Ruth I. Tennen scite author profile

Sirtuin proteins regulate diverse cellular pathways that influence genomic stability, metabolism, and ageing1,2. SIRT7 is a mammalian sirtuin whose biochemical activity, molecular targets, and physiologic functions have been unclear. Here we show that SIRT7 is an NAD+-dependent H3K18Ac (acetylated lysine 18 of histone H3) deacetylase that stabilizes the transformed state of cancer cells. Genome-wide binding studies reveal that SIRT7 binds to promoters of a specific set of gene targets, where it deacetylates H3K18Ac and promotes transcriptional repression. The spectrum of SIRT7 target genes is defined in part by its interaction with the cancer-associated ETS transcription factor ELK4, and comprises numerous genes with links to tumour suppression. Notably, selective hypoacetylation of H3K18Ac has been linked to oncogenic transformation, and in patients is associated with aggressive tumour phenotypes and poor prognosis3–6. We find that deacetylation of H3K18Ac by SIRT7 is necessary for maintaining essential features of human cancer cells, including anchorage-independent growth and escape from contact inhibition. Moreover, SIRT7 is necessary for a global hypoacetylation of H3K18Ac associated with cellular transformation by the viral oncoprotein E1A. Finally, SIRT7 depletion markedly reduces the tumourigenicity of human cancer cell xenografts in mice. Together, our work establishes SIRT7 as a highly selective H3K18Ac deacetylase and demonstrates a pivotal role for SIRT7 in chromatin regulation, cellular transformation programs, and tumour formation in vivo.

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Conditional telomerase induction causes proliferation of hair follicle stem cells

Sarin

Cheung²,

Gilison³

et al. 2005

Nature

388

349

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TERT, the protein component of telomerase 1,2 , serves to maintain telomere function through the de novo addition of telomere repeats to chromosome ends and is reactivated in 90% of human cancers. In normal tissues, TERT is expressed in stem cells and in progenitor cells 3 , but its role in these compartments is not fully understood. Here, we show that conditional transgenic induction of TERT in mouse skin epithelium causes a rapid transition from telogen, the resting phase of the hair follicle cycle, to anagen, the active phase, thereby facilitating robust hair growth. TERT overexpression promotes this developmental transition by causing proliferation of quiescent, multipotent stem cells in the hair follicle bulge region. This new function for TERT does not require the telomerase RNA component (TERC), which encodes the template for telomere addition, and therefore operates through a novel mechanism independent of its activity in synthesizing telomere repeats. These data indicate that, in addition to its established role in extending telomeres, TERT can promote proliferation of resting stem cells through a non-canonical pathway. Keywords telomerase; telomere; stem cell; hair follicle; epidermis In stem cell and progenitor cell compartments 3-5 , TERT serves an important role in keeping telomeres sufficiently long and stable to prevent the adverse consequences of dysfunctional telomeres on cell viability and chromosomal stability 6-8 . However, the need for expression of TERT in tissue stem cells and progenitor cells with long telomeres is less clear, especially in laboratory mice, whose telomeres are significantly longer than those of humans (40-60kb vs. 5-15kb). Moreover, recent findings indicate that TERT promotes tumor development even in settings of ample telomere reserve, although the mechanisms underlying these telomere length-independent activities of TERT remain unclear 9-13 . We therefore hypothesized that TERT may exert effects in stem cell and progenitor cell compartments that could explain both its regulation during lineage development and its poorly understood telomere lengthindependent activities.To test this hypothesis, we turned to the mammalian hair follicle, an organ that harbors tightly regulated multipotent stem cells and that cycles between telogen and anagen 14 . Initiation of a new anagen cycle depends upon activation of a small number of quiescent stem cells that reside

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Lysine methylation of the NF-κB subunit RelA by SETD6 couples activity of the histone methyltransferase GLP at chromatin to tonic repression of NF-κB signaling

et al. 2010

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Protein lysine methylation signaling is implicated in diverse biological and disease processes. Yet the catalytic activity and substrate specificity are unknown for many human protein lysine methyltransferases (PKMTs). We screened over forty candidate PKMTs and identified SETD6 as a methyltransferase that monomethylates chromatin-associated NF-κB RelA at lysine 310 (RelAK310me1). SETD6-mediated methylation rendered RelA inert and attenuated RelA-driven transcriptional programs, including inflammatory responses in primary immune cells. RelAK310me1 was recognized by the ankryin repeat of GLP, which under basal conditions, promoted a repressed chromatin state at RelA target genes through GLP-mediated H3K9 methylation. NF-κB activation-linked phosphorylation of RelA by PKCζ at serine 311 blocked GLP binding to RelAK310me1 and relieved target gene repression. Our findings establish a new mechanism by which chromatin signaling regulates inflammation programs.

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Trans-ancestry analysis reveals genetic and nongenetic associations with COVID-19 susceptibility and severity

et al. 2021

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COVID-19 presents with a wide range of severity, from asymptomatic in some individuals to fatal in others. Based on a study of 1,051,032 23andMe research participants, we report genetic and nongenetic associations with testing positive for SARS-CoV-2, respiratory symptoms and hospitalization. Using trans-ancestry genome-wide association studies, we identified a strong association between blood type and COVID-19 diagnosis, as well as a gene-rich locus on chromosome 3p21.31 that is more strongly associated with outcome severity. Hospitalization risk factors include advancing age, male sex, obesity, lower socioeconomic status, non-European ancestry and preexisting cardiometabolic conditions. While non-European ancestry was a significant risk factor for hospitalization after adjusting for sociodemographics and preexisting health conditions, we did not find evidence that these two primary genetic associations explain risk differences between populations for severe COVID-19 outcomes.

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SIRT6 deacetylates H3K18ac at pericentric chromatin to prevent mitotic errors and cellular senescence

Tasselli

Zheng

et al. 2016

Nat Struct Mol Biol

181

160

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Pericentric heterochromatin silencing at mammalian centromeres is essential for mitotic fidelity and genomic stability. Defective pericentric silencing is observed in senescent cells, aging tissues, and mammalian tumors, but the underlying mechanisms and functional consequences of these defects are unclear. Here, we uncover a pivotal role of the human SIRT6 enzyme in pericentric transcriptional silencing, and show that this function protects against mitotic defects, genomic instability, and cellular senescence. At pericentric heterochromatin, SIRT6 promotes deacetylation of a new substrate, histone H3 lysine K18 (H3K18), and inactivation of SIRT6 in cells leads to H3K18 hyperacetylation and aberrant accumulation of pericentric transcripts. Strikingly, RNAi-depletion of these transcripts rescues the mitotic and senescence phenotypes of SIRT6-deficient cells. Together, our findings reveal a new function for SIRT6 and H3K18Ac regulation at heterochromatin, and demonstrate the pathogenic role of de-regulated pericentric transcription in aging- and cancer- related cellular dysfunction.

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Ruth I. Tennen

SIRT7 links H3K18 deacetylation to maintenance of oncogenic transformation

Conditional telomerase induction causes proliferation of hair follicle stem cells

Lysine methylation of the NF-κB subunit RelA by SETD6 couples activity of the histone methyltransferase GLP at chromatin to tonic repression of NF-κB signaling

Trans-ancestry analysis reveals genetic and nongenetic associations with COVID-19 susceptibility and severity

SIRT6 deacetylates H3K18ac at pericentric chromatin to prevent mitotic errors and cellular senescence

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