Biologische Hochschulschriften (Goethe-Universität)
Refine
Year of publication
Document Type
- Doctoral Thesis (854)
- Article (12)
- Part of Periodical (2)
- Bachelor Thesis (1)
- Diploma Thesis (1)
Has Fulltext
- yes (870)
Is part of the Bibliography
- no (870)
Keywords
- Gentherapie (7)
- NMR-Spektroskopie (6)
- gene therapy (6)
- Elektrophysiologie (5)
- Molekularbiologie (5)
- RNA (5)
- Schmerz (5)
- Apoptosis (4)
- Arzneimitteldesign (4)
- Carotinoide (4)
Institute
- Biowissenschaften (552)
- Biochemie und Chemie (169)
- Biochemie, Chemie und Pharmazie (79)
- Pharmazie (32)
- Institut für Ökologie, Evolution und Diversität (21)
- Georg-Speyer-Haus (6)
- Medizin (5)
- Geowissenschaften (4)
- Biodiversität und Klima Forschungszentrum (BiK-F) (3)
- Frankfurt Institute for Advanced Studies (FIAS) (3)
Im Mittelpunkt dieser Arbeit stand die Untersuchung der Reaktivität von Chlorsilanen gegenüber Elektronenpaardonoren. Als Basis hierfür diente die Alkylamin-katalysierte (NMe3, NMe2Et, NEt3) quantitative Disproportionierung von Si2Cl6 bzw. Si3Cl8 zum Neopentasilan 3 und SiCl4 (T ≤ RT, Schema 40). Obwohl diese Reaktion bereits seit über 60 Jahren bekannt ist, sind für ihren Mechanismus nur Vermutungen aufgestellt worden. In Kooperation mit der Gruppe um M. Holthausen ist es hier gelungen, das SiCl2-Amin-Addukt 57 als entscheidende Zwischenstufe zu identifizieren (1H29Si-HMBC-NMR-Experiment sowie DFT-Rechnungen). Si(SiCl3)4, die thermodynamische Senke des Systems, entsteht durch anschließende Insertion des Dichlorsilylens in Si−Cl-Bindungen – bevorzugt am höchst substituierten Si-Zentrum (es bilden sich keine linearen bzw. weniger verzweigten Oligosilane). Zudem lässt sich das koordinierte Amin vom SiCl2-Addukt wieder abspalten, was die Si(SiCl3)4-Synthese überhaupt erst ermöglicht. Dieses Verhalten unterscheidet sich grundlegend vom jenen literaturbekannter stabilisierter Chlorsilylene: hier bindet der Donor so stark an das Si-Atom, dass er den ambiphilen Charakter des Silylens zugunsten der Lewis-basischen Funktion einschränkt. Daher kann man mit diesen Addukten auch keine Oligosilane aufbauen, die mittlerweile auch das Interesse der chemischen Industrie erweckt haben...
The ongoing debate on deforestation in the tropics usually points out agriculture and logging as the main causes. The two activities are often linked and the trails created by logging com-panies with their heavy machines are afterwards used by farmers to penetrate deep into the forest and cultivate. Shifting cultivation is a widespread agricultural practice in the tropics and its sustainability is often a matter of controversy. It is necessary to investigate forest recovery after shifting cultivation, analyze its succession stages for comparison with regeneration after natural disturbance, and evaluate its role for discussing the hazards of deforestation.
