CBIO-21. H3F3A G34R/V MUTATIONS INDUCE CHROMOSOMAL INSTABILITY AND PROMOTE PEDIATRIC HIGH-GRADE GLIOMA FORMATION

Abstract

Abstract Histone H3.3 G34R/V mutations are drivers of pediatric high-grade glioma (pHGG). However, the mechanism(s) responsible for G34R/V induced tumorigenesis are unclear. We observed that pHGG cells with H3.3 G34 mutations have significantly reduced phosphorylation at H3.3 S31 as compared to H3.3 WT cell lines. And, in vitro, G34 mutation completely blocks H3.3 S31 phosphorylation by Chk1 – the kinase responsible for S31 phosphorylation. During early mitosis, phospho-S31 is enriched in the chromosomal pericentromere; which plays a vital structural role in chromosome segregation. Over-expression of GFP-H3.3 G34R or non-phosphorylatable GFP-H3.3 S31A in chromosomally stable cell lines results in a significant increase in chromosome mis-segregations. Likewise, H3.3 G34V pHGG derived cells showed a higher frequency of mis-segregation than H3.3 WT cells. During cell division, phospho-S31 is lost in late anaphase. However, when chromosome missegregation occurs, phospho-S31 spreads to the chromosome arms where it stimulates p53 accumulation in G1 – thus acting as a sensor to suppress the proliferation of aneuploid cells. Here we show that cells expressing mutant G34 fail to arrest following mis-segregation, despite having WT p53. Taken together this work demonstrates that the H3.3 G34R/V mutations are sufficient to transform normal, diploid cells into proliferative, chromosomally instable cells. To determine if this process contributes to tumorigenesis, we expressed WT H3.3, H3.3-G34R or H3.3-S31A in a mouse model of pHGG. H3.3 WT controls developed low-grade tumors and all survived 80 days. Mice with H3.3-G34R or H3.3-S31A developed low- and high-grade tumors. And 78% and 50% of H3.3-G34R and H3.3-S31A mice, respectively, survived to 80 days. Our work suggests that H3.3 G34R/V drives chromosomal instability through the suppression of H3.3 S31 phosphorylation AND that chromosomal instability is a contributing driver of glioma formation in G34 mutant tumors.