PRAS40 and PRR5-Like Protein Are New mTOR Interactors that Regulate Apoptosis

Thedieck, Kathrin; Polak, Pazit; Kim, Man Lyang; Molle, Klaus D.; Cohen, Aviv; Jenö, Paul; Arrieumerlou, Cécile; Hall, Michael N.

doi:10.1371/journal.pone.0001217

Cited by 266 publications

(252 citation statements)

References 55 publications

(81 reference statements)

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“…Previous studies have suggested links between the DDR and the mTOR signalling pathway potentially via protein kinase B (PKB/Akt) phosphorylation: firstly, Akt has been shown to activate mTORC1 by directly phosphorylating the TSC1/TSC2 complex (Inoki et al , 2002) or by dissociation of PRAS40 from the essential mTORC1 component RAPTOR (Thedieck et al , 2007). Secondly, Akt has been shown to be a direct phosphorylation target of ATM, an upstream driver of the DDR (Viniegra et al , 2005).…”

Section: Resultsmentioning

confidence: 99%

Mitochondria are required for pro‐ageing features of the senescent phenotype

et al. 2016

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Cell senescence is an important tumour suppressor mechanism and driver of ageing. Both functions are dependent on the development of the senescent phenotype, which involves an overproduction of pro‐inflammatory and pro‐oxidant signals. However, the exact mechanisms regulating these phenotypes remain poorly understood. Here, we show the critical role of mitochondria in cellular senescence. In multiple models of senescence, absence of mitochondria reduced a spectrum of senescence effectors and phenotypes while preserving ATP production via enhanced glycolysis. Global transcriptomic analysis by RNA sequencing revealed that a vast number of senescent‐associated changes are dependent on mitochondria, particularly the pro‐inflammatory phenotype. Mechanistically, we show that the ATM, Akt and mTORC1 phosphorylation cascade integrates signals from the DNA damage response (DDR) towards PGC‐1β‐dependent mitochondrial biogenesis, contributing to a ROS‐mediated activation of the DDR and cell cycle arrest. Finally, we demonstrate that the reduction in mitochondrial content in vivo, by either mTORC1 inhibition or PGC‐1β deletion, prevents senescence in the ageing mouse liver. Our results suggest that mitochondria are a candidate target for interventions to reduce the deleterious impact of senescence in ageing tissues.

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Section: Resultsmentioning

confidence: 99%

Mitochondria are required for pro‐ageing features of the senescent phenotype

et al. 2016

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“…Rictor, an important component of mTORC2, contributes to glucose homeostasis in murine muscle tissue (Kumar et al, 2008), TORC2 C. elegans mutants show modulation of lifespan by affecting feeding and metabolism of different diets (Soukas et al, 2009), TORC2 is a mediator of proliferative and survival signals in cancer cells (Fang et al, 2012) and a study in mouse embryonic fibroblasts showed that mTORC2 regulates the TLR-mediated inflammatory response via FoxO1 (Brown et al, 2011). In addition, PRR5L, which is part of mTORC2, has been suggested to play a role in apoptosis in HeLa cells, but whether it is pro-apoptotic or antiapoptotic remains unclear (Thedieck et al, 2007). Recently, Lamming et al showed that disruption of mTORC2 can result in glucose intolerance and insulin resistance in rodents and may be relevant in the pathogenesis of type 2 diabetes and metabolic syndrome (Lamming et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Gene expression analysis of mTOR pathway: association with human longevity

et al. 2012

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SummarymTOR signalling is implicated in the development of disease and in lifespan extension in model organisms. This pathway has been associated with human diseases such as diabetes and cancer, but has not been investigated for its impact on longevity per se. Here, we investigated whether transcriptional variation within the mTOR pathway is associated with human longevity using whole‐blood samples from the Leiden Longevity Study. This is a unique cohort of Dutch families with extended survival across generations, decreased morbidity and beneficial metabolic profiles in middle‐age. By comparing mRNA levels of nonagenarians and middle‐aged controls, the mTOR signalling gene set was found to associate with old age (P = 4.6 × 10−7). Single gene analysis showed that seven of 40 mTOR pathway genes had a significant differential expression of at least 5%. Of these, the RPTOR (Raptor) gene was found to be differentially expressed also when the offspring of nonagenarians was compared with their spouses, indicating association with familial longevity in middle‐age. This association was not explained by variation between the groups in the prevalence of type 2 diabetes and cancer or glucose levels. Thus, the mTOR pathway not only plays a role in the regulation of disease and aging in animal models, but also in human health and longevity.

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“…[38][39][40][41] PROTOR1, also known as PRR5, appears to regulate platelet-derived growth factor (PDGF) signaling and cellular apoptosis. [42][43][44] Both mTOR complexes contain mLST8 (originally termed GbL), which is essential for the function of mTORC2, and modulates mTORC1 activity in nutrient-sensitive manner. 45 …”

Section: The Molecular Organization Of Mtormentioning

confidence: 99%

“…52,53 However, PRAS40 also constitutively binds and inhibits mTORC1, dissociating from the complex in cells exposed to insulin or nutrients. 43,54,55 The integral ER membrane protein FKBP38 constitutively inhibits mTORC1 activity by blocking the interaction between mTOR and Rheb. [56][57][58] FKBP38 dissociates from Rheb in cells exposed to mitogens, and thus facilitates the activation of mTOR.…”

Section: Regulated Mtorc-protein Interactionsmentioning

confidence: 99%

mTOR Signaling in Lymphangioleiomyomatosis

Kristof

2010

Lymphatic Research and Biology

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The protein mammalian target of rapamycin (mTOR) plays a central role in cell growth and proliferation. Excessive mTOR activity is a prominent feature of many neoplasms and hamartoma syndromes, including lymphangioleiomyomatosis (LAM), a destructive lung disease that causes progressive respiratory failure in women. Although pharmacological inhibitors of mTOR should directly target the pathogenesis of these disorders, their clinical efficacy has been suboptimal. Recent scientific findings reviewed here have greatly improved our understanding of mTOR signaling mechanisms, provided new insights into the control of cell growth and proliferation, and facilitated the development of new therapeutic approaches in LAM, as well as other neoplastic disorders that exhibit excessive mTOR activity.

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PRAS40 and PRR5-Like Protein Are New mTOR Interactors that Regulate Apoptosis

Cited by 266 publications

References 55 publications

Mitochondria are required for pro‐ageing features of the senescent phenotype

Mitochondria are required for pro‐ageing features of the senescent phenotype

Gene expression analysis of mTOR pathway: association with human longevity

mTOR Signaling in Lymphangioleiomyomatosis

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