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Savannas are the most important timber and non-timber forest products (NTFPs) providing ecosystems in West Africa. They have been shaped by traditional human land-use (i.e. agriculture, grazing, and harvesting) for thousands of years. In the last decades, land-use has drastically changed due to the rapid population growth and the growing production of cash-crop in West Africa and this process is still continuing. The percentage of land intensively used for agriculture has increased, while the length of fallow periods has decreased. Such changes have enormous ecological, economic, and social consequences. In the context of land-use changes, there is an urgent need to better understand and evaluate the impact of land-use on savannas. Such an understanding provides insights on appropriate management activities that ensure the maintenance of savannas and guarantee the availability of savanna products for subsistence and commercial use of rural West African people.
The major objective of the present thesis was to study the impact of land-use on savanna vegetation and diversity as well as on populations of two important NTFP-providing tree species in a semi-arid area in West Africa. The study area was located in the south-eastern part of Burkina Faso and comprised the protected W National Park and its adjacent communal area.
In the first study (chapter 2), I investigated in cooperation with a colleague from Burkina Faso (Blandine Nacoulma) the impact of land-use on the savanna vegetation. We analyzed which environmental factors determine the occurrence of the vegetation types and investigated the effect of land-use on vegetation structure and the occurrence of life forms and highly valued tree species. Furthermore, we tested whether land-use has an impact on plant diversity pattern and if this impact differed between the vegetation types and layers (woody and herb layer). Vegetation relevés were performed and the vegetation and plant diversity of the protected W National Park were compared with those of its surrounding communal area. Our results reveal five vegetation types occurring in both areas. Elevation and physical soil characteristics and thus soil water availability for plants played the most important role for the occurrence of the vegetation types. The influence of land-use on plant diversity differed between the five vegetation types and the two layers. The impact was highest on the vegetation types with the most favorable soil conditions for cultivation and lowest on rocky habitats with poor soils. While the diversity of the woody layer was increased under human land-use, the diversity of the herb layer was diminished. Overall, as land-use effects were not only negative, our findings suggest that land-use does not automatically lead to a loss of plant species and to a degradation of savanna habitats. We conclude that both protected and communal areas are of great importance for the conservation of savanna vegetation and diversity. Our study highlights furthermore the importance of different management strategies for each vegetation type.
In the following two studies (chapter 3 and 4), the impact of land-use - and in particular of harvesting - on populations of Adansonia digitata L., the baobab tree, and Anogeissus leiocarpa (DC.) Guill. & Perr. was examined. These two tree species were chosen as they provide several NTFPs for the local population and as they show different levels of human protection and opposed life histories. Thus, they may react differently to land-use. Stands of the protected W National Park were compared with those of its surrounding communal area (in fallows, croplands, and villages). I applied dendrometric methods to study the population structures and combined it with rates and patterns of NTFP-harvesting (debarking and chopping/pruning). Furthermore, the impact of land-use and harvesting on the fruit production of A. digitata and on the sprouting ability of A. leiocarpa were studied. The inverse J-shaped size class distribution curve indicates that the stands of A. digitata were in a healthy state in the park, while the low number of smaller size classes in fallows, croplands, and villages may give evidence of an ageing population. However, a high number of seedlings were recorded in villages. The stands of A. leiocarpa were also in healthy states in the park and likewise in fallows. In contrast, the absence of saplings gives evidence of a declining population in croplands. Both species were strongly harvested by local people and harvesting was tree size-specific. Pruning in interaction with tree-size had a significant impact on fruit production of A. digitata. While smaller trees were more vulnerable to pruning, bigger trees benefited from slight-pruning. A. leiocarpa had a great ability to respond to chopping by sprouting. The sprouting ability increased even with higher chopping intensity. Results suggest that despite the intense harvesting and the land-use impact, populations of both species are still well preserved. While A. digitata can withstand the harvesting and land-use pressure by its longevity, extremely low adult mortality rates, and particularly due to positive human influences, A. leiocarpa is able to withstand the use pressure by its fast growing, high recruitment, and high sprouting ability. I conclude that a none protected tree species (A. leiocarpa) might not necessarily be at higher risk to the harvesting and land-use impact than a protected tree species (A. digitata) as the adverse impact of harvesting and land-use can be compensated by its specific life history.
