Epigenetic Regulation of Sox30 Is Associated with Testis Development in Mice

Fei Han,Jinyi Liu,Ronghui Shi,Lin Ao,Yan Dong,Wenbin Liu,Zhihong Cui,Jia Cao,Huidong Zhang,Hongqiang Chen,Xuexiang Ma,Jean-Marc A Lobaccaro

doi:10.1371/journal.pone.0097203

Fei Han, Jinyi Liu + Show 10 more

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https://doi.org/10.1371/journal.pone.0097203

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Abstract

DNA methylation is involved in tissue-specific and developmentally regulated gene expression. Here, we screened a novel methylation gene Sox30, whose methylation might contribute to its regulation and testis development in mice. Sox30 is a member of Sox transcription factors, and is considered to be involved in spermatogonial differentiation and spermatogenesis. However, the precise function and regulatory expression pattern remain unclear. In the present study, we found that Sox30 is highly expressed in adult testes but not in ovaries. Sox30 expression begins in early development, and in the testes, it is specifically increased coincidentally with development until adulthood. Moreover, Sox30 is expressed not only in testis germ cells, but also in sertoli cells. Sox30 is hypo-methylated in testis, epididymis and lung of adult mice, in which Sox30 is expressed. By contrast, Sox30 is hypermethylated in ovary, heart, brain, liver, kidney, spleen, pancreas, muscle, intestine, pituitary gland, blood and hippocampus of adult mice, in which the Sox30 is absent. Importantly, decreased methylation at CpG islands of Sox30 is observed in mouse developmental testes after birth, which is associated with enhanced Sox30 expression. However, the hypermethylated status of Sox30 is maintained in ovaries that does not express Sox30 during this period. Further, following demethylation treatment using 5-aza-dC, Sox30 expression is restored in GC2, TM3 and TM4 cell lines. This observation convincingly confirms that methylation really contributes to Sox30 silencing. In summary, we show that Sox30 expression is under the control of DNA methylation status, and this expression pattern is associated with testis development in mice.

Highlights

Epigenetic systems underlie the transcription factor networks, which establish gene expression in response to tissues and developmental stages [1]
Sox30 was highly expressed in testes of adult mice Tissue distribution analysis using reverse transcriptionpolymerase chain reaction (RT-PCR) and RT-qPCR
The expression of Sox30 was detected in the whole embryos at E8.5, E10.5, E12.5 and E14.5, and the gonads at 1d (1 day post partum), 4d, 7d, 10d, 15d, 20d, 30d, 40d and 60d of mice by RT-PCR, RT-qPCR and Western blotting (WB)

Summary

Introduction

Epigenetic systems underlie the transcription factor networks, which establish gene expression in response to tissues and developmental stages [1]. In these systems, DNA methylation is one of the most major common players [2]. The Sox family of transcription factors encode proteins that are characterized by a sequence-specific DNA binding HMG-box, and are a group of genes related to the mammalian testis determining factor, Sry. In general, the proteins containing an HMG domain with more than 50% similarity in the HMG domain of Sry are considered as Sox members. Accumulating evidence showed that Sox members play key roles in a wide variety of developmental processes, including sex determination and differentiation, testis development, male fertility maintenance and other respects [16,17]

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