Mechanism of K63-linked polyubiquitin recognition and cleavage by the BRCA1-A complex

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Abstract

Deubiquitylases modulate cellular processes by cleaving monoubiquitin or polyubiquitin chains. The ARISC–RAP80 complex partners with BRCA1–BARD1 to form the BRCA1-A super-complex, which recognizes K63-linked ubiquitin chains at DNA damage sites. ARISC–RAP80 contains multiple ubiquitin-binding sites, yet how these influence recognition and cleavage of K63-polyubiquitylated substrates remains unknown. We discover that a composite three-subunit interface allows ARISC–RAP80 to position K63-linked polyubiquitin chains in its catalytic site. Substrate recognition is further supported by RAP80 and non-catalytic ubiquitin-binding sites that impose a compact conformation to K63-polyubiquitylated substrates. This mechanism exploits the inherent flexibility of long ubiquitin chains and differs considerably from other deubiquitylases. Structure-guided mutagenesis validate ubiquitin chain interactions, and cell-based assays demonstrate a functional role of the observed interfaces in chromatin recruitment. Our findings define mechanisms of polyubiquitin chain decoding and cleavage by ARISC–RAP80, linking ubiquitin reading and erasing functions to BRCA1-A mediated DNA damage responses.

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