Suppression of Myostatin with Vector-based RNA Interference Causes a Double-muscle Effect in Transgenic Zebrafish

Overview

Journal Biochem Biophys Res Commun

Publisher Elsevier

Specialty Biochemistry

Date 2009 Jul 29

PMID 19635460

Citations 33

Authors

Chiou-Yueh Lee

Shao-Yang Hu

Hong-Yi Gong

Mark Hung-Chih Chen

Jenn-Kan Lu

Jen-Leih Wu

Affiliations

Soon will be listed here.

Abstract

Myostatin belongs to the transforming growth factor (TGF)-beta superfamily and is a potent negative regulator of skeletal muscle development and growth. We utilized microinjection of an antisense RNA-expressing vector to establish a hereditarily stable myostatin gene knockdown zebrafish strain with a double-muscle phenotype. Real-time PCR and immunostaining revealed that the myostatin messenger (m)RNA and protein levels in homozygous transgenic zebrafish were 33% and 26% those of the non-transgenic controls, respectively. Also, the mRNA levels of myogenic regulatory factor markers such as MyoD, myogenin, Mrf4, and Myf5 were dramatically elevated in myostatin-suppressed transgenic fish compared to the non-transgenic controls. Although there was no significant difference in body length, homozygous transgenic zebrafish were 45% heavier than non-transgenic controls. Histochemical analysis showed that the cross-sectional area of the muscle fiber of homozygous transgenic fish was twice as large as that of non-transgenic controls. This is the first model zebrafish with a hereditarily stable myostatin-suppressed genotype and a double-muscle phenotype.

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