UNIPROT:P42345 - FACTA Search

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Query: UNIPROT:P42345 (mTOR)
26,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The protein synthetic machinery is activated by a variety of genetic alterations during tumor progression and represents an attractive target for cancer therapy. The mammalian target of rapamycin (mTOR) plays an important role in regulating protein translation through phosphorylation of p70 S6 kinase 1 (S6K1), a protein involved in ribosome biogenesis, and 4E-BP1 (eIF-4E binding protein), a translation repressor. It has been shown that mTOR has a direct linkage to the phosphatidylinositol-3'-kinase (PI3K)/PTEN-AKT survival pathway. Recent studies have demonstrated that mTOR inhibition by rapamycin or its analogues have remarkable activity against a wide range of human cancers in vitro and in human tumor xenograft models. Phase I clinical evaluations also suggested an anti-tumor effect of rapamycin analogue such as CCI-779. The clinical challenge for the application of this class of anticancer drug is the ability to prospectively identify which tumors will be sensitive to mTOR inhibition. Recent studies have identified cellular markers that are associated with the in vitro activity of rapamycin or CCI-779. However, there have been no reports on how these cellular markers are expressed together in human tumor specimen. In this study, multiple components of the PI3K/PTEN-AKT-mTOR pathway were evaluated by immunohistochemistry in tissue arrays containing 124 tumors from 8 common tumor types. The results show variable expression of all the signaling proteins. For example, mTOR expression was low in brain tumors, but high in the rest of tumors. High levels of 4E-BP1 were seen in colonic adenocarcinoma and low levels in lymphoma. Phospho-AKT (p-AKT) and phospho-S6K1 (p-S6K1) were the only proteins that had significantly correlated protein expression (rs=0.51, p<0.001). Since low PTEN, high p-AKT and high p-S6K1 expression render tumors sensitive to mTOR inhibition in vitro, these criteria were used to model tumor sensitivity. Overall, 26% of tumors (32/124) are predicted to be sensitive to mTOR inhibition, with variable rates for different tumors (melanoma 0% vs ovarian 41%). This is the first report on the PI3K/PTEN-AKT-mTOR pathway in common human tumors and evaluation of the coordinated expression of different signaling proteins. This study should provide a useful tool for selecting future targeted phase II and III clinical trials in the development of this exciting class of agents.
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PMID:Pharmacogenomic profiling of the PI3K/PTEN-AKT-mTOR pathway in common human tumors. 1501 Aug 27

With tendency to invade rapidly in the brain, malignant gliomas are very resistant to conventional therapies including radiation and chemotherapy. Recent advances in genetic and molecular techniques have made it possible to define characteristic molecular profiles of malignant gliomas. Based on the list of the molecules closely related to glioblastoma tissues, we reviewed strategies targeting them. Target molecules extensively studied include EGFR, PTEN, telomerase and signal pathway modulators for Ras/Raf/MAPK and PI3K/Akt/mTOR pathways. Therapies targeting specific molecules may result in killing tumor cells effectively while keeping normal cells intact.
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PMID:Molecular targeting for malignant gliomas (Review). 1506 31

Loss of PTEN function leads to activation of phosphoinositide 3-kinase (PI3K) signaling and Akt. Clinical trials are now testing whether mammalian target of rapamycin (mTOR) inhibition is useful in treating PTEN-null cancers. Here, we report that mTOR inhibition induced apoptosis of epithelial cells and the complete reversal of a neoplastic phenotype in the prostate of mice expressing human AKT1 in the ventral prostate. Induction of cell death required the mitochondrial pathway, as prostate-specific coexpression of BCL2 blocked apoptosis. Thus, there is an mTOR-dependent survival signal required downstream of Akt. Bcl2 expression, however, only partially restored intraluminal cell growth in the setting of mTOR inhibition. Expression profiling showed that Hif-1 alpha targets, including genes encoding most glycolytic enzymes, constituted the dominant transcriptional response to AKT activation and mTOR inhibition. These data suggest that the expansion of AKT-driven prostate epithelial cells requires mTOR-dependent survival signaling and activation of HIF-1 alpha, and that clinical resistance to mTOR inhibitors may emerge through BCL2 expression and/or upregulation of HIF-1 alpha activity.
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PMID:mTOR inhibition reverses Akt-dependent prostate intraepithelial neoplasia through regulation of apoptotic and HIF-1-dependent pathways. 1517 Jan 98

