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The role of p130Cas substrate domain mediated signaling in cancer cell migration, invasiveness and metastasis of cancer cells
Zemanová, Kateřina ; Brábek, Jan (advisor) ; Čáslavský, Josef (referee)
p130Cas (Crk-associated substrate) was first described over 30 years ago as a protein that associates with the v-src and v-crk oncoproteins and undergoes tyrosine phosphorylation. Proteins of the CAS family are an important part of cellular biological processes in normal and pathological situations. The existence of 15 YXXP repetitive motifs is characteristics for substrate domain. p130Cas is an adapter protein that allows interactions between proteins that lead to assembly of multiprotein complexes. The p130Cas protein regulates these multiprotein complexes, which further drive chemotaxis, apoptosis, differentiation and migration. Overproduction of CAS proteins was found in connection with a poor prognosis and an increased incidence of metastases. Also, the elevated expression of proteins of the CAS family is related to resistance to some types of chemotherapeutics.
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The role of p130Cas substrate domain mediated signaling in cancer cell migration, invasiveness and metastasis of cancer cells
Zemanová, Kateřina ; Brábek, Jan (advisor) ; Čáslavský, Josef (referee)
p130Cas (Crk-associated substrate) was first described over 30 years ago as a protein that associates with the v-src and v-crk oncoproteins and undergoes tyrosine phosphorylation. Proteins of the CAS family are an important part of cellular biological processes in normal and pathological situations. The existence of 15 YXXP repetitive motifs is characteristics for substrate domain. p130Cas is an adapter protein that allows interactions between proteins that lead to assembly of multiprotein complexes. The p130Cas protein regulates these multiprotein complexes, which further drive chemotaxis, apoptosis, differentiation and migration. Overproduction of CAS proteins was found in connection with a poor prognosis and an increased incidence of metastases. Also, the elevated expression of proteins of the CAS family is related to resistance to some types of chemotherapeutics.
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The role of membrane microdomains and transmembrane adaptor proteins PRR7 and SCIMP in the regulation of immunoreceptor signaling
Hrdinka, Matouš ; Drbal, Karel (advisor) ; Černý, Jan (referee) ; Kalina, Tomáš (referee)
Dissertation summary The role of membrane microdomains and transmembrane adaptor proteins PRR7 and SCIMP in the regulation of immunoreceptor signaling Matouš Hrdinka How do the plasma membrane microdomains and transmembrane adaptor proteins (TRAPs) influence the outcome of immunoreceptor signaling? These have been the important questions of molecular immunology. In spite of the years of intensive research, these problems remain incompletely understood. The plasma membrane is a highly dynamic heterogeneous bilayer spontaneously organized into microdomains of various size, composition, and lifetime. The lipid rafts are one example of such microdomains and have been implicated in many biological processes, including immunoreceptor signaling. Because rafts are enriched in many signaling proteins, they are believed to function as platforms for signal initiation and propagation. The TRAPs are important organizers and regulators of immunoreceptor signaling. For example, LAT is indispensable in T cell receptor (TCR) signaling and T cell development, PAG for the regulation of Src family tyrosine kinases (SFKs), and NTAL is a multifunctional negative and positive regulator. The presence of these TRAPs in lipid rafts seems to be crucial for their functions, however, is still a matter of debate. Moreover, other so far...
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The regulation of the ERK signalling pathway by scaffold protein RACK1
Bráborec, Vojtěch ; Vomastek, Tomáš (advisor) ; Filipp, Dominik (referee)
The ERK signalling cascade comprised of protein kinases Raf, MEK and ERK is an evolutionarily conserved member of MAPK family that is activated in response to wide range of extracellular stimuli. The ERK pathway controls fundamental cellular functions including cell proliferation, differentiation, apoptosis or cell motility. To control such a diverse cellular responses by a single pathway cells have evolved regulatory mechanisms that channel the extracellular signals towards the specific biological response. Crucial to this control are non- enzymatic proteins termed scaffolds that associate with and enhance functional interaction of the components of MAPK pathways and can regulate amplitude, timing, specificity and location of signals. Scaffold protein RACK1 associates with several components of cell migration machinery including integrins, FAK, Src and the ERK pathway core protein kinases. RACK1 regulates distinct steps of cell migration such as establishment of cell polarity and focal adhesion turnover, however, the molecular mechanism by which RACK1 regulates these processes remains largely unknown. The main aim of this study was to investigate the functional role of RACK1 in cell motility, in particular to identify new effector proteins utilized by the ERK pathway and RACK1 in the regulation of...
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