@phdthesis{Huang2013, author = {Huang, Ting}, title = {Vaccinia Virus-mediated Therapy of Solid Tumor Xenografts: Intra-tumoral Delivery of Therapeutic Antibodies}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-91327}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {Over the past 30 years, much effort and financial support have been invested in the fight against cancer, yet cancer still represents the leading cause of death in the world. Conventional therapies for treatment of cancer are predominantly directed against tumor cells. Recently however, new treatments options have paid more attention to exploiting the advantage of targeting the tumor stroma instead. Vaccinia virus (VACV) has played an important role in human medicine since the 18th century as a vaccination against smallpox. In our laboratory, the recombinant, replication-competent vaccinia virus, GLV-1h68, was shown to enter, colonize and destroy cancer cells both in cell culture, and in vivo, in xenograft models (Zhang, Yu et al. 2007). In addition, combined therapy of GLV-1h68 and anti-VEGF immunotherapy significantly enhanced antitumor therapy in vivo (Frentzen, Yu et al. 2009). In this study, we constructed several new recombinant VACVs carrying genes encoding different antibodies against fibroblast activation protein (FAP) in stroma (GLV-1h282), nanobody against the extracellular domain of epidermal growth factor receptor (EGFR, GLV-1h442) or antibodies targeting both vascular endothelial growth factor (VEGF) and EGFR (GLV-1h444) or targeting both VEGF and FAP (GLV-1h446). The expression of the recombinant proteins was first verified using protein analytical methods, SDS-gel electrophoresis, Western blot analysis, immunoprecipitation (IP) assays and ELISA assays. The proteins were detected after infection of the cells with the different VACVs and the recombinant proteins purified by affinity adsorption. The purified antibodies were shown to specifically bind to their respective antigens. Secondly, the infection and replication capability of all the virus strains was analyzed in cell culture using several human tumor cell lines (A549, FaDu or DU145), revealing that all the new recombinant VACVs were able to infect cancer cells with comparable efficiency to the parental viruses from which they were derived. Thirdly, the antitumor efficacy of the new recombinant VACVs was evaluated in vivo using several human cancer xenograft models in mice. In A549 and DU145 xenografts, the new recombinant VACVs exhibited an enhanced therapeutic efficacy compared to GLV-1h68 with no change in toxicity in mice. In the FaDu xenograft, treatment with GLV-1h282 (anti-FAP) significantly slowed down the speed of tumor growth compared to GLV-1h68. Additionally, treatment with the recombinant VACVs expressed the various antibodies achieved comparable or superior therapeutic effects compared to treatment with a combination of GLV-1h68 and the commercial therapeutic antibodies, Avastin, Erbitux or both. Next, the virus distribution in tumors and organs of treated mice was evaluated. For most of the viruses, the virus titer in tumors was not signficantly diffferent than GLV-1h68. However, for animals treated with GLV-1h282, the virus titer in tumors was significantly higher than with GLV-1h68. This may be the reason for enhanced antitumor efficacy of GLV-1h282 in vivo. Lastly, the underlying mechanisms of therapeutic antibody-enhanced antitumor effects were investigated by immunohistochemistry. Blood vessels density and cell proliferation in tumors were suppressed after treatment with the antibody-encoded VACVs. The results indicated that the suppression of angiogenesis or cell proliferation in tumors may cause the observed therapeutic effect. In conclusion, the results of the studies presented here support the hypothesis that the treatment of solid tumors with a combination of oncolytic virotherapy and immunotherapy has an additive effect over each treatment alone. Moreover, expression of the immunotherapeutic antibody by the oncolytic VACV locally in the tumor enhances the antitumor effect over systemic treatment with the same antibody. Combined, these results indicate that therapy with oncolytic VACVs expressing-therapeutic antibodies may be a promising approach for the treatment of cancer.