Refine
Year of publication
- 2012 (72) (remove)
Document Type
- Article (50)
- Doctoral Thesis (22)
Language
- English (72) (remove)
Has Fulltext
- yes (72)
Is part of the Bibliography
- no (72)
Keywords
- Membrane Proteins (3)
- Cyanobacteria (2)
- apoptosis (2)
- autophagy (2)
- 3-MA (1)
- Acetogenesis (1)
- Antibiotic Resistance (1)
- Antibiotics and Metabolite Export (1)
- Bacillus (1)
- Bioenergetics (1)
Institute
- Biowissenschaften (72) (remove)
Mitochondria and chloroplasts are of endosymbiotic origin. Their integration into cells entailed the development of protein translocons, partially by recycling bacterial proteins. We demonstrate the evolutionary conservation of the translocon component Tic22 between cyanobacteria and chloroplasts. Tic22 in Anabaena sp. PCC 7120 is essential. The protein is localized in the thylakoids and in the periplasm and can be functionally replaced by a plant orthologue. Tic22 physically interacts with the outer envelope biogenesis factor Omp85 in vitro and in vivo, the latter exemplified by immunoprecipitation after chemical cross-linking. The physical interaction together with the phenotype of a tic22 mutant comparable with the one of the omp85 mutant indicates a concerted function of both proteins. The three-dimensional structure allows the definition of conserved hydrophobic pockets comparable with those of ClpS or BamB. The results presented suggest a function of Tic22 in outer membrane biogenesis.
Background: Although Tic22 is involved in protein import into chloroplasts, the function in cyanobacteria is unknown.
Results: Cyanobacterial Tic22 is required for OM biogenesis, shares structural features with chaperones, and can be substituted by plant Tic22.
Conclusion: Tic22, involved in outer membrane biogenesis, is functionally conserved in cyanobacteria and plants.
Significance: The findings are important for the understanding of periplasmic protein transport.
Lantibiotics are peptide-derived antibiotics that inhibit the growth of Gram-positive bacteria via interactions with lipid II and lipid II-dependent pore formation in the bacterial membrane. Due to their general mode of action the Gram-positive producer strains need to express immunity proteins (LanI proteins) for protection against their own lantibiotics. Little is known about the immunity mechanism protecting the producer strain against its own lantibiotic on the molecular level. So far, no structures have been reported for any LanI protein. We solved the structure of SpaI, a LanI protein from the subtilin producing strain Bacillus subtilis ATCC 6633. SpaI is a 16.8-kDa lipoprotein that is attached to the outside of the cytoplasmic membrane via a covalent diacylglycerol anchor. SpaI together with the ABC transporter SpaFEG protects the B. subtilis membrane from subtilin insertion. The solution-NMR structure of a 15-kDa biologically active C-terminal fragment reveals a novel fold. We also demonstrate that the first 20 N-terminal amino acids not present in this C-terminal fragment are unstructured in solution and are required for interactions with lipid membranes. Additionally, growth tests reveal that these 20 N-terminal residues are important for the immunity mediated by SpaI but most likely are not part of a possible subtilin binding site. Our findings are the first step on the way of understanding the immunity mechanism of B. subtilis in particular and of other lantibiotic producing strains in general.
DNA translocators of natural transformation systems are complex systems critical for the uptake of free DNA and provide a powerful mechanism for adaptation to changing environmental conditions. In natural transformation machineries, outer membrane secretins are suggested to form a multimeric pore for the uptake of external DNA. Recently, we reported on a novel structure of the DNA translocator secretin complex, PilQ, in Thermus thermophilus HB27 comprising a stable cone and cup structure and six ring structures with a large central channel. Here, we report on structural and functional analyses of a set of N-terminal PilQ deletion derivatives in T. thermophilus HB27. We identified 136 N-terminal residues exhibiting an unusual ααβαββα fold as a ring-building domain. Deletion of this domain had a dramatic effect on twitching motility, adhesion, and piliation but did not abolish natural transformation. These findings provide clear evidence that the pilus structures of T. thermophilus are not essential for natural transformation. The truncated complex was not affected in inner and outer membrane association, indicating that the 136 N-terminal residues are not essential for membrane targeting. Analyses of complex formation of the truncated PilQ monomers revealed that the region downstream of residue 136 is required for multimerization, and the region downstream of residue 207 is essential for monomer stability. Possible implications of our findings for the mechanism of DNA uptake are discussed.
Membrane-embedded β-barrel proteins are found in the outer membranes (OM) of Gram-negative bacteria, mitochondria and chloroplasts. In eukaryotic cells, precursors of these proteins are synthesized in the cytosol and have to be sorted to their corresponding organelle. Currently, the signal that ensures their specific targeting to either mitochondria or chloroplasts is ill-defined. To address this issue, we studied targeting of the chloroplast β-barrel proteins Oep37 and Oep24. We found that both proteins can be integrated in vitro into isolated plant mitochondria. Furthermore, upon their expression in yeast cells Oep37 and Oep24 were exclusively located in the mitochondrial OM. Oep37 partially complemented the growth phenotype of yeast cells lacking Porin, the general metabolite transporter of this membrane. Similarly to mitochondrial β-barrel proteins, Oep37 and Oep24 expressed in yeast cells were assembled into the mitochondrial OM in a pathway dependent on the TOM and TOB complexes. Taken together, this study demonstrates that the central mitochondrial components that mediate the import of yeast β-barrel proteins can deal with precursors of chloroplast β-barrel proteins. This implies that the mitochondrial import machinery does not recognize signals that are unique to mitochondrial β-barrel proteins. Our results further suggest that dedicated targeting factors had to evolve in plant cells to prevent mis-sorting of chloroplast β-barrel proteins to mitochondria.