Important additional information to such ecological findings can be provided by local people. Learning from traditional knowledge and management systems of local people will help to produce culturally and ecologically reasonable conservation and management strategies. Thus, I investigated local uses and management strategies of A. digitata and A. leiocarpa in the last two studies (chapter 5 and 6). Quantitative ethnobotanical surveys among the Gulimanceba people were conducted in the communal area in order to document uses of the different plant parts, harvesting modes, perceptions about the population status, and conservation status of both species. Hereby, differences in knowledge between gender, generations, and people from different villages were tested. Interviews reveal that both species are harvested for multipurpose and emphasize the high importance of both species for local people. Especially the leaves and fruits of A. digitata add valuable minerals and vitamins to the otherwise micronutrient-“poor” staple crops of the Gulimanceba people. In comparison with other studies in West Africa, it has turned out that people in this area could benefit even more from A. leiocarpa, e.g. for dyeing of clothes, for treatment of malaria and skin problems. Local knowledge did not differ between genders and generations, while it slightly differed between people from different villages. The lack of age differences suggests that the traditional knowledge about these two species is passed on from one generation to another. Differences between people from different villages might be explained by influences from the neighboring countries Niger and Benin. Current local harvesting modes and management strategies of both species resulted in sustainable use. However, ongoing land-use intensifications require adapted harvesting and management techniques to guarantee the persistence of these economically important species. These results provide, in combination with the ecological findings (chapter 3 and 4), appropriate management recommendations for A. digitata and A. leiocarpa that are reliable under currently practiced management strategies.
The canonical Wnt/β-catenin and the Shh pathway as well as the Notch signaling cascade
are key regulators in stem cell biology and are independently associated with the development
of cancer. Despite the knowledge of a balanced signaling for cellular maintenance, the
fundamental biochemical mechanisms of crosstalk are still poorly understood. This study
demonstrates that the outcome of interaction between Wnt and Shh is cell type specific. A
combined inhibitory mechanism of the Shh and Notch2/Jagged2 pathways on dominant
active β-catenin signaling in the adult tongue epithelium keeps Wnt/β-catenin signaling
restricted to physiological tolerable levels. In the opposite crosstalk the activation of
Wnt/β-catenin signaling in medulloblastoma (MB) of the Shh subtype, in turn inhibits the Hh
pathway.
The inhibitory mechanism of Shh and Notch2/Jagged2 on Wnt/β-catenin signaling is
independent of the degradation complex of β-catenin and takes place inside the nucleus.
Furthermore, the negative feedback on Wnt/β-catenin signaling by the Shh pathway relies
on transcriptional activity of Gli1/2A. Inhibition of Gli1/2A with the specific inhibitor GANT61
abrogated the negative impact of Shh on β-catenin signaling in vitro. Although the negative
feedback loop of Shh is still functional in human SCC25 cells, the inhibitory effect of
Notch2/Jagged2 is lost and contributes to the cancerogenic phenotype of these cells. In the
inverse situation, the activation of β−catenin signaling has a negative feedback on
constantly active Shh signaling and significantly inhibits the Hh pathway. This was shown in
Ptch+/- and Math1-Cre:SmoM2Fl/+ MB tumor spheres in vitro, in which inhibition of sphere
formation and growth was observed and Hh target gene transcription was down-regulated.
This demonstrates for the first time that the activation of canonical Wnt/β-catenin signaling
in primary MB cells with a Hh pathway over-activation has a negative effect on the growth of
these cells in vitro.