Global climate change and land use change will not only alter entire ecosystems and biodiversity patterns, but also the supply of ecosystem services. A better understanding of the consequences is particularly needed in under-investigated regions, such as West Africa. The projected environmental changes suggest negative impacts on nature, thus representing a threat to the human well-being. However, many effects caused by climate and land use change are poorly understood so far. Thus, the main objective of this thesis was to investigate the impact of climate and land use change on vegetation patterns, plant diversity and important provisioning ecosystem services in West Africa. The three different aspects are separately explored and build the chapters of this thesis. The findings help to improve our understanding of the effects of environmental change on ecosystems and human well-being. In the first study, the main objectives were to model trends and the extent of future biome shifts in West Africa that may occur by 2050. Also, I modelled a trend in West African tree cover change, while accounting for human impact. Additionally, uncertainty in future climate projections was evaluated to identify regions with reliable trends and regions where the impacts remain uncertain. The potential future spatial distributions of desert, grassland, savanna, deciduous and evergreen forest were modelled in West Africa, using six bioclimatic models. Future tree cover change was analysed with generalized additive models (GAMs). I used climate data from 17 general circulation models (GCMs) and included human population density and fire intensity to model tree cover. Consensus projections were derived via weighted averages to: 1) reduce inter-model variability, and 2) describe trends extracted from different GCM projections. The strongest predicted effect of climate change was on desert and grasslands, where the bioclimatic envelope of grassland is projected to expand into the Sahara desert by an area of 2 million km2. While savannas are predicted to contract in the south (by 54 ± 22 × 104 km2), deciduous and evergreen forest biomes are expected to expand (64 ± 13 × 104 km2 and 77 ± 26 × 104 km2). However, uncertainty due to different GCMs was particularly high for the grassland and the evergreen forest biome shift. Increasing tree cover (1–10%) was projected for large parts of Benin, Burkina Faso, Côte d’Ivoire, Ghana and Togo, but a decrease was projected for coastal areas (1–20%). Furthermore, human impact negatively affected tree cover and partly changed the direction of the projected climate-driven tendency from increase to decrease. Considering climate change alone, the model results of potential vegetation (biomes) showed a ‘greening’ trend by 2050. However, the modelled effects of human impact suggest future forest degradation. Thus, it is essential to consider both climate change and human impact in order to generate realistic future projections on woody cover. The second study focused on the impact and the interplay of future (2050) climate and land use change on the plant diversity of the West African country Burkina Faso. Synergistic forecasts for this country are lacking to date. Burkina Faso covers a broad bioclimatic gradient which causes a similar gradient in plant diversity. Thus, the impact of climate and land use change can be investigated in regions with different levels of species richness. The LandSHIFT model from the Centre of Environmental System research CESR (Kassel, Germany) was adapted for this study to derive novel regional, spatially explicit future (2050) land use simulations for Burkina Faso. Additionally, the simulations include different assumptions on the technological developments in the agricultural sector. Oneclass support vector machines (SVMs), a machine learning method, were performed with these land use simulations together with current and future (2050) climate projections at a 0.1° resolution (cell: ~ 10 × 10 km). The modelling results showed that the flora of Burkina Faso will be primarily negatively impacted by future climate and land use changes. The species richness will be significantly reduced by 2050 (P < 0.001, paired Wilcoxon signed-rank test). However, contrasting latitudinal patterns were found. Although climate change is predicted to cause species loss in the more humid regions in Southern Burkina Faso (~ 200 species per cell), the model projects an increase of species richness in the Sahel. However, land use change is expected to suppress this increase to the current species diversity level, depending on the technological developments. Climate change is a more important threat to the plant diversity than land use change under the assumption of technological stagnation in the agricultural sector. Overall, the study highlights the impact and interplay of future climate and land use change on plant diversity along a broad bioclimatic gradient in West Africa.Furthermore, the results suggest that plant diversity in dry and humid regions of the tropics might generally respond differently to climate and land use change. This pattern has not been detected by global studies so far. Several of the plant species in West Africa significantly contribute to the livelihoods of the population. The plants provide so-called non-timber forest products (NTFPs), which are important provisioning ecosystem services. However, these services are also threatened by environmental change. Thus, the third study aimed at developing a novel approach to assess the impacts of climate and land use change on the economic benefits derived from NTFPs. This project was carried