Identification and characterization of BEND2 as a novel and key regulator of meiosis during mouse spermatogenesis

Abstract

AbstractThe chromatin state undergoes global and dynamic changes during spermatogenesis, and is critical to chromosomal synapsis, meiotic recombination, and transcriptional regulation. However, the key regulators involved and the underlying molecular mechanisms remain poorly understood. Herein we report that mouse BEND2, one of the BEN-domain-containing proteins conserved in vertebrates, was specifically expressed in spermatogenic cells within a short time-window spanning meiotic initiation, and that it plays an essential role in the progression of prophase in meiosis I. Bend2 gene knockout in male mice arrested meiosis at the transition from zygonema to pachynema, disrupted synapsis and DNA double-strand break repair, and induced non-homologous chromosomal pairing. BEND2 interacted with a number of chromatin-associated proteins—including ZMYM2, LSD1, CHD4, and ADNP— which are components of certain transcription-repressor complexes. BEND2-binding sites were identified in diverse chromatin states and enriched in simple sequence repeats. BEND2 contributed to shutting down the mitotic gene-expression program and to the activation of meiotic and post-meiotic gene expression, and it regulated chromatin accessibility as well as the modification of H3K4me3. Therefore, our study identified BEND2 as a novel and key regulator of meiosis, gene expression, and chromatin state during mouse spermatogenesis.TeaserMeiosis is a highly complex yet poorly understood process that involves the concerted actions of an increasing number of regulators, of which the list remains incomplete. Ma et al. identified BEND2 as a novel and key regulator of meiosis and showed that it interacts with critical chromatin modulators and specific genomic elements to control the expression of mitotic and meiotic genes.