The role of TolC has largely been explored in proteobacteria, where it functions as a metabolite and protein exporter. In contrast, little research has been carried out on the function of cyanobacterial homologues, and as a consequence, not much is known about the mechanism of cyanobacterial antibiotic uptake and metabolite secretion in general. It has been suggested that the TolC-like homologue of the filamentous, heterocyst-forming cyanobacterium Anabaena sp. PCC 7120, termed heterocyst glycolipid deposition protein D (HgdD), is involved in both protein and lipid secretion. To describe its function in secondary metabolite secretion, we established a system to measure the uptake of antibiotics based on the fluorescent molecule ethidium bromide. We analyzed the rate of porin-dependent metabolite uptake and confirmed the functional relation between detoxification and the action of HgdD. Moreover, we identified two major facilitator superfamily proteins that are involved in this process. It appears that anaOmp85 (Alr2269) is not required for insertion or assembly of HgdD, because an alr2269 mutant does not exhibit a phenotype similar to the hgdD mutant. Thus, we could assign components of the metabolite efflux system and describe parameters of detoxification by Anabaena sp. PCC 7120.
The Wood-Ljungdahl pathway of anaerobic CO(2) fixation with hydrogen as reductant is considered a candidate for the first life-sustaining pathway on earth because it combines carbon dioxide fixation with the synthesis of ATP via a chemiosmotic mechanism. The acetogenic bacterium Acetobacterium woodii uses an ancient version of the pathway that has only one site to generate the electrochemical ion potential used to drive ATP synthesis, the ferredoxin-fueled, sodium-motive Rnf complex. However, hydrogen-based ferredoxin reduction is endergonic, and how the steep energy barrier is overcome has been an enigma for a long time. We have purified a multimeric [FeFe]-hydrogenase from A. woodii containing four subunits (HydABCD) which is predicted to have one [H]-cluster, three [2Fe2S]-, and six [4Fe4S]-clusters consistent with the experimental determination of 32 mol of Fe and 30 mol of acid-labile sulfur. The enzyme indeed catalyzed hydrogen-based ferredoxin reduction, but required NAD(+) for this reaction. NAD(+) was also reduced but only in the presence of ferredoxin. NAD(+) and ferredoxin reduction both required flavin. Spectroscopic analyses revealed that NAD(+) and ferredoxin reduction are strictly coupled and that they are reduced in a 1:1 stoichiometry. Apparently, the multimeric hydrogenase of A. woodii is a soluble energy-converting hydrogenase that uses electron bifurcation to drive the endergonic ferredoxin reduction by coupling it to the exergonic NAD(+) reduction.
The lipidome of the marine hyperthermophilic archaeon Pyrococcus furiosus was studied by means of combined thin-layer chromatography and MALDI-TOF/MS analyses of the total lipid extract. 80–90% of the major polar lipids were represented by archaeol lipids (diethers) and the remaining part by caldarchaeol lipids (tetraethers). The direct analysis of lipids on chromatography plate showed the presence of the diphytanylglycerol analogues of phosphatidylinositol and phosphatidylglycerol, the N-acetylglucosamine-diphytanylglycerol phosphate plus some caldarchaeol lipids different from those previously described. In addition, evidence for the presence of the dimeric ether lipid cardiolipin is reported, suggesting that cardiolipins are ubiquitous in archaea.
Reporting on the first locality in Bocas del Toro province of extreme western Panama, we extend the known geographic distribution of the lizard Leposoma rugiceps (Cope, 1869) about 275 km westwards from the nearest locality in Panamá province. We provide photos of Panamanian specimens, comment on their morphology, and map the distribution of this binational endemism.
We report on new localities for Anolis gruuo Köhler, Ponce, Sunyer and Batista, 2007 along the Serranía de Tabasará in the Comarca Ngöbe-Buglé and Veraguas province of western Panama. These records extend the known geographic distribution of this lizard about 80 km eastward, and the known vertical distribution approximately 40 m lower and 630 m higher. We provide photos of specimens from different localities and comment on their morphology. Only the easternmost populations of this Panamanian endemic live inside a protected area.
The canonical Wnt pathway, also known as Wnt/β-‐catenin pathway, comprises a network of proteins which control diverse developmental and adult processes in all metazoan organisms. The binding of canonical Wnt ligands to a cell surface receptor complex, consisting of frizzled family members and low density lipoprotein receptor-‐ related protein 5 or 6 co‐receptors, triggers a signaling cascade which results in a β-catenin-‐mediated transcriptional activation of different target genes, implicated in cellular proliferation, apoptosis, migration and differentiation. A couple of years ago, several groups including us, iden2fied transient activation of the canonical Wnt-pathway in endothelial cells (ECs) of the developing central nervous system (CNS). In this context, Wnt/β-‐catenin signaling could be demonstrated to be crucial for brain angio genesis as well as for the establishment of the blood-brain barrier (BBB) phenotype in the newly formed vessels.
Gliomas, in particular the glioblastoma (GBM), belong to the group of highly vascularized solid tumors which gain their vascularization due to an angiogenic switch occurring during tumor progression. Interestingly, nuclear localized β-‐catenin could be exclusively detected in the activated endothelium of induced rat gliomas and of human GBM, suggesting a so far unknown and not further characterized involvement of the canonical Wnt pathway in pathological angiogenesis. In order to systematically decipher the precise role of endothelial Wnt/β-‐catenin signaling in tumor angiogenesis, I established
murine GL261 glioma cell lines overexpressing either Wnt1 or Dickkopf (Dkk) 1 in a doxycycline-‐dependent manner, an activator and potent inhibitor of Wnt/β-‐catenin signaling, respectively. In subcutaneous and intracranial transplantations, tumor-derived Wnt1 reduced, while Dkk1 increased GL261 tumor growth without affecting in vitro proliferation, cell cycle or cell death of the established cell lines. Nowadays, it is well accepted that solid tumors are dependent on vascular support allowing them to grow beyond a certain size. In my work I could show that tumor-‐derived Wnt1 targets the tumor vasculature by increasing endothelial Wnt/β-‐catenin signaling, which reduced tumor vessel density and resulted in a more quiescent tumor vasculature. Furthermore, Wnt1-‐expression mediated tight association of smooth muscle cells (SMCs) and pericytes to the tumor endothelium, a phenotype which is unusual for tumor vessels and a described hallmark of tumor vessel normalization. In contrast, inhibition of endothelial Wnt/β-‐catenin signaling by Dkk1 mediated an opposing effect, characterized by endothelial hyper-proliferation and a tumor vasculature with a rough basal lamina distribution and loosely anached mural cells, indicative of a strong angiogenic activity. The described vascular effects in Wnt1-expressing GL261 tumors could be verified by subcutaneous transplantations of a rat glioma cell line constitutively expressing Wnt1. Furthermore, an applied in vivo MatrigelTM plug assay uncovered the reduction in vessel density upon Wnt1 simulation to be tumor cell independent, suggesting an EC-‐autonomous effect. This hypothesis was confirmed by subcutaneous transplantations of parental GL261 cells into mice with genetically generated endothelial β-‐catenin gain-of-function (GOF). The derived GOF tumor from this experiment comprised a quiescent and normalized tumor vasculature and phenocopied the vascular effects observed in Wnt1-expressing tumors.
Our previous work provided evidence that Wnt/β-‐catenin signaling contributes to the BBB phenotype of the developing CNS through the transcriptional regulation of the tight junction protein claudin-‐3. Furthermore, the coverage of pericytes to brain vessels has been described to correlate with BBB integrity. In agreement with these publications, vessels of intracranial Wnt1-‐expressing GL261 tumors retained or regained barrier properties, indicated by a reduced leakage of the tracer Evans blue and endogenous mouse immunoglobulin G and increased junctional localiza2on of the tight junction proteins claudin-‐3, -‐5 and zonula occludens-‐1.
Overall, we detected sustained endothelial Wnt/β-‐catenin signaling to induce a quiescent and normalized tumor vascularization. Interestingly, the Notch signaling pathway has been shown to inhibit the angiogenic tip cell and to promote the quiescent stalk cell phenotype via its ligand Delta-like ligand 4 (Dll4) and the receptors Notch1 and 4. Mechanistically, my work demonstrated for the first time that overactivation of endothelial Wnt/β-‐catenin signaling reactivated expression of Dll4 in the tumor endothelium, which could be shown in vitro to increase Notch signaling and to favor a stalk cell-like gene signature. Furthermore, we uncovered the platelet-derived growth factor subunit B (pdgm) as a novel transcriptional target of Wnt/β-catenin signaling in ECs. Hence endothelial-‐derived PDGF-‐B is known to promote the recruitment of mural cells, the upregulation of this factor might explain the increased SMC/pericyte coverage observed in the tumor vasculature upon sustained endothelial Wnt/β-‐catenin signaling which additionally might promote a cycle of vascular normalization.
Taken together, my work reveals several vascular effects, being mediated by reinforced endothelial Wnt/β-‐catenin signaling during tumor angiogenesis. While a moderate level of canonical Wnt signaling, observed in vessels of human astrocytomas and murine control tumors, is considered to be associated with tumor angiogenesis, dominant activation of this pathway in ECs is shown to limit angiogenesis and to promote a quiescent and normalized tumor vasculature with increased barrier properties. Furthermore, my work discovers pdgm as a novel target of canonical Wnt signaling in ECs.
The work presented in this dissertation therefore not only uncovers the role of endothelial Wnt/β-‐catenin signaling in tumor angiogenesis but additionally reveals this pathway to be a novel modulator in pathological vessel development which might proof to be a valuable therapeutic target for anti-angiogenic and edema glioma therapy.
The midbrain DA system comprising dopamine (DA) neurons of the substantia nigra (SN) and the ventral tegmental area (VTA) is involved in various brain functions, including voluntary movement and the encoding and prediction of behaviorally relevant stimuli. In Parkinsonʼs disease (PD), a progressive degeneration of particularly vulnerable SN DA neurons causes a progressive DA depletion of striatal projection sites. As a consequence, motor symptoms such as tremor, hypokinesia and rigidity appear once about 50 % to 70 % of SN DA neurons have been lost. Under physiological conditions, SN DA neurons can encode behaviorally salient events and coordinated movements through tonic and phasic activity and correlated striatal DA release. Burst-activity mediates a phasic, supralinear rise of striatal DA levels and allows to activate coordinated movements via modulation of corticostriatal signals.
In the present dissertation project, pathophysiological adaptations of surviving SN DA neurons after a partial degeneration of the nigrostiatal system have been studied using a 6-hydroxydopamine mouse model of PD. Combining in vivo retrograde tracing techniques with in vitro whole-cell patch-clamp recordings, multifluorescent immunolabeling and confocal microscopy allowed an unambiguous correlation of electrophysiological phenotypes, anatomical positions and neurochemical phenotypes of recorded neurons on a single-cell level. In vitro, neuronal activity of SN DA neurons is characterized by spontaneous, slow pacemaker activity of 1 to 10 Hz and a high degree of spike-timing precision. In vitro current-clamp recordings of surviving SN DA neurons using acute brain slice preparations after a partial, PD-like degeneration of the nigrostriatal DA system showed a significant perturbation of spontaneous pacemaker activity, mirrored by a decreased spike-timing precision compared to controls. Selective pharmacology and whole-cell voltage-clamp recordings served to identify calciumactivated SK channels as molecular effectors of a perturbated pacemaker activity of surviving SN DA neurons. SK channels and have been shown to critically contribute to the spike-timing precision of SN DA neurons. Consistently, in vitro current-clamp recordings after pharmacological blockade of SK channels in vitro caused a significant decrease of spike-timing precision, occluding previously observed differences between surviving SN DA neurons and controls.In addition to in vitro patch-clamp recordings, extracellular single-unit recordings in anaesthetized animals in vivo served to study surviving SN DA neurons embedded in an intact neuronal network after a partial, PD-like degeneration of the nigrostriatal DA system. Combining in vivo single-unit recordings, juxtacellular neurobiotin labeling and multifluorescent immunohistochemistry allowed to directly correlate electrophysiological and neurochemical phenotypes as well as anatomical positions on a single-cell level. In vivo, surviving SN DA neurons showed a significant decrease of spike-timing precision as reflected by an increased irregularity and an augmented burst activity compared to controls.
