Cian J. Lynch scite author profile

SummaryThe mechanisms responsible for the transcriptional silencing of pluripotency genes in differentiated cells are poorly understood. We have observed that cells lacking the tumor suppressor p27 can be reprogrammed into induced pluripotent stem cells (iPSCs) in the absence of ectopic Sox2. Interestingly, cells and tissues from p27 null mice, including brain, lung, and retina, present an elevated basal expression of Sox2, suggesting that p27 contributes to the repression of Sox2. Furthermore, p27 null iPSCs fail to fully repress Sox2 upon differentiation. Mechanistically, we have found that upon differentiation p27 associates to the SRR2 enhancer of the Sox2 gene together with a p130-E2F4-SIN3A repressive complex. Finally, Sox2 haploinsufficiency genetically rescues some of the phenotypes characteristic of p27 null mice, including gigantism, pituitary hyperplasia, pituitary tumors, and retinal defects. Collectively, these results demonstrate an unprecedented connection between p27 and Sox2 relevant for reprogramming and cancer and for understanding human pathologies associated with p27 germline mutations.

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SIRT1 Undergoes Alternative Splicing in a Novel Auto-Regulatory Loop with p53

Lynch

Shah

Allison

et al. 2010

PLoS ONE

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BackgroundThe NAD-dependent deacetylase SIRT1 is a nutrient-sensitive coordinator of stress-tolerance, multiple homeostatic processes and healthspan, while p53 is a stress-responsive transcription factor and our paramount tumour suppressor. Thus, SIRT1-mediated inhibition of p53 has been identified as a key node in the common biology of cancer, metabolism, development and ageing. However, precisely how SIRT1 integrates such diverse processes remains to be elucidated.Methodology/Principal FindingsHere we report that SIRT1 is alternatively spliced in mammals, generating a novel SIRT1 isoform: SIRT1-ΔExon8. We show that SIRT1-ΔExon8 is expressed widely throughout normal human and mouse tissues, suggesting evolutionary conservation and critical function. Further studies demonstrate that the SIRT1-ΔExon8 isoform retains minimal deacetylase activity and exhibits distinct stress sensitivity, RNA/protein stability, and protein-protein interactions compared to classical SIRT1-Full-Length (SIRT1-FL). We also identify an auto-regulatory loop whereby SIRT1-ΔExon8 can regulate p53, while in reciprocal p53 can influence SIRT1 splice variation.Conclusions/SignificanceWe characterize the first alternative isoform of SIRT1 and demonstrate its evolutionary conservation in mammalian tissues. The results also reveal a new level of inter-dependency between p53 and SIRT1, two master regulators of multiple phenomena. Thus, previously-attributed SIRT1 functions may in fact be distributed between SIRT1 isoforms, with important implications for SIRT1 functional studies and the current search for SIRT1-activating therapeutics to combat age-related decline.

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Global hyperactivation of enhancers stabilizes human and mouse naive pluripotency through inhibition of CDK8/19 Mediator kinases

