Literature DB >> 34555356

NSD2 dimethylation at H3K36 promotes lung adenocarcinoma pathogenesis.

Deepanwita Sengupta1, Liyong Zeng2, Yumei Li3, Simone Hausmann2, Debopam Ghosh4, Gang Yuan1, Thuyen N Nguyen5, Ruitu Lyu6, Marcello Caporicci2, Ana Morales Benitez2, Garry L Coles5, Vladlena Kharchenko7, Iwona Czaban7, Dulat Azhibek7, Wolfgang Fischle7, Mariusz Jaremko7, Ignacio I Wistuba8, Julien Sage5, Łukasz Jaremko7, Wei Li9, Pawel K Mazur10, Or Gozani11.   

Abstract

The etiological role of NSD2 enzymatic activity in solid tumors is unclear. Here we show that NSD2, via H3K36me2 catalysis, cooperates with oncogenic KRAS signaling to drive lung adenocarcinoma (LUAD) pathogenesis. In vivo expression of NSD2E1099K, a hyperactive variant detected in individuals with LUAD, rapidly accelerates malignant tumor progression while decreasing survival in KRAS-driven LUAD mouse models. Pathologic H3K36me2 generation by NSD2 amplifies transcriptional output of KRAS and several complementary oncogenic gene expression programs. We establish a versatile in vivo CRISPRi-based system to test gene functions in LUAD and find that NSD2 loss strongly attenuates tumor progression. NSD2 knockdown also blocks neoplastic growth of PDXs (patient-dervived xenografts) from primary LUAD. Finally, a treatment regimen combining NSD2 depletion with MEK1/2 inhibition causes nearly complete regression of LUAD tumors. Our work identifies NSD2 as a bona fide LUAD therapeutic target and suggests a pivotal epigenetic role of the NSD2-H3K36me2 axis in sustaining oncogenic signaling.
Copyright © 2021 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  CRISPR interference mouse model; H3K36; KRAS; MEK inhibition; NSD2; chromatin; epigenetics; histone methylation; lung adenocarcinoma; lung cancer

Mesh:

Substances:

Year:  2021        PMID: 34555356      PMCID: PMC8571016          DOI: 10.1016/j.molcel.2021.08.034

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  60 in total

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Review 2.  Structural and functional specificity of H3K36 methylation.

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