Dynamic expression of tgf-β2, tgf-β3 and inhibin βA during muscle growth resumption and satellite cell differentiation in rainbow trout (Oncorhynchus mykiss)

Abstract

Members of the TGF-β superfamily are involved in numerous cell functions; however, except for myostatin, their roles in the regulation of muscle growth in fish are completely unknown. We measured tgf-β1, tgf-β2, tgf-β3, inhibin βA (inh) and follistatin (fst) gene expression during muscle growth recovery following a fasting period. We observed that tgf-β1a and tgf-β2 expression were quickly down-regulated after refeeding and that tgf-β3 reached its highest level of expression 7days post-refeeding, mirroring myogenin expression. Inh βA1 mRNA levels decreased sharply after refeeding, in contrast to fst b2 expression, which peaked at day 2. No significant modification of expression was observed for tgf-β1a, tgf-β1b, tgf-β1c and tgf-β6 during refeeding. In vitro, tgf-β2 and inh βA1 expression decreased during the differentiation of satellite cells, whereas tgf-β3 expression increased following the same pattern as myogenin. Surprisingly, fst b1 and fst b2 expression decreased during differentiation, whereas no variation was observed in fst a1 and fst a2 expression levels. In vitro analyses also indicated that IGF1 treatment up-regulated tgf-β3, inh βA1 and myogenin expression, and that MSTN treatment increased fst b1 and fst b2 expression. In conclusion, we showed that the expression of tgf-β2, tgf-β3 and inh βA1 is dynamically regulated during muscle growth resumption and satellite cell differentiation, strongly suggesting that these genes have a role in the regulation of muscle growth.