}, subject = {Vaccinia-Virus}, language = {en} } @phdthesis{Hess2013, author = {Heß, Michael}, title = {Vaccinia virus-encoded bacterial beta-glucuronidase as a diagnostic biomarker for oncolytic virotherapy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-86789}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {Oncolytic virotherapy represents a promising approach to revolutionize cancer therapy. Several preclinical and clinical trials display the safety of oncolytic viruses as wells as their efficiency against solid tumors. The development of complementary diagnosis and monitoring concepts as well as the optimization of anti-tumor activity are key points of current virotherapy research. Within the framework of this thesis, the diagnostic and therapeutic prospects of beta-glucuronidase expressed by the oncolytic vaccinia virus strain GLV-1h68 were evaluated. In this regard, a beta-glucuronidase-based, therapy-accompanying biomarker test was established which is currently under clinical validation. By using fluorescent substrates, the activity of virally expressed beta-glucuronidase could be detected and quantified. Thereby conclusions about the replication kinetics of oncolytic viruses in animal models and virus-induced cancer cell lysis could be drawn. These findings finally led to the elaboration and establishment of a versatile biomarker assay which allows statements regarding the replication of oncolytic viruses in mice based on serum samples. Besides the analysis of retrospective conditions, this test is able to serve as therapy-accompanying monitoring tool for virotherapy approaches with beta-glucuronidase-expressing viruses. The newly developed assay also served as complement to routinely used plaque assays as well as reference for virally expressed anti-angiogenic antibodies in additional preclinical studies. Further validation of this biomarker test is currently taking place in the context of clinical trials with GL-ONC1 (clinical grade GLV-1h68) and has already shown promising preliminary results. It was furthermore demonstrated that fluorogenic substrates in combination with beta-glucuronidase expressed by oncolytic viruses facilitated the optical detection of solid tumors in preclinical models. In addition to diagnostic purposes, virus-encoded enzymes could also be combined with prodrugs resulting in an improved therapeutic outcome of oncolytic virotherapy. In further studies, the visualization of virus-induced immune reactions as well as the establishment of innovative concepts to improve the therapeutic outcome of oncolytic virotherapy could be accomplished. In conclusion, the results of this thesis provide crucial findings about the influence of virally expressed beta-glucuronidase on various diagnostic concepts in the context of oncolytic virotherapy. In addition, innovative monitoring and therapeutic strategies could be established. Our preclinical findings have important clinical influence, particularly by the development of a therapy-associated biomarker assay which is currently used in different clinical trials.}, subject = {Vaccinia-Virus}, language = {en} } @article{ShannonHein2013, author = {Shannon, Graver and Hein, Melanie}, title = {Tumor cell response to bevacizumab single agent therapy in vitro}, series = {Cancer Cell International}, journal = {Cancer Cell International}, doi = {10.1186/1475-2867-13-94}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-97185}, year = {2013}, abstract = {Background Angiogenesis represents a highly multi-factorial and multi-cellular complex (patho-) physiologic event involving endothelial cells, tumor cells in malignant conditions, as well as bone marrow derived cells and stromal cells. One main driver is vascular endothelial growth factor (VEGFA), which is known to interact with endothelial cells as a survival and mitogenic signal. The role of VEGFA on tumor cells and /or tumor stromal cell interaction is less clear. Condition specific (e.g. hypoxia) or tumor specific