In summary the results show that crosstalk of Wnt/β-catenin and Shh signaling has context
specific outcome on pathway activity. Elucidation of the molecular interactions will improve
our understanding of Wnt and Hh associated tumors and contribute to the development of
new therapeutic strategies.
We found that the HMTase G9a, that catalyzes H3K9me2 in euchromatin, plays a key modulatory role in type I IFN expression. This finding raises the possibility of targeted intervention with type I IFN expression by using small synthetic inhibitors of G9a. Given the overall minimal negative effect of G9a-deficiency on differentiated cells, the short-term suppression of G9a could be used to potentiate type I IFN expression during chronic viral diseases such as hepatitis C. Accordingly, pharmacological enhancement of methylation, for example by inhibition of the H3K9me2 specific demethylases, could be potentially used to attenuate type I IFN expression and help to control chronic inflammatory and autoimmune conditions. The mechanism responsible for canvassing the epigenetic profile of type I IFN expressing cells are not known. It is plausible, that similar to neurons, where G9a is targeted to specific loci with the help of noncoding RNAs, IFN expressing cells possess similar mechanisms to target H3K9me2 demethylating enzymes to type I IFN loci, thus keeping these loci accessible for IFN-inducing transcription factors. Identification of non-coding RNAs that may contribute to the establishment of the epigenetic state of IFN producing cells will provide a further opportunity for targeted manipulation of IFN expression.
In my thesis, I describe the collaborative experiments that show the ability of synthetic compounds that interfere with the histone readers to suppress inflammation. Our results present a novel concept for the regulation of inflammatory gene expression. The diversity of histone readers and the combinatorial nature of regulation of gene transcription may provide an opportunity for highly selective interference with disease associated transcriptional programs by interfering with specific readers. In the future we plan to address the therapeutic potential of BET antagonists in autoimmune and chronic inflammatory conditions.In summary, the experiments described in my thesis provide an example of how the understanding of the basic mechanisms of chromatin control of gene expression can facilitate novel therapeutic approaches that target chromatin.
It has been estimated that about 1% of live births carry severe congenital heart defects and 20-30% among them have valve malformations. Despite its medical importance the underlying cause of many valvular diseases remains undiscovered. Thus, it is important to identify genes that play a crucial role in cardiac valve formation and maturation.
A temporal RNA expression analysis of heart development suggested that the extracellular matrix protein Nephronectin might be a novel regulator of valve development and/or trabeculation. Nephronectin is transiently expressed during rat heart development at the time of heart valve morphogenesis and trabeculation. Moreover, the extracellular matrix is known to be crucial for organogenesis. It is a complex, dynamic and critical component that regulates cell behavior by modulating the activity, bioavailability, or presentation of growth factors to cell surface receptors.
In order to verify the hypothesis that Nephronectin is a novel regulator of valve formation and/or trabeculation the zebrafish was chosen as model system. Females are able to spawn at intervals of 5 days laying hundreds of eggs in each clutch. Development progresses rapidly with precursors to all major organs appearing within 36 hours post fertilization. Zebrafish embryos develop externally, are translucent and continue to grow for several days despite developing severely malformed, non functional hearts. In addition, gene expression can be easily modulated. During the present study it has been shown that Nephronectin expression is correlated to valve development and trabeculation. Morpholinomediated knockdown of Nephronectin in zebrafish caused failure of valve formation and trabeculation resulting in > 85% lethality at 7 days post fertilization.
Cardiac valve formation is initiated at the junction of atrium and ventricle and is characterized by extracellular matrix deposition and endocardial cell differentiation. In accordance with the above-described phenotype the earliest observed abnormality in Nephronectin morphants was an extended tube like structure at the atrio-ventricular boundary. In addition, the expression of myocardial genes involved in cardiac valve formation (cspg2, fibulin1, tbx2b, bmp4) was expanded and endocardial cells along the extended tube like structure exhibited characteristics of atrio-ventricular cells (has2, notch1b and Alcam expression, cuboidal cell shape). Inhibition of has2 in Nephronectin morphants rescued the endocardial but not the myocardial expansion. In contrast, diminishment of BMP signaling in npnt morphants resulted in reduced ectopic expression of myocardial and endocardial atrio-ventricular markers. Taken together, these results identify Nephronectin as a novel upstream regulator of BMP4-HAS2 signaling playing a crucial role in atrio-ventricular canal differentiation.