The present dissertation project provided a unique combination of a neurotoxicological PD mouse model, retrograde tracing techniques and in vitro as well as in vivo electrophysiologiy, allowing to unambiguously correlate electrophysiological adaptations, projection-specific anatomical positions and neurochemical phenotypes of SN DA neurons after a partial degeneration of the nigrostriatal system. Surviving SN DA neurons exhibited a significant deficit of SK channel activity after a partial degeneration of the nigrostriatal DA system. In consequence of a diminished SK channel activity observed in vitro, surviving SN DA neurons exhibited and enhanced burst activity in vivo, providing a plausible mechanism to compensate a striatal DA depletion.
Early otic development depends on autophagy for apoptotic cell clearance and neural differentiation
(2012)
Autophagy is a highly regulated program of self-degradation of the cytosolic constituents that has key roles during early development and in adult cell growth and homeostasis. To investigate the role of autophagy in otic neurogenesis, we studied the expression of autophagy genes in early stages of chicken (Gallus gallus) inner ear development and the consequences of inhibiting the autophagic pathway in organotypic cultures of explanted chicken otic vesicles (OVs). Here we show the expression of autophagy-related genes (Atg) Beclin-1 (Atg6), Atg5 and LC3B (Atg8) in the otocyst and the presence of autophagic vesicles by using transmission electron microscopy in the otic neurogenic zone. The inhibition of the transcription of LC3B by using antisense morpholinos and of class III phosphatidylinositol 3-kinase with 3-methyladenine causes an aberrant morphology of the OV with accumulation of apoptotic cells. Moreover, inhibition of autophagy provokes the misregulation of the cell cycle in the otic epithelium, impaired neurogenesis and poor axonal outgrowth. Finally, our results indicate that autophagy provides the energy required for the clearing of neuroepithelial dying cells and suggest that it is required for the migration of otic neuronal precursors. Taken together, our results show for the first time that autophagy is an active and essential process during early inner ear development.
Background: Otic neurons and sensory cells derive from common progenitors whose transition into mature cells requires the coordination of cell survival, proliferation and differentiation programmes. Neurotrophic support and survival of post-mitotic otic neurons have been intensively studied, but the bases underlying the regulation of programmed cell death in immature proliferative otic neuroblasts remains poorly understood. The protein kinase AKT acts as a node, playing a critical role in controlling cell survival and cell cycle progression. AKT is activated by trophic factors, including insulin-like growth factor I (IGF-I), through the generation of the lipidic second messenger phosphatidylinositol 3-phosphate by phosphatidylinositol 3-kinase (PI3K). Here we have investigated the role of IGF-dependent activation of the PI3K-AKT pathway in maintenance of otic neuroblasts.
Methodology/Principal Findings: By using a combination of organotypic cultures of chicken (Gallus gallus) otic vesicles and acoustic-vestibular ganglia, Western blotting, immunohistochemistry and in situ hybridization, we show that IGF-I-activation of AKT protects neural progenitors from programmed cell death. IGF-I maintains otic neuroblasts in an undifferentiated and proliferative state, which is characterised by the upregulation of the forkhead box M1 (FoxM1) transcription factor. By contrast, our results indicate that post-mitotic p27Kip-positive neurons become IGF-I independent as they extend their neuronal processes. Neurons gradually reduce their expression of the Igf1r, while they increase that of the neurotrophin receptor, TrkC.
Conclusions/Significance: Proliferative otic neuroblasts are dependent on the activation of the PI3K-AKT pathway by IGF-I for survival during the otic neuronal progenitor phase of early inner ear development.
Autophagy is an evolutionarily conserved catabolic process by which cells degrade their own components through the lysosomal machinery. In physiological conditions, the mechanism is tightly regulated and contributes to maintain a balance between synthesis and degradation in cells undergoing intense metabolic activities. Autophagy is associated with major tissue remodeling processes occurring through the embryonic, fetal and early postnatal periods of vertebrates. Here we survey current information implicating autophagy in cellular death, proliferation or differentiation in developing vertebrates. In developing systems, activation of the autophagic machinery could promote different outcomes depending on the cellular context. Autophagy is thus an extraordinary tool for the developing organs and tissues.
Climate and subsequent environmental changes are regarded as one driver of species evolution. Against this background the present study investigates the evolutionary history of the mammalian family Bovidae (Cetartiodactyla, Mammalia), today the most species-rich family of large herbivores on the African continent. Temporal and spatial patterns in that group’s evolution are the focus of the present study and were investigated using methods and data deriving from multiple disciplines (palaeontology, genetics, climatology, conservation biology). The results serve as a validation of macroevolutionary hypotheses of species evolution.
A major proportion of African mammalian fossils can be assigned to that family. Due to their morphological adaptations, bovid species are highly indicative of their habitats. Hence, bovids are of great importance for paleontology. However, a strong taphonomic bias is present in the fossil record of bovids, favoring large and arid- adapted species. Molecular phylogenies of extant species and species distribution modelling combined with climate reconstructions can help to overcome these limitations.
A molecular phylogeny, based on the cytochrome b gene of 136 bovid species served as basis for analysis of temporal patterns. Divergence events were dated using the relaxed molecular clock approach. The tree was time calibrated at 30 nodes using information inferred from the fossil record. Lineage-Through-Time plots and the respective statistical analyses reveal detailed temporal patterns in the evolutionary history of tribes and groups combining arid- and humid-adapted tribes. The resulting pattern shows three distinct phases. Phase 1 (P1) is dominated by speciation events within the humid group, while the second phase (P2) is marked by a dominance of speciation within the arid group. The switch in diversification rates (BDS) from P1 to P2 is dated to 2.8 million years ago. The third phase (P3) shows low diversification rates for all groups, starting around 1.4 million year ago and culminates in a significantly reduced diversification rate for the complete family at 0.8 million years ago. Both transitions are contemporaneous with global climate changes and turnover events in fossil faunal communities.