expression of VEGFA, VEGF receptors and co-receptors on tumor cells has been reported, in addition to the expression on the endothelium. This suggests a potential paracrine/autocrine loop that could affect changes specific to tumor cells. Methods We used the monoclonal antibody against VEGFA, bevacizumab, in various in vitro experiments using cell lines derived from different tumor entities (non small cell lung cancer (NSCLC), colorectal cancer (CRC), breast cancer (BC) and renal cell carcinoma (RCC)) in order to determine if potential VEGFA signaling could be blocked in tumor cells. The experiments were done under hypoxia, a major inducer of VEGFA and angiogenesis, in an attempt to mimic the physiological tumor condition. Known VEGFA induced endothelial biological responses such as proliferation, migration, survival and gene expression changes were evaluated. Results Our study was able to demonstrate expression of VEGF receptors on tumor cells as well as hypoxia regulated angiogenic gene expression. In addition, there was a cell line specific effect in tumor cells by VEGFA blockade with bevacizumab in terms of proliferation; however overall, there was a limited measurable consequence of bevacizumab therapy detected by migration and survival. Conclusion The present study showed in a variety of in vitro experiments with several tumor cell lines from different tumor origins, that by blocking VEGFA with bevacizumab, there was a limited autocrine or cell-autonomous function of VEGFA signaling in tumor cells, when evaluating VEGFA induced downstream outputs known in endothelial cells.}, language = {en} } @phdthesis{Regneri2013, author = {Regneri, Janine}, title = {Transcriptional regulation of cancer genes in the Xiphophorus melanoma system}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-82319}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {The Xiphophorus melanoma system is a useful animal model for the study of the genetic basis of tumor formation. The development of hereditary melanomas in interspecific hybrids of Xiphophorus is connected to pigment cell specific overexpression of the mutationally activated receptor tyrosine kinase Xmrk. In purebred fish the oncogenic function of xmrk is suppressed by the molecularly still unidentified locus R. The xmrk oncogene was generated by a gene duplication event from the Xiphophorus egfrb gene and thereby has acquired a new 5' regulatory sequence, which has probably altered the transcriptional control of the oncogene. So far, the xmrk promoter region was still poorly characterized and the molecular mechanism by which R controls xmrk-induced melanoma formation in Xiphophorus still remained to be elucidated. To test the hypothesis that R controls melanoma development in Xiphophorus on the transcriptional level, the first aim of the thesis was to gain a deeper insight into the transcriptional regulation of the xmrk oncogene. To this end, a quantitative analysis of xmrk transcript levels in different Xiphophorus genotypes carrying either the highly tumorigenic xmrkB or the non-tumorigenic xmrkA allele was performed. I was able to demonstrate that expression of the tumorigenic xmrkB allele is strongly increased in malignant melanomas of R-free backcross hybrids compared to benign lesions, macromelanophore spots, and healthy skin. The expression level of the non-tumorigenic xmrkA allele, in contrast, is not influenced by the presence or absence of R. These findings strongly indicate that differential transcriptional regulation of the xmrk promoter triggers the tumorigenic potential of these xmrk alleles. To functionally characterize the xmrk promoter region, I established a luciferase assay using BAC clones containing the genomic regions where xmrk and egfrb are located for generation of reporter constructs. This approach showed for the first time a melanoma cell specific transcriptional activation of xmrkB by its flanking regions, thereby providing the first functional evidence that the xmrk oncogene is controlled by a pigment cell specific promoter region. Subsequent analysis of different deletion constructs of the xmrkB BAC reporter