Recent studies have unveiled an association between an L61R substitution within the human histone H3.3 protein and the presentation of neurodevelopmental disorders in two patients. In both cases, the mutation responsible for this substitution is encoded by one allele of the H3F3A gene and, if this mutation is indeed responsible for the disease phenotypes, it must act in a dominant fashion since the genomes of these patients also harbour three other alleles encoding wild-type histone H3.3. In our previous work in yeast, we have shown that most amino acid substitutions at H3-L61 cause an accumulation of the Spt16 component of the yFACT histone chaperone complex at the 3’ end of transcribed genes, a defect we have attributed to impaired yFACT dissociation from chromatin following transcription. In those studies, however, the H3-L61R mutant had not been tested since it does not sustain viability when expressed as the sole source of histone H3 in cells. In the present work, we show that H3-L61R impairs proper Spt16 dissociation from genes when co-expressed with wild-type histone H3 in haploid cells as well as in diploid cells that express the mutant protein from one of four histone H3-encoding alleles. These results, combined with other studies linking loss of function mutations in human Spt16 and neurodevelopmental disorders, provide a possible molecular mechanism underlying the neurodevelopmental disorders seen in patients expressing the histone H3.3 L61R mutant.
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