Mutation of weak atrium/atrial myosin heavy chain disrupts atrial function and influences ventricular morphogenesis in zebrafish

doi:10.1242/dev.00838

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First published online 22 October 2003
doi: 10.1242/dev.00838

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Development 130, 6121-6129 (2003)
Copyright © 2003 The Company of Biologists Limited

Mutation of weak atrium/atrial myosin heavy chain disrupts atrial function and influences ventricular morphogenesis in zebrafish

Eli Berdougo¹, Hope Coleman¹, Diana H. Lee¹, Didier Y. R. Stainier² and Deborah Yelon¹^,*

¹ Developmental Genetics Program and Department of Cell Biology, Skirball Institute of Biomolecular Medicine, New York University School of Medicine, New York, NY 10016, USA
² Department of Biochemistry and Biophysics and Programs in Developmental Biology, Genetics, and Human Genetics, University of California, San Francisco, San Francisco, CA 94143, USA

^* Author for correspondence (e-mail: yelon{at}saturn.med.nyu.edu)

Accepted 28 August 2003

The embryonic vertebrate heart is composed of two major chambers,a ventricle and an atrium, each of which has a characteristicsize, shape and functional capacity that contributes to efficientcirculation. Chamber-specific gene expression programs are likelyto regulate key aspects of chamber formation. Here, we demonstratethat epigenetic factors also have a significant influence onchamber morphogenesis. Specifically, we show that an atrium-specificcontractility defect has a profound impact on ventricular development.We find that the zebrafish locus weak atrium encodes an atrium-specificmyosin heavy chain that is required for atrial myofibrillar organizationand contraction. Despite their atrial defects, weak atrium mutantscan maintain circulation through ventricular contraction. However,the weak atrium mutant ventricle becomes unusually compact, exhibitinga thickened myocardial wall, a narrow lumen and changes in myocardialgene expression. As weak atrium/atrial myosin heavy chain isexpressed only in the atrium, the ventricular phenotypes inweak atrium mutants represent a secondary response to atrialdysfunction. Thus, not only is cardiac form essential for cardiacfunction, but there also exists a reciprocal relationship inwhich function can influence form. These findings are relevantto our understanding of congenital defects in cardiac chambermorphogenesis.

Key words: Zebrafish, Ventricle, Atrium, Cardiac myosin heavy chain, Chamber formation, Atrial natriuretic factor

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