Characterization of the promoter region of the murine Catsper2 gene

CATSPER2 (Cation channel sperm‐associated protein 2) protein, which is part of the calcium CATSPER channel located in the membrane of the flagellar principal piece of the sperm cell, is only expressed in the testis during spermatogenesis. Deletions or mutations in the Catsper2 gene are associated with the deafness‐infertility syndrome (DIS) and non‐syndromic male infertility. However, the mechanisms by which Catsper2 is regulated are unknown. Here, we report the characterization of the promoter region of murine Catsper2 and the role of CTCF and CREMτ in its transcription. We report that the promoter region has transcriptional activity in both directions, as determined by observing luciferase activity in mouse Sertoli and GC‐1 spg transfected cells. WGBS data analysis indicated that a CpG island identified in silico is non‐methylated; Chromatin immunoprecipitation (ChIP)‐seq data analysis revealed that histone marks H3K4me3 and H3K36me3 are present in the promoter and body of the Catsper2 gene respectively, indicating that Catsper2 is subject to epigenetic regulation. In addition, the murine Catsper2 core promoter was delimited to a region between −54/+189 relative to the transcription start site (TSS), where three CTCF and one CRE binding site were predicted. The functionality of these sites was determined by mutation of the CTCF sites and deletion of the CRE site. Finally, ChIP assays confirmed that CREMτ and CTCF bind to the Catsper2 minimal promoter region. This study represents the first functional analysis of the murine Catsper2 promoter region and the mechanisms that regulate its expression. CATSPER2 is necessary for sperm hyperactivation and male fertility. Here, we report the characterization of Catsper2 promoter region and identify a CpG island in silico. ChIP‐seq data analysis revealed that histone marks H3K4me3 and H3K36me3 are present in the promoter and body of the Catsper2 gene. Finally, CTCF and CREMτ bind to the Catsper2 core promoter and regulate its expression.