To investigate the impact of climate changes onto the habitat availability within the last 3 million years and its putative influence on diversification rates, the species distribution modeling method was applied. For 85 African species and subspecies the climate niches were established and grouped into 5 climate-groups based on their climate preferences. For each group the available habitat for the period before and after the BDS was calculated on continental scale using reconstructed climate scenarios. To evaluate the modeled habitat distributions, regional analyses were performed in test areas surrounding well studied fossil sites (Laetoli, Olduvai, Chiwondo Beds, Lothagam, Koobi Fora, West Turkana, Swartkrans, Sterkfontain und Toros-Menalla). Habitat profiles (HP) permitted the comparison of the model based habitat reconstruction with the interpretations of classic paleontological reconstruction. The validity of the habitat modeling has been shown in particular for East African test areas. The reconstructions for the northern and southern fossil sites does not support the modeled habitats in these areas. Yet, the method of habitat- profiling may serve as suitable tool for environmental reconstruction of areas lacking sufficient paleontological material. A comparison of habitat availability before and after the BDS on continental scale identified a significant loss of habitat for humid adapted groups (7-22%) and habitat gain for arid adapted groups (19-173%). The climatically intermediate group experiences a tremendous gain of habitat (3366%). The greatest environmental change was modeled for East Africa, initiated by a progressive regional aridification.
In addition to the distribution modeling for past climate conditions, the geographical distribution was modeled for the future, i.e. for climate scenarios representing the years 2050 and 2080 under a putative climate change scenario (global surface warming). It was shown that in particular the arid groups have to expect a remarkable loss of habitat (41-76%), while a gain of available habitat can be expected for the humid adapted groups (114-577%). The climatically intermediate group suffers the strongest habitat loss (85%). Regions with locally stable climate conditions were detected and may serve as potential refugia and are already today known as Africa’s hot spots of biodiversity.
The results show a positive correlation of high diversification rates and increasing habitat availability. None of the tested speciation hypotheses taken alone explains the observations (e.g., Turnover-pulse Hypothesis, Relay Model). A major element in these hypotheses is the passive fragmentation of populations induced by unfavorable climate changes. In contrast, the Periodic Model (Grubb 1999) considers natural, periodically recurring climate changes and moreover, the active dispersal of individuals and resulting founder events. I added the effect of a superimposed directed climate trend – like the progressive aridification since the late Pliocene in Africa – which leads to a bias in the proportion and probability towards leading edge effects. This Directed Periodic Model explains the patterns found in the evolution of Bovidae.
The combination of a molecular phylogeny and species distribution modeling, together with information inferred from the fossil record, reveals remarkable temporal and spatial patterns in the evolution of bovids, and helps overcome the limitations of the fossil record. The present study highlights the importance of active dispersal and founder populations in speciation processes. A point widely unattended in speciation hypotheses. The fully dated molecular phylogeny is the most densely sampled tree for the family Bovidae to date and may serve as a framework for a connection of present and future population studies, permitting the connection of medium-scale with long- term effects induced by climate and environmental changes.
Introduction: The involvement of platelets in various diseases has been increasingly recognized in the recent decades. This contribution is believed to involve platelet secretion and formation of reactive microparticles. Platelets contain two functionally important forms of vesicles, alpha and dense granules, which are secreted upon activation of platelets. Alpha granules incorporate larger molecules such as adhesive proteins, e.g. P-selectin, vWF and fibrinogen; chemokines like PF4 and RANTES and growth hormones like VEGF and PDGF are among the most important proteins attributed to the involvement of platelets in pathological conditions. In contrast, dense granules contain small molecules like ADP, ATP, serotonin and histamine, and they are more rapidly and completely secreted than alpha granules. Like in all secreting cells, regulated exocytosis in platelets is mediated by “zippering” of three different classes of SNARE proteins. The subtypes of these proteins found to be involved in platelet secretion are SNAP-23, syntaxin-2 and -4 and VAMP-3 and -8. Apart from SNARE proteins, other conserved proteins influencing exocytosis by e.g. acting on SNARE proteins have been described, one of the most important ones being Munc13. Platelets contribute to the progression of atherosclerosis by local deposition of inflammatory mediators like PF4, RANTES and CD40L, which leads to enhanced leukocyte recruitment and plaque formation. In 1865, Armand Trousseau first described the correlation between cancer and thrombotic events. Since the 1960s, an increasing number of studies have found an involvement of platelets also in the progression of cancer, especially in the formation of metastases. Platelets bind to circulating tumor cells and may shield them from NK cell attacks and shear stress. Platelets may also facilitate the interaction of tumor cells with other cell types and the vessel wall. Lastly, they may secrete molecules that influence the tumor cell phenotype and invasiveness.
Aims of this study: We sought to generate and describe genetically modified mouse lines with defective platelet secretion and to employ these mouse lines in murine models of atherosclerosis and tumor progression to study the role of platelet secretion under pathological in vivo conditions.