Blood vessel formation is a well orchestrated process where multiple components including different cells types, growth factors as well as extracellular matrix proteins act in synergistic and highly regulated manner to support the growth of new blood vessels. During embryonic development this process is marked as vasculogenesis and entails the differentiation of mesodermal cells into angioblasts and their subsequent fusion into a primitive vascular plexus. Angiogenesis, in contrast, describes the formation of new vessels from the pre-existing vasculature and it occurs in the embryo during remodeling of the primitive plexus into a mature vascular network. Furthermore, in the adult, angiogenic processes play a role in various physiological and pathological conditions. Angiogenesis is governed by a set of factors and molecular mechanisms whose identification has been a major focus of cardiovascular research for the past several decades. Most recently, Epidermal growth factor-like domain 7 (EGFL7) has been described as a novel molecular player in this context. This secreted protein is produced by endothelial cells and has been implicated in vessel development. Studies performed in zebrafish revealed an important role for EGFL7 in lumen formation during vasculogenesis although the underlying molecular mechanism has not been elucidated yet. In contrast, the investigation of EGFL7’s functions during angiogenic sprouting has faced several challenges and the role of EGFL7 in angiogenesis remained elusive. The purpose of this thesis was to identify the functions of EGFL7 during angiogenic mode of vessel formation in a systematic fashion using numerous in vitro as well as in vivo approaches.
Previously it has been suggested that EGFL7 might associate with the extracellular matrix from where it could exert its effects. Indeed, we could show that EGFL7 accumulates on the outer surface of endothelial cells in vivo by demonstrating its co-localization with collagen IV, a major constituent of the basal lamina. Furthermore, after its secretion to the extracellular matrix (ECM), EGFL7 seemed to interact with some components of the extracellular matrix including fibronectin and vitronectin, but not collagens and laminin.
A major group of receptors that mediate the interaction between the cells and the ECM are integrin receptors. Our co-immunoprecipitation studies revealed that EGFL7 associated with integrin αvβ3 which is highly expressed in endothelial cells and known to be important for vessel growth. Importantly, this EGFL7-αvβ3 integrin interaction was dependent on Arg-Gly-Asp (RGD) motif present within the second EGF-like domain of EGFL7 protein. Adhesion assays performed with human umbilical vein endothelial cells (HUVEC) revealed that EGFL7 promoted endothelial cell adhesion compared to BSA used as a negative control, however, adhesion seemed to be less efficient as compared to bona fide ECM proteins such as fibronectin and vitronectin. In addition, cultivation of endothelial cells on EGFL7 was characterized by the absence of mature focal adhesions and stress fibers, but was paralleled by increased phosphorylation of kinases typical for integrin activation signaling cascade such as FAK, Src and Akt. This led us to the hypothesis that EGFL7 creates an environment that supports a motile phenotype of endothelial cells by serving as a modulator of existing interactions between the cells and the surrounding matrix. Indeed, EGFL7 increased random migration of HUVEC on fibronectin in an αvβ3 integrin dependent manner as shown using a live cell imaging platform. Most importantly, this was paralleled by a decrease in endothelial cell adhesion to fibronectin which is consistent with previous reports on secreted proteins that support a medium strength of adhesion and such promote cellular migration. To assess the overall effect of EGFL7 on the process of blood formation several in vitro and in vivo approaches were employed. First, the addition of EGFL7 to Matrigel injected subcutaneously into mice significantly increased the invasion of endothelial cells into the plugs. Second, a spheroid-based sprouting assay in three-dimensional collagen matrix clearly demonstrated the ability of EGFL7 to support angiogenic sprouting in an integrin dependent manner. This is consistent with the observed effects of EGFL7 on endothelial cell migration. Third, using in vivo assays such as the chick chorioallantoic membrane (CAM) assay as well as a zebrafish model system we were able to validate the importance of the EGFL7-integrin interaction for the process of angiogenesis in vivo. Taken together, I identified some of the major cellular functions EGFL7 modulates during angiogenesis. In addition, with integrin αvβ3 I unraveled a novel interaction partner of EGFL7 that delivers a mechanistical explanation for EGFL7’s effects on blood vessel formation. Most importantly, data presented in this PhD thesis contribute substantially to the existing literature on EGFL7 unambiguously assigning a role for this protein in the process of angiogenesis.
