UHRF1-repressed 5’-hydroxymethylcytosine is essential for the male meiotic prophase I

Hongjie Pan; Ning Jiang; Shenfei Sun; Hanwei Jiang; Jianze Xu; Xiaohua Jiang; Qian Gao; Liang Li; Haili Wu; Huajun Zheng; Qi Qi; Tianqi Li; Meixing Zhang; Lingling Zhang; Xiaofeng Wan; Xinhua Lin; Jiemin Wong; Qinghua Shi; Runsheng Li

doi:10.1038/s41419-020-2333-3

UHRF1-repressed 5’-hydroxymethylcytosine is essential for the male meiotic prophase I

Hongjie Pan
, Ning Jiang
, Shenfei Sun
, Hanwei Jiang
, Jianze Xu
, Xiaohua Jiang
, Qian Gao
, Liang Li
, Haili Wu
, Huajun Zheng
, Qi Qi
, Tianqi Li
, Meixing Zhang
, Lingling Zhang
, Xiaofeng Wan
, Xinhua Lin
, Jiemin Wong
, Qinghua Shi
, Runsheng Li^*

^*Corresponding author for this work

School of Life Sciences

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

5’-hydroxymethylcytosine (5hmC), an important 5’-cytosine modification, is altered highly in order in male meiotic prophase. However, the regulatory mechanism of this dynamic change and the function of 5hmC in meiosis remain largely unknown. Using a knockout mouse model, we showed that UHRF1 regulated male meiosis. UHRF1 deficiency led to failure of meiosis and male infertility. Mechanistically, the deficiency of UHRF1 altered significantly the meiotic gene profile of spermatocytes. Uhrf1 knockout induced an increase of the global 5hmC level. The enrichment of hyper-5hmC at transcriptional start sites (TSSs) was highly associated with gene downregulation. In addition, the elevated level of the TET1 enzyme might have contributed to the higher 5hmC level in the Uhrf1 knockout spermatocytes. Finally, we reported Uhrf1, a key gene in male meiosis, repressed hyper-5hmC by downregulating TET1. Furthermore, UHRF1 facilitated RNA polymerase II (RNA-pol2) loading to promote gene transcription. Thus our study demonstrated a potential regulatory mechanism of 5hmC dynamic change and its involvement in epigenetic regulation in male meiosis.

Original language	English
Article number	142
Journal	Cell Death and Disease
Volume	11
Issue number	2
DOIs	https://doi.org/10.1038/s41419-020-2333-3
State	Published - 1 Feb 2020

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title = "UHRF1-repressed 5{\textquoteright}-hydroxymethylcytosine is essential for the male meiotic prophase I",

abstract = "5{\textquoteright}-hydroxymethylcytosine (5hmC), an important 5{\textquoteright}-cytosine modification, is altered highly in order in male meiotic prophase. However, the regulatory mechanism of this dynamic change and the function of 5hmC in meiosis remain largely unknown. Using a knockout mouse model, we showed that UHRF1 regulated male meiosis. UHRF1 deficiency led to failure of meiosis and male infertility. Mechanistically, the deficiency of UHRF1 altered significantly the meiotic gene profile of spermatocytes. Uhrf1 knockout induced an increase of the global 5hmC level. The enrichment of hyper-5hmC at transcriptional start sites (TSSs) was highly associated with gene downregulation. In addition, the elevated level of the TET1 enzyme might have contributed to the higher 5hmC level in the Uhrf1 knockout spermatocytes. Finally, we reported Uhrf1, a key gene in male meiosis, repressed hyper-5hmC by downregulating TET1. Furthermore, UHRF1 facilitated RNA polymerase II (RNA-pol2) loading to promote gene transcription. Thus our study demonstrated a potential regulatory mechanism of 5hmC dynamic change and its involvement in epigenetic regulation in male meiosis.",

author = "Hongjie Pan and Ning Jiang and Shenfei Sun and Hanwei Jiang and Jianze Xu and Xiaohua Jiang and Qian Gao and Liang Li and Haili Wu and Huajun Zheng and Qi Qi and Tianqi Li and Meixing Zhang and Lingling Zhang and Xiaofeng Wan and Xinhua Lin and Jiemin Wong and Qinghua Shi and Runsheng Li",

