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Muscular dystrophies, dilated cardiomyopathy, lipodystrophy and neuropathy: the nuclear connection

Published online by Cambridge University Press:  13 February 2004

Stephen L. Maidment
Affiliation:
The Randall Centre for Molecular Mechanism of Cell Function, Kings College, London University, New Hunts House, Guys Campus, London, SE1 1UL, UK.
Juliet A. Ellis
Affiliation:
The Randall Centre for Molecular Mechanism of Cell Function, Kings College, London University, New Hunts House, Guys Campus, London, SE1 1UL, UK.

Abstract

An understanding of muscle structure and function is central to improving our knowledge of the group of muscle diseases referred to as muscular dystrophies. These diseases involve a progressive weakening and wasting of skeletal muscle, which can be associated with life-threatening cardiac arrhythmias. The vast majority of these diseases arise from defects in either cytoskeletal or structural proteins, resulting in a breakdown of muscle cell integrity. However, mutations in two nuclear proteins – emerin and lamin A/C – have also been demonstrated to give rise to a muscular dystrophy phenotype. In addition, mutations in lamin A/C can give rise to a dilated cardiomyopathy, a lipodystrophy or a neuropathy. It is far from clear how mutations in nuclear proteins can result in a dystrophy, or cause more than one clinically distinct disease. Understanding the functional role of nuclear proteins in causing these diseases will therefore provide novel insights into muscle function, and should hopefully provide new directions for treatment.

Type
Review Article
Copyright
© Cambridge University Press 2002

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