Genetic alterations targeting the PTEN tumor suppressor gene are among the most frequently noted somatic mutations in human cancers. Such lesions have been noted in cancers of the prostate and endometrium and in glioblastoma multiforme, among many others. Moreover, germline mutation of PTEN leads to the development of the related hereditary cancer predisposition syndromes, Cowden disease, and Bannayan-Zonana syndrome, wherein breast and thyroid cancer incidence is elevated. The protein product, PTEN, is a lipid phosphatase, the enzymatic activity of which primarily serves to remove phosphate groups from key intracellular phosphoinositide signaling molecules. This activity normally serves to restrict growth and survival signals by limiting activity of the phosphoinositide-3 kinase (PI3K) pathway. Multiple lines of evidence support the notion that this function is critical to the ability of PTEN to maintain cell homeostasis. Indeed, the absence of functional PTEN in cancer cells leads to constitutive activation of downstream components of the PI3K pathway including the Akt and mTOR kinases. In model organisms, inactivation of these kinases can reverse the effects of PTEN loss. These data raise the possibility that drugs targeting these kinases, or PI3K itself, might have significant therapeutic activity in PTEN-null cancers. Akt kinase inhibitors are still in development; however, as a first test of this hypothesis, phase I and phase II trials of inhibitors of mTOR, namely, rapamycin and rapamycin analogs are underway.
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PMID:The biology and clinical relevance of the PTEN tumor suppressor pathway. 1525 63

Germline mutations in LKB1, TSC2, or PTEN tumor suppressor genes result in hamartomatous syndromes with shared tumor biological features. The recent observations of LKB1-mediated activation of AMP-activated protein kinase (AMPK) and AMPK inhibition of mTOR through TSC2 prompted us to examine the biochemical and biological relationship between LKB1 and mTOR regulation. Here, we report that LKB1 is required for repression of mTOR under low ATP conditions in cultured cells in an AMPK- and TSC2-dependent manner, and that Lkb1 null MEFs and the hamartomatous gastrointestinal polyps from Lkb1 mutant mice show elevated signaling downstream of mTOR. These findings position aberrant mTOR activation at the nexus of these germline neoplastic conditions and suggest the use of mTOR inhibitors in the treatment of Peutz-Jeghers syndrome.
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PMID:The LKB1 tumor suppressor negatively regulates mTOR signaling. 1526 Nov 45

PTEN is a novel tumour suppressor gene located on chromosome 10. PTEN mutations are believed to exert their effects through the putative PI3K-AKT-mTOR signalling pathway. Specifically, loss of PTEN leads to activation of AKT, which in turn promotes anti-apoptotic and pro-cell cycle entry pathways believed to be essential in tumourigenesis. Whilst PTEN mutations are frequent in a variety of sporadic cancers and inherited cancer syndromes, it is not clear how frequently PTEN mutations and immunohistochemical loss of PTEN expression occur in sporadic breast cancer. This study used tissue microarrays (TMAs) to assess wild-type PTEN and pAKT immunohistochemical staining in 670 and 691 cases, respectively, of primary operable breast cancer. Scores of 0, 1, and 2 were given for negative, weakly positive, and strongly positive degrees of immunoreactivity, respectively. In addition, immunohistochemical assessment of epidermal growth factor receptor (EGFR), Her2, and proliferation by MIB1 expression was performed on the same TMAs and the scores were compared with those of PTEN and pAKT. Eight per cent of cases did not express wild-type PTEN. No correlation was observed between patient, tumour and outcome variables and PTEN. pAKT expression correlated inversely with adverse tumour variables such as tumour grade (p< 0.001) and correlated positively with ER status (p< 0.001). No correlation was seen between either PTEN or AKT and EGFR, Her2 or MIB1. No association of PTEN or pAKT was seen in Kaplan-Meier or multivariate analysis for overall survival. The results indicate that loss of PTEN expression is infrequent in breast cancer. PTEN and AKT do not appear to be prognostic markers. The study argues against the current model of a simple linear tumourigenic PTEN-PI3K-AKT-mTOR pathway in breast cancer. It also suggests that, in this group of breast cancers, the most common upstream regulator of AKT may be ER rather than PTEN, EGFR or Her2.
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PMID:The role of PTEN and its signalling pathways, including AKT, in breast cancer; an assessment of relationships with other prognostic factors and with outcome. 1530 42

The PTEN protein is a lipid phosphatase with putative tumor suppressing abilities, including inhibition of the PI3K/Akt signaling pathway. Inactivating mutations or deletions of the PTEN gene, which result in hyper-activation of the PI3K/Akt signaling pathway, are increasingly being reported in human malignancies, including breast cancer, and have been related to features of poor prognosis and resistance to chemotherapy and hormone therapy. Prior studies in different tumor models have shown that, under conditions of PTEN deficiency, the PI3K/Akt signaling pathway becomes a fundamental proliferative and survival pathway, and that pharmacological inhibition of this pathway results in tumor growth inhibition. This study aimed to explore further this hypothesis in breast cancer cells. To this end, we have determined the growth response to inhibition of the PI3K/Akt signaling pathway in a series of breast cancer cell lines with different PTEN levels. The PTEN-negative cell line displayed greater sensitivity to the growth inhibitory effects of the PI3K inhibitor, LY294002 and rapamycin, an inhibitor of the PI3K/Akt downstream mediator mTOR, compared with the PTEN-positive cell lines. To determine whether or not these differences in response are specifically due to effects of PTEN, we developed a series of cell lines with reduced PTEN protein expression compared with the parental cell line. These reduced PTEN cells demonstrated an increased sensitivity to the anti-proliferative effects induced by LY294002 and rapamycin compared with the parental cells, which corresponded to alterations in cell cycle response. These findings indicate that inhibitors of mTOR, some of which are already in clinical development (CCI-779, an ester of rapamycin), have the potential to be effective in the treatment of breast cancer patients with PTEN-negative tumors and should be evaluated in this setting.
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PMID:Reduced PTEN expression in breast cancer cells confers susceptibility to inhibitors of the PI3 kinase/Akt pathway. 1536 12

