STAG2 Mutations Alter Cohesin Ring Function and Provide Therapeutic Vulnerabilities in Acute Myeloid Leukemia

Recurrent somatic mutations in core components and modulators of the cohesin ring - a multimeric protein complex that forms a ring structure around DNA and provides spatial genome organization - have been identified across multiple cancer types, including acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS), where they are associated with poor overall survival. Cohesin proteins are involved in sister chromatid cohesion, chromatin organization into loops, transcriptional activation, and DNA damage repair. The mechanisms underlying clonal expansion of these driver mutations are unknown and no therapies have selective efficacy in cohesin-mutant cancers.We sought to determine the effects of mutations in the most frequently mutated cohesin subunit, STAG2, on cohesin complex composition using immunoprecipitation followed by quantitative mass spectrometry (IP-MS), genetic dependencies of STAG2-mutant cells by genome-wide CRISPR screening, and mutant cohesin association with chromatin using chromatin immunoprecipitation followed by sequencing (ChIP-Seq). Our goal was to understand how these mutations contribute to cellular transformation and to identify possible therapeutic targets.Applying IP-MS in AML cell lines engineered with different STAG2 mutations, we identified and validated a switch from STAG2- to its paralog STAG1-containing cohesin complexes. In addition, we observed changes in the interaction of the mutant cohesin complex with proteins involved in DNA repair a...
Source: Blood - Category: Hematology Authors: Tags: 636. Myelodysplastic Syndromes-Basic and Translational Studies: Disease Mechanisms and Therapeutic Implications Source Type: research