David M. Nelson scite author profile

Senescence is a stable proliferation arrest, associated with an altered secretory pathway, thought to promote tumor suppression and tissue aging. While chromatin regulation and lamin B1 down-regulation have been implicated as senescence effectors, functional interactions between them are poorly understood. We compared genome-wide Lys4 trimethylation on histone H3 (H3K4me3) and H3K27me3 distributions between proliferating and senescent human cells and found dramatic differences in senescence, including large-scale domains of H3K4me3-and H3K27me3-enriched ''mesas'' and H3K27me3-depleted ''canyons.'' Mesas form at lamin B1-associated domains (LADs) in replicative senescence and oncogene-induced senescence and overlap DNA hypomethylation regions in cancer, suggesting that pre-malignant senescent chromatin changes foreshadow epigenetic cancer changes. Hutchinson-Gilford progeria syndrome fibroblasts (mutant lamin A) also show evidence of H3K4me3 mesas, suggesting a link between premature chromatin changes and accelerated cell senescence. Canyons mostly form between LADs and are enriched in genes and enhancers. H3K27me3 loss is correlated with up-regulation of key senescence genes, indicating a link between global chromatin changes and local gene expression regulation. Lamin B1 reduction in proliferating cells triggers senescence and formation of mesas and canyons. Our data illustrate profound chromatin reorganization during senescence and suggest that lamin B1 down-regulation in senescence is a key trigger of global and local chromatin changes that impact gene expression, aging, and cancer.

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Lysosome-mediated processing of chromatin in senescence

Ivanov

et al. 2013

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Cell cycle–regulated phosphorylation of p220^NPATby cyclin E/Cdk2 in Cajal bodies promotes histone gene transcription

Tine

Wei³

et al. 2000

Genes Dev.

335

382

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Cyclin E/Cdk2 acts at the G1/S-phase transition to promote the E2F transcriptional program and the initiation of DNA synthesis. To explore further how cyclin E/Cdk2 controls S-phase events, we examined the subcellular localization of the cyclin E/Cdk2 interacting protein p220 NPAT and its regulation by phosphorylation. p220 is localized to discrete nuclear foci. Diploid fibroblasts in Go and G1 contain two p220 foci, whereas S-and G2-phase cells contain primarily four p220 foci. Cells in metaphase and telophase have no detectable focus. p220 foci contain cyclin E and are coincident with Cajal bodies (CBs), subnuclear organelles that associate with histone gene clusters on chromosomes 1 and 6. Interestingly, p220 foci associate with chromosome 6 throughout the cell cycle and with chromosome 1 during S phase. Five cyclin E/Cdk2 phosphorylation sites in p220 were identified. Phospho-specific antibodies against two of these sites react with p220 within CBs in a cell cycle-specific manner. The timing of p220 phosphorylation correlates with the appearance of cyclin E in CBs at the G1/S boundary, and this phosphorylation is maintained until prophase. Expression of p220 activates transcription of the histone H2B promoter. Importantly, mutation of Cdk2 phosphorylation sites to alanine abrogates the ability of p220 to activate the histone H2B promoter. Collectively, these results strongly suggest that p220 NPAT links cyclical cyclin E/Cdk2 kinase activity to replication-dependent histone gene transcription.

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David M. Nelson

Lamin B1 depletion in senescent cells triggers large-scale changes in gene expression and the chromatin landscape

Lysosome-mediated processing of chromatin in senescence

Cell cycle–regulated phosphorylation of p220^NPATby cyclin E/Cdk2 in Cajal bodies promotes histone gene transcription

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David M. Nelson

Lamin B1 depletion in senescent cells triggers large-scale changes in gene expression and the chromatin landscape

Lysosome-mediated processing of chromatin in senescence

Cell cycle–regulated phosphorylation of p220NPATby cyclin E/Cdk2 in Cajal bodies promotes histone gene transcription

Contact Info

Product

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Cell cycle–regulated phosphorylation of p220^NPATby cyclin E/Cdk2 in Cajal bodies promotes histone gene transcription