgesucht. In den Wintermonaten Dezember-Februar betrug die mittlere Körpertemperatur 3,09 ± 1,59 °C. Die verwendeten Fangmethoden (Sonnenfalle, Reusenfalle, Handfang) konnten nur im Gebiet „Hölle von Rockenberg“ erfolgreich eingesetzt werden. Im Gebiet „Reinheimer Teich“ konnte nur einmalig eine Schildkröte wiedergefangen werden. Die wiederangesiedelten Tiere nahmen sowohl an Masse als auch an Größe zu. Die durchschnittliche Massenzunahme betrug im Gebiet „Hölle von Rockenberg“ 40,33 ± 7,20 g (29,38-48,40 g) bei einem Wachstum des Carapax von 0,61 ± 0,08 cm (0,52-0,75 cm). Es konnten keinerlei Krankheiten oder Verhaltensauffälligkeiten dokumentiert werden. Im gesamten Untersuchungszeitraum wurde nur einmalig der Verlust eines Tieres detektiert.
Diese Massen- und Größenzunahmen sowie die Überlebensrate sprechen für die verwendeten Aufzuchtsmethoden und die ausgewählten Wiederansiedlungsgebiete. Es zeigt, dass sich die Methode des „headstarting“ bei Emys orbicularis sehr gut eignet und kann somit für solche Wiederansiedlungsprojekte durchaus empfohlen werden. Eine Stützung der Bestände durch das Auswildern „headstarted“ Emys orbicularis (aufgezogenen unter den hier vorgestellten Bedingungen) wird daher für weitere Projekte empfohlen Basierend auf den Ergebnissen der vorliegenden Arbeit lassen sich die Lebensraumansprüche der Art in Hessen benennen. Ausgehend von diesen speziellen Ansprüchen lässt sich ein optimales Emys orbicularis Habitat (für nördliche Vertreter der Art) definieren.
Zusammenfassende Grundlagen eines idealen Emys orbicularis Habitats:
- begleitendes (natürliches) Fließgewässer
- ausreichend Kleingewässer, auch als Trittsteine zum Fließgewässer
- mind. ein großes Hauptgewässer (mind. 2000 m2) mit einer Tiefe von mind. 1,50 m
- flach abfallendes Gewässerprofil mit sich schnell erwärmenden Flachwasserzonen
- ausreichend Wasser-/Unterwasservegetation
- ausreichend, ganztägig besonnte Sonnenplätze in Form von ins Wasser ragenden Stämmen und Ästen
- breiter, südexponierter Schilfgürtel zur Überwinterung
- geringer Fischbesatz zur Sicherung der Nahrungsgrundlage (Konkurrenz)
- möglichst keine fremdländischen Schildkröten (Konkurrenz)
- südexponierte, xerotherme offene Hanglage mit Magerrasencharakter zur Eiablage (im Bedarfsfall sichergestellt durch Beweidung und/oder Mahd) - keinerlei oder nur eingeschränkte freizeitliche Nutzung in Randbereichen - keine Zerschneidung der Gewässer und Wanderwege durch Straßen.
Die vorliegende Arbeit bestätigt den bisher getätigten Bemühungen zum Schutz der Europäischen Sumpfschildkröte gute Erfolgsaussichten für eine weitere Etablierung der Art in Hessen. Da die untersuchten Tiere noch nicht geschlechtsreif waren und somit noch keine Reproduktion im Freiland dokumentiert werden konnte, lässt sich der langfristige Erfolg noch nicht abschließend beurteilen. Aufgrund der bisher getätigten Untersuchungen lässt sich ein Reproduktionserfolg aber in den nächsten Jahren vermuten. Ein wichtiger Schritt zum Schutz der Europäischen Sumpfschildkröte in Hessen ist mit dem hier vorgestellten Projekt und den verwendeten Aufzuchts- und Wiederansiedlungsmethoden getan.