out in cooperation with Katja Heubach (BiK-F) who provided data on household economics. These data include 60 interviews that were conducted in Northern Benin on annual quantities and revenues of collected NTFPs from the three most important savanna tree species: Adansonia digitata, Parkia biglobosa and Vitellaria paradoxa. The current market prices of the NTFPs were derived from respective local markets. To assess current and future (2050) occurrence probabilities of the three species, I calibrated niche-based models with climate data (from Miroc3.2medres) and land use data (LandSHIFT) at a 0.1° resolution (cell: ~ 10 × 10 km). Land use simulations were taken from the previous study on plant diversity. Three different niche-based models were used: 1) generalized additive models (regression method), 2) generalized boosting models (machine learning method), and 3) flexible discriminant analysis (classification method). The three model simulations were averaged (ensemble forecasting) to increase the robustness of the predictions. To assess future economic gains and losses, respectively, the modelled species’ occurrence probabilities were linked with the spatially assigned monetary values. Highest current annual benefits are obtained from V. paradoxa (54,111 ± 28,126 US$/cell), followed by P. biglobosa (32,246 ± 16,526 US$/cell) and A. digitata (9,514 ± 6,243 US$/cell). However, in the prediction large areas will lose up to 50% of their current economic value by 2050. Vitellaria paradoxa and Parkia biglobosa, which currently reveal the highest economic benefits, are heavily affected. Adansonia digitata is negatively affected less strongly by environmental change and might regionally even supply increasing economic benefits, in particular in the west and east of the investigation area. We conclude that adaptive strategies are needed to create alternative income opportunities, in particular for women that are responsible for collecting the NTFPs. The findings provide a benchmark for local policy-makers to economically compare different land use options and adjust existing management strategies for the near future. Overall, this thesis improves our understanding of the impacts of climate and land use changes on West African vegetation patterns, plant diversity and provisioning ecosystem services. Climate change had spatially varying impacts (positive and negative effects) on the vegetation cover and plant diversity, while predominantly negative effects resulted from human pressure. Regional contrasting impacts of environmental change were also found considering the provisioning ecosystem services.
The impacts of human activities, notably the conversion of tropical forests into farmland habitat, has profound impacts on biological diversity and ecosystem functions (Millennium Ecosystem Assessment 2005). It is widely debated to what extent human modified landscapes can maintain tropical biodiversity and their ecosystem functionality (e.g. Waltert et al. 2004, Sekercioglu et al. 2007). In this thesis, I have used a huge and temporarily replicated dataset to assess the value of different habitat types differing in land-use intensities for bird communities in tropical East Africa. I investigated bird abundance and species richness along a forest-farmland habitat gradient and assessed spatial and temporal fluctuations of bird assemblages and their food resources.
I could show that forest and farmland habitats harbor distinct bird communities. Moreover, the protection of natural forests merits the highest priority for conserving the high diversity of forest-dependent bird species. My study, however, also shows that farmland habitats in the proximity of natural forest can support a high bird diversity. High bird diversity in tropical farmlands depends on a high structural complexity, such as in small-scale subsistence farmlands. From my findings, I conclude that the conversion of forest to farmland leads to substantial losses in bird diversity, in particular in specialized feeding guilds such as insectivores, while the conversion of structurally heterogeneous subsistence farmlands to sugarcane plantation causes erosion of bird diversity in agricultural ecosystems. Both findings are important for conservation planning in times when tropical forests and agroecosystems are under constantly high pressure due to increasing human population numbers and global demands for biofuel crops (Gibbs et al. 2008). From an ecosystem function perspective, my study demonstrates the potential of agroecosystems in supporting important ecosystem functions, such as seed dispersal by frugivorous birds and pest control by insectivorous birds. I could show that bird abundances in both frugivorous and insectivorous guilds were strongly predicted by their respective food resources, implying that seasonal shifts in fruit and invertebrate abundance at Kakamega forest and surrounding farmlands affect community dynamics and appear to influence local movement patterns of birds. The most interesting finding of this study was that feeding guilds responded idiosyncratically to resource fluctuations. Frugivore richness fluctuated asynchronously in forest and farmland habitats, suggesting foraging movements and fruit tracking across habitat borders. In contrast, I found that insectivores fluctuated synchronously in the two habitat types, suggesting a lack of inter-habitat movements. I therefore predict that insectivorous bird communities in this forest-farmland landscape may be more susceptible to the combined effects of land-use and climate change, due to their narrow habitat niche and limited capacity to track their resources.