Results: Clostridial toxins cleave members of the SNARE protein family and can thus completely block exocytosis of neuronal and other cells. We generated three transgenic mouse lines expressing tetanus, botulinum-E or -C light chains and two transgenic mouse lines with dominant-negative mutations of SNAP-23 under the control of the platelet-specific PF4 promotor. None of these constructs was able to interfere with platelet secretion despite expression of the transgene. A functional null mutant of the only Munc13 isoform expressed in platelets, Munc13-4, showed complete lack of dense granule secretion, measured by ATP release, while alpha granule release as determined by PF4 and vWF secretion, was unaltered. Morphology, composition and adhesion of these platelets were also normal. Aggregation in response to U46619 and collagen and formation of large aggregates in flow chamber assays was attenuated. Munc13-4-deficient mice showed a severe defect in bleeding time and no formation of stable aggregates in FeCl3 thrombosis model. In response to B16 melanoma and LLC1 carcinoma cells, Munc13-4 KO platelets also showed complete abrogation of dense granule secretion, whereas alpha granule secretion and binding of platelets to tumor cells was unchanged. Interestingly, wild-type platelets, but not Munc13-4 KO platelets, enhanced transmigration of B16 and LLC1 cells through an endothelial cell layer. Exogenous ATP was able to mimic the effect of wild-type platelets and the ATP-degrading enzyme apyrase blocked platelet-mediated tumor cell transmigration. Platelets incubated with tumor cells secreted large amounts of ATP. Murine endothelial cells showed perturbed adherens junctions identified by irregular VE-cadherin staining and gap formation when incubated with supernatants from tumor cell-activated platelets as well as increased permeability under the same conditions. Addition of apyrase preserved normal endothelial morphology and function. In vivo, primary tumor growth and weight was comparable in wild-type and Munc13-4 KO mice upon B16 or LLC1 flank injection but formation of lung metastases was strongly reduced. Number, but not size of metastases was also reduced upon i.v. injection of B16 and LLC1 cells. We found P2Y2 and P2X4 receptors to be the most abundantly expressed endothelial metabotropic and ionotropic ATP receptors, respectively. Neither knock-down nor inhibition of P2X4 in endothelial cells influenced platelet-mediated transendothelial migration of B16 cells, but knock-down of P2Y2, for which no specific antagonist is available, strongly reduced plateletdependent tumor cell transmigration. When B16 melanoma cells were injected i.v. shortly after FITC-dextran (70 kDa) into wild-type mice, prominent leakage of FITC-dextran was observed three hours post-injection at extraluminal sites in the lung. In contrast, leakage into the lung parenchyma was at basal levels in Munc13-4 KO and P2Y2 KO mice after B16 cell injection. Marginal vascular leakage in Munc13-4 KO mice lacking platelet ATP secretion and in P2Y2 KO mice lacking the main endothelial ATP receptor correlated with strongly reduced extravasation of CFSE-labeled B16 melanoma cells 6 hours post-injection in these mice. Consistently, P2Y2 KO mice showed strongly reduced formation of metastases in the lung after i.v. injection of B16 or LLC1 tumor cells. Bone marrow-transplanted LDLR KO mice reconstituted with Munc13-4-deficient or wildtype bone marrow and subjected to 16 weeks of high fat diet showed no significant difference in atherosclerotic plaque formation in the aorta.
Discussion: We hereby provide a thorough analysis of a mouse line with an exclusive defect in platelet dense granule secretion, thus representing a unique genetic tool to study the role of dense granule secretion in various contexts without interfering with other platelet functions. We also provide evidence how extravasation of circulating tumor cells is facilitated by tumor cell-induced ATP release from platelets. This ATP release destabilizes endothelial barriers and facilitates tumor cell extravasation and formation of metastases in the target organ. Since metastasis is the leading cause of cancer death, pharmacological interference with endothelial P2Y2 receptor function may represent a promising therapeutic strategy.
Iron-rich structures have been described in the beak of homing pigeons, chickens and several species of migratory birds and interpreted as magnetoreceptors. Here, we will briefly review findings associated with these receptors that throw light on their nature, their function and their role in avian navigation. Electrophysiological recordings from the ophthalmic nerve, behavioral studies and a ZENK-study indicate that the trigeminal system, the nerves innervating the beak, mediate information on magnetic changes, with the electrophysiological study suggesting that these are changes in intensity. Behavioral studies support the involvement of magnetite and the trigeminal system in magnetoreception, but clearly show that the inclination compass normally used by birds represents a separate system. However, if this compass is disrupted by certain light conditions, migrating birds show 'fixed direction' responses to the magnetic field, which originate in the receptors in the beak. Together, these findings point out that there are magnetite-based magnetoreceptors located in the upper beak close to the skin. Their natural function appears to be recording magnetic intensity and thus providing one component of the multi-factorial 'navigational map' of birds.
In the first part of this work, the development of a novel two-dimensional native gel electrophoretic system (2-D BN/hrCNE) is described. This new system simplifies proteomics and biochemical analysis of mega protein complexes that are dissociated into the constituent complexes during 2-D electrophoresis, thereby reducing the complexity of the system considerably. This technique is exceptionally well suited for the in-gel detection of fluorescence-labeled proteins and the identification of individual enzymes and protein complexes by specific in-gel assays on native gels.
In the second part, a new technique for the native immunoblotting of blue native gels (NIBN) was developed. This new technique allows for the identification of conformation-specific antibodies and the discrimination of antibodies recognizing linear epitopes of denatured proteins. Identification of conformation-specific antibodies is becoming increasingly important not only for the electron microscopic identification of native proteins but also for structural investigations in general. For this purpose, a commonly used protocol for Western blotting of blue native gels was modified in such a way that the native state of proteins and protein complexes was retained throughout the complete protocol. Instead of using the denaturing methanol in Western blotting protocols, mild detergents such as Tween 20, digitonin and Brij 35 were used for the obligatory removal of protein bound Coomassie-dye.
The detection of respiratory complex I by activity staining on the blot membrane demonstrated that all three non-ionic detergents preserved the native state of complex I. The native state of the enzyme on the blot membrane was also monitored and confirmed with the help of a set of conformation-specific antibodies. NIBN can be used as a simple alternative method to the demanding native ELISA to screen for conformation-specific antibodies for structural studies. Unlike the time consuming native ELISA, NIBN does not require introduction of appropriate affinity tags and purification of the target protein by chromatography. Thus, the NIBN technique is especially useful for microscale projects and for proteins not easily accessible to genetic manipulation.
The third part aimed at identification of the immediate protein interaction partners of Cox26, a hydrophobic protein that has been identified by our group as a novel component of yeast respiratory supercomplex. Multi-dimensional electrophoretic techniques were applied to identify non-covalent and covalent protein-protein interactions of Cox26. Three-dimensional electrophoresis (BNE/BNE/SDS-PAGE) gave both qualitative and quantitative information on covalent and non-covalent interactions of Cox26 and subunits of cytochrome c oxidase (complex IV), and showed that most of the Cox26 protein was non-covalently bound to the complex IV moiety of the respirasomes. Four-dimensional electrophoresis (BNE/BNE/SDS/SDS-PAGE) applying reducing and non-reducing conditions revealed that a minor fraction of Cox26 used a single cysteine residue in the center of a predicted transmembrane helix to form a disulfide bond with the Cox2 subunit of complex IV. A structural role of Cox26 protein in the assembly/stability of respiratory strings or patches has been suggested.