Many hominin species are best physically represented and understood by the sum of their dental morphologies. Generally, taxonomic affinities and evolutionary trends in development (ontogeny) and morphology (phylogeny) can be deduced from dental analyses. More specifically, the study of dental remains can yield a wealth of information on many facets of hominin evolution, life history, physiology and ecological adaptation; in short, the organisms paleobiomics. Functionally, teeth present information about dietary preferences, that is, the dietary niche in ecological context and, in turn, masticatory function. As the amount and types of information that can be gleaned from 2-dimensional tooth measurement exhaust themselves, 3-dimensional microscopic modeling and analysis presents a largely fertile ground for reexamination and reinterpretation of dental characteristics (Bromage et al., 2005). As such, a novel, non-destructive approach has been developed which combines the work of two established technologies (confocal microscopy and 3D modeling) adapted specifically for the purpose of mineralized tissue imaging. Through this method, 3D functional masticatory and therefore occlusal molar microwear is able to be visualized, quantified and comparatively analyzed to assess dietary preference in Javanese Homo erectus. This method differs from other microwear investigative techniques (defining 'pits'- vs- 'scratches', microtexture analysis etc.) in that it defines a molars masticatory microwear functional interactions in 3-dimensions as its baseline dataset for further interpretations and analyses. Due to poor specimen collection techniques employed during the first half of the 20th century, the very complex geologic nature of the Sangiran Dome and disagreements over its chronostratigraphy, only very few scientific works have addressed the Sangiran 7 (S7) Homo erectus molar collection (n=25) (e.g. Grine and Franzen, 1994; Kaifu, 2006). Grine and Franzen's (1994) work was a predominantly qualitative initial assessment of the specimens and identified five specimens that might better be ascribed to a fossil pongid rather than H. erectus. They also noted several molars to which tooth position (M1 or M2) was unable to be ascribed (Grine and Franzen, 1994). Kaifu (2006) comparatively examined crown sizes in several S7 molars.
The Sangiran 7 collection originates from two distinct geologic horizons: ten from the older Sangiran Formation (S7a, ~1.7 to 1.0mya) and fifteen from the younger, overlying Bapang Formation (S7b, ~1.0 to .7mya). During this million year period, Java was connected to the mainland during various glacio-eustatic low-stands in sea level. These mainland connections varied in size, extent, climatic condition and therefore in faunal and floral composition. As the S7 sample may be representative of the earliest Homo erectus migrants into Java and spans long durations of occupation, its investigation yields potential to understand the various influences climatic and ecogeographic fluctuations had on these populations. Since the sample consists only of teeth, an ecodietary approach has been deemed the most logical and appropriate investigative approach. Questions regarding the intra- and inter- S7 sample
relationships will also be addressed.
By comparing various aspects of the H. erectus dentition against that of hunter/ gatherer's (H/G) whose diet is known, functional dietary similarity can be directly correlated. Thus a comparative molar sample consisting of the below historic hunter/ gather's (n=63) has been included in order to assess H. erectus's diet in ecological context: Inuit (n=9), Pacific Northwest Tribes (n=11), Fuegians (n=11), Australian Aborigines (n=12) and Bushman (n=20). Methodologically, this approach produces a 3D facet microwear vector (fmv) signature for each molar which can then be compared for statistical similarity.
Microwear (and, as such, the fmv signatures) was defined by the regular, parallel striations found on specific cusp facets known to arise from patterned, directional masticatory movements. This differs significantly from post-mortem or taphonomic microwear which produces striations at irregular angles on multiple, non-masticatory surfaces (Peuch et al.1985, Teaford, 1988). A 'match value' is produced to determine the similarity of two molars fmv's. The 'match values' are ranked (high to low) and these rankings are used to statistically analyze and infer dietary preference: between Sangiran 7 (as an entire sample) compared against that of the historic hunter/ gatherer H. sapiens whose diet and ecogeography is known; within S7a and S7b and then among the S7 sample (eg. S7a-vs-S7b); whether the purported Pongo molars actually affiliate well with H. erectus, the hunter-gatherer's or if they demonstrate distinctly different fmv signatures altogether; whether fmv signatures are useful in distinguishing molars whose tooth position is in doubt (eg. M1 or M2).
When compared against individual H/G molars, the results show that Sangiran 7 H. erectus most closely correlates with Bushmen across all areas of fmv signature analysis. However, within broader dietary categories (yearly reliant on proteinaceous foods; seasonally reliant on proteinaceous foods; not reliant on proteinaceous foods), it was found that H. erectus most closely allied with the two hunter/ gatherer subpopulations associated with the 'Seasonally reliant on proteinaceous foods' (Australian Aboriginals and Pacific Northwest Tribes). There was also evidence for dietary change or specialization over time. As the environment changed during occupation by the earlier Sangiran to the later Bapang individuals, the dietary preference shifted from a focus on vegetative foods to a diet much more inclusive of proteinaceous resources.
These results are considered logical within the larger ecogeographic and chronostratigraphic context of the Sangiran Dome during the Pleistocene. However, a larger sample would be needed to confirm this. Although general dietary preferences can be drawn from this method, it is not possible at present to define specific foods consumed on a daily basis (eg. tubers or tortoise meat).
