A myosin phosphatase targeting subunit isoform transition defines a smooth muscle developmental phenotypic switch

Departments of 1  Medicine (Cardiology) and 2  Physiology and Biophysics, Case Western Reserve University School of Medicine, Cleveland, Ohio 44106-4958 Smooth muscle myosin phosphatase dephosphorylates the regulatory myosin light chain and thus mediates smooth muscle relaxation. The activity of thi...

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Bibliographic Details
Published in:American Journal of Physiology: Cell Physiology 2000-03, Vol.278 (3), p.C589-C600
Main Authors: Dirksen, Wessel P, Vladic, Franjo, Fisher, Steven A
Format: Article
Language:English
Subjects:
Animals
Aorta
Base Sequence
Chick Embryo
Chickens
Cloning, Molecular
Exons
Gene Expression Regulation, Developmental
Gene Expression Regulation, Enzymologic
Gizzard, Avian
Isoenzymes - genetics
Molecular Sequence Data
Muscle Development
Muscle, Smooth - embryology
Muscle, Smooth - enzymology
Muscle, Smooth - growth & development
Muscle, Smooth, Vascular - embryology
Muscle, Smooth, Vascular - enzymology
Muscle, Smooth, Vascular - growth & development
Myosin-Light-Chain Phosphatase
Phenotype
Phosphoprotein Phosphatases - genetics
Rats
Rats, Sprague-Dawley
RNA, Messenger - genetics
Sequence Alignment
Sequence Homology, Nucleic Acid
Transcription, Genetic
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Summary:Departments of 1  Medicine (Cardiology) and 2  Physiology and Biophysics, Case Western Reserve University School of Medicine, Cleveland, Ohio 44106-4958 Smooth muscle myosin phosphatase dephosphorylates the regulatory myosin light chain and thus mediates smooth muscle relaxation. The activity of this myosin phosphatase is dependent upon its myosin-targeting subunit (MYPT1). Isoforms of MYPT1 have been identified, but how they are generated and their relationship to smooth muscle phenotypes is not clear. Cloning of the middle section of chicken and rat MYPT1 genes revealed that each gene gave rise to isoforms by cassette-type alternative splicing of exons. In chicken, a 123-nucleotide exon was included or excluded from the mature mRNA, whereas in rat two exons immediately downstream were alternative. MYPT1 isoforms lacking the alternative exon were only detected in mature chicken smooth muscle tissues that display phasic contractile properties, but the isoform ratios were variable. The patterns of expression of rat MYPT1 mRNA isoforms were more complex, with three major and two minor isoforms present in all smooth muscle tissues at varying stoichiometries. Isoform switching was identified in the developing chicken gizzard, in which the exon-skipped isoform replaced the exon-included isoform around the time of hatching. This isoform switch occurred after transitions in myosin heavy chain and myosin light chain (MLC 17 ) isoforms and correlated with a severalfold increase in the rate of relaxation. The developmental switch of MYPT1 isoforms is a good model for determining the mechanisms and significance of alternative splicing in smooth muscle. smooth muscle phenotype; myosin heavy chain; myosin light chain; alternative splicing
ISSN:0363-6143
1522-1563
DOI:10.1152/ajpcell.2000.278.3.c589