TY - JOUR
T1 - Mapping H4K20me3 onto the chromatin landscape of senescent cells indicates a function in control of cell senescence and tumor suppression through preservation of genetic and epigenetic stability
AU - Nelson, David M.
AU - Jaber-Hijazi, Farah
AU - Cole, John J.
AU - Robertson, Neil A.
AU - Pawlikowski, Jeffrey S.
AU - Norris, Kevin T.
AU - Criscione, Steven W.
AU - Pchelintsev, Nikolay A.
AU - Piscitello, Desiree
AU - Stong, Nicholas
AU - Rai, Taranjit Singh
AU - McBryan, Tony
AU - Otte, Gabriel L.
AU - Nixon, Colin
AU - Clark, William
AU - Riethman, Harold
AU - Wu, Hong
AU - Schotta, Gunnar
AU - Garcia, Benjamin A.
AU - Neretti, Nicola
AU - Baird, Duncan M.
AU - Berger, Shelley L.
AU - Adams, Peter D.
N1 - Funding Information:
Mouse experiments were part funded by a CRUK core grant to BICR. NS was supported by a predoctoral NRSA F31 Diversity award and the HR lab by NIH grants R21HG007205 and R21CA177395. SWC was supported by NIA F31AG050365 and NIH T32 GM007601. Work in the lab of GS was supported by Deutsche Forschungsgemeinschaft SFB1064 TP11. Work in the lab of BAG was supported by NIH GM110174 and CA196539. Work in the lab of NN was supported in part by NIH K25 AG028753, K25 AG028753-03S1 and R56 AG050582-01. Work in the lab of DMB was funded by Cancer Research UK (C17199/A13490 and C17199/A18246) and the Wales Cancer Research Centre. Work in the lab of SLB was supported by NIA PO1 AG031862. Work in the lab of PDA was supported by NIA PO1 AG031862 and CRUK C10652/A16566.
Publisher Copyright:
© 2016 The Author(s).
PY - 2016/7/25
Y1 - 2016/7/25
N2 - Background: Histone modification H4K20me3 and its methyltransferase SUV420H2 have been implicated in suppression of tumorigenesis. The underlying mechanism is unclear, although H4K20me3 abundance increases during cellular senescence, a stable proliferation arrest and tumor suppressor process, triggered by diverse molecular cues, including activated oncogenes. Here, we investigate the function of H4K20me3 in senescence and tumor suppression. Results: Using immunofluorescence and ChIP-seq we determine the distribution of H4K20me3 in proliferating and senescent human cells. Altered H4K20me3 in senescence is coupled to H4K16ac and DNA methylation changes in senescence. In senescent cells, H4K20me3 is especially enriched at DNA sequences contained within specialized domains of senescence-associated heterochromatin foci (SAHF), as well as specific families of non-genic and genic repeats. Altered H4K20me3 does not correlate strongly with changes in gene expression between proliferating and senescent cells; however, in senescent cells, but not proliferating cells, H4K20me3 enrichment at gene bodies correlates inversely with gene expression, reflecting de novo accumulation of H4K20me3 at repressed genes in senescent cells, including at genes also repressed in proliferating cells. Although elevated SUV420H2 upregulates H4K20me3, this does not accelerate senescence of primary human cells. However, elevated SUV420H2/H4K20me3 reinforces oncogene-induced senescence-associated proliferation arrest and slows tumorigenesis in vivo. Conclusions: These results corroborate a role for chromatin in underpinning the senescence phenotype but do not support a major role for H4K20me3 in initiation of senescence. Rather, we speculate that H4K20me3 plays a role in heterochromatinization and stabilization of the epigenome and genome of pre-malignant, oncogene-expressing senescent cells, thereby suppressing epigenetic and genetic instability and contributing to long-term senescence-mediated tumor suppression.
AB - Background: Histone modification H4K20me3 and its methyltransferase SUV420H2 have been implicated in suppression of tumorigenesis. The underlying mechanism is unclear, although H4K20me3 abundance increases during cellular senescence, a stable proliferation arrest and tumor suppressor process, triggered by diverse molecular cues, including activated oncogenes. Here, we investigate the function of H4K20me3 in senescence and tumor suppression. Results: Using immunofluorescence and ChIP-seq we determine the distribution of H4K20me3 in proliferating and senescent human cells. Altered H4K20me3 in senescence is coupled to H4K16ac and DNA methylation changes in senescence. In senescent cells, H4K20me3 is especially enriched at DNA sequences contained within specialized domains of senescence-associated heterochromatin foci (SAHF), as well as specific families of non-genic and genic repeats. Altered H4K20me3 does not correlate strongly with changes in gene expression between proliferating and senescent cells; however, in senescent cells, but not proliferating cells, H4K20me3 enrichment at gene bodies correlates inversely with gene expression, reflecting de novo accumulation of H4K20me3 at repressed genes in senescent cells, including at genes also repressed in proliferating cells. Although elevated SUV420H2 upregulates H4K20me3, this does not accelerate senescence of primary human cells. However, elevated SUV420H2/H4K20me3 reinforces oncogene-induced senescence-associated proliferation arrest and slows tumorigenesis in vivo. Conclusions: These results corroborate a role for chromatin in underpinning the senescence phenotype but do not support a major role for H4K20me3 in initiation of senescence. Rather, we speculate that H4K20me3 plays a role in heterochromatinization and stabilization of the epigenome and genome of pre-malignant, oncogene-expressing senescent cells, thereby suppressing epigenetic and genetic instability and contributing to long-term senescence-mediated tumor suppression.
KW - Cell senescence
KW - Chromatin
KW - SUV420H2/H4K20me3
KW - Tumor suppression
UR - http://www.scopus.com/inward/record.url?scp=84979205146&partnerID=8YFLogxK
U2 - 10.1186/s13059-016-1017-x
DO - 10.1186/s13059-016-1017-x
M3 - Article
C2 - 27457071
AN - SCOPUS:84979205146
VL - 17
JO - Genome Biology
JF - Genome Biology
SN - 1474-7596
IS - 1
M1 - 158
ER -