AKT induces senescence in human cells via mTORC1 and p53 in the absence of DNA damage: implications for targeting mTOR during malignancy

Astle, Megan V.; Hannan, Katherine M.; Ng, Puiyee; Lee, Rachel; George, Amee J.; Hsu, Andy; Haupt, Ygal; Hannan, Ross D.; Pearson, Richard B.

doi:10.1038/onc.2011.394

Cited by 231 publications

(229 citation statements)

References 94 publications

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“…This is consistent with recent observations that the oncogenic effects of Akt activation are most apparent when the tumour suppressor function of p53 is lost. 28 Interestingly, in our hands, the deletion of p53 also renders cells resistant to apoptosis triggered by Akt inhibitory drugs. Although Akt activation is a frequent feature of many malignancies, including acute myeloid leukaemia, 29 our data indicate that Akt activation is not sufficient to promote leukaemiagenesis.…”

Section: Discussionmentioning

confidence: 95%

“…31 Several mechanisms may link cytokine-mediated Akt activation to p53. First, the p53-regulator MDM2 is a substrate of Akt, 4,28,32 and Akt can control the abundance of p53 by regulating this E3 ligase responsible for p53 turnover. Second, at least in the context of enforced Akt activation, Akt may maintain glucose uptake in the face of IL-3 derivation, perhaps by maintaining the activity of specific glucose transporters.…”

Section: Discussionmentioning

confidence: 99%

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Akt1 is the principal Akt isoform regulating apoptosis in limiting cytokine concentrations

et al. 2013

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Akt1 is the principal Akt isoform regulating apoptosis in limiting cytokine concentrations

et al. 2013

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“…36 One conceivable target is the Akt/mTOR pathway. Its activation has previously been linked to senescence associated b-galactosidase activity in human fibroblasts 37 and to CD8 T-cell senescence. 38 In fact, recent observations in patients with gain-of-function mutations in the PI3K catalytic subunit or loss of the regulatory subunit p85 suggest that activation of this pathway may be associated with immunodeficiency and autoimmunity in human patients.…”

Section: Cd28mentioning

confidence: 99%

Early-onset Evans syndrome, immunodeficiency, and premature immunosenescence associated with tripeptidyl-peptidase II deficiency

Stepensky

Rensing‐Ehl

Gather

et al. 2015

Blood

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Key Points• Deficiency of TPP2 is associated with Evans syndrome and viral infection susceptibility.• TPP2 deficiency links premature immunosenescence of T and B cells with severe autoimmunity.Autoimmune cytopenia is a frequent manifestation of primary immunodeficiencies. Two siblings presented with Evans syndrome, viral infections, and progressive leukopenia. DNA available from one patient showed a homozygous frameshift mutation in tripeptidyl peptidase II (TPP2) abolishing protein expression. TPP2 is a serine exopeptidase involved in extralysosomal peptide degradation. Its deficiency in mice activates cell death programs and premature senescence. Similar to cells from naïve, uninfected TPP2-deficient mice, patient cells showed increased major histocompatibility complex I expression and most CD8 1 T-cells had a senescent CCR7-CD127 2 CD28 2 CD57 1 phenotype with poor proliferative responses and enhanced staurosporine-induced apoptosis. T-cells showed increased expression of the effector molecules perforin and interferon-g with high expression of the transcription factor T-bet. Age-associated B-cells with a CD212 CD11c 1 phenotype expressing T-bet were increased in humans and mice, combined with antinuclear antibodies. Moreover, markers of senescence were also present in human and murine TPP2-deficient fibroblasts.Telomere lengths were normal in patient fibroblasts and granulocytes, and low normal in lymphocytes, which were compatible with activation of stress-induced rather than replicative senescence programs. TPP2 deficiency is the first primary immunodeficiency linking premature immunosenescence to severe autoimmunity. Determination of senescent lymphocytes should be part of the diagnostic evaluation of children with refractory multilineage cytopenias. (Blood. 2015;125(5):753-761)

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“…However, this response occurs in tumor cells, whereas the cells of developing ptena −/− ptenb −/− embryos are otherwise normal. Oncogenes expressed in normal healthy cells induce senescence (Gorgoulis & Halazonetis, 2010), and hyper‐active AKT has been shown to do the same in mouse embryonic and human fibroblasts (Astle et al., 2012; Chen et al., 2005). Moreover, T‐cell senescence occurs in some immunodeficient patients with germline gain‐of‐function mutations in PI3K (Lucas et al., 2014).…”

Section: Discussionmentioning

confidence: 99%

“…These responses are elicited in immortalized cell lines or cell lines following irradiation‐induced DNA damage, which are not normal, WT cells or conditions. Hyper‐active AKT in normal human cells initiates the release of pro‐inflammatory cytokines, a hallmark of senescence‐associated secretory phenotype (Astle et al., 2012), which is thought to induce apoptosis of senescent cells (Freund, Orjalo, Desprez, & Campisi, 2010). Thus, the elevated p‐AKT in ptena −/− ptenb −/− embryos may induce senescence and apoptosis.…”

Section: Discussionmentioning

confidence: 99%

Impaired caudal fin‐fold regeneration in zebrafish deficient for the tumor suppressor Pten

et al. 2017

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Zebrafish are able to completely regrow their caudal fin‐folds after amputation. Following injury, wound healing occurs, followed by the formation of a blastema, which produces cells to replace the lost tissue in the final phase of regenerative outgrowth. Here we show that, surprisingly, the phosphatase and tumor suppressor Pten, an antagonist of phosphoinositide‐3‐kinase (PI3K) signaling, is required for zebrafish caudal fin‐fold regeneration. We found that homozygous knock‐out mutant (ptena−/−ptenb−/−) zebrafish embryos, lacking functional Pten, did not regenerate their caudal fin‐folds. AKT phosphorylation was enhanced, which is consistent with the function of Pten. Reexpression of Pten, but not catalytically inactive mutant Pten‐C124S, rescued regeneration, as did pharmacological inhibition of PI3K. Blastema formation, determined by in situ hybridization for the blastema marker junbb, appeared normal upon caudal fin‐fold amputation of ptena−/−ptenb−/− zebrafish embryos. Whole‐mount immunohistochemistry using specific markers indicated that proliferation was arrested in embryos lacking functional Pten, and that apoptosis was enhanced. Together, these results suggest a critical role for Pten by limiting PI3K signaling during the regenerative outgrowth phase of zebrafish caudal fin‐fold regeneration.

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AKT induces senescence in human cells via mTORC1 and p53 in the absence of DNA damage: implications for targeting mTOR during malignancy

Cited by 231 publications

References 94 publications

Akt1 is the principal Akt isoform regulating apoptosis in limiting cytokine concentrations

Akt1 is the principal Akt isoform regulating apoptosis in limiting cytokine concentrations

Early-onset Evans syndrome, immunodeficiency, and premature immunosenescence associated with tripeptidyl-peptidase II deficiency

Impaired caudal fin‐fold regeneration in zebrafish deficient for the tumor suppressor Pten

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