construct strongly indicated that the regulatory elements responsible for the tumor-inducing overexpression of xmrkB in melanoma cells are located within 67 kb upstream of the xmrk oncogene. Taken together, these data indicate that melanoma formation in Xiphophorus is regulated by a tight transcriptional control of the xmrk oncogene and that the R locus acts through this mechanism. As the identification of the R-encoded gene(s) is necessary to fully understand how melanoma formation in Xiphophorus is regulated, I furthermore searched for alternative R candidate genes in this study. To this end, three genes, which are located in the genomic region where R has been mapped, were evaluated for their potential to be a crucial constituent of the regulator locus R. Among these genes, I identified pdcd4a, the ortholog of the human tumor suppressor gene PDCD4, as promising new candidate, because this gene showed the expression pattern expected from the crucial tumor suppressor gene encoded at the R locus.}, subject = {Melanom}, language = {en} } @article{KatoLuRapaportetal.2013, author = {Kato, Hiroki and Lu, Qiping and Rapaport, Doron and Kozjak-Pavlovic, Vera}, title = {Tom70 Is Essential for PINK1 Import into Mitochondria}, series = {PLoS ONE}, volume = {8}, journal = {PLoS ONE}, number = {3}, doi = {10.1371/journal.pone.0058435}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-131061}, pages = {e58435}, year = {2013}, abstract = {PTEN induced kinase 1 (PINK1) is a serine/threonine kinase in the outer membrane of mitochondria (OMM), and known as a responsible gene of Parkinson's disease (PD). The precursor of PINK1 is synthesized in the cytosol and then imported into the mitochondria via the translocase of the OMM (TOM) complex. However, a large part of PINK1 import mechanism remains unclear. In this study, we examined using cell-free system the mechanism by which PINK1 is targeted to and assembled into mitochondria. Surprisingly, the main component of the import channel, Tom40 was not necessary for PINK1 import. Furthermore, we revealed that the import receptor Tom70 is essential for PINK1 import. In addition, we observed that although PINK1 has predicted mitochondrial targeting signal, it was not processed by the mitochondrial processing peptidase. Thus, our results suggest that PINK1 is imported into mitochondria by a unique pathway that is independent of the TOM core complex but crucially depends on the import receptor Tom70.}, language = {en} } @phdthesis{Willmes2013, author = {Willmes, Christoph}, title = {Therapie kutaner Tumoren : Identifizierung molekularer Biomarker der ex vivo Chemosensitivit{\"a}t des malignen Melanoms und Evaluierung der Wirkungsweise von Interferonen und Artemisininen auf das Merkelzellkarzinom}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-83470}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {F{\"u}r Patienten mit malignem Melanom im Stadium der Fernmetastasierung gibt es bis heute lediglich Therapieoptionen mit sehr eingeschr{\"a}nkten Erfolgsaussichten. Diese Tatsache best{\"a}tigt die Notwendigkeit von Biomarkern zur Vorhersage des Erfolgs verschiedener Therapien. Der ATP-basierende ex vivo Chemosensitivit{\"a}tsassay hat sich als erfolgreiche Methode zur individuellen Vorhersage eines Chemotherapieerfolgs herausgestellt. Tats{\"a}chlich zeigte der Assay ein heterogenes Sensitivit{\"a}tsprofil gegen verschiedene Chemotherapeutika und ließ in getesteten Patienten ein ex vivo wirksames Chemotherapieregime identifizieren, das anschließend auch klinische Therapieerfolge bei Verwendung der Therapie mit dem besten individuellen Chemosensitivit{\"a}tsindex(BICSI) zeigte. Um diesen sehr aufwendigen Assay zuk{\"u}nftig zu umgehen, sollten in der vorliegenden Arbeit pr{\"a}diktive molekulare Biomarker der Chemosensitivit{\"a}t identifiziert werden. Hierf{\"u}r wurden im Voraus durch einen Microarray die Kandidaten Secernin 1 (SCRN1), Lysyl oxidaselike 1 (LOXL1), Thymosin beta 4 X-linked (TMSB4X), Vesicle-associated membrane protein 5 (VAMP5) und Serine protease inhibitor B1 (SERPINB1) als differentiell exprimierte Gene in chemosensitivem gegen{\"u}ber