This study comprises a survey on ecology, morphology and taxonomy of parasitic fungi infecting Pteridophytes and Orchidaceae found by the author on several field trips to Western Panama as part of the project plant parasitic micro-fungi of Western Panama (ppMP). In Panama, approximately 9500 species of vascular plants are found. Of these, Orchidaceae are with ca. 1150 (ca. 12%) species by far the most speciose family. The Pteridophytes in Panama comprise ca. 940 species in 31 families. Most fungal pathogens on Orchidaceae in tropical regions were described from plants in culture or from material intercepted at borders by plant quarantine services and not from their natural habitats. Therefore, little is known about distribution and ecology of these pathogens in their natural range. The author determined and classified several hundred Orchidaceae-species and Pteridophytes at the sites selected in the context of the project. This work facilitated the identification of many host plants (at least to genus-level) even in sterile condition in the field. About 65 species of Pucciniales are known to infest Orchidaceae and ca. 38% of them are described from tropical America. All available types of Pucciniales on Orchidaceae in tropical America were studied and compared with 91 specimens of rust fungi on orchids collected by the author in Panama. Several hundred additional specimens housed in the BPI, almost all intercepted from plant quarantine services, were used for comparison. As result of this work, it is suggested to combine Uromyces stenorrhynchi Henn. to Sphenospora and, as this is the oldest epithet, to synonymize S. kevorkianii Linder, S. mera Cumm. and S. saphena Cumm. with it. Further, it could be demonstrated that Uredo aurantiaca Montemartini, U. cyrtopodii Syd. & P. Syd., U. epidendri Henn., U. guacae Mayor, U. gynandrearum Corda, U. lynchii (Berk.) Plowr., U. neopustulata Cumm. (≡U. pustulata Henn.), U. nigropuncta Henn., U. oncidii Henn., U. ornithidii F. Kern., Cif. & Thurst., and presumably U. scabies Cke., are anamorphs of this variable species. U. gynandrearum is the oldest anamorph-name for all these taxa. Therefore, it can be established that this rust infects more than 80 species of Orchidaceae in three subfamilies. In total, the anamorph of this species was collected by the author on 17 different species of Orchidaceae in Panama which, apart from one species, are all new hosts to science. The molecular data obtained by the author confirm this view, although more data, especially from material from the whole range of distribution of U. gynandrearum, are necessary. Puccinia spiranthicola Cumm. was found to be a synonym of P. cinnamomea Diet. & Holw. and was found by the author on three different Orchidaceae in two subfamilies. Uredo pleurothallidis Keissl. is now considered a synonym of U. wittmackiana Henn. and the latter as the anamorph of Puccinia oncidii Cumm. In the anamorph genus Uredo, a new species was found infecting at least five different species of Sobralia and Elleanthus (Sobraliinae) at different localities. Molecular data indicate it to be related to the currently polyphyletic Phakopsoraceae. For the rusts with suprastomatal sori on Orchidaceae, now separated from Hemileia and placed in the genus Desmosorus (nom. inval.), the current concept with only one taxon is rejected and the establishment of three subspecies is suggested. The complicated taxonomy is discussed and makes it necessary to validate the genus-name and make a new combination. Another Hemileia-anamorph species was found by the author and is considered to be new to science. This is the first species of this alliance in America on Orchidaceae. Molecular data obtained by the author confirm the separation of Desmosorus from Hemileia and the position of the new species. For rusts on Pteridophytes, a new species of Milesia, (teleomorph: Milesina) and a new anamorphic species of Uredinopsis was found, both on hosts hitherto not known. In Calidion, the presumable anamorph-genus