The fact that a number of bird species regularly moved across the landscape mosaic in my study system implies that birds are able to provide long-distance seed dispersal across habitat borders. Thus, birds may enhance forest regeneration in human-modified landscapes, such as those in most parts of tropical Africa, given that forest remnants are protected within an agricultural habitat matrix. In order to effectively conserve tropical biodiversity within forest-farmland mosaics, this study advocates for conservation strategies that go beyond forest protection and explicitly integrate farmlands into forest management plans and policies. This should emphasize the retention of keystone habitat elements within tropical farmland landscapes, such as indigenous trees, forest galleries and hedgerows, whose presence enhance species diversity. Such grassroot-level approaches can be operationalized for instance through providing incentives to farmers to maintain their traditional subsistence land-use practices and through community-based livelihood projects aiming at enhancing local habitat heterogeneity and inter-habitat connectivity.
Um der Erkennung durch das körpereigene Immunsystem entkommen, weisen Tumore Modifikationen in ihrer Mikroumgebung auf. Zu diesen gehören u. a. veränderte Sauerstoffkonzentrationen im Tumorkern und die Freisetzung biochemischer Faktoren aus Tumorzellen, welche die Funktion von Tumor-assoziierten Phagozyten, wie z.B. Dendritischen Zellen (DC) beeinflussen. DC sind professionelle Antigen-präsentierende Zellen, die eine Spezialisierung in verschiedene funktionale Subtypen aufweisen. Myeloische DC (mDC) sind besonders effizient in Hinsicht auf die Präsentation von Antigenen, wohingegen plasmazytoide DC (pDC) regulatorisch auf das Immunsystem einwirken. Beide Subtypen spielen eine wichtige Rolle bei der Karzinogenese.
Während humane mDC, zur therapeutischen Verwendung, ex vivo aus Monozyten hergestellt werden können, war dies für humane pDC bisher nicht möglich. Ein war deshalb ein erstes Ziel dieser Arbeit, ein Protokoll zur Generierung humaner pDC aus humanen Monozyten zu entwickeln. Diese wurden mittels des Wachstumsfaktors Fms-related tyrosine kinase 3 ligand (Flt3-L) zu pDC-Äquivalenten differenziert, welche als monocyte-derived pDC (mo-pDC) bezeichnet wurden. In der Tat zeigten mo-pDC ein für humane pDC charakteristisches Oberflächenmarkerprofil und wiesen, im Vergleich zu mDC, eine geringe Kapazität zur Induktion der Proliferation autologer T Zellen und zur Phagozytose apoptotischer Zellen auf. Mo-pDC erwarben im Verlauf ihrer Differenzierung aus Monozyten eine kontinuierlich erhöhte Expression des pDC-spezifischen Transkriptionfaktors E2-2 und seiner spezifischen Zielgene. Der wichtigste funktionale Parameter von pDC ist die Produktion großer Mengen von Interferon-α (IFN-α). Mo-pDC sezernierten, nach vorheriger Aktivierung mit Tumornekrosefaktor-α (TNF-α) oder wenn zu ihrer Differenzierung neben Flt3-L auch Vitamin D3 oder all-trans-Retinolsäure verwendet wurde, ebenfalls große Mengen IFN-α. Wurden mo-pDC unter Hypoxie, einem prominenten Faktor der Tumormikroumgebung, generiert, so waren die Expression des spezifischen Transkriptionsfaktors E2-2 und die Freisetzung von IFN-α stark vermindert. Diese Daten zeigten zunächst, dass mo-pDC für das Studium von Differenzierung und Funktion humaner pDC eingesetzt werden können.
Weiterhin lieferten sie Hinweise auf eine veränderte Differenzierung humaner pDC unter Hypoxie. In einem nächsten Schritt wurde folglich untersucht, ob Hypoxie auch die Differenzierung von pDC aus deren physiologischen Vorläufern beeinflusst. Wurden Knochenmarkszellen der Maus mit Flt3-L unter Normoxie oder Hypoxie kultiviert, so war die Differenzierung zu pDC unter Hypoxie in der Tat unterdrückt. Dies war abhängig von der Hypoxie-induzierten Aktivität des Hypoxie-induzierten Faktors 1 (HIF-1), da die Flt3-Linduzierte Differenzierung von murinen Knochenmarkszellen, in denen die Expression von HIF-1 in pDC-Vorläuferzellen ausgeschaltet war, unter Hypoxie normal verlief.
Zusammenfassend kann also gesagt werden, dass Hypoxie, durch Aktivierung von HIF-1, Differenzierung und Funktion von pDC unterdrückt. Dieser Mechanismus könnte zu ihrer beschriebenen Dysfunktion in humanen Tumoren beitragen.
Neben Hypoxie sind viele andere Faktoren an der Immunsuppression in Tumoren beteiligt.
Eine Komponente der Mikroumgebung in Tumoren ist das Vorhandensein apoptotischer Tumorzellen. Apoptose von Tumorzellen findet, im Kontrast zur generellen Sicht von Tumoren als Apoptose-resistente Entitäten, auch in unbehandelten Tumoren im Überfluss statt. Apoptotische körpereigene Zellen unterdrücken unter physiologischen Bedingungen das Immunsystem. Deshalb könnte das Freisetzen von apoptotischem Material oder die Sekretion von Faktoren aus sterbenden Tumorzellen einen starken Einfluss auf die Funktion von Tumor-assoziierten DC und die damit verbundene Aktivierung von tumoriziden Lymphozyten haben. Eine diesbezügliche Studie war das zweite Ziel der vorliegenden Arbeit. Humane mDC wurden zu diesem Zweck mit Überständen lebender, apoptotischer oder nekrotischer humaner Brustkrebszellen aktiviert und anschließend mit autologen T Zellen ko-kultiviert. Danach wurde das zytotoxische Potential der ko-kultivierten T Zellen analysiert. Interessanterweise unterdrückte die Aktivierung mit Überständen apoptotischer Tumorzellen die DC-vermittelte Generierung tumorizider T Zellen durch die Ausprägung einer Population von regulatorischen T Zellen (Treg), die durch die gleichzeitige Expression der Oberflächenmoleküle CD39 und CD69 charakterisiert war. Die Ausprägung der CD39-und CD69-exprimierenden Treg Zell-Population war abhängig von der Freisetzung des bioaktiven Lipids Sphingosin-1-Phosphat (S1P) aus apoptotischen Zellen, welches durch den S1P-Rezeptor 4 zur Freisetzung des immunregulatorischen Zytokins IL-27 aus mDC führte.
Neutralisierung von IL-27 in AC-aktivierten Ko-Kulturen von mDC und T Zellen blockierte die Generierung von CD39- und CD69-exprimierenden Treg Zellen und resultierte folglich in der Aktivierung zytotoxischer T Zellen. Weiterhin war die Bildung von Adenosin in den Ko-Kulturen für die Unterdrückung zytotoxischer T Zellen vonnöten. Erste Experimente lieferten Hinweise auf eine direkte Interaktion von CD69- und CD39-exprimierenden Treg Zellen mit CD73-exprimierenden zytotoxischen T Zellen. CD39 und CD73 werden für die Bildung von Adenosin aus ATP benötigt, weswegen die Interaktion von Treg Zellen und zytotoxischen T Zellen die Adenosin-Produktion fördern könnte.
Zusammenfassend zeigen die hier präsentierten Befunde wie Faktoren der
Tumormikroumgebung die Funktion von humanen DC Subtypen beeinflussen können. Ein Verständnis der zugrundeliegenden Mechanismen kann wertvolle Informationen für die Wahl effektiver Immuntherapien oder Chemotherapien liefern und so die Therapie humaner Tumore unterstützen.
Die vorliegende, publikationsbasierte Dissertation, bestehend aus den drei Einzelpublikationen Bayer (2011, 2012) und Bayer und Schönhofer (2012), verfolgte das Ziel, die Spinnenfamilie Psechridae zu revidieren. Weiterhin sollten die phylogenetische Position dieser Familie im System der höheren Webspinnen (Araneomorphae) sowie die phylogenetischen Beziehungen der einzelnen Arten innerhalb der beiden Gattungen der Psechridae untersucht werden. In Form von morphologisch-taxonomischen Bearbeitungen wurden die beiden die Psechridae bildenden Gattungen Psechrus und Fecenia revidiert, wobei sämtliches Typus-Material sowie reichhaltiges, weiteres Material eingehend beschrieben, illustriert und diagnostiziert wurde. Hierbei wurden auch intraspezifische Variabilität sowie die Prä-Epigynen subadulter Weibchen, die in taxonomischen Arbeiten bislang nur eine unwesentliche Rolle gespielt haben, beschrieben, illustriert und taxonomisch ausgewertet. Zudem wurden im Rahmen dieser Untersuchungen bereits Überlegungen über mögliche Verwandtschaftsbeziehungen innerhalb der beiden Gattungen angestellt. ...
Ubiquitination now ranks with phosphorylation as one of the best-studied post-translational modifications of proteins with broad regulatory roles across all of biology. Ubiquitination usually involves the addition of ubiquitin chains to target protein molecules, and these may be of eight different types, seven of which involve the linkage of one of the seven internal lysine (K) residues in one ubiquitin molecule to the carboxy-terminal diglycine of the next. In the eighth, the so-called linear ubiquitin chains, the linkage is between the amino-terminal amino group of methionine on a ubiquitin that is conjugated with a target protein and the carboxy-terminal carboxy group of the incoming ubiquitin. Physiological roles are well established for K48-linked chains, which are essential for signaling proteasomal degradation of proteins, and for K63-linked chains, which play a part in recruitment of DNA repair enzymes, cell signaling and endocytosis. We focus here on linear ubiquitin chains, how they are assembled, and how three different avenues of research have indicated physiological roles for linear ubiquitination in innate and adaptive immunity and suppression of inflammation.
Der Botanische Verein Sachsen-Anhalt e. V. und der Botanische Arbeitskreis Nordharz e. V. führten vom 7.–9.9.2012 eine gemeinsame Kartierungsexkursion im Wippertal durch. Näher betrachtet wurde die Umgebung von Wippra. Es wurde der Grundbestand des Sommer- und Spätsommeraspektes in vier Viertelquadranten entlang der Wipper, von der Wippertalsperre flussabwärts erfasst. Die Aufstellung enthält Funde geschützter, gefährdeter und seltener Arten sowie bemerkenswerten Neophyten und Adventivpflanzen. Alle Funde beziehen sich auf das Messtischblatt 4433 (Wippra). Den Fundorten ist daher nur die Nummer des Viertelquadranten vorangestellt worden. Die Kartierung erfolgte nur an einem Tag. Es wurden insgesamt knapp 550 Arten aktuell für die vier Viertelquadranten nachgewiesen. Am zweiten Exkursionstag besuchten die Teilnehmer das Biosphärenreservat Karstlandschaft Südharz. Die Bestimmung und Nomenklatur folgen ROTHMALER (2007 bzw. 2011).
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.