chemoresistentem Gewebe identifiziert. Die relative Expression dieser Kandidatengene wurde daraufhin in bis zu 128 verschiedenen Melanomgeweben mit dem Chemosensitivit{\"a}tsindex verschiedener Chemotherapeutika korreliert. Hierbei konnte eine signifikante Korrelation zwischen SerpinB1 mit der Chemosensitivit{\"a}t gegen{\"u}ber der Therapiekombination mit Paclitaxel und Cisplatin auf Gen- aber nicht auf Proteinebene identifiziert werden. Weiterhin konnte eine differentielle Expression ebenfalls in chemosensitiven und -resistenten Melanomzelllinien nachgewiesen werden, die allerdings im Vergleich mit dem analysierten Gewebe in gegens{\"a}tzlicher Richtung verlief. Zusammenfassend l{\"a}sst sich sagen, dass SerpinB1 ein vielversprechender Marker f{\"u}r die Chemosensitivit{\"a}t gegen{\"u}ber Paclitaxel und Cisplatin ist, dessen funktionelle Bedeutung aber unklar bleibt. Das Merkelzellkarzinom (MCC) ist ein seltener und hoch aggressiver Tumor der mit dem Merkelzellpolyomavirus (MCV) in Zusammenhang steht. Da MCC Zelllinien zur Aufrechterhaltung ihrer Viabilit{\"a}t die MCV T-Antigene ben{\"o}tigen, k{\"o}nnte der Einsatz von Interferonen (IFN) ein m{\"o}glicher therapeutischer Ansatz zur Behandlung dieser Krebserkrankung sein. In der vorliegenden Arbeit haben wir daher die Effekte von IFNs auf MCC Zelllinien, mit besonderer Ber{\"u}cksichtigung der MCV+ Linien, untersucht. IFNs vom Typ I (hier Multiferon, ein Mix verschiedener IFN α Subtypen, und IFN β) wirkten stark inhibierend auf die zellul{\"a}re Viabilit{\"a}t. Die Zellzyklusanalyse zeigte eine Erh{\"o}hung des sub-G Anteils der Zellen nach Behandlung mit IFN, was auf Apoptose als ausschlagebenden Grund schließen ließ. Diese Effekte waren f{\"u}r die Behandlung mit IFN β weniger stark ausgepr{\"a}gt. Der inhibitorische Effekt von Typ I IFNs auf MCV+ MCC Zelllinien war assoziiert mit einer verringerten Expression des viralen großen T-Antigens (LTA) und einer Erh{\"o}hung in der Expression von promyelocytic leukemia protein (PML), das daf{\"u}r bekannt ist, die Funktion des LTA st{\"o}rend zu beeinflussen. Zus{\"a}tzlich f{\"u}hrte die intratumorale Anwendung von Multiferon in vivo zu einer Regression im Wachstum von MCV+, aber nicht MCV- MCC Xenotransplantaten. Die Ergebnisse zeigen das Typ I IFNs einen starken antitumoralen Effekt haben, der zum Teil durch die Regulierung des LTA herbeigef{\"u}hrt wird. Neben diesen direkten Effekten der IFNs auf die Zellproliferation induzieren diese auch die Expression von MHC Klasse I Molek{\"u}len in MCC Zelllinien. Die Durchflusszytometrie zeigte eine Induktion der MHC Klasse I Expression in drei MHC I negativen MCC Zelllinien und eine Erh{\"o}hung der Expression, die vor der Behandlung eine geringe Menge an MHC I aufwiesen. Diese Effekte konnten auch in den in vivo Xenotransplantaten beobachtet werden. Die Ergebnisse zeigen, dass die Behandlung mit IFN sowohl direkte als auch indirekte Effekte auf das MCC hat und eine breite Anwendung in Patienten mit MCV+ und MCV- Tumoren finden kann. Neben IFNs sind auch Artemisinin und seine Derivate bekannt f{\"u}r ihre antitumoralen und antiviralen Eigenschaften. Daher haben wir den Effekt des Artemisininderivats Artesunate auf MCV+ und MCV- MCC Zelllinien getestet. Tats{\"a}chlich konnten wir auch hier einen antiproliferativen Effekt des Stoffes nachweisen, der st{\"a}rker auf MCV+ als auf MCV- Zelllinien wirkte und bei ersteren wiederum mit einer reduzierten LTA Expression einherging. Im Vergleich dazu blieben Fibroblasten von der Behandlung unbeeinflusst. Das verringerte Tumorwachstum konnte ebenfalls f{\"u}r in vivo Xenotransplantationsmodelle gezeigt werden. Auf Grundlage dieser Erkenntnis sollte eine genauere Untersuchung dieses alten Naturheilstoffes f{\"u}r die Behandlung von MCC Patienten in Betracht gezogen werden.