Disruption of Histone H4C genes impairs skeletal development and cortical neurogenesis, modeling rare neurodevelopmental syndromes
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Histone proteins, which reside in the nuclei of eukaryotic cells, are involved in diverse cellular processes. The core histone H4 serves as a structural component of the nucleosome. Patients carrying mutations in H4Clustered histone ( H4C ) genes exhibit a broad spectrum of developmental abnormalities, including short stature, microcephaly, intellectual disability, growth retardation, and digital anomalies. However, the impact of H4 mutations on mammalian embryogenesis remains largely unclear. Here, we demonstrate that histone H4C genes play crucial roles in skeletal development and cortical neurogenesis. We found that mRNAs of the histone H4C gene family are specifically expressed in proliferating progenitor cells in the developing mouse neocortex and in human induced pluripotent stem cell-derived cortical organoids. CRISPR-mediated disruption of H4C3 in mice caused severe defects in skeletal formation and neocortical neurogenesis. Furthermore, overexpression of a mutant form of H4C3 resulted in altered expression of genes associated with cellular migration and motility. Together, these findings suggest that histone H4 plays a critical role in regulating the balance between proliferation and differentiation during mammalian embryonic development, thereby explaining the broad spectrum of patient phenotypes.