Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P42345 (mTOR)
 26,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HER-2 is a tyrosine kinase receptor which is overexpressed in 20-25% of breast cancer patients and is associated with poor prognosis. Trastuzumab, a humanized monoclonal antibody directed against the HER-2 receptor, used alone or in combination with chemotherapy, has shown significant clinical benefit in improving survival in metastatic patients, as well as halving the recurrence rate and improving survival in early breast cancer. Even with these impressive results, the reality is that not all patients will benefit form this therapy, and in those who do, resistance to trastuzumab can often develop within 1 year of treatment initiation. Beyond trastuzumab therapy, a "second wave" of monoclonal antibodies and tyrosine kinase inhibitors has emerged. These drugs have variable properties including: 1) dual inhibition against EGFR and HER-2, such as lapatinib, HKI-272 and pertuzumab; 2) anti-angiogenesis such as bevacizumab and pazopanib; 3) anti-mTOR action such as Temsirolimus; and 4) anti-Hsp90 such as 17-AAG. When used in combination with trastuzumab, or with cytotoxic chemotherapy, or as single agents, these new anti-HER-2 strategies bear the potential of arresting the tumorigenesis process. In this article, we present the current strategies in the treatment of breast cancer patients who overexpress HER-2, with particular focus on new tyrosine kinase inhibitors that can be used in combination with or after trastuzumab therapy.
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PMID:HER-2 positive breast cancer: what else beyond trastuzumab-based therapy? 1853 32

Honokiol, an active component isolated and purified from Chinese traditional herb magnolia, was demonstrated to inhibit growth and induce apoptosis of different cancer cell lines such as human leukaemia, colon, and lung cancer cell lines; to attenuate the angiogenic activities of human endothelial cells in vitro; and to efficiently suppress the growth of angiosarcoma in nude mice. In this study, we have demonstrated that treatment of different human breast cancer cell lines with honokiol resulted in a time- and concentration-dependent growth inhibition in both estrogen receptor-positive and -negative breast cancer cell lines, as well as in drug-resistant breast cancer cell lines such as adriamycin-resistant and tamoxifen-resistant cell lines. The inhibition of growth was associated with a G1-phase cell cