UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Certain growth regulatory kinases contain a common domain related to the phospho-inositol 3 (PI-3) kinase catalytic site. These include the ATM gene product, DNA-PKcs, and the target of rapamycin (TOR in yeast; and FRAP in mammalian cells). Rapamycin inhibits growth factor signalling and induces G1 arrest in many cell types. Some growth regulatory PI-3 kinases appear functionally linked to p53 and we have explored potential links between cellular effects induced by rapamycin and p53. In p53 null cells rapamycin inhibited cell cycling but did not induce G1 arrest. In cells which showed selective G1 arrest in response to rapamycin, rapamycin had no effect on basal levels of p53 protein. Similarly p21(WAF1) protein was not induced by rapamycin. The kinetics of the cellular p53/p21(WAF1) response to ionising radiation was unaffected by rapamycin; and the ability of growth factor to protect against p53-mediated apoptosis in response to DNA damage was also unaffected by rapamycin. The ATM gene is mutated in the cancer susceptibility syndrome ataxia telangiectasia (AT) but such mutant cells showed a similar sensitivity to rapamycin compared to their normal counterparts. RKO cell lines of common genetic background, but with different levels of functional p53 protein, also responded similarly to rapamycin. Thus, although rapamycin and p53 are each able to induce G1 arrest, they appear to act through independent growth regulatory pathways.
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PMID:Rapamycin and p53 act on different pathways to induce G1 arrest in mammalian cells. 934 96

Although mTOR is a member of the PI-kinase-related kinase family, mTOR possesses serine-threonine protein kinase activities, which phosphorylate itself and exogenous substrates. mTOR autophosphorylates in vitro and is phosphorylated in vivo on serine residues. Ser2481, which is located in a His-Ser-Phe motif near the conserved carboxyl-terminal mTOR tail, has been reported as an autophosphorylation site in vivo and in vitro. The significance of the autophosphorylation remains unclear. Another phosphorylation site on mTOR in vivo is Ser2448. This site appears not to be an autophosphorylation site but a site potentially phosphorylated by protein kinase B (PKB). mTOR immunopurified from culture cells or tissues phosphorylates in vitro p70 S6 kinase (p70) alpha and p70beta, mainly on Thr412 or Thr401, respectively, located in a Phe-Thr-Tyr motif. Another exogenous substrate phosphorylated by immunopurified mTOR in vitro is eIF4E-binding protein 1 (4E-BP1) at sites corresponding to those phosphorylated in vivo during insulin stimulation in a Ser/Thr-Pro motif. Recently, raptor, a 150-kDa TOR-binding protein that contains a carboxyl-terminal WD-repeat domain, was discovered as a scaffold for the mTOR-catalyzed phosphorylation of 4E-BP1 and for the mTOR-mediated phosphorylation and activation of p70alpha. Other potential substrates phosphorylated by mTOR are nPKCdelta, nPKCepsilon, STAT3, and p53. The requirement of raptor for binding to and phosphorylation by mTOR of these potential substrates would clarify their physiological importance in the mTOR signaling pathway.
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PMID:Kinase activities associated with mTOR. 1456 Sep 63

In yeast, TOR couples cellular growth and metabolism to the availability of extracellular nutrients. In contrast, mammalian TOR kinase activity has been reported to be regulated by growth factor stimulation via the PI3K/Akt pathway. Consistent with this, growth factor deprivation results in dephosphorylation of the mTOR target proteins p70S6k and 4EBP1 in the face of abundant extracellular nutrients. To determine whether the activation of mTOR was sufficient to support cell survival in the absence of other growth factor-mediated signal transduction, we evaluated the ability of a growth factor-independent mTOR mutant, DeltaTOR, to protect cells from growth factor deprivation. DeltaTOR- but not wild-type mTOR-expressing cells were protected from many of the sequelae of growth factor deprivation including amino-acid transporter degradation, reduction of the glycolytic rate, cellular atrophy, decreased mitochondrial membrane potential, and Bax activation. Furthermore, DeltaTOR expression increased growth factor-independent, nutrient-dependent cell survival and enhanced the ability of p53-/- MEFs to form colonies in soft agar. These results suggest that activating mutations of mTOR can contribute to apoptotic resistance and might contribute to cellular transformation.
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PMID:An activated mTOR mutant supports growth factor-independent, nutrient-dependent cell survival. 1513 98

The tumour suppressor gene PTEN is, next to p53, the second most frequently mutated gene in human cancers. The genes TSC1 and TSC2 are mutated in the severe human syndrome called Tuberous Sclerosis. Patients with this disease have large benign tumours composed of large cells in the brain. The genetic dissection of pathways controlling the growth of cells, organs, and the entire organism in Drosophila has contributed to the understanding of the signalling pathways that are controlled by these two tumour suppressors. Together with studies on nutrient regulation of growth and ageing in the nematode Caenorhabditis elegans, evidence from these model organisms has moved the Insulin/IGF (IIS) and the Target Rapamycin (TOR) signalling pathway onto the centre stage of cellular growth control and made them attractive novel targets for cancer therapy. In this review, I will outline the contributions of model organism genetics to the understanding of these disease relevant pathways and highlight the evolutionary conservation of nutrient-dependent growth regulation.
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PMID:Cancer, type 2 diabetes, and ageing: news from flies and worms. 1563 89

