4 research outputs found
ProtĂ©ines LAP : de nouvelles clĂ©s de voĂ»te de lâarchitecture Ă©pithĂ©liale
La polaritĂ©, une des propriĂ©tĂ©s les plus importantes des Ă©pithĂ©liums, se manifeste par la formation de deux domaines membranaires distincts, apical et basolatĂ©ral, dont les fonctions sont spĂ©cialisĂ©es. La formation, le maintien et les fonctions des tissus Ă©pithĂ©liaux sont assurĂ©s par un canevas de protĂ©ines de surface connectĂ©es Ă des rĂ©seaux intracellulaires de molĂ©cules de structure et de signalisation organisant la polaritĂ© spĂ©cialisĂ©e du tissu, et contrĂŽlant ses relations avec le milieu extĂ©rieur. Au sein de ces Ă©chafaudages molĂ©culaires, les protĂ©ines Ă domaines PDZ (PSD95/Dlg/ZO-1) tiennent une place prĂ©pondĂ©rante en assurant lâassemblage et la distribution subcellulaire des acteurs de lâhomĂ©ostasie Ă©pithĂ©liale. Parmi celles-ci, les protĂ©ines de la famille LAP (LRR and PDZ) occupent le devant de la scĂšne en raison de leur implication dans les Ă©tapes-clĂ©s de la diffĂ©renciation Ă©pithĂ©liale. De plus, lâĂ©tude de modĂšles gĂ©nĂ©tiques invertĂ©brĂ©s et vertĂ©brĂ©s a notamment permis de mettre en exergue leur rĂŽle central au cours du dĂ©veloppement embryonnaire et de dĂ©voiler, pour certaines protĂ©ines LAP, un rĂŽle potentiel de suppresseur de tumeur.Cell proliferation and cell differentiation are balanced processes required for the correct development and maintenance of tissues, including epithelial tissues. Disruption of this balance by downregulation or loss of function of gatekeepers of epithelial homeostasis may unleash tumor suppressing activities leading ultimately to tumorigenesis. Among the newcoming actors involved in epithelial cell polarity, recent data shed light on the crucial role played by the LAP (LRR And PDZ) protein family. LAP proteins assemble receptors, cytoplasmic adaptors and enzymes in multimolecular networks important for the different steps of epithelial differentiation : adhesion, building of tight junctions and trafficking of proteins along the secretory pathway. Furthermore, genetic studies in invertebrates and vertebrates have installed LAP proteins not only as crucial determinants for epithelial integrity but also as key regulators of cell proliferation and embryonic development
Basolateral targeting by leucineârich repeat domains in epithelial cells
The asymmetric distribution of proteins to basolateral and apical membranes is an important feature of epithelial cell polarity. To investigate how basolateral LAP proteins (LRR (for leucine-rich repeats) and PDZ (for PSD-95/Discs-large/ZO-1), which play key roles in cell polarity, reach their target membrane, we carried out a structureâfunction study of three LAP proteins: Caenorhabditis elegans LET-413, human Erbin and human Scribble (hScrib). Deletion and point mutation analyses establish that their LRR domain is crucial for basolateral membrane targeting. This property is specific to the LRR domain of LAP proteins, as the non-LAP protein SUR-8 does not localize at the basolateral membrane of epithelial cells, despite having a closely related LRR domain. Importantly, functional studies of LET-413 in C. elegans show that although its PDZ domain is dispensable during embryogenesis, its LRR domain is essential. Our data establish a novel paradigm for protein localization by showing that a subset of LRR domains direct subcellular localization in polarized cells
Etude de l'implication d'Erbin, une protéine de la famille LAP, dans l'établissement de la polarité épithéliale
AIX-MARSEILLE2-BU Sci.Luminy (130552106) / SudocSudocFranceF
ERBIN: a basolateral PDZ protein that interacts with the mammalian ERBB2/HER2 receptor
The ERBB receptors have a crucial role in morphogenesis and oncogenesis. We have identified a new PDZ protein we named ERBIN (ERBB2 interacting protein) that acts as an adaptor for the receptor ERBB2/HER2 in epithelia. ERBIN contains 16 leucine-rich repeats (LRRs) in its amino terminus and a PDZ (PSD-95/DLG/ZO-1) domain at its carboxy terminus, and belongs to a new PDZ protein family. The PDZ domain directly and specifically interacts with ERBB2/HER2. ERBIN and ERBB2/HER2 colocalize to the lateral membrane of human intestinal epithelial cells. The ERBIN-binding site in ERBB2/HER2 has a critical role in restricting this receptor to the basolateral membrane of epithelial cells, as mutation of the ERBIN-binding site leads to the mislocalization of the receptor in these cells. We suggest that ERBIN acts in the localization and signalling of ERBB2/HER2 in epithelia