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Non-enzymatic roles of kinases and phosphatases - the case of MTMR9 and AAK1
Knop, Filip ; Macůrková, Marie (advisor) ; Harnoš, Jakub (referee) ; Soukup, Vladimír (referee)
Enzymatic roles of kinases and phosphatases in almost every aspect of cellular life are well described in a wide variety of examples. Lately the role of the same proteins independent of their catalytic activity is being increasingly appreciated. In this work, we focus on two proteins, mammalian MTMR9, and Caenorhabditis elegans SEL-5/AAK1. MTMR9 belongs to the myotubularin-related family of lipid phosphatases (MTMR) and is known to be a pseudophosphatase, a catalytically inactive member of the MTMR group. SEL-5/AAK1, on the other hand, is characterized by its kinase activity with at least two putative substrates identified so far. We described the localization of MTMR9 to early secretory pathway and its colocalization with known ER-to-GA compartment (ERGIC) markers. We also identified several possible MTMR9-interacting partners, such as RAB1 and MTMR6, whose localization and/or activity could be potentially regulated by MTMR9 binding. Disruption of proper MTMR9 levels led to an alteration in WNT3A secretion and subsequently to a reduced activity of the Wnt signaling pathway. Similarly, we identified SEL-5/AAK1 role in two separate Wnt-regulated developmental processes in C. elegans. Firstly, SEL-5 along with other members of the retromer complex regulate a proper QL.d migration. Secondly, excretory...
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Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii
Žídek, Radim ; Kozmik, Zbyněk (advisor) ; Janečková, Lucie (referee) ; Macůrková, Marie (referee)
Radim Žídek "Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii" (dissertation) Abstract: Wnt/β-catenin signalling is absolutely crucial for the early embryonic development of metazoan animals from the establishment of body axes, through the specification of germ layers and tissues to the development of organ systems. I used pharmacological manipulations of the Wnt/β-catenin pathway activity in the planktonic larvae of the marine polychaete annelid Platynereis dumerilii, the representative of the clade Spiralia, to investigate the role of Wnt/β- catenin signalling in the development and evolution of three hallmarks of Bilateria: the central nervous system, the body segmentation and the digestive tube. Wnt proteins are produced in all three aforementioned systems in Platynereis where they trigger the Wnt/β-catenin pathway in neighbouring cells. I describe here, for the first time in Platynereis, a homologue of the endpoint transcription factor of the entire pathway, Pdu-Tcf, which is subjected to an alternative splicing and along with a Wnt target gene Pdu-Axin is expressed in tissues with the active Wnt signalling - in the brain ganglia, in the neuroectoderm along the ventral midline, in segments, in the posterior growth zone and in the gut. Pharmacological manipulations...
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Regulatory mechanisms of WNT signalling
Pospíchalová, Vendula ; Kořínek, Vladimír (advisor) ; Trka, Jan (referee) ; Bryja, Josef (referee)
AB T mu hom dise β sign mu liga stab tran sign T the focu disc cate of t cell targ the inte con sec I sign BSTRACT The Wnt si lticellular o meostasis. A eases, most β-catenin is nalling). In ltiprotein c ands when t bilized and nscription f nalling is tig This thesis knowledge uses on seq cusses the enin signall the Wnt pa ls of intest geted mous thesis des eraction wit nditional Hi retory cell t In conclusi nalling path T ignalling pa organisms Accordingly notably can s a central m n unstimula complex and they engage d transloca factors and ghtly regula is based on e of the reg quential po positive ro ling outcom athway whic tinal epithe e strains th scribes unp th members ic1 deletion types and en ion, our fin hway in dev athway is o ensuring s y, mutations ncer. mediator of ated cells d degraded e their recep tes to the to drive th ated at vario n four origin gulation of sttranslation ole of nucle me. The third ch reduces lium. Final at enable st ublished da s of the Wn n in the inte nhanced tum ndings contr velopment an one of the m successful s in the pat f canonical W β-catenin d in the pro ptors, degrad nucleus t he transcrip ous levels b nal articles f the Wnt s nal process ear protein d study repo the levels o lly, the las tudying the ata on the nt pathway, estinal epith mourigenesi ributed to t...
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Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii
Žídek, Radim
Radim Žídek "Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii" (dissertation) Abstract: Wnt/β-catenin signalling is absolutely crucial for the early embryonic development of metazoan animals from the establishment of body axes, through the specification of germ layers and tissues to the development of organ systems. I used pharmacological manipulations of the Wnt/β-catenin pathway activity in the planktonic larvae of the marine polychaete annelid Platynereis dumerilii, the representative of the clade Spiralia, to investigate the role of Wnt/β- catenin signalling in the development and evolution of three hallmarks of Bilateria: the central nervous system, the body segmentation and the digestive tube. Wnt proteins are produced in all three aforementioned systems in Platynereis where they trigger the Wnt/β-catenin pathway in neighbouring cells. I describe here, for the first time in Platynereis, a homologue of the endpoint transcription factor of the entire pathway, Pdu-Tcf, which is subjected to an alternative splicing and along with a Wnt target gene Pdu-Axin is expressed in tissues with the active Wnt signalling - in the brain ganglia, in the neuroectoderm along the ventral midline, in segments, in the posterior growth zone and in the gut. Pharmacological manipulations...
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Regulatory mechanisms of WNT signalling
Pospíchalová, Vendula
AB T mu hom dise β sign mu liga stab tran sign T the focu disc cate of t cell targ the inte con sec I sign BSTRACT The Wnt si lticellular o meostasis. A eases, most β-catenin is nalling). In ltiprotein c ands when t bilized and nscription f nalling is tig This thesis knowledge uses on seq cusses the enin signall the Wnt pa ls of intest geted mous thesis des eraction wit nditional Hi retory cell t In conclusi nalling path T ignalling pa organisms Accordingly notably can s a central m n unstimula complex and they engage d transloca factors and ghtly regula is based on e of the reg quential po positive ro ling outcom athway whic tinal epithe e strains th scribes unp th members ic1 deletion types and en ion, our fin hway in dev athway is o ensuring s y, mutations ncer. mediator of ated cells d degraded e their recep tes to the to drive th ated at vario n four origin gulation of sttranslation ole of nucle me. The third ch reduces lium. Final at enable st ublished da s of the Wn n in the inte nhanced tum ndings contr velopment an one of the m successful s in the pat f canonical W β-catenin d in the pro ptors, degrad nucleus t he transcrip ous levels b nal articles f the Wnt s nal process ear protein d study repo the levels o lly, the las tudying the ata on the nt pathway, estinal epith mourigenesi ributed to t...
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Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii
Žídek, Radim
Radim Žídek "Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii" (dissertation) Abstract: Wnt/β-catenin signalling is absolutely crucial for the early embryonic development of metazoan animals from the establishment of body axes, through the specification of germ layers and tissues to the development of organ systems. I used pharmacological manipulations of the Wnt/β-catenin pathway activity in the planktonic larvae of the marine polychaete annelid Platynereis dumerilii, the representative of the clade Spiralia, to investigate the role of Wnt/β- catenin signalling in the development and evolution of three hallmarks of Bilateria: the central nervous system, the body segmentation and the digestive tube. Wnt proteins are produced in all three aforementioned systems in Platynereis where they trigger the Wnt/β-catenin pathway in neighbouring cells. I describe here, for the first time in Platynereis, a homologue of the endpoint transcription factor of the entire pathway, Pdu-Tcf, which is subjected to an alternative splicing and along with a Wnt target gene Pdu-Axin is expressed in tissues with the active Wnt signalling - in the brain ganglia, in the neuroectoderm along the ventral midline, in segments, in the posterior growth zone and in the gut. Pharmacological manipulations...
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Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii
Žídek, Radim ; Kozmik, Zbyněk (advisor) ; Janečková, Lucie (referee) ; Macůrková, Marie (referee)
Radim Žídek "Wnt/β-catenin signalling in the development of the marine annelid Platynereis dumerilii" (dissertation) Abstract: Wnt/β-catenin signalling is absolutely crucial for the early embryonic development of metazoan animals from the establishment of body axes, through the specification of germ layers and tissues to the development of organ systems. I used pharmacological manipulations of the Wnt/β-catenin pathway activity in the planktonic larvae of the marine polychaete annelid Platynereis dumerilii, the representative of the clade Spiralia, to investigate the role of Wnt/β- catenin signalling in the development and evolution of three hallmarks of Bilateria: the central nervous system, the body segmentation and the digestive tube. Wnt proteins are produced in all three aforementioned systems in Platynereis where they trigger the Wnt/β-catenin pathway in neighbouring cells. I describe here, for the first time in Platynereis, a homologue of the endpoint transcription factor of the entire pathway, Pdu-Tcf, which is subjected to an alternative splicing and along with a Wnt target gene Pdu-Axin is expressed in tissues with the active Wnt signalling - in the brain ganglia, in the neuroectoderm along the ventral midline, in segments, in the posterior growth zone and in the gut. Pharmacological manipulations...
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Molecular mechanisms of Wnt signalling in mammalian cells
Lukáš, Jan ; Kořínek, Vladimír (advisor) ; Kohoutová, Milada (referee) ; Macůrková, Marie (referee)
Wnt signalling represents an important mechanism participating in control of cellular and developmental processes, including establishment of cell polarity, cell fate specification, stem cell self-renewal, tissue patterning and organogenesis, homeostasis maintenance and regeneration. Misregulation of the Wnt signalling during embryogenesis leads to developmental defects while aberrant activation later in development is associated with degenerative diseases and a number of cancers. The presented PhD thesis is based on four original publications that deal with the post-translational modifications of Wnt ligands and molecular mechanisms contributing to the regulation of a transcriptional profile of the so-called canonical Wnt pathway. Wnt signalling pathway is used repetitively both in time and different cellular contexts throughout development of multicellular organisms. Inevitably, in each single situation -catenin/TCF complexes, the downstream effectors, induce only subsets of all potential target genes. How this differential tissue- and stage-specific control over various subsets of target genes is achieved with such a limited number of nuclear effectors is not fully understood. Along with the expression of specific LEF/TCF family members or their variants containing different functional domains...
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Regulatory mechanisms of WNT signalling
Pospíchalová, Vendula
AB T mu hom dise β sign mu liga stab tran sign T the focu disc cate of t cell targ the inte con sec I sign BSTRACT The Wnt si lticellular o meostasis. A eases, most β-catenin is nalling). In ltiprotein c ands when t bilized and nscription f nalling is tig This thesis knowledge uses on seq cusses the enin signall the Wnt pa ls of intest geted mous thesis des eraction wit nditional Hi retory cell t In conclusi nalling path T ignalling pa organisms Accordingly notably can s a central m n unstimula complex and they engage d transloca factors and ghtly regula is based on e of the reg quential po positive ro ling outcom athway whic tinal epithe e strains th scribes unp th members ic1 deletion types and en ion, our fin hway in dev athway is o ensuring s y, mutations ncer. mediator of ated cells d degraded e their recep tes to the to drive th ated at vario n four origin gulation of sttranslation ole of nucle me. The third ch reduces lium. Final at enable st ublished da s of the Wn n in the inte nhanced tum ndings contr velopment an one of the m successful s in the pat f canonical W β-catenin d in the pro ptors, degrad nucleus t he transcrip ous levels b nal articles f the Wnt s nal process ear protein d study repo the levels o lly, the las tudying the ata on the nt pathway, estinal epith mourigenesi ributed to t...
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Regulatory mechanisms of WNT signalling
Pospíchalová, Vendula ; Kořínek, Vladimír (advisor) ; Trka, Jan (referee) ; Bryja, Josef (referee)
AB T mu hom dise β sign mu liga stab tran sign T the focu disc cate of t cell targ the inte con sec I sign BSTRACT The Wnt si lticellular o meostasis. A eases, most β-catenin is nalling). In ltiprotein c ands when t bilized and nscription f nalling is tig This thesis knowledge uses on seq cusses the enin signall the Wnt pa ls of intest geted mous thesis des eraction wit nditional Hi retory cell t In conclusi nalling path T ignalling pa organisms Accordingly notably can s a central m n unstimula complex and they engage d transloca factors and ghtly regula is based on e of the reg quential po positive ro ling outcom athway whic tinal epithe e strains th scribes unp th members ic1 deletion types and en ion, our fin hway in dev athway is o ensuring s y, mutations ncer. mediator of ated cells d degraded e their recep tes to the to drive th ated at vario n four origin gulation of sttranslation ole of nucle me. The third ch reduces lium. Final at enable st ublished da s of the Wn n in the inte nhanced tum ndings contr velopment an one of the m successful s in the pat f canonical W β-catenin d in the pro ptors, degrad nucleus t he transcrip ous levels b nal articles f the Wnt s nal process ear protein d study repo the levels o lly, the las tudying the ata on the nt pathway, estinal epith mourigenesi ributed to t...
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