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doi = "10.1038/s41419-020-2333-3",

language = "英语",

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journal = "Cell Death and Disease",

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T1 - UHRF1-repressed 5’-hydroxymethylcytosine is essential for the male meiotic prophase I

AU - Pan, Hongjie

AU - Jiang, Ning

AU - Sun, Shenfei

AU - Jiang, Hanwei

AU - Xu, Jianze

AU - Jiang, Xiaohua

AU - Gao, Qian

AU - Li, Liang

AU - Wu, Haili

AU - Zheng, Huajun

AU - Qi, Qi

AU - Li, Tianqi

AU - Zhang, Meixing

AU - Zhang, Lingling

AU - Wan, Xiaofeng

AU - Lin, Xinhua

AU - Wong, Jiemin

AU - Shi, Qinghua

AU - Li, Runsheng

PY - 2020/2/1

Y1 - 2020/2/1

N2 - 5’-hydroxymethylcytosine (5hmC), an important 5’-cytosine modification, is altered highly in order in male meiotic prophase. However, the regulatory mechanism of this dynamic change and the function of 5hmC in meiosis remain largely unknown. Using a knockout mouse model, we showed that UHRF1 regulated male meiosis. UHRF1 deficiency led to failure of meiosis and male infertility. Mechanistically, the deficiency of UHRF1 altered significantly the meiotic gene profile of spermatocytes. Uhrf1 knockout induced an increase of the global 5hmC level. The enrichment of hyper-5hmC at transcriptional start sites (TSSs) was highly associated with gene downregulation. In addition, the elevated level of the TET1 enzyme might have contributed to the higher 5hmC level in the Uhrf1 knockout spermatocytes. Finally, we reported Uhrf1, a key gene in male meiosis, repressed hyper-5hmC by downregulating TET1. Furthermore, UHRF1 facilitated RNA polymerase II (RNA-pol2) loading to promote gene transcription. Thus our study demonstrated a potential regulatory mechanism of 5hmC dynamic change and its involvement in epigenetic regulation in male meiosis.

AB - 5’-hydroxymethylcytosine (5hmC), an important 5’-cytosine modification, is altered highly in order in male meiotic prophase. However, the regulatory mechanism of this dynamic change and the function of 5hmC in meiosis remain largely unknown. Using a knockout mouse model, we showed that UHRF1 regulated male meiosis. UHRF1 deficiency led to failure of meiosis and male infertility. Mechanistically, the deficiency of UHRF1 altered significantly the meiotic gene profile of spermatocytes. Uhrf1 knockout induced an increase of the global 5hmC level. The enrichment of hyper-5hmC at transcriptional start sites (TSSs) was highly associated with gene downregulation. In addition, the elevated level of the TET1 enzyme might have contributed to the higher 5hmC level in the Uhrf1 knockout spermatocytes. Finally, we reported Uhrf1, a key gene in male meiosis, repressed hyper-5hmC by downregulating TET1. Furthermore, UHRF1 facilitated RNA polymerase II (RNA-pol2) loading to promote gene transcription. Thus our study demonstrated a potential regulatory mechanism of 5hmC dynamic change and its involvement in epigenetic regulation in male meiosis.

UR - https://www.scopus.com/pages/publications/85079806915

U2 - 10.1038/s41419-020-2333-3

DO - 10.1038/s41419-020-2333-3

M3 - 文章

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AN - SCOPUS:85079806915

SN - 2041-4889

VL - 11

JO - Cell Death and Disease

JF - Cell Death and Disease

IS - 2

M1 - 142

ER -

UHRF1-repressed 5’-hydroxymethylcytosine is essential for the male meiotic prophase I

Abstract

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