of Uncol, the species C. cf. cenicafeae Salazar & Buriticá was found on several new hosts. Further, the teleomorph was found. Morphologically, this teleomorph did not agree with the description of Uncol by the author of the genus, although the anamorph characteristics left no doubt that it is Calidion. Apparently, the description of Uncol is inadequate, but cannot be improved, as the type is unavailable. Molecular data obtained by the author show this species to be closest to Desmosorus. For Uredo superficialis Speg., the anamorph of Desmella, nine new hosts in eight different fern families were found by the author and the collaborators of the ppMP-project. Ecological data indicate that this species includes different host specific races, which, however could not be distinguished morphologically. For all these rusts, a thorough discussion of the ecology in their habitats is given. In total, 21 LSU rDNA sequences from 6 different rust species on Orchidaceae and Pteridophytes were obtained and analyzed with the Maximum Parsimony and Minimum Evolution method. Here, the position of several groups could be confirmed, and some anamorphs could be assigned to different teleomorphic relationships. Within the Ascomycota and their anamorphs, several hitherto unknown species and species not known from these hosts or not known from Panama were found and analyzed. On Orchidaceae, the following fungi belonging to the Ascomycota are described, illustrated and discussed: In the Phyllachorales, a hitherto not known Phyllachora sp. was found on Oncidium warszewiczii Rchb. f. and was compared with the other species of this order currently known from Orchidaceae. In the Asterinaceae s. l. Lembosia cf. epidendri Meir. Silva & O. R. Pereia was found on Maxillaria crassifolia (Lindl.) Rchb. f., which is a new host and new host alliance for this fungus hitherto only known from Brazil. The fungus is described and compared with all species of Asterinaceae currently known on Orchidaceae. In the Meliolaceae, Meliola orchidacearum Cif. was found on Camaridium biolleyi (Schltr.) Schltr. and an Epidendrum sp. which are new hosts and new host alliances of this fungus which was hitherto only known from the Caribbean Islands. It is described, illustrated and compared with the type. In the Glomerellaceae, Glomerella cingulata and its anamorph Colletotrichum gloeosporioides were found on several hosts. The species is illustrated, described and compared with data from literature. In the anamorphic Mycosphaerellaceae, Pseudocercospora odontoglossii (Prill. & Delacr.) U. Braun, a species currently only known from culture, was found on the new host Pleurothallis imraei Lindl. It is illustrated, described and compared with data from literature. On ferns, the following other fungi are described, illustrated and discussed: A conspicuous undescribed form of Polycyclus was found by the author on Elaphoglossum ciliatum (C. Presl.) T. Moore (Dryopteridaceae) and Serpocaulon loriceum (L.) A. R. Sm. (Polypodiaceae). A conspectus of Parmulariaceae infecting ferns is given and demonstrated that Polycyclina should be synonymized under Polycyclus. Summing up, it can be assessed, especially for the Pucciniales, that the most speciose plant family in Panama carries remarkable few species of specific parasites, and that many of them seem to be distributed over a wide range of species which often are not closely related. One reason amongst others seems to be that parasites need a minimum density of host plants in a habitat to survive. As orchid species often occur with only few (and often small) individual plants at a given locality, the probability for a specific pathogen to infect a plant gets too low, hence high diversity by low abundance of hosts might be an impediment for specific pathogens. In this case, unspecific parasites, or such which are infecting larger alliances, are in advantage. Other reasons could be specific traits of orchids, like succulence and mycotrophy which might hamper fungal infections.
