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)

Akt is a serine/threonine kinase that plays a critical role in cell survival and proliferation. Three isoforms of Akt have been identified and have been shown to be up-regulated in human malignancies. We examined the requirement of these pathways for Akt transformation. We generated NIH-3T3 cells over-expressing constitutively active Myr-Akt1 (3T3-Akt1 cells) or Myr-Akt2 (3T3-Akt2 cells). These cells are able to form colonies in soft-agar and 3T3-Akt1 cells formed tumors in SCID mice. Rapamycin efficiently inhibited the activation of the mTOR-p70S6K pathway and the anchorage-independent growth of both 3T3-Akt cells, demonstrating the importance of the mTOR-p70S6K pathway for transformation by Akt1 as well as by Akt2. Moreover, rapamycin dramatically inhibited the tumor formation by 3T3-Akt1 cells in SCID mice. Thus, we demonstrated the importance of mTOR-p70S6 kinase pathway in the transformation by Akt, both in tissue-cultured cells and in animal tumor models. In contrast, neither the MAPK pathway nor the p38 MAPK pathway is required for Akt-dependent transformation of NIH3T3 cells.
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PMID:Rapamycin inhibits Akt-mediated oncogenic transformation and tumor growth. 1551 74

The immunosuppressive macrolide rapamycin and its derivative everolimus (SDZ RAD, RAD) inhibit the mammalian target of rapamycin (mTOR) signaling pathway. In this study, we provide evidence that RAD has profound antiproliferative activity in vitro and in NOD/SCID mice in vivo against Hodgkin lymphoma (HL) and anaplastic large cell lymphoma (ALCL) cells. Moreover, we identified 2 molecular mechanisms that showed how RAD exerts antiproliferative effects in HL and ALCL cells. RAD down-regulated the truncated isoform of the transcription factor CCAAT enhancer binding protein beta (C/EBPbeta), which is known to disrupt terminal differentiation and induce a transformed phenotype. Furthermore, RAD inhibited constitutive nuclear factor kappaB (NF-kappaB) activity, which is a critical survival factor of HL cells. Pharmacologic inhibition of the mTOR pathway by RAD therefore interferes with essential proliferation and survival pathways in HL and ALCL cells and might serve as a novel treatment option.
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PMID:A rapamycin derivative (everolimus) controls proliferation through down-regulation of truncated CCAAT enhancer binding protein {beta} and NF-{kappa}B activity in Hodgkin and anaplastic large cell lymphomas. 1588 25

Acute myeloid leukemia cells have constitutive activation of phosphatidylinositol 3(PI3) kinase and require PI3 kinase activation for survival; however, the function of the PI3 kinase pathway in the survival of leukemic cells is poorly defined. We have studied the role of one PI3 kinase substrate, mTOR (mammalian target of rapamycin), in primary leukemic cells. In initial experiments, we have defined a novel growth medium that improves survival of acute myeloid leukemia (AML) blasts in long-term suspension culture and the survival of leukemic stem cells in short-term cultures. Inhibition of mTOR using rapamycin leads to a modest decrease in cell survival after 2 days of incubation with more significant decrease in survival after 7 days of culture. However, when rapamycin is added to etoposide in 2-day cultures, there is a dramatic increase in the cytotoxicity of etoposide against AML blasts. Furthermore, etoposide consistently decreased the engraftment of AML cells in nonobese diabetic/severe combined immunodeficient (NOD/SCID) animals, and this effect was enhanced by coincubation with rapamycin, demonstrating that mTOR regulates survival of AML stem cells after etoposide treatment. These results suggest that rapamycin in combination with etoposide-based chemotherapy may be efficacious in the treatment of AML.
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PMID:mTOR regulates cell survival after etoposide treatment in primary AML cells. 1615 Sep 37

