Literature DB >> 31794431

Lysine acetyltransferase 8 is involved in cerebral development and syndromic intellectual disability.

Lin Li1, Mohammad Ghorbani1, Monika Weisz-Hubshman2,3,4, Justine Rousseau5, Isabelle Thiffault6,7, Rhonda E Schnur8,9, Catherine Breen10, Renske Oegema11, Marjan Mm Weiss12, Quinten Waisfisz12, Sara Welner13, Helen Kingston10, Jordan A Hills14, Elles Mj Boon12, Lina Basel-Salmon2,3,4,15, Osnat Konen4,16, Hadassa Goldberg-Stern4,17, Lily Bazak3,4, Shay Tzur18,19, Jianliang Jin1,20, Xiuli Bi1, Michael Bruccoleri1, Kirsty McWalter9, Megan T Cho9, Maria Scarano8, G Bradley Schaefer14, Susan S Brooks13, Susan Starling Hughes6,7, K L I van Gassen11, Johanna M van Hagen12, Tej K Pandita21, Pankaj B Agrawal22, Philippe M Campeau5, Xiang-Jiao Yang1,23.   

Abstract

Epigenetic integrity is critical for many eukaryotic cellular processes. An important question is how different epigenetic regulators control development and influence disease. Lysine acetyltransferase 8 (KAT8) is critical for acetylation of histone H4 at lysine 16 (H4K16), an evolutionarily conserved epigenetic mark. It is unclear what roles KAT8 plays in cerebral development and human disease. Here, we report that cerebrum-specific knockout mice displayed cerebral hypoplasia in the neocortex and hippocampus, along with improper neural stem and progenitor cell (NSPC) development. Mutant cerebrocortical neuroepithelia exhibited faulty proliferation, aberrant neurogenesis, massive apoptosis, and scant H4K16 propionylation. Mutant NSPCs formed poor neurospheres, and pharmacological KAT8 inhibition abolished neurosphere formation. Moreover, we describe KAT8 variants in 9 patients with intellectual disability, seizures, autism, dysmorphisms, and other anomalies. The variants altered chromobarrel and catalytic domains of KAT8, thereby impairing nucleosomal H4K16 acetylation. Valproate was effective for treating epilepsy in at least 2 of the individuals. This study uncovers a critical role of KAT8 in cerebral and NSPC development, identifies 9 individuals with KAT8 variants, and links deficient H4K16 acylation directly to intellectual disability, epilepsy, and other developmental anomalies.

Entities:  

Keywords:  Epigenetics; Neuroscience

Mesh:

Substances:

Year:  2020        PMID: 31794431      PMCID: PMC7269600          DOI: 10.1172/JCI131145

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


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