Gap junction channels in the cardiovascular system: pharmacological and physiological modulation

Intercellular communication provides the basis for the intact functioning of tissue and for various organs and tissue types in an organism to work together. It is the crucial difference between isolated cells and intact tissue. Cells communicate in various ways with each other; these include the rel...

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Veröffentlicht in:	Trends in pharmacological sciences (Regular ed.) 1998-06, Vol.19 (6), p.229-241
1. Verfasser:	Dhein, S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals cardiac arrhythmia cardiac infarction Cardiovascular System - drug effects Cell Communication - physiology cellular coupling cellular growth and differentiation Connexins - biosynthesis Connexins - chemistry Electrophysiology gap junctions Gap Junctions - drug effects Gap Junctions - physiology heart disease Heart Diseases - etiology heart failure Humans Phosphorylation Protein Kinases - pharmacology
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container_title	Trends in pharmacological sciences (Regular ed.)
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creator	Dhein, S.
description	Intercellular communication provides the basis for the intact functioning of tissue and for various organs and tissue types in an organism to work together. It is the crucial difference between isolated cells and intact tissue. Cells communicate in various ways with each other; these include the release of chemical transmitters, hormones and mediators as well as direct electrical and chemical intercellular communication via gap junction channels. The gap junction coupling is important for the organization of the tissue as an electrical syncytium and for accurate development. Pharmacological modulation of these channels could be important in the fields of arrhythmogenesis, vasomotion and cell differentiation. In this review, Stefan Dhein outlines the structure, synthesis and function of gap junction channels. Since their physiology and pharmacology are best investigated in the cardiovascular system, the second part of the article focuses on the role of gap junctions in the heart and vasculature, with special emphasis on the regulation of the channels by physiological stimuli such as ions, pH mediators and transjunctional voltage as well as their pharmacological modulation.
doi_str_mv	10.1016/S0165-6147(98)01192-4
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subjects	Animals cardiac arrhythmia cardiac infarction Cardiovascular System - drug effects Cell Communication - physiology cellular coupling cellular growth and differentiation Connexins - biosynthesis Connexins - chemistry Electrophysiology gap junctions Gap Junctions - drug effects Gap Junctions - physiology heart disease Heart Diseases - etiology heart failure Humans Phosphorylation Protein Kinases - pharmacology
title	Gap junction channels in the cardiovascular system: pharmacological and physiological modulation
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