Kmt2b Conveys Monovalent and Bivalent H3K4me3 in Mouse Spermatogonial Stem Cells at Germline and Embryonic Promoters

Overview

Journal Development

Specialty Biology

Date 2018 Dec 4

PMID 30504434

Citations 15

Authors

Shin-Ichi Tomizawa

Yuki Kobayashi

Takayuki Shirakawa

Kumiko Watanabe

Keita Mizoguchi

Ikue Hoshi

Kuniko Nakajima

Jun Nakabayashi

Sukhdeep Singh

Andreas Dahl

Dimitra Alexopoulou

Masahide Seki

Yutaka Suzuki

Helene Royo

Antoine H F M Peters

Konstantinos Anastassiadis

A Francis Stewart

Kazuyuki Ohbo

Affiliations

Soon will be listed here.

Abstract

The mammalian male germline is sustained by a pool of spermatogonial stem cells (SSCs) that can transmit both genetic and epigenetic information to offspring. However, the mechanisms underlying epigenetic transmission remain unclear. The histone methyltransferase Kmt2b is highly expressed in SSCs and is required for the SSC-to-progenitor transition. At the stem-cell stage, Kmt2b catalyzes H3K4me3 at bivalent H3K27me3-marked promoters as well as at promoters of a new class of genes lacking H3K27me3, which we call monovalent. Monovalent genes are mainly activated in late spermatogenesis, whereas most bivalent genes are mainly not expressed until embryonic development. These data suggest that SSCs are epigenetically primed by Kmt2b in two distinguishable ways for the upregulation of gene expression both during the spermatogenic program and through the male germline into the embryo. Because Kmt2b is also the major H3K4 methyltransferase for bivalent promoters in embryonic stem cells, we also propose that Kmt2b has the capacity to prime stem cells epigenetically.

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