Mutation-induced DNMT1 cleavage drives neurodegenerative disease
Wencai Wang, Xingsen Zhao, Yanjiao Shao, Xiaoya Duan, Yaling Wang, Jialun Li, Jiwen Li, Dali Li, Xuekun Li, Jiemin Wong
Abstract
knock-in mouse models that are equivalent to Y495C and D490E-P491Y mutation in patients with HSAN1E, respectively. We found that both mutant heterozygous mice are viable, have reduced DNMT1 proteins, and exhibit neurodegenerative phenotypes including impaired learning and memory. The homozygous mutants die around embryonic day 10.5 and are apparently devoid of DNMT1 proteins. We present the evidence that the mutant DNMT1 proteins are unstable, most likely because of cleavage within RFTS domain by an unidentified proteinase. Moreover, we provide evidence that the RFTS mutation–induced cleavage of DNMT1, but not mutation itself, is responsible for functional defect of mutant DNMT1. Our study shed light on the mechanism of DNMT1 RFTS mutation causing neurodegenerative diseases.