}, subject = {Interferon}, language = {de} } @article{GrossSamhita2013, author = {Gross, Hans J. and Samhita, Laasya}, title = {The "Clever Hans Phenomenon" revisited}, doi = {10.4161/cib.27122}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-112626}, year = {2013}, abstract = {In the first decade of the 20th century, a horse named Hans drew worldwide attention in Berlin as the first and most famous "speaking" and thinking animal. Hans solved calculations by tapping numbers or letters with his hoof in order to answer questions. Later on, it turned out that the horse was able to give the correct answer by reading the microscopic signals in the face of the questioning person. This observation caused a revolution and as a consequence, experimenters avoided strictly any face-to-face contact in studies about cognitive abilities of animals—a fundamental lesson that is still not applied rigorously.}, language = {en} } @phdthesis{Link2013, author = {Link, Jana}, title = {The role of meiotic nuclear envelope components in chromosome dynamics and meiotic progression}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-83540}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {Meiosis is the specialised cell division which produces haploid germ cells, capable of developing into fertile gametes, from diploid progenitor cells. During meiosis, chromosomes undergo strictly regulated and strongly conserved dynamic processes, at the beginning of which the telomeres are actively tethered and intimately attached to the nuclear envelope (NE). The attached telomeres are then moved within the NE through cytoskeletal forces to cluster within a restricted region, forming the highly conserved bouquet stage. Subsequently, the bouquet is released simultaneously to the completion of the synaptonemal complex assembly tightly linking homologous chromosome pairs together. In combination these processes are essential for the successful completion of meiosis. Because the meiotic NE serves as a platform for telomere attachment and movement it can be assumed to be critically involved in these events crucial for fertility. However, the precise roles of many meiotic NE proteins in the attachment and movement of telomeres still remain elusive. Therefore, it was the aim of this thesis to investigate the functions of two mammalian meiotic NE components in telomere attachment and dynamics. The first part of this thesis is concerned with the meiosis-specific lamin C2. Lamin C2 is the only A-type lamin expressed during meiosis and has in previous studies shown to feature altered meiosis-specific properties, clearly distinguishing it from somatic lamins. Because lamin C2 is enriched at sites of telomere attachment, exhibits a high mobility within the nuclear lamina and influences NE integrity, it has been postulated that it may locally increase NE flexibility to allow efficient meiotic telomere movement. Therefore, possible functions of lamin C2 in the movement of attached telomeres were investigated in this thesis by studying the bouquet formation and release of pubertal mice specifically lacking lamin C2. This revealed that lamin C2 deficient mice show a delayed bouquet release, leading to severe defects in the synaptic pairing of homologous chromosomes, which in turn results in infertility of the males. Therefore, the efficient repositioning of attached meiotic telomeres, facilitated by lamin C2, seems essential for completing meiosis. The second part of this thesis focuses on the protein complex responsible for the attachment of meiotic telomeres to the NE and their coupling to the cytoskeleton. The so-called LINC complex is composed of SUN domain proteins in the inner nuclear membrane interacting with KASH domain proteins of the outer nuclear membrane. In previous studies it had been shown that SUN1, SUN2 and KASH5 localise to the attached meiotic telomeres. Regarding the meiotic role of SUN2, however, contradicting results have recently been discussed, showing the need for further investigations. Using an available SUN1 deficient mouse strain, this thesis was able to show that SUN2 is sufficient for telomere attachment per se although telomere attachment is impaired in SUN1 deficient mice leading to infertility. It is also demonstrated that SUN2 forms a functional LINC complex together with KASH5 to mediate this telomere attachment. This LINC complex in the absence of SUN1 is able to move attached telomeres into a bouquet-like cluster formation. Therefore, this demonstrates that SUN2 is involved in the functional attachment and movement of meiotic telomeres. In summary, this thesis has shown SUN2 and the meiotic nuclear lamina to be directly involved in or essential for the highly conserved attachment and movement of telomeres, making them critical for a successful meiosis. The meiotic NE is therefore in this thesis demonstrated to be a determinant of mammalian fertility.