Diverse Roles of Integrin Receptors in Articular Cartilage
By: Shakibaei, Mehdi [author.].
Contributor(s): Moba [author.1 ] | Spri [author.2 ] | Spri.
Material type: BookSeries: : 19740Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2008.Description: VII, 62 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783540787716.Subject(s): Biom | Biom | CsakDDC classification: 610 Online resources: Click here to access onlineItem type | Current location | Call number | Status | Date due | Barcode | Item holds |
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PK Kelkar Library, IIT Kanpur | Available | EBKS0004428 |
Introduction -- Integrins - multifunctional adhesion molecules -- Integrin structure-function relationships -- Structure of integrins -- EGF domains in �1-integrins -- Integrins in articular cartilage -- Monolayer cultures -- High density (organoid-) cultures -- Concluding remarks -- Acknowledgements -- References -- Subject index.
Integrins belong to an evolutionary conserved family of adhesion molecules with important biological functions throughout the animal kingdom. They are heterodimeric glycoproteins involved in cell-cell and cell-matrix adhesion and communication. Physiologically they function as intra- and extracellular signalling molecules in a variety of processes including embryogenesis, hemostasis, tissue repair, immune response and metastatic spread of tumor cells. Integrin beta 1 (�1-integrin) is a multi-functional member of the integrin superfamily and is an integral protein involved in cell-matrix adhesion, cell signalling, cellular defense, cell adhesion, protein binding, protein heterodimerization and receptor-mediated activity. The �1-integrin family of cell surface receptors appears to play a major role in mediating cell-extracellular matrix interactions that are important in regulating these fundamental processes. �1-integrins are important adhesion molecules that are highly expressed in articular chondrocytes where they bind to extracellular matrix molecules including fibronectin, laminin, and fibrillar collagens. In addition to mediating cell adhesion, members of the �1 subfamily of integrins contribute to the organisation of the cytoskeleton and activate numerous intracellular signal transduction pathways. Recent studies from the authors' laboratory and from other leading groups have shown that �1-integrins are essential for cell signalling and communication in chondrocytes. Furthermore, �1-integrins function as mechanoreceptors in the chondrocyte mechanotransduction pathway. Their expression is therefore essential for maintaining the chondrocyte phenotype, preventing chondrocyte apoptosis and regulating chondrocyte-specific gene expression. This book volume summarizes the work that the authors have done on �1-integrins over the last 18 years and focuses on the expression and regulation of these proteins in chondrocytes and their role in the context of the unique function of chondrocytes within articular cartilage. 0 Medi
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