- Arboleda, Valerie A;
- Lee, Hane;
- Dorrani, Naghmeh;
- Zadeh, Neda;
- Willis, Mary;
- Macmurdo, Colleen Forsyth;
- Manning, Melanie A;
- Kwan, Andrea;
- Hudgins, Louanne;
- Barthelemy, Florian;
- Miceli, M Carrie;
- Quintero-Rivera, Fabiola;
- Kantarci, Sibel;
- Strom, Samuel P;
- Deignan, Joshua L;
- UCLA Clinical Genomics Center;
- Grody, Wayne W;
- Vilain, Eric;
- Nelson, Stanley F
Chromatin remodeling through histone acetyltransferase (HAT) and histone deactylase (HDAC) enzymes affects fundamental cellular processes including the cell-cycle, cell differentiation, metabolism, and apoptosis. Nonsense mutations in genes that are involved in histone acetylation and deacetylation result in multiple congenital anomalies with most individuals displaying significant developmental delay, microcephaly and dysmorphism. Here, we report a syndrome caused by de novo heterozygous nonsense mutations in KAT6A (a.k.a., MOZ, MYST3) identified by clinical exome sequencing (CES) in four independent families. The same de novo nonsense mutation (c.3385C>T [p.Arg1129∗]) was observed in three individuals, and the fourth individual had a nearby de novo nonsense mutation (c.3070C>T [p.Arg1024∗]). Neither of these variants was present in 1,815 in-house exomes or in public databases. Common features among all four probands include primary microcephaly, global developmental delay including profound speech delay, and craniofacial dysmorphism, as well as more varied features such as feeding difficulties, cardiac defects, and ocular anomalies. We further demonstrate that KAT6A mutations result in dysregulation of H3K9 and H3K18 acetylation and altered P53 signaling. Through histone and non-histone acetylation, KAT6A affects multiple cellular processes and illustrates the complex role of acetylation in regulating development and disease.