The last part of this work focused on the isolation and characterization of native and morphologically intact nucleoids from bovine heart mitochondria, since only a few studies on nucleoid organization and composition have been carried out on mammalian tissues. The nucleoids appeared as distinct bands (apparent mass around 30-36 MDa) in blue native-PAGE on large pore gels. The moderate variation in particle size seems to reflect variations in the binding of loosely nucleoid-associated components like respiratory chain complexes. The estimated 30-36 MDa mass of nucleoids on native gels suggested that each nucleoid contains one mtDNA molecule provided that nucleoids contains equal amounts of DNA, protein and RNA (Miyakawa et al., 1987).
Electron microscopic analysis of native nucleoids, which was performed by Dr. Karen Davies from the Max-Planck-Institute of Biophysics, Department of Structural Biology, Frankfurt, showed homogenous pool of particles with dimensions in 85x100 nm (in negative stain) and 100x150 nm (in cryo-tomography). Some of the nucleoids showed dumbbell-shape indicating dimerization of nucleoids. Recent EM and high-resolution light microscopy analysis of mammalian nucleoids have reported that nucleoids have a size of 70 nm in average. We also observed the same size of 70 nm in cryo-tomogramms when we applied harsher treatment of the native nucleoid particles with dimensions 100x150 nm. This observation is in agreement with published nucleoid sizes from both EM and high-resolution light microscopy, if we assume that native nucleoids have been dissociated under harsher treatment.
The protein composition of bovine heart mt-nucleoids was analyzed by a number of complementary approaches to identify low and highly abundant, easily dissociating and tightly bound proteins, and to rank the 90 most abundant mt-nucleoid proteins. Native and denaturing gel electrophoresis techniques were coupled to LC-MS/MS to achieve a comprehensive protein component analysis. Qualitative MS analysis of highly purified nucleoids identified more than 400 proteins, including well known nucleoid proteins such as mitochondrial transcription factor and mtDNA-binding protein (TFAM), mitochondrial single-stranded DNA-binding protein (mtSSB), mitochondrial DNA polymerase subunit gamma-2 (POLG2) and mitochondrial helicase C26H10ORF2 protein (Twinkle). These proteins were ranked according to Mascot scores, and sorted according to presumed functional properties. A large group of proteins involved in protein synthesis comprised an almost complete set of subunits of mitochondrial ribosomes suggesting that the nucleoids contained significant amounts of mitochondrial ribosomes. Identification of sixty six proteins from the oxidative phosphorylation (OXPHOS) system comprising around 100 proteins in total suggested that OXPHOS proteins are also associated with mt-nucleoids.
Interestingly, TFAM, described as a main mtDNA packaging factor in human and other mammalian cells, was not confirmed here as a major nucleoid component from bovine heart mitochondria. Fluorescence staining of protein spots on 2-D IEF/SDS gels clearly identified TFAM, but according to the stain intensity, this protein did not rank in the list of the 90 most abundant nucleoid proteins. Western blot analysis of sucrose gradient fractions revealed an enrichment of putative TFAM isoform in nucleoid fractions. Unexpectedly, the uncharacterized mitochondrial protein Es1 was identified as the most abundant nucleoid protein in bovine heart nucleoids instead. This implicates that nucleoid organization may differ between species and tissues. A functional characterization of Es1 is required to clarify its role in mammalian nucleoids.
The environmental impact of climate change is meanwhile not only discussed in the scientific community but also in the general public. However, little is known about the interaction between climate change and pollutants like pesticides. A combination of multiple stressors (e.g. temperature, pollutants, predators) may lead to severe alterations for organisms such as changes in time of reproduction, reproductive success and growth performance, mortality and geographic distribution. The questions if aquatic organisms tend to react more sensitive towards incidents under climate change conditions remains. Therefore, within the present thesis the aquatic ecotoxicological profile of the fungicide pyrimethanil, as an exemplarily anthropogenic used contaminant, was examined.
A large test battery of ecotoxicological standard tests and supplement bioassays with non-model species was conducted to investigate if species-specific or life stage-specific differences occur or if temperature alteration may change the impact of the fungicide. Two of the most sensitive species (Chironomus riparius and Daphnia magna) were used to investigate the acute and chronic thermal dependence of pyrimethanil effects. The results clearly depict that the ecotoxicity of pyrimethanil at optimal thermal conditions did not depend on the trophic level, but was species-specific. With regard to EC10 values the acute pyrimethanil toxicity on C. riparius increased with higher temperature (6.78 mg L-1 at 14°C and 3.06 mg L-1 at 26°C). The chronic response of D. magna to the NOEC (no observed effect concentration) of the fungicide (0.5 mg L-1) was examined in an experiment which lasted for several generations under three simulated near-natural temperature regimes (‘cold year, today’ (11 to 22.7°C), ‘warm year, today’ (14 to 25.2°C) and ‘warm year, 2080’ (16.5 to 28.1°C)). A pyrimethanil-induced mortality increase was buffered by the strongly related increase of the general reproductive capacity, while population growth was stronger influenced by temperature than by the fungicide. At a further pyrimethanil concentration (LOEC – lowest observed effect concentration: 1 mg L-1), a second generation could not be established by D. magna under all thermal regimes.