Acute lymphoblastic leukemia (ALL) in adult patients is often resistant to current therapy, making the development of novel therapeutic agents paramount. We investigated whether mTOR inhibitors (MTIs), a class of signal transduction inhibitors, would be effective in primary human ALL. Lymphoblasts from adult patients with precursor B ALL were cultured on bone marrow stroma and were treated with CCI-779, a second generation MTI. Treated cells showed a dramatic decrease in cell proliferation and an increase in apoptotic cells, compared to untreated cells. We also assessed the effect of CCI-779 in a NOD/SCID xenograft model. We treated a total of 68 mice generated from the same patient samples with CCI-779 after establishment of disease. Animals treated with CCI-779 showed a decrease in peripheral-blood blasts and in splenomegaly. In dramatic contrast, untreated animals continued to show expansion of human ALL. We performed immunoblots to validate the inhibition of the mTOR signaling intermediate phospho-S6 in human ALL, finding down-regulation of this target in xenografted human ALL exposed to CCI-779. We conclude that MTIs can inhibit the growth of adult human ALL and deserve close examination as therapeutic agents against a disease that is often not curable with current therapy.
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PMID:The mTOR inhibitor CCI-779 induces apoptosis and inhibits growth in preclinical models of primary adult human ALL. 1619 24

Mutations in the small GTPase R-Ras that promote constitutive activation of this signaling molecule have been observed in a variety of invasive cancer cell types. We previously reported that expression of an oncogenic form of R-Ras (R-Ras87L) in a cell line of cervical cancer (C33A cells) augments cell growth in vitro and tumorigenicity in vivo. Because increased tumorigenicity in vivo often precedes metastasis, we now examined whether the expression of R-Ras87L also increased the metastatic potential of C33A cells. Accelerated tumor growth was observed in athymic mice after subcutaneous injection of R-Ras87L-expressing C33A cells. In addition, increased metastasis to the liver, in immunodeficient SCID mice, was observed after intravenous injection of R-Ras87L-expressing C33A cells. Also, R-Ras87L-expressing cells presented decreased membrane expression of MHC class I molecules, and beta1 integrins, but increased levels of PI 3-K and Akt activities. C33A cells expressing R-Ras87L also migrated more over collagen I in wound assays. Inhibition of the PI 3-K/Akt/mTOR pathway by pharmacological means blocked R-Ras87L-induced accelerated growth and migration over collagen I. These results suggest oncogenic R-Ras has a central role in cancer progression towards a metastatic phenotype, through the activation of the PI 3-K/Akt/mTOR signaling pathway.
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PMID:R-Ras promotes metastasis of cervical cancer epithelial cells. 1686 28

Donor intra-islet endothelial cells contribute to neovascularization after transplantation. Several factors may interfere with this process and ultimately influence islet engraftment. Rapamycin, a central immunosuppressant in islet transplantation, is an mTOR inhibitor that has been shown to inhibit cancer angiogenesis. The aim of this study was to evaluate the effects of rapamycin on islet endothelium. Rapamycin inhibited the outgrowth of endothelial cells from freshly purified human islets and the formation of capillary-like structures in vitro and in vivo after subcutaneous injection within Matrigel plugs into SCID mice. Rapamycin decreased migration, proliferation and angiogenic properties of human and mouse islet-derived endothelial cell lines with appearance of apoptosis. The expression of angiogenesis-related factors VEGF, alphaVbeta3 integrin and thrombospondin-1 on islet endothelium was altered in the presence of rapamycin. On the other hand, rapamycin decreased the surface expression of molecules involved in immune processes such as ICAM-1 and CD40 and reduced the adhesion of T cells to islet endothelium. Our results suggest that rapamycin exerts dual effects on islet endothelium inducing a simultaneous inhibition of angiogenesis and a down-regulation of receptors involved in lymphocyte adhesion and activation.
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PMID:Antiangiogenic and immunomodulatory effects of rapamycin on islet endothelium: relevance for islet transplantation. 1698 10

The majority of human malignancies are believed to have epithelial origin, and the progression of cancer is often associated with a transient process named epithelial-mesenchymal transition (EMT). EMT is characterized by the loss of epithelial markers and the gain of mesenchymal markers that are typical of "cancer stem-like cells," which results in increased cell invasion and metastasis in vivo. Therefore, it is important to uncover the mechanistic role of factors that may induce EMT in cancer progression. Studies have shown that platelet-derived growth factor (PDGF) signaling contributes to EMT, and more recently, PDGF-D has been shown to regulate cancer cell invasion and angiogenesis. However, the mechanism by which PDGF-D promotes invasion and metastases and whether it is due to the acquisition of EMT phenotype remain elusive. For this study, we established stably transfected PC3 cells expressing high levels of PDGF-D, which resulted in the significant induction of EMT as shown by changes in cellular morphology concomitant with the loss of E-cadherin and zonula occludens-1 and gain of vimentin. We also found activation of mammalian target of rapamycin and nuclear factor-kappaB, as well as Bcl-2 overexpression, in PDGF-D PC3 cells, which was associated with enhanced adhesive and invasive behaviors. More importantly, PDGF-D-overexpressing PC3 cells showed tumor growth in SCID mice much more rapidly than PC3 cells. These results provided a novel mechanism by which PDGF-D promotes EMT, which in turn increases tumor growth, and these results further suggest that PDGF-D could be a novel therapeutic target for the prevention and/or treatment of prostate cancer. Disclosure of potential conflicts of interest is found at the end of this article.
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PMID:Platelet-derived growth factor-D overexpression contributes to epithelial-mesenchymal transition of PC3 prostate cancer cells. 1840 54