The role of small leucine-rich proteoglycans, biglycan and decorin, in podocytopathy and albuminuria
(2011)
Biglycan is a member of the small leucine-rich proteoglycan (SLRP) family and is involved in the assembly of extracellular matrix components. In macrophages soluble biglycan acts as an endogenous ligand of the innate immunity receptors TLR2 and TLR4. Data addressing the role of biglycan in renal pathology are surprisingly limited. In a normal kidney, biglycan is expressed mainly in the tubulointerstitium; however, in the course of various renal diseases its expression may be altered. The biological role and mechanisms of biglycan action in the pathology of renal diseases, especially those affecting glomeruli, remain poorly understood.
Albuminuria is the first detectable clinical abnormality in diabetic nephropathy. In this study we detected increased biglycan mRNA expression in glomeruli of renal biopsies of patients with incipient diabetic nephropathy, with predominant localization in podocytes. This novel finding raised the question about the role and mechanisms of biglycan action in diabetic podocyte injury and whether the mechanisms of biglycan signaling causing podocyte injury and albuminuria could be extrapolated to other glomerular diseases.
To investigate the role of biglycan in the cause of diabetic podocyte injury and albuminuria we used the murine model of STZ-induced diabetic nephropathy and wild type (Bgn+/0) and biglycan deficient (Bgn-/0) mice. We observed that biglycan was expressed on mRNA and protein levels in podocytes of diabetic Bgn+/0 mice and that diabetic Bgn+/0 mice also had significantly higher albuminuria compared to non-diabetic mice 6 and 12 weeks after disease induction. Biglycan deficiency was shown to be an important factor in albuminuria development. Namely, we observed that diabetic Bgn-/0 mice had significantly lower levels of urinary albumin compared to diabetic Bgn+/0 mice. We showed that less severe podocyte loss in the urine of diabetic Bgn-/0 mice was associated with significantly higher nephrin and podocin glomerular expression compared to diabetic Bgn+/0 mice. Our data suggested that biglycan deficiency was protective against podocyte loss into urine and might be beneficial against development of albuminuria in diabetes.
Biglycan contributed to podocyte actin rearrangement due to increased phosphorylation of Rac1 in vitro. Furthermore, biglycan induced caspase-3 activity and production of reactive oxygen species (ROS), thus enhancing apoptosis in cultured podocytes. Biglycan-induced ROS generation was TLR2/TLR4-dependent. Overexpression of soluble biglycan in wild type mice induced albuminuria under normal conditions and significantly increased albuminuria under pathological conditions (murine model of LPS-induced albuminuria). Inhibition of Rac1 activity in vivo decreased the albuminuria induced by biglycan overexpression. In patients with glomerular diseases, biglycan was detected in urine and was associated with nephrin appearance in the urine of these patients and with increased albuminuria. Collectively, our results elucidate a novel mechanism for biglycan-induced TLR2- and TLR4-dependent, Rac1- and ROS-mediated podocytopathy leading to podocyturia, albuminuria development and progression of glomerular diseases. Interfering with biglycan actions and blocking its signaling via TLR2 and TLR4 might be a potential therapeutic strategy against these diseases. To achieve this goal, the specific mechanisms for binding of biglycan to TLR2 and TLR4 must be elucidated and effective ways of preventing this binding must be developed. Nevertheless, biglycan remains the “danger signal” that activates innate immune receptors in non-immune cells and triggers the deleterious mechanisms leading to aggravation of renal injury.
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.
The translocation of nuclear-encoded precursor proteins into chloroplasts is a highly ordered process involving the action of several components to regulate this molecular ensemble. Not only GTP hydrolysis and GDP release but also the phosphorylation of TOC GTPases is a widely discussed mechanism to regulate protein import. The receptor component (Toc34) and its isoform of A. thaliana (atToc33) were found to be regulated by phosphorylation. Although the phosphorylation of Toc33 is already known for several years, several questions regarding the molecular components involved in the regulation of the phosphorylation process, precisely what is the protein kinase and where this kinase is initially localized, so far remained unclear.
