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Literature DB >> 30224647

De novo mutations in MSL3 cause an X-linked syndrome marked by impaired histone H4 lysine 16 acetylation.

M Felicia Basilicata¹, Ange-Line Bruel², Giuseppe Semplicio¹, Claudia Isabelle Keller Valsecchi¹, Tuğçe Aktaş¹, Yannis Duffourd², Tobias Rumpf¹, Jenny Morton³, Iben Bache^4,5, Witold G Szymanski¹, Christian Gilissen⁶, Olivier Vanakker⁷, Katrin Õunap⁸, Gerhard Mittler¹, Ineke van der Burgt⁶, Salima El Chehadeh^2,9, Megan T Cho¹⁰, Rolph Pfundt⁶, Tiong Yang Tan¹¹, Maria Kirchhoff⁴, Björn Menten⁷, Sarah Vergult⁷, Kristin Lindstrom¹², André Reis¹³, Diana S Johnson¹⁴, Alan Fryer¹⁵, Victoria McKay¹⁵, Richard B Fisher¹⁶, Christel Thauvin-Robinet², David Francis¹⁷, Tony Roscioli^18,19,20, Sander Pajusalu⁸, Kelly Radtke²¹, Jaya Ganesh²², Han G Brunner^6,23, Meredith Wilson²⁴, Laurence Faivre², Vera M Kalscheuer²⁵, Julien Thevenon^26,27, Asifa Akhtar²⁸.

Abstract

The etiological spectrum of ultra-rare developmental disorders remains to be fully defined. Chromatin regulatory mechanisms maintain cellular identity and function, where misregulation may lead to developmental defects. Here, we report pathogenic variations in MSL3, which encodes a member of the chromatin-associated male-specific lethal (MSL) complex responsible for bulk histone H4 lysine 16 acetylation (H4K16ac) in flies and mammals. These variants cause an X-linked syndrome affecting both sexes. Clinical features of the syndrome include global developmental delay, progressive gait disturbance, and recognizable facial dysmorphism. MSL3 mutations affect MSL complex assembly and activity, accompanied by a pronounced loss of H4K16ac levels in vivo. Patient-derived cells display global transcriptome alterations of pathways involved in morphogenesis and cell migration. Finally, we use histone deacetylase inhibitors to rebalance acetylation levels, alleviating some of the molecular and cellular phenotypes of patient cells. Taken together, we characterize a syndrome that allowed us to decipher the developmental importance of MSL3 in humans.

Entities: CellLine Chemical Disease Gene Species

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Year: 2018 PMID： 30224647 PMCID： PMC7398719 DOI： 10.1038/s41588-018-0220-y

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

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