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Analyzing the role of the p130Cas SH3 domain in p130Cas-mediated signaling
Gemperle, Jakub ; Rösel, Daniel (advisor) ; Vomastek, Tomáš (referee) ; Truksa, Jaroslav (referee)
The adaptor protein p130Cas (CAS, BCAR1) represents a nodal signaling platform for integrin and growth factor receptor signaling, and influences normal development and tissue homeostasis. Its altered expression drives many pathological conditions including tumor growth, metastasis and drug resistance in many cancer types. How p130Cas contributes to many of these pathologies is still poorly understood. Therefore, the overall aim of my PhD work was to provide new insights to p130Cas signaling and its regulation. The SH3 domain is indispensable for p130Cas signaling, but the ligand binding characteristics of the p130Cas SH3 domain, and the structural determinants of its regulation were not well understood. To be able to study various aspects of p130Cas signaling we identified an atypical binding motif in p130Cas SH3 domain by establishing collaborations with Dr Veverka (Structural biology) and Dr Lepšík (Computational biochemistry; Academy of Sciences, CZ) which gave new insight into this binding interface. Through these collaborations I generated chimeras of p130Cas SH3 domain with its ligands for structural NMR analysis and learned how to visualize and analyze structures. Furthermore, my work expanded our knowledge of p130Cas SH3 ligand binding regulation and led to a novel model of Src-p130Cas- FAK...
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Analyzing the role of the p130Cas SH3 domain in p130Cas-mediated signaling
Gemperle, Jakub ; Rösel, Daniel (advisor) ; Vomastek, Tomáš (referee) ; Truksa, Jaroslav (referee)
The adaptor protein p130Cas (CAS, BCAR1) represents a nodal signaling platform for integrin and growth factor receptor signaling, and influences normal development and tissue homeostasis. Its altered expression drives many pathological conditions including tumor growth, metastasis and drug resistance in many cancer types. How p130Cas contributes to many of these pathologies is still poorly understood. Therefore, the overall aim of my PhD work was to provide new insights to p130Cas signaling and its regulation. The SH3 domain is indispensable for p130Cas signaling, but the ligand binding characteristics of the p130Cas SH3 domain, and the structural determinants of its regulation were not well understood. To be able to study various aspects of p130Cas signaling we identified an atypical binding motif in p130Cas SH3 domain by establishing collaborations with Dr Veverka (Structural biology) and Dr Lepšík (Computational biochemistry; Academy of Sciences, CZ) which gave new insight into this binding interface. Through these collaborations I generated chimeras of p130Cas SH3 domain with its ligands for structural NMR analysis and learned how to visualize and analyze structures. Furthermore, my work expanded our knowledge of p130Cas SH3 ligand binding regulation and led to a novel model of Src-p130Cas- FAK...
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The role of p130CAS in integrin signaling
Janoštiak, Radoslav ; Brábek, Jan (advisor) ; Brdička, Tomáš (referee) ; Kořínek, Vladimír (referee)
Focal adhesions are important subcellular structures that are composed of many signaling and scaffolding proteins. They serve not only for anchoring the cell to the substratum but they are also important signaling centers that regulate various cellular behavior such as migration, invasiveness, proliferation and survival. Focal adhesion signaling needs to be strictly regulated because alteration in activity or expression of many focal adhesion proteins leads to tumorogenesis and metastasis formation. One of the most important scaffolding protein associated with focal adhesion is p130Cas. The importance of p130Cas in regulation of cell migration and invasiveness has been well established. P130Cas also plays important role in regulation of cell survival and proliferation. Moreover, high protein levels of human ortholog of p130Cas - BCAR1, has been linked to more aggressive breast tumors and poor prognosis. During my doctoral studies, I focused on the role of p130Cas in integrin signaling. At the beginning we characterized the role of tyrosine 12 phosphorylation within its SH3 domain. We confirmed that this phosphorylation is increased in Src527F transformed mouse embryonic fibroblasts compared to non-transformed counterparts and also in some human cancer cell lines. We showed that this phosphorylation...
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Candidate genes screening for prostate cancer
Semaneková, Viera ; Mareš, Jaroslav (advisor) ; Šťovíček, Vratislav (referee)
Prostate carcinoma is considered to be one of the main medical problem in male population. Prostate carcinoma is the most frequently diagnosed malignancy in men and the death rate has the second position within all diagnosed malignancies in Czech Republic (ÚZIS). There is only one reliable diagnostic tool: PSA (prostate specific antigen). Level of PSA is often elevated in men with prostate carcinoma. This diploma thesis is focused on study of changes in gene expression in prostate carcinoma. Three candidate genes were analyzed: VCL (vinculin), SHB (Src homology 2 binding protein) and OCT3 (organic cation transporter 3). According to recent publications, these genes are related to tumor progression and they could have prognostic significance. In this thesis the following methodological approaches were used: 82 prostatic specimens were collected from patients and mRNA was isolated from these specimens; then RT-PCR was used to obtain cDNA, fragments were detected by electrophoresis. At the end statistical methods were used for evaluation. Relative expression of the genes in prostate carcinoma tissue was compared to relative expression of the genes in BPH (benign prostatic neoplasia) tissue. Results showed higher expression of genes SHB and OCT3 in prostate carcinoma tissue in compariscon to BPH...
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