The protective role of DOT1L in UV-induced melanomagenesis

Chen, Shuyang; Chen, Xiang; Cui, Rutao; Gao, Xiumei; Goding, Colin R.; Han, Changpeng; Hayward, Nicholas K.; Hess, Jay; Lian, Christine G.; Liu, Dali; Liu, Min; Liu, Zhaoqian; Ma, Peilin; Pan, Jingxuan; Peng, Cong; Prince, Sharon; Shi, Yujiang; Wan, Lixin; Wang, Hongshen; Wang, Tao; Wang, Yongjun; Wei, Wenyi; Wei, Zhi; Xu, Zhi-xiang; Xuan, Zhenyu; Yin, Chengqian; Zhang, Jie; Zhang, Xiaoyang; Zhou, Jun; Zhu, Bo

The protective role of DOT1L in UV-induced melanomagenesis

Authors: Shuyang Chen
Xiang Chen
Rutao Cui
Xiumei Gao
Colin R. Goding
Changpeng Han
Nicholas K. Hayward
Jay Hess
Christine G. Lian
Dali Liu
Min Liu
Zhaoqian Liu
Peilin Ma
Jingxuan Pan
Cong Peng
Sharon Prince
Yujiang Shi
Lixin Wan
Hongshen Wang
Tao Wang
Yongjun Wang
Wenyi Wei
Zhi Wei
Zhi-xiang Xu
Zhenyu Xuan
Chengqian Yin
Jie Zhang
Xiaoyang Zhang
Jun Zhou
Bo Zhu
Publication date: 1 January 2018
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The DOT1L histone H3 lysine 79 (H3K79) methyltransferase plays an oncogenic role in MLL-rearranged leukemogenesis. Here, we demonstrate that, in contrast to MLL-rearranged leukemia, DOT1L plays a protective role in ultraviolet radiation (UVR)-induced melanoma development. Specifically, the DOT1L gene is located in a frequently deleted region and undergoes somatic mutation in human melanoma. Specific mutations functionally compromise DOT1L methyltransferase enzyme activity leading to reduced H3K79 methylation. Importantly, in the absence of DOT1L, UVR-induced DNA damage is inefficiently repaired, so that DOT1L loss promotes melanoma development in mice after exposure to UVR. Mechanistically, DOT1L facilitates DNA damage repair, with DOT1L-methylated H3K79 involvement in binding and recruiting XPC to the DNA damage site for nucleotide excision repair (NER). This study indicates that DOT1L plays a protective role in UVR-induced melanomagenesis