Out of the five specimens possibly allied with Pongo, S7-14 matched at the 'high' designation with a hunter/ gatherer, S7-62 matched 'moderately', S7-20 matched 'low' while the remaining two were not able to be matched with any other teeth for various reasons. Although designation to Pongo cannot be ruled on at this time using this method, it does demonstrate that at least two of the teeth correlate well with various hunter/ gatherer's who do not share dietary similarity with Pongo. This suggests their designation as Pongo should be more closely reevaluated. As for the four specimens whose tooth position was unsure, S7-14 matched 'highly' with 1st molars, S7-62 and S7-78 matched 'moderately' with 2nd and 1st molars respectively while S7-20 only matched at the 'low' designation. Although this approach is still exploratory, it adds another analytical tool for use in defining tooth position.
In sum, this method has demonstrated its usefulness in defining and functionally analyzing a novel 3D molar microwear dataset to interpret dietary preference. Future work would include a pan- H. erectus molar sample in order to illuminate broader populational, taxonomic and dietary correlations within and amoung all H. erectus specimens. A larger, more heterogenous historic H/G sample would also be included in order to provide a wider dietary comparative population. This method can be further extended to include and compare any and all hominins as well as any organism which produces micro wear upon it molars. Also, the data obtained and resultant fmv signature diagrams have the potential to be incorporated into 3D VR reconstructions of mandibular movement thus recreating mastication in extinct organisms and leading to more robust anatomical and physiological investigations especially when viewed in the context of larger environmental conditions or changes.
Synaptic plasticity is the basis for information storage, learning and memory and is achieved by modulation of the synaptic transmission. The amount of active AMPA (α-amino-3-hydroxy-5-methyl-4-isoxazol-propionic acid) receptors at the synapse determines the transmission properties, therefore the regulation of AMPA receptor trafficking affects the synaptic strength. The protein GRIP (glutamate receptor interacting protein) binds to AMPA receptors and is one of the important regulators of AMPA receptor stability at the synapse (Dong et al., 1997; Osten et al., 2000). Previous studies have shown that the ablation of ephrinB2 or ephrinB3 in the nervous system leads to severe defects in hippocampal LTP (long term potentiation) and LTD (long term depression) (Grunwald et al., 2004). We found that ephrinB2 ligands play an important role in the stabilization of AMPA receptors at the cellular membrane (Essmann et al., 2008). Treating cultured hippocampal neurons with AMPA resulted in a robust AMPA receptor internalization, which could be inhibited by simultaneous ephrinB2 activation with soluble EphB4-Fc fusion proteins. Conditional hippocampal ephrinB2 knock-out (KO) neurons showed enhanced constitutive internalization of AMPA receptors. Interaction and interference experiments revealed that ephrinB ligands and AMPA receptors are bridged by GRIP. This interaction is regulated by phosphorylation of a single serine residue in close proximity to the C-terminal PDZ protein target site in ephrinB ligands (Essmann et al., 2008). To investigate the in vivo relevance of this previously undescribed feature of ephrinB reverse signaling, we generated ephrinB2 S-9>A knock-in mice, where the serine at position -9 was replaced by an alanine to prevent phosphorylation. The mutated ephrinB2 of this mouse line was expressed and able to form clusters following stimulation with the preclustered receptor EphB4-Fc. Surface ephrinB2 cluster size and cluster number was slightly smaller in comparison to wild type (WT) mice. Analyzing AMPA receptor internalization, we oserved an increased basal GluR2 endocytosis in cultured hippocampal neurons of ephrinB2 S-9>A mice. Dendrite and spine morphology was similar in pyramidal CA1 neurons of brain slices from adult ephrinB2 S-9>A and WT mice, suggesting a redundancy between the different ephrinB familily members.
Apart from regulating AMPA receptor stability at the synapse, GRIP1 also has an important role in the secretory pathway to deliver cargo proteins along microtubules to dendrites and synapses (Setou et al., 2002). Proteins involved in synaptic transmission and plasticity, as well as lipids required for the outgrowth and remodeling of dendrites and axons have to be transported. We showed in our laboratory with a directed proteomic analysis using the tandem affinity purification-mass spectrometry methodology (Angrand et al., 2006) and with immunoprecipitation assays with brain lysates that the small regulatory protein 14-3-3 interacts with GRIP1. Further immunoprecipitation assays with lysates from HeLa cells transfected with various parts and sequence mutants of GRIP1 revealed that threonine 956 in the linker region L2 between PDZ6 and PDZ7 of GRIP1 is necessary for the interaction with 14-3-3. GRIP1 has been postulated to influence dendritic arborization and maintenance in hippocampal neurons in culture due to defective kinesin-dependent transport along microtubules (Hoogenraad et al 2005). In order to address the role of the association of GRIP1 and 14-3-3 in dendritogenesis, we transfected rat hippocampal neurons with GRIP1-WT and GRIP1 mutants and performed Sholl analysis to evaluate dendritic arborization defects. We could observe striking increased formation and growth of dendrites in developing neurons as well as in mature neurons overexpressing GRIP1-WT. However, overexpression of GRIP1-T956A, where the threonine 956 was replaced by an alanine to prevent phosphorylation, did not show enhanced dendritogenesis, indicating a role for threonine 956 phosphorylation in dendrite branching. To investigate the importance of the interaction between GRIP1 and 14-3-3 in vivo, we generated transgenic mouse lines with a GRIP1-T956A transgene or a GRIP1-WT transgene as control. These mice were crossed with heterozygous GRIP1 mice and by further breedings we obtained some surviver mice carrying either the wild type or the mutated GRIP1 transgene in the usually embryonic lethal GRIP1-KO background (Bladt et al., 2002; Takamiya et al., 2004). In embryonic day (E) 14.5 cultured hippocampal GRIP1-KO neurons we could observe reduced dendritic growth. We also showed reduced GluR2 staining on the dendritic surface in cultured hippocampal neurons from GRIP1-KO and GRIP1-KO neurons containing the GRIP1-T956A transgene. GRIP1-KO neurons containing the GRIP1-WT transgene showed a similar surface GluR2 signal intensity as WT neurons. Reduced surface GluR2 staining in GRIP1-KO neurons and GRIP1-KO neurons with the GRIP1-T956A transgene might be a consequence of defective kinesin-dependent transport of GluR2 to dendrites, indicating an important role of threonine 956 phosphorylation of GRIP1 for GluR2 trafficking.
