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April 1st, 2024 at 3:33pm
Overview
Abstract
The telomere repeat-containing RNA (TERRA) forms R-loops to promote homology-directed DNA synthesis in the alternative lengthening of telomere (ALT) pathway. Here we report that TERRA contributes to ALT via interacting with the lysine-specific demethylase 1A (LSD1 or KDM1A). We show that LSD1 localizes to ALT telomeres in a TERRA dependent manner and LSD1 function in ALT is largely independent of its demethylase activity. Instead, LSD1 promotes TERRA recruitment to ALT telomeres via RNA binding. In addition, LSD1 and TERRA undergo phase separation, driven by interactions between the RNA binding properties of LSD1 and the G-quadruplex structure of TERRA. Importantly, the formation of TERRA-LSD1 condensates enriches the R-loop stimulating protein Rad51AP1 and increases TERRA-containing R-loops at telomeres. Our findings suggest that LSD1-TERRA phase separation enhances the function of R-loop regulatory molecules for ALT telomere maintenance, providing a mechanism for how the biophysical properties of histone modification enzyme-RNA interactions impact chromatin function.
Authors
Xu M • Senanayaka D • Zhao R • Chigumira T • Tripathi A • Tones J • Lackner RM • Wondisford AR • Moneysmith LN • Hirschi A • Craig S • Alishiri S • O'Sullivan RJ • Chenoweth DM • Reiter NJ • Zhang H
Link
Journal
Nature communications
PMID:38461301
Published
March 9th, 2024