Richard L. Bennett scite author profile

The Nuclear receptor-binding SET Domain (NSD) family of histone H3 lysine 36 methyl transferases is comprised of NSD1, NSD2 (MMSET/WHSC1), and NSD3 (WHSC1L1). These enzymes recognize and catalyze methylation of histone lysine marks to regulate chromatin integrity and gene expression. The growing number of reports demonstrating that alterations or translocations of these genes fundamentally affect cell growth and differentiation leading to developmental defects illustrates the importance of this family. In addition, overexpression, gain of function somatic mutations and translocations of NSDs are associated with human cancer and can trigger cellular transformation in model systems. Here we review the functions of NSD family members and the accumulating evidence that these proteins play key roles in tumorigenesis. Since epigenetic therapy is an important emerging anti-cancer strategy, understanding the function of NSD family members may lead to the development of novel therapies.

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Targeting Epigenetics in Cancer

Bennett

Licht

2018

Annu. Rev. Pharmacol. Toxicol.

209

142

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Alterations of genes regulating epigenetic processes are frequently found as cancer drivers and may cause widespread alterations of DNA methylation, histone modification patterns, or chromatin structure that disrupt normal patterns of gene expression. Because of the inherent reversibility of epigenetic changes, inhibitors targeting these processes are promising anticancer strategies. Small molecules targeting epigenetic regulators have been developed recently, and clinical trials of these agents are under way for hematologic malignancies and solid tumors. In this review, we describe how the writers, readers, and erasers of epigenetic marks are dysregulated in cancer and summarize the development of therapies targeting these mechanisms.

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A Mutation in Histone H2B Represents a New Class of Oncogenic Driver

et al. 2019

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By examination of the cancer genomics database, we identified a new set of mutations in core histones that frequently recur in cancer patient samples and are predicted to disrupt nucleosome stability. In support of this idea, we characterized a glutamate to lysine mutation of histone H2B at amino acid 76 (H2B-E76K), found particularly in bladder and head and neck cancers, that disrupts the interaction between H2B and H4. Although H2B-E76K forms dimers with H2A, it does not form stable histone octamers with H3 and H4 in vitro, and when reconstituted with DNA forms unstable nucleosomes with increased sensitivity to nuclease. Expression of the equivalent H2B mutant in yeast restricted growth at high temperature and led to defective nucleosome-mediated gene repression. Significantly, H2B-E76K expression in the normal mammary epithelial cell line MCF10A increased cellular proliferation, cooperated with mutant PIK3CA to promote colony formation, and caused a significant drift in gene expression and fundamental changes in chromatin accessibility, particularly at gene regulatory elements. Taken together, these data demonstrate that mutations in the globular domains of core histones may give rise to an oncogenic program due to nucleosome dysfunction and deregulation of gene expression. SIGNIFICANCE:Mutations in the core histones frequently occur in cancer and represent a new mechanism of epigenetic dysfunction that involves destabilization of the nucleosome, deregulation of chromatin accessibility, and alteration of gene expression to drive cellular transformation.

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Evaluation of mRNA-1273 Vaccine in Children 6 Months to 5 Years of Age

et al. 2022

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