Following DNA damage, human cells arrest primarily in the G(1) and G(2) phases of the cell cycle. Here, we show that after irradiation, human cancer cells with targeted deletion of PTEN or naturally occurring PTEN mutations can exert G(1) and G(2) arrests but are unable to arrest in size. Pharmacological inhibition of phosphoinositol-3-kinase or mTOR in PTEN(-/-) cells restored the size arrest, whereas siRNA-mediated depletion of TSC2 in PTEN(+/+) cells attenuated the size arrest. Radiation treatment potentiated Akt activation in PTEN(-/-) but not PTEN(+/+) cells. Finally, abrogation of the size arrest via PTEN deletion conferred radiosensitivity both in vitro and in vivo. These results identify a new tumor suppressor gene-regulated, DNA damage-inducible arrest that occurs simultaneously with the G(1) and G(2) arrests but is genetically separable from them. We suggest that aberrant regulation of cell size during cell cycle arrest may be important in human cancer pathogenesis.
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PMID:PTEN gene targeting reveals a radiation-induced size checkpoint in human cancer cells. 1546 80

The study of hereditary tumor syndromes has laid a solid foundation toward understanding the genetic basis of cancer. One of the latest examples comes from the study of tuberous sclerosis complex (TSC). As a member of the phakomatoses, TSC is characterized by the appearance of benign tumors, most notably in the central nervous system, kidney, heart, lung, and skin. While classically described as "hamartomas," the pathology of the lesions has features suggestive of abnormal cellular proliferation, size, differentiation, and migration. Occasionally, tumors progress to become malignant (i.e., renal cell carcinoma). The genetic basis of this disease has been attributed to mutations in one of two unlinked genes, TSC1 and TSC2. Cells undergo bi-allelic inactivation of either gene to give rise to tumors in a classic tumor suppressor "two-hit" paradigm. The functions of the TSC1 and TSC2 gene products, hamartin and tuberin, respectively, have remained ill defined until recently. Genetic, biochemical, and biologic analyses have highlighted their role as negative regulators of the mTOR signaling pathway. Tuberin, serving as a substrate of AKT and AMPK, mediates mTOR activity by coordinating inputs from growth factors and energy availability in the control of cell growth, proliferation, and survival. Emerging evidence also suggests that the TSC 1/2 complex may play a role in modulating the activity of beta-catenin and TGFbeta. These findings provide novel functional links between the TSC genes and other tumor suppressors responsible for Cowden's disease (PTEN), Peutz-Jeghers syndrome (LKB1), and familial polyposis (APC). Common sporadic cancers such as prostate, lung, colon, endometrium, and breast have ties to these genes, highlighting the potential role of the TSC proteins in human cancers. Rapamycin, a specific mTOR inhibitor, has potent antitumoral activities in preclinical models of TSC and is currently undergoing phase I/II clinical studies.
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PMID:The tuberous sclerosis complex genes in tumor development. 1556 17

mTOR is a downstream effector of phosphatidylinositol-3-kinase pathway, which is involved in the regulation of protein synthesis and interacts with cell cycle progression. Sirolimus and everolimus may interfere with mTOR activity after their binding with FK binding protein. These drugs may prevent rejection of organ transplants by inhibiting the proliferation signals provided by interleukins 2 and 15, so causing lymphocyte cycle arrest in the G1 phase. Experimental studies have also shown that some oncoproteins may derive either from an overactivity of phosphatidylinositol-3-kinase or from a loss of the tumor suppressor PTEN. As mTOR is an important mediator of the kinase cascade and may also be antiangiogenic, it has become an attractive target in some malignancies. In organ transplant recipients some retrospective studies have shown that patients treated with mTOR inhibitors for immunosuppression had a reduced incidence of neoplasia in comparison with patients treated with calcineurin inhibitors. mTOR is also involved in the replication of cytomegalovirus in the host cells, as it favors transcription and translation signals necessary for virus replication. Recent studies reported a very low incidence of cytomegalovirus infection in organ transplant patients treated wih either sirolimus or everolimus. Finally, mTOR inhibitors may offer vascular protection, as they mediate vascular endothelial growth factor. In cardiac transplants treated with everolimus, cyclosporine, and steroids the average increase in maximal intimal thickness and the incidence of vasculopathy were significantly lower than in patients treated with azathioprine, cyclosporine, and steroids.
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PMID:The pleiotropic effects of mTor inhibitors. 1559 48

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