We have previously demonstrated that mTOR inhibitors (MTIs) are active in preclinical models of acute lymphoblastic leukemia (ALL). MTIs may increase degradation of cyclin D1, a protein involved in dihydrofolate reductase (DHFR) synthesis. Because resistance to methotrexate may correlate with high DHFR expression, we hypothesized MTIs may increase sensitivity of ALL to methotrexate through decreasing DHFR by increasing turn-over of cyclin D1. We tested this hypothesis using multiple ALL cell lines and nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice xenografted with human ALL. We found MTIs and methotrexate were synergistic in combination in vitro and in vivo. Mice treated with both drugs went into a complete and durable remission whereas single agent treatment caused an initial partial response that ultimately progressed. ALL cells treated with MTIs had markedly decreased expression of DHFR and cyclin D1, providing a novel mechanistic explanation for a combined effect. We found methotrexate and MTIs are an effective and potentially synergistic combination in ALL.
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PMID:mTOR inhibitors are synergistic with methotrexate: an effective combination to treat acute lymphoblastic leukemia. 1854 82

Despite advances in the treatment of acute lymphoblastic leukemia (ALL), the majority of children who relapse still die of ALL. Therefore, the development of more potent but less toxic drugs for the treatment of ALL is imperative. We investigated the effects of the mammalian target of rapamycin inhibitor, RAD001 (Everolimus), in a nonobese diabetic/severe combined immunodeficiency model of human childhood B-cell progenitor ALL. RAD001 treatment of established disease increased the median survival of mice from 21.3 days to 42.3 days (P < .02). RAD001 together with vincristine significantly increased survival compared with either treatment alone (P < .02). RAD001 induced a cell-cycle arrest in the G(0/1) phase with associated dephosphorylation of the retinoblastoma protein, and reduced levels of cyclin-dependent kinases 4 and 6. Ultrastructure analysis demonstrated the presence of autophagy and limited apoptosis in cells of RAD001-treated animals. In contrast, cleaved poly(ADP-ribose) polymerase suggested apoptosis in cells from animals treated with vincristine or the combination of RAD001 and vincristine, but not in those receiving RAD001 alone. In conclusion, we have demonstrated activity of RAD001 in an in vivo leukemia model supporting further clinical development of target of rapamycin inhibitors for the treatment of patients with ALL.
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PMID:Potentiating effects of RAD001 (Everolimus) on vincristine therapy in childhood acute lymphoblastic leukemia. 1919 56

Previous studies have shown that rapamycin can inhibit the growth of several different types of human tumor cells in vitro. In certain cases, it can reverse the phenotype of multidrug resistant (MDR) cells. However, there is limited information concerning its effect on P-glycoprotein (P-gp), a pump that is responsible for chemoresistance in many MDR cells. We investigated the effect of rapamycin on both P-gp function and the MDR phenotype in four cell lines. One cell line was also xenografted into SCID mice to determine whether rapamycin would chemosensitize the cells in vivo. Because rapamycin targets the mammalian target of rapamycin (mTOR) pathway, we also used our cells to confirm that rapamycin modified the expression of mTOR and effectively suppressed the phosphorylation of two downstream effector molecules in the mTOR pathway, S6K1, and 4E-BP1. We demonstrated that it inhibited the growth of the three cell lines in vitro and one in vivo showing that it modulated both the expression and function of P-gp and chemosensitized the three cell lines as effectively as verapamil.
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PMID:Targeting mammalian target of rapamycin to both downregulate and disable the P-glycoprotein pump in multidrug-resistant B-cell lymphoma cell lines. 1955 25

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