Gap Junction-Mediated Intercellular Signalling in Health and Disease ( Novartis Foundation Symposia )

Publication series :Novartis Foundation Symposia

Author: Norton B. Gilula  

Publisher: John Wiley & Sons Inc‎

Publication year: 2008

E-ISBN: 9780470515594

P-ISBN(Hardback):  9780471982593

Subject: Q2 Cytobiology

Language: ENG

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Description

Gap junctions are key elements in communication between cells in multicellular organisms.  It is clear that their activity is essential for normal embryonic development and normal function in adult organs, although the individual roles of the proteins that form the channels (connexins) are not yet fully understood.

The last few years have seen considerable progress in this field and exciting new issues concerning gap junctional intercellular communication are being raised. Perturbed gap junction activity is beginning to be linked to certain pathologies, e.g. mutations in the major connexin of the heart have been found in human patients suffering from visceroatrial heterotaxia syndrome and mutations in the gene encoding another connexin have been found in patients with Charcot-Marie-Tooth disease.

This book is the first to highlight the recent progress in understanding gap junction structure and to discuss the specific roles of individual connexins. It features contributions from an interdisciplinary group of experts who review the role of gap junctions in the heart, the retina and lens, the auditory system, the reproductive system, and in cell proliferation and cancer.

The book will appeal to people interested in cell and molecular biology, embryonic development, neurobiology, cardiology, gynaecology and oncology.

Chapter

Contents

pp.:  1 – 7

Participants

pp.:  7 – 9

Introduction

pp.:  9 – 12

Molecular biology of the interactions between connexins

pp.:  12 – 17

Electron cryo-crystallography of a recombinant cardiac gap junction channel

pp.:  17 – 33

General discussion I

pp.:  33 – 51

Trafficking pathways leading to the formation of gap junctions

pp.:  51 – 57

Interactions between growth factors and gap junctional communication in developing systems

pp.:  57 – 73

Biological functions of connexin genes revealed by human genetic defects, dominant negative approaches and targeted deletions in the mouse

pp.:  73 – 89

Connexins in the lens: are they to blame in diabetic cataractogenesis?

pp.:  89 – 110

Neuronal coupling in the central nervous system: lessons from the retina

pp.:  110 – 126

Gap junctions and connexin expression in the inner ear

pp.:  126 – 147

Gap junction-mediated communication in the developing and adult cerebral cortex

pp.:  147 – 170

The role of the gap junction protein connexin32 in the pathogenesis of X-linked Charcot-Marie-Tooth disease

pp.:  170 – 188

Cardiovascular disease

pp.:  188 – 201

Misregulation of connexin43 gap junction channels and congenital heart defects

pp.:  201 – 225

Gap junctional intercellular communication in the mouse ovarian follicle

pp.:  225 – 239

Connexins in tumour suppression and cancer therapy

pp.:  239 – 254

Summary

pp.:  254 – 274

Index of contributors

pp.:  274 – 287

Subject index

pp.:  287 – 289

LastPages

pp.:  289 – 299

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