Stem cells are often referred to as potential candidates for the treatment of different pathologies. Their ability to differentiate into various tissue specific cell types offers the possibility to engineer cell systems or organs for replacement. One of the main questions in stem cell biology is how stemness properties are regulated and to what extend this regulation is intrinsic or conveyed by the direct microenvironment (‘niche’). In order to elucidate such regulatory processes, it is informative to analyze processes or molecules that are shared between different stem cell populations.
One such molecule that is expressed on a wide range of different embryonic and adult as well as tumor stem cells is the ABC transporter Abcg2. ABC transporters in general are transmembrane proteins that actively extrude endo- and exotoxins as well as xenobiotics, thereby protecting cells and organs. Additionally, ABC transporters are responsible for drug resistance in many cancers. A well-described characteristic of stem cells expressing Abcg2 is the formation of the ‘side population’ (SP) phenotype: An active Abcg2 transporter mediates the efflux of a particular fluorescent dye that is taken up by all cells, thus leading to a less brightly stained population. This phenomenon is widely used to characterize and isolate the most primitive stem cell subpopulation from embryonic and adult tissues, including tumors. Besides its role as toxin transporter little is known about the function of Abcg2 in stem cells. This is mainly due to the fact that its physiological substrate in stem cells remains unknown. The identification of such substrates is therefore of high interest because it would directly link the activity of ABC transporters to regulatory mechanisms in stem cell biology.
In the present study we wanted to test the hypothesis that the sphingolipid ceramide is a physiological substrate of the ABC transporter Abcg2. Sphingolipids are potent second messengers and are known to have regulatory functions in stem cells. In particular, the sphingolipid ceramide is described as a mediator of controlled cell death and inducer of differentiation. It is suggested that stem cells need to keep their intracellular ceramide content at low levels in order to prevent apoptosis or differentiation. We propose that Abcg2 and ceramide interact and that this interaction leads to changes in the absolute or relative amounts of ceramide. This in turn influences basic stem cell functions such as self renewal and differentiation.
We show that Abcg2 prevents cells from accumulating fluorescence labeled ceramide. Furthermore, exogenously applied ceramides inhibit the transport activity of Abcg2, measured by a decrease of the side population phenotype. This inhibitory effect is consistent with a competitive inhibition mechanism. Additionally, we show that active Abcg2 can increase the ceramide concentration in cell culture supernatant. Finally we demonstrate that Abcg2 protects from ceramide induced cytotoxicity in human cell lines. In summary, these in vitro results strongly suggest that Abcg2 has the ability to regulate ceramide levels.
Murine hematopoietic stem cells (HSCs) are the best characterized adult stem cell system so far. By using 7-colour fluorescence-activated cell sorting (FACS) we established the purification of the most primitive HSCs, reflected by their high engraftment capability when transplanted to lethally irradiated mice. By using this sorted cell populations it was in addition possible to establish a system to reproducibly manipulate HSCs ex vivo. This experimental system will serve in further elucidating the physiological consequences of Abcg2 mediated changes in ceramide levels on stem cells in vivo.
Taken together, this study shows that Abcg2 has the ability to regulate ceramide levels in cells. This in turn can lead to cellular protection from ceramide induced apoptosis. Additionally, the experimental techniques to further analyze the role of Abcg2 and ceramide in the most primitive hematopoietic stem cells were successfully established, enabling more detailed analysis in the future.