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Literature DB >> 26443594

Increased STAG2 dosage defines a novel cohesinopathy with intellectual disability and behavioral problems.

Raman Kumar¹, Mark A Corbett¹, Bregje W M Van Bon², Alison Gardner¹, Joshua A Woenig¹, Lachlan A Jolly¹, Evelyn Douglas³, Kathryn Friend³, Chuan Tan¹, Hilde Van Esch⁴, Maureen Holvoet⁴, Martine Raynaud⁵, Michael Field⁶, Melanie Leffler⁶, Bartłomiej Budny⁷, Marzena Wisniewska⁸, Magdalena Badura-Stronka⁸, Anna Latos-Bieleńska⁸, Jacqueline Batanian⁹, Jill A Rosenfeld¹⁰, Lina Basel-Vanagaite¹¹, Corinna Jensen¹², Melanie Bienek¹², Guy Froyen¹³, Reinhard Ullmann¹⁴, Hao Hu¹², Michael I Love¹⁵, Stefan A Haas¹⁵, Pawel Stankiewicz¹⁶, Sau Wai Cheung¹⁶, Anne Baxendale¹⁷, Jillian Nicholl³, Elizabeth M Thompson¹⁸, Eric Haan¹⁸, Vera M Kalscheuer¹², Jozef Gecz¹⁹.

Abstract

Next generation genomic technologies have made a significant contribution to the understanding of the genetic architecture of human neurodevelopmental disorders. Copy number variants (CNVs) play an important role in the genetics of intellectual disability (ID). For many CNVs, and copy number gains in particular, the responsible dosage-sensitive gene(s) have been hard to identify. We have collected 18 different interstitial microduplications and 1 microtriplication of Xq25. There were 15 affected individuals from 6 different families and 13 singleton cases, 28 affected males in total. The critical overlapping region involved the STAG2 gene, which codes for a subunit of the cohesin complex that regulates cohesion of sister chromatids and gene transcription. We demonstrate that STAG2 is the dosage-sensitive gene within these CNVs, as gains of STAG2 mRNA and protein dysregulate disease-relevant neuronal gene networks in cells derived from affected individuals. We also show that STAG2 gains result in increased expression of OPHN1, a known X-chromosome ID gene. Overall, we define a novel cohesinopathy due to copy number gain of Xq25 and STAG2 in particular.

Entities: Disease Gene Mutation Species

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Year: 2015 PMID： 26443594 DOI： 10.1093/hmg/ddv414

Source DB: PubMed Journal: Hum Mol Genet ISSN： 0964-6906 Impact factor: 6.150

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Cited

17 in total

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