et al. 2020

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Pluripotent stem cells (PSCs) transition between cell states in vitro and reflect developmental changes in the early embryo. PSCs can be stabilized in the naïve state by blocking extracellular differentiation stimuli, particularly FGF-MEK signaling. Here, we report that multiple features of the naïve state in human and mouse PSCs can be recapitulated without affecting FGF-MEK-signaling or global DNA methylation. Mechanistically, chemical inhibition of CDK8 and CDK19 kinases removes their ability to repress the Mediator complex at enhancers. Thus CDK8/19 inhibition increases Mediator-driven recruitment of RNA Pol II to promoters and enhancers. This efficiently stabilizes the naïve transcriptional program and confers resistance to enhancer perturbation by BRD4 inhibition.Moreover, naïve pluripotency during embryonic development coincides with a reduction in CDK8/19. We conclude that global hyperactivation of enhancers drives naïve pluripotency, and this can be achieved in vitro by inhibiting CDK8/19 kinase activity. These principles may apply to other contexts of cellular plasticity. RESULTS Inhibition of Mediator kinase stabilizes mouse naïve pluripotencyGFP knock-in reporters at key stem cell marker genes such as Nanog represent well-established and precise indicators of the naïve (GFP high ) and primed states (GFP low ) 18,22,29 . For example, in 2i-naïve state, Nanog promoter activity is enhanced, yielding a characteristically homogenous Nanog-GFP high cell expression pattern and uniform dome-shaped colonies (Fig. 1A-C, and Extended Data Fig. 1A). In contrast, the Nanog promoter is metastable in primed state PSCs, reversibly oscillating between high and low activity, presenting a heterogeneous Nanog-GFP expression pattern and flattened diffuse colonies, indicative of a general underlying switch in transcriptional program 18,20,23,29,30 . The BRD4 inhibitor JQ1 destabilizes enhancers and resulted in colony flattening and GFP low status (Fig. 1A), as reported [26][27][28] . In this experimental setting, we tested the effect of manipulating the transcriptional cyclin-dependent kinases (CDK7, CDK8/19 and CDK9) with a panel of small molecule inhibitors. Several potent Lynch et al., submitted 19 19 and structurally-unrelated CDK8/19 inhibitors had a positive effect, inducing the formation of homogenous dome-shaped colonies, and upregulating both the Nanog-GFP reporter and endogenous Nanog expression, similar to PSC in the 2i-naïve state (Fig. 1A-E; Extended Data Fig. 1A; Supplementary Table 1), while inhibition of CDK7 or CDK9 did not. Potency and selectivity of CDK8/19inhibitors, commercially available or developed in-house, were assessed by multiple methods: (i) selectivity was suggested by a KinomeScan panel of 456 kinases; (ii) Lanthascreen assays demonstrated inhibitory activity at nanomolar concentrations against pure recombinant CDK8/CCNC and CDK19/CCNC; (iii) luciferase reporter cell assays (TOP-FLASH); and (iv) potent inhibition of STAT1-Ser727 phosphorylation in human PSCs, a well-documented CDK8 t...

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Loss of one p53 allele results in four-fold reduction of p53 mRNA and protein: a basis for p53 haplo-insufficiency

Lynch

Milner

2006

Oncogene

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A haploid genotype may be insufficient to support normal wild-type function. Such haplo-insufficiency has recently been documented for numerous tumour suppressor genes. p53 is a crucial tumour suppressor governing DNA repair, cell cycle arrest and apoptosis via its role as a stressresponsive transcription factor. p53 haplo-insufficiency has been observed in vivo with human familial cancer in Li-Fraumeni Syndrome (LFS) and in mouse p53-knockout models of LFS. The increased tumorigenesis associated with loss of one p53 allele has been attributed to reduced p53-dependent stress responses. However, the underlying biochemical basis for such attenuated responses in p53 þ /À cells remains unclear. Here we have determined basal p53 messenger RNA (mRNA) and protein levels, and compared the p53 stress response in p53 þ / þ , p53 þ /À and p53À/À isogenic clones derived from HCT116 cells. Basal expression of p53 in p53 þ /À cells was 25% relative to p53 þ / þ cells, and this differential was maintained following oncogenic stress. This deficiency was manifested at both p53 mRNA and protein levels and resulted in attenuated p53 stress responses, in particular for p21 waf1 upregulation and survivin downregulation, and reduced G1 arrest and apoptosis. These observations identify a molecular basis for wild-type p53 haplo-insufficiency, which may explain the attenuated tumour-suppressive phenotype observed in cells with a single wild-type p53 allele and in humans with LFS.

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Cian J. Lynch

p27Kip1 Directly Represses Sox2 during Embryonic Stem Cell Differentiation

SIRT1 Undergoes Alternative Splicing in a Novel Auto-Regulatory Loop with p53

Global hyperactivation of enhancers stabilizes human and mouse naive pluripotency through inhibition of CDK8/19 Mediator kinases

Loss of one p53 allele results in four-fold reduction of p53 mRNA and protein: a basis for p53 haplo-insufficiency

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