}, subject = {Meiose}, language = {en} } @article{AlsheimerLinkJahnetal.2013, author = {Alsheimer, Manfred and Link, Jana and Jahn, Daniel and Schmitt, Johannes and G{\"o}b, Eva and Baar, Johannes and Ortega, Sagrario and Benavente, Ricardo}, title = {The Meiotic Nuclear Lamina Regulates Chromosome Dynamics and Promotes Efficient Homologous Recombination in the Mouse}, series = {PLoS Genetics}, journal = {PLoS Genetics}, doi = {10.1371/journal.pgen.1003261}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-96285}, year = {2013}, abstract = {The nuclear lamina is the structural scaffold of the nuclear envelope and is well known for its central role in nuclear organization and maintaining nuclear stability and shape. In the past, a number of severe human disorders have been identified to be associated with mutations in lamins. Extensive research on this topic has provided novel important clues about nuclear lamina function. These studies have contributed to the knowledge that the lamina constitutes a complex multifunctional platform combining both structural and regulatory functions. Here, we report that, in addition to the previously demonstrated significance for somatic cell differentiation and maintenance, the nuclear lamina is also an essential determinant for germ cell development. Both male and female mice lacking the short meiosis-specific A-type lamin C2 have a severely defective meiosis, which at least in the male results in infertility. Detailed analysis revealed that lamin C2 is required for telomere-driven dynamic repositioning of meiotic chromosomes. Loss of lamin C2 affects precise synapsis of the homologs and interferes with meiotic double-strand break repair. Taken together, our data explain how the nuclear lamina contributes to meiotic chromosome behaviour and accurate genome haploidization on a mechanistic level.}, language = {en} } @article{MuellerFiebigWeidaueretal.2013, author = {Mueller, Thomas D. and Fiebig, Juliane E. and Weidauer, Stella E. and Qiu, Li-Yan and Bauer, Markus and Schmieder, Peter and Beerbaum, Monika and Zhang, Jin-Li and Oschkinat, Hartmut and Sebald, Walter}, title = {The Clip-Segment of the von Willebrand Domain 1 of the BMP Modulator Protein Crossveinless 2 Is Preformed}, series = {Molecules}, journal = {Molecules}, doi = {10.3390/molecules181011658}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-97196}, year = {2013}, abstract = {Bone Morphogenetic Proteins (BMPs) are secreted protein hormones that act as morphogens and exert essential roles during embryonic development of tissues and organs. Signaling by BMPs occurs via hetero-oligomerization of two types of serine/threonine kinase transmembrane receptors. Due to the small number of available receptors for a large number of BMP ligands ligand-receptor promiscuity presents an evident problem requiring additional regulatory mechanisms for ligand-specific signaling. Such additional regulation is achieved through a plethora of extracellular antagonists, among them members of the Chordin superfamily, that modulate BMP signaling activity by binding. The key-element in Chordin-related antagonists for interacting with BMPs is the von Willebrand type C (VWC) module, which is a small domain of about 50 to 60 residues occurring in many different proteins. Although a structure of the VWC domain of the Chordin-member Crossveinless 2 (CV2) bound to BMP-2 has been determined by X-ray crystallography, the molecular mechanism by which the VWC domain binds BMPs has remained unclear. Here we present the NMR structure of the Danio rerio CV2 VWC1 domain in its unbound state showing that the key features for high affinity binding to BMP-2 is a pre-oriented peptide loop.}, language = {en} }