Besides daphnids, the midge C. riparius was used for a second multigeneration study. In a bifactorial test design it was tested if climate change conditions alter or affect the impact of a low fungicide concentration on life history and genetic diversity. The NOAEC/2 (half of the no observed adverse effect concentration derived from a standard toxicity test) was used as a low pyrimethanil concentration to which laboratory populations of the midges were chronically exposed under the mentioned temperature scenarios. During the 140-day-multigeneration study, survival, emergence, reproduction, population growth, and genetic diversity of C. riparius were analyzed. The results reveal that high temperatures and pyrimethanil act synergistically on life history parameters of C. riparius. In simulated present-day scenarios, a NOAEC/2 of pyrimethanil provoked only slight to moderate beneficial or adverse effects. In contrast, an exposure to a NOAEC/2 concentration of pyrimethanil at a thermal situation likely for a summer under the future expactations uncovered adverse effects on mortality and population growth rate. In addition, genetic diversity was considerably reduced by pyrimethanil in the ‘warm year, 2080’ scenario, but only slightly under current climatic conditions. The multigeneration studies under near-natural thermal conditions indicate that not only the impact of climate change, but also low concentrations of pesticides may pose a reasonable risk for aquatic invertebrates in the future. This clearly shows that thermal and multigenerational effects should be considered when appraising the ecotoxicity of pesticides and assessing their future risk for the environment.
In addition to temperature further multiple abiotic and biotic stressors alterate pollutant effects. Moreover, to better discriminate and understand the intrinsic and environmental correlates of changing aquatic ecosystems, it was experimentally unraveled how the effects of a low-dose of pyrimethanil on daphnids becomes modified by different temperatures (15°C, 20°C, 25°C) and in the presence/ absence of predator kairomones of Chaoborus flavicans larvae. The usage of a fractional multifactorial test design provided the possibility to investigate the individual growth, reproduction and population growth rate of Daphnia pulex via different exposure routes to the fungicide pyrimethanil at an environmentally relevant concentration (0.05 mg L-1) - either directly (via the water phase), indirectly (via algae food), dually (via water and food) or for multiple generations (fungicide treated source population).
The number of neonates increased with increasing temperatures. At a temperature of 25°C no significant differences between the individual treatment groups were observed although the growth was overall inhibited due to pyrimethanil. Besides, at 15 and 20°C it is obvious that daphnids which were fed with contaminated algae had the lowest reproduction and growth rate. The obtained results clearly demonstrate that multiple stress factors can modify the response of daphnids to pollutants. The exposure routes of the contaminant are of minor importance, while temperature and the presence of a predator are the dominant factors impacting the reproduction of D. pulex. It can be concluded that low concentrations of pyrimethanil may disturb the zooplankton community at suboptimal temperature conditions, but the effects will become masked if chaoborid larvae are present. Therefore it seems necessary to observe prospectively if the combination of several stress factors like pesticide exposure and suboptimal temperature may influence the life history and sensitivity of several aquatic invertebrates differently.
Besides standard test organisms it is inevitable to conduct test with aquatic invertebrate which are not yet considered regularly in ecotoxicological experiments. For example molluscs represent one of the largest phyla of macroinvertebrates with more than 100.000 species, being ecologically and economically important. Therefore, within the present study embryo, juvenile, half- and full-life cycle toxicity tests with the snail Physella acuta were performed to investigate the impact of pollutants on various life stages. Different concentrations of pyrimethanil (0.06-0.5 or 1.0 mg L-1) assessed at three temperatures (15°C, 20°C, 25°C) revealed that pyrimethanil caused concentration-dependent effects independent of temperature. Interestingly, the ecotoxicity of pyrimethanil was higher at lower temperature for the embryo hatching and F1 reproduction, but its ecotoxicity for the growth of juveniles and the F0 reproduction increased with increasing temperature. More specifically, it could have been observed that especially during the reproduction test high mortality rates occurred at the highest concentration of 1 mg L-1 at all temperatures. Due to high mortality rates no snails were available for the F1 at the highest concentrations (0.5 and 1.0 mg L-1). Compared to the F0, overall more egg masses were produced in the F1, being all fertile and no mortality occurred. For the F1-generation the strongest pyrimethanil effects were detected at 15°C. A comparison of effect concentrations between both generations showed that the F1 is more sensitive than the F0.
These results indicate that an exposure over more than one generation may give a better overview of the impact of xenobiotics. With the establishment of an embryo and reproduction test under different temperatures and various concentrations of pyrimethanil with P. acuta we could successfully show that molluscs can respond more sensitive than model organisms and that both, chemical and thermal stressor strongly influence the behaviour of the pulmonates. It can be concluded that the high susceptibility for the fungicide observed in gastropods clearly demonstrates the complexity of pesticide-temperature interactions and the challenge to draw conclusions for the ecotoxicological risk assessment of pesticides under the impact of global climate change.
Background: Elucidating the genomic basis of adaptation and speciation is a major challenge in natural systems with large quantities of environmental and phenotypic data, mostly because of the scarcity of genomic resources for non-model organisms. The Atlantic molly (Poecilia mexicana, Poeciliidae) is a small livebearing fish that has been extensively studied for evolutionary ecology research, particularly because this species has repeatedly colonized extreme environments in the form of caves and toxic hydrogen sulfide containing springs. In such extreme environments, populations show strong patterns of adaptive trait divergence and the emergence of reproductive isolation. Here, we used RNA-sequencing to assemble and annotate the first transcriptome of P. mexicana to facilitate ecological genomics studies in the future and aid the identification of genes underlying adaptation and speciation in the system.
Description: We provide the first annotated reference transcriptome of P. mexicana. Our transcriptome shows high congruence with other published fish transcriptomes, including that of the guppy, medaka, zebrafish, and stickleback. Transcriptome annotation uncovered the presence of candidate genes relevant in the study of adaptation to extreme environments. We describe general and oxidative stress response genes as well as genes involved in pathways induced by hypoxia or involved in sulfide metabolism. To facilitate future comparative analyses, we also conducted quantitative comparisons between P. mexicana from different river drainages. 106,524 single nucleotide polymorphisms were detected in our dataset, including potential markers that are putatively fixed across drainages. Furthermore, specimens from different drainages exhibited some consistent differences in gene regulation.
Conclusions: Our study provides a valuable genomic resource to study the molecular underpinnings of adaptation to extreme environments in replicated sulfide spring and cave environments. In addition, this study adds to the increasing number of genomic resources in the family Poeciliidae, which are widely used in comparative analyses of behavior, ecology, evolution, and medical genetics.