Unconventional prefoldin RPB5 interactor (URI), an evolutionary conserved member of the prefoldin family of molecular chaperones, plays a central role in the regulation of nutrient-sensitive, TOR (target-of-rapamycin)-dependent gene expression programs in yeast. Mammalian URI has been shown to associate with key components of the transcriptional machinery, including RPB5, a shared subunit of all three RNA polymerases, the ATPases TIP48 and TIP49, which are present in various chromatin remodeling complexes, and human PAF1 and parafibromin, which are components of a transcription elongation complex. Here, we provide the first functional characterization of a URI-1 homolog in a multicellular organism and show that the C. elegans gene uri-1 is essential for germ cell proliferation. URI-1-deficient cells exhibit cell cycle arrest and display DNA breaks as evidenced by TUNEL staining and the appearance of HUS-1::GFP foci formation. In addition, uri-1(lf) mutants and uri-1(RNAi) worms show a p53-dependent increase in germline apoptosis. Our findings indicate that URI-1 has an important function in the mitotic and meiotic cell cycles. Furthermore, they imply that URI-1 participates in a pathway(s) that is associated with the suppression of endogenous genotoxic DNA damage and highlight a role for URI-1 in the control of genome integrity.
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PMID:URI-1 is required for DNA stability in C. elegans. 1643 22

Over the past 10 years the signal transduction networks for p53, IGF-1-AKT, and TOR pathways have been assembled in worms, flies, and mammals, and their functions elucidated. In the past 1-2 years a number of genes and their proteins have been identified that permit extensive communication and coordination between these pathways. These three pathways are involved in sensing and integrating signals arising from nutrient and growth factor availability, signals from sensory and sexual organs, and intrinsic and extrinsic stress signals. In turn these pathways regulate cell growth, proliferation, and death. These networks are central to our understanding of a variety of physiological and pathological conditions, including cancer, diabetes, and longevity.
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PMID:Coordination and communication between the p53 and IGF-1-AKT-TOR signal transduction pathways. 1645 1

The tumour-suppressor phosphatase with tensin homology (PTEN) is the most important negative regulator of the cell-survival signalling pathway initiated by phosphatidylinositol 3-kinase (PI3K). Although PTEN is mutated or deleted in many tumours, deregulation of the PI3K-PTEN network also occurs through other mechanisms. Crosstalk between the PI3K pathways and other tumorigenic signalling pathways, such as those that involve Ras, p53, TOR (target of rapamycin) or DJ1, can contribute to this deregulation. How does the PI3K pathway integrate signals from numerous sources, and how can this information be used in the rational design of cancer therapies?
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PMID:Beyond PTEN mutations: the PI3K pathway as an integrator of multiple inputs during tumorigenesis. 1645 12

Recent molecular studies support the hypothesis that clear cell carcinoma and mucinous adenocarcinoma are refractory cancers that are biologically distinct from serous adenocarcinoma. Treatment of these cancers has not yet been adequately tested, so separate clinical trials are needed for each type. Paclitaxel(175 mg/m2/3hr)combined with carboplatin AUC 6(TC regimen)is the current gold standard for treating ovarian cancer. Clear cell carcinoma and mucinous adenocarcinoma are less sensitive to a TC regimen than serous adenocarcinoma, and an international randomized trial for clear cell carcinoma is now underway(GCIG/JGOG3017). Targeted therapy is attractive for chemoresistant clear cell carcinoma, thus VEGFR inhibitor(sunitinib), PDGFR inhibitor(sorafenib), m-TOR inhibitor (temsirolimus), and monoclonal antibody(bevacizumab)are being evaluated. Mucinous adenocarcinoma often shows CK20- and CEA-positive patterns in immunohistochemistry, and furthermore, p53-negative and K-ras-positive in molecular markers, which suggests that mucinous adenocarcinoma resembles colorectal, stomach, and pancreas cancers more than serous ovarian adenocarcinoma. Trials are needed to test the agents effective for gastrointestinal cancer. The GOG will start a randomized phase III trial comparing TC regimen with capecitabine plus oxaliplatin(GOG241). We are starting a phase II study of S-1 plus oxaliplatin in Japan. For refractory cancers, molecular biology-based, cross- organ treatment with cytotoxic/cytostatic agents is needed.
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PMID:[Treatments of epithelial ovarian cancer by histologic subtype]. 1922 34

A half century ago, the antagonistic pleiotropy (AP) theory had solved a mystery of aging, by postulating genes beneficial early in life at the cost of aging. Recently it was argued however that there are very few clear-cut examples of antagonistically pleiotropic (AP) genes other than p53. In contrast, here I discuss that p53 is not a clear-cut example of AP genes but is rather an aging-suppressor (gerosuppressor). In contrast, clear-cut examples of AP genes are genes that encode the TOR (target of rapamycin) pathway. TOR itself is the ultimate example of AP gene because its deletion is lethal in embryogenesis. Early in life the TOR pathway drives developmental program, which persists later in life as an aimless quasi-program of aging and age-related diseases.
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PMID:Revisiting the antagonistic pleiotropy theory of aging: TOR-driven program and quasi-program. 2072 17

Organismal lifespan can be extended by genetic manipulation of cellular processes such as histone acetylation, the insulin/IGF-1 (insulin-like growth factor 1) pathway or the p53 system. Longevity-promoting regimens, including caloric restriction and inhibition of TOR with rapamycin, resveratrol or the natural polyamine spermidine, have been associated with autophagy (a cytoprotective self-digestive process) and in some cases were reported to require autophagy for their effects. We summarize recent developments that outline these links and hypothesize that clearing cellular damage by autophagy is a common denominator of many lifespan-extending manipulations.
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PMID:Can autophagy promote longevity? 2081 57

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