This thesis aimed at the defining of the phosphorylation status of TOC GTPases in monomeric and/or dimeric states, the identification of the nature of Toc33-PK (protein kinase), and in the same context it aimed at gaining first insights into the physiological significance of Toc33 phosphorylation. To this end, (I) An in vitro and in vivo system for investigating of TOC GTPases Phosphorylation (in monomeric or dimeric state) was developed. Since no information is available about the phosphorylation status of the Toc159 isoforms, the second receptor of the TOC complex, it was interesting to investigate whether these isoforms undergo phosphorylation or not. The results indicated that atToc159 isoforms are able to be phosphorylated by the kinase activity in purified outer envelope membranes (OEMs) of pea, but not atToc132. Moreover, an artificial dimer of psToc34 based on the interaction of a C-terminally fused leucine zipper was not phosphorylated. This result reflected the inability of the OEM kinase to phosphorylate the dimers of TOC GTPases. Also, In vivo labeling of atToc33 was developed and occurred in a dose-dependent manner. Therefore, this results evidenced that in vitro phosphorylation of atToc33 (both endogenous wild type and recombinant expressed proteins) is not artificial labeling but represents a physiological relevance. CD (circular dichroism) measurements revealed that recombinant GTPase domain of atToc33 is preferentially phosphorylated in its folded state. Therefore, it could be suggested that folding of atToc33rec is a prerequisite for its phosphorylation and the phosphorylation event occurs as a posttranslational modification most likely after insertion of Toc33 (Toc34) into the OE of chloroplasts.
Secondly, (II) Isolation and identification of Toc33-PK from OEMs of chloroplasts was performed. Four independent strategies were developed to identify the Toc33-protein kinase: UV-induced and chemically-based crosslinking, different applied chromatographic techniques, identification of PK-Toc33 interaction by means of HDN-PAGE (histidine- and deoxycholate-based native PAGE), and finally mass spectrometric approaches were performed on fractions including the potential kinase activity. UV-induced crosslinking procedure was developed and resulted in covalent bonding of nine proteins to [a-32P] ATP, while chemically-based one was not significant. The applied chromatographic and HDN-PAGE approaches, including mass spectrometry, have revealed the identification of 13 protein kinases. Of these identified kinases, phototropin2 (Phot2, AT5G58140), leucine-rich repeat PK (LRR-PK, AT4G28650.1), and receptor-like transmembrane PK (RLK, AT5G56040.2) were selected as the most promising candidates (ca. kinase type and one transmembrane helix for membrane localization).
(III) The physiological significance of Toc33 phosphoryation was shown to link this process with the environmental changes (especially, the light conditions). Identification of chloroplast OE-located PKs performed by nLC-MALDI-MS/MS resulted in the detection of Phot2. Furthermore, the subcellular localization of Phot2 in OEM of chloroplasts was confirmed by immunoblotting experiments using a-Phot2 antibody. The kinase activity of Phot2 towards TOC GTPases was characterized and revealed that fused GST-KD (kinase domain) protein able to specifically phosphorylate atToc33rec, but not atToc159rec. Also, endogenous atPhot2 was upregulated and heavily detected in the ppi1-S181A plant line (where serine to alanine exchange was performed to abolish the phosphorylation of atToc33). Hence, we suggested that certain signal cascades may directly or indirectly link Toc33 receptor phosphorylation, protein levels of Phot2 (as promising PK candidate), and irradiation conditions (as an inducing signal of the subsequent phosphorylation events). Light-dependent phosphorylation of Toc33 was shown either after de-etiolation conditions or after high light intensities of blue light was performed. Therefore, phosphorylation of Toc33 might be identified as an external regulatory signal to regulate preproteins import into chloroplasts in response to environmental conditions (e.g. light changes) or as a signal of chloroplast biogenesis.
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.