Interdisciplinarity is more often invoked than practised. This is hardly surprising, considering the daunting vastness of modern biology. To reach a satisfactory understanding of a complex biological system, a wide spectrum of conceptual and experimental tools must be applied at different levels, from the molecular to the cellular, tissue and organismic. We believe the multifaceted regulatory interplay between integrin receptors and ion channels offers a rich and challenging field for researchers seeking broad biological perspectives. By mediating cell adhesion to the extracellular matrix,…mehr
Interdisciplinarity is more often invoked than practised. This is hardly surprising, considering the daunting vastness of modern biology. To reach a satisfactory understanding of a complex biological system, a wide spectrum of conceptual and experimental tools must be applied at different levels, from the molecular to the cellular, tissue and organismic. We believe the multifaceted regulatory interplay between integrin receptors and ion channels offers a rich and challenging field for researchers seeking broad biological perspectives. By mediating cell adhesion to the extracellular matrix, integrins regulate many developmental processes in the widest sense (from cell choice between differentiation and proliferation, to tissue remodeling and organogenesis). Rapidly growing evidence shows that frequent communication takes place between cell adhesion receptors and channel proteins. This may occur through formation of multiprotein membrane complexes that regulate ion fluxes as well as a variety of intracellular signaling pathways. In othercases, cross talk is more indirect and mediated by cellular messengers such as G proteins. These interactions are reciprocal, in that ion channel stimulation often controls integrin activation or expression. From a functional standpoint, studying the interplay between integrin receptors and ion channels clarifies how the extracellular matrix regulates processes as disparate as muscle excitability, synaptic plasticity and lymphocyte activation, just to mention a few. The derangement of these processes has many implications for pathogenesis processes, in particular for tumor invasiveness and some cardiovascular and neurologic diseases. This book provides a general introduction to the problems and methods of this blossoming field.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Artikelnr. des Verlages: 12985548, 978-1-4419-6065-8
Seitenzahl: 124
Erscheinungstermin: 12. April 2010
Englisch
Abmessung: 261mm x 174mm x 15mm
Gewicht: 404g
ISBN-13: 9781441960658
ISBN-10: 1441960651
Artikelnr.: 28194644
Autorenporträt
ANDREA BECCHETTI, PhD, is Professor of General, Comparative and Cellular Physiology at the Department of Biotechnology and Biosciences of the University of Milano-Bicocca, Italy. After receiving his academic degrees at the University of Milan, he has spent prolonged research sojourns at the Department of General Pathology of the University of Florence, Italy, the Department of Physiology at Emory University in Atlanta, Georgia, USA, the Department of Physiological Sciences of the University of Newcastle upon Tyne, UK, and the Biophysics Sector of the International School for Advanced Studies (ISAS-SISSA), in Trieste, Italy. His current research interests include the role of ion channels in cell adhesion and proliferation, the nicotinic modulation of synaptic transmission in the mammalian cerebral cortex and the pathogenesis of sleep-related epileptic forms linked to mutant human nicotinic receptors. Andrea Becchetti is member of the Society of General Physiologists, Biophysical Society, Society for Neuroscience and the Italian Physiological Society. ANNAROSA ARCANGELI, MD, PhD is Professor of General Pathology and Immunology at the Department of Experimental Pathology and Oncology of the University of Firenze (Florence, Italy). She is the Scientific Director of the Laboratory of Genetic Engineering for the Production of Animal Models of the University of Firenze. After receiving her MD degree at the University of Firenze, she spent several research sojourns at the Department of Physiology of the University of Milano, at the Institut d'Embriologie Cellulaire et Moleculaire, Nogent sur Marne, Paris, France and at the MRC-LMB Centre of Cambridge, UK. Her main research interests include the role of ion channels, in particular potassium channels, in the regulation of different aspects of tumor cell behaviour, including the cross talk with adhesion receptors, as well as the identification of ion channels as novel targetsfor cancer therapy. Annarosa Arcangeli is member of the Italian Society of Pathology, the Association of Cell Biology and Differentiation (ABCD), the American Society of Hematology.
Inhaltsangabe
Integrin Structure and Functional Relation with Ion Channels.- to Ion Channels.- Biochemical Methods to Study the Interactions Between Integrins and Ion Channels.- Optical Methods in the Study of Protein-Protein Interactions.- Integrins and Signal Transduction.- Physical and Functional Interaction between Integrins and hERG1 Channels in Cancer Cells.- Coordinated Regulation of Vascular Ca2+ and K+ Channels by Integrin Signaling.- Adhesion-Dependent Modulation of Macrophage K+ Channels.- Integrin Receptors and Ligand-Gated Channels.- Integrins and Ion Channels in Cell Migration: Implications for Neuronal Development, Wound Healing and Metastatic Spread.
Integrin Structure and Functional Relation with Ion Channels.- to Ion Channels.- Biochemical Methods to Study the Interactions Between Integrins and Ion Channels.- Optical Methods in the Study of Protein-Protein Interactions.- Integrins and Signal Transduction.- Physical and Functional Interaction between Integrins and hERG1 Channels in Cancer Cells.- Coordinated Regulation of Vascular Ca2+ and K+ Channels by Integrin Signaling.- Adhesion-Dependent Modulation of Macrophage K+ Channels.- Integrin Receptors and Ligand-Gated Channels.- Integrins and Ion Channels in Cell Migration: Implications for Neuronal Development, Wound Healing and Metastatic Spread.
Integrin Structure and Functional Relation with Ion Channels.- to Ion Channels.- Biochemical Methods to Study the Interactions Between Integrins and Ion Channels.- Optical Methods in the Study of Protein-Protein Interactions.- Integrins and Signal Transduction.- Physical and Functional Interaction between Integrins and hERG1 Channels in Cancer Cells.- Coordinated Regulation of Vascular Ca2+ and K+ Channels by Integrin Signaling.- Adhesion-Dependent Modulation of Macrophage K+ Channels.- Integrin Receptors and Ligand-Gated Channels.- Integrins and Ion Channels in Cell Migration: Implications for Neuronal Development, Wound Healing and Metastatic Spread.
Integrin Structure and Functional Relation with Ion Channels.- to Ion Channels.- Biochemical Methods to Study the Interactions Between Integrins and Ion Channels.- Optical Methods in the Study of Protein-Protein Interactions.- Integrins and Signal Transduction.- Physical and Functional Interaction between Integrins and hERG1 Channels in Cancer Cells.- Coordinated Regulation of Vascular Ca2+ and K+ Channels by Integrin Signaling.- Adhesion-Dependent Modulation of Macrophage K+ Channels.- Integrin Receptors and Ligand-Gated Channels.- Integrins and Ion Channels in Cell Migration: Implications for Neuronal Development, Wound Healing and Metastatic Spread.
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