Differential expression of Tet family genes and their potential role in regulating skeletal muscle development of Siniperca chuatsi

Abstract

DNA methylation and demethylation are crucial epigenetic modification and regulation for animal development, and their dynamic changes may affect skeletal muscle development. The ten-eleven translocation (Tet) family proteins are demethylases which are involved in the dynamic changes of DNA methylation. However, the expression pattern of Tet family genes and their role in myogenesis in fish remains unclear. In this study, the temporal and spatial expression profiles of Tet1, Tet2 and Tet3 were assayed with RT-qPCR techniques in Chinese perch, Siniperca chuatsi. The obtained data showed that three Tet family genes were differentially expressed at different development stages. Tet1 was expressed low at blastula stage, but highly expressed at gastrula stage, then remained low until hatching. The expressions of Tet2 and Tet3 were significantly increased at late gastrula and kept high expression before hatching stage. At the spatial level, the Tet1 expression was highest in gill tissue, moderate level in brain and slow muscle. Tet2 was similar to that of Tet1 except that it was expressed at a lower level in slow muscle, and Tet3 exhibited a higher expression level in gill and brain, a moderate level in fast muscle. Cosinor analysis turned out that the expression of Tet1 and Tet2 displayed a significant daily rhythm in fast muscle, but Tet3 did not show daily rhythmicity. Inhibiting the activity of Tet1/2 proteins by injecting Bobcat339 significantly reduced the expression of MyoD and MRF4, but not MyoG and Myf5, by which leads to the increase of the number of satellite cells and proliferating myoblasts. Together, the results suggest that Tet1/2 may target to MyoD and MRF4 resulted in DNA demethylation and promoting their expression, thus stimulating myoblast differentiation.