Cohesin mediates sister chromatid cohesion and 3D genome folding. Two versions of the complex carrying STAG1 or STAG2 coexist in somatic vertebrate cells. STAG2 is commonly mutated in cancer, and germline mutations have been identified in cohesinopathy patients. To better understand the underlying pathogenic mechanisms, we report the consequences of Stag2 ablation in mice. STAG2 is largely dispensable in adults, and its tissue-wide inactivation does not lead to tumors but reduces fitness and affects both hematopoiesis and intestinal homeostasis. STAG2 is also dispensable for murine embryonic fibroblasts in vitro. In contrast, Stag2-null embryos die by mid-gestation and show global developmental delay and defective heart morphogenesis, most prominently in structures derived from secondary heart field progenitors. Both decreased proliferation and altered transcription of tissue-specific genes contribute to these defects. Our results provide compelling evidence on cell- and tissue-specific roles of different cohesin complexes and how their dysfunction contributes to disease.
Keywords: cancer; chromosome segregation; cohesinopathy; heart morphogenesis; hematopoiesis; intestinal tissue homeostasis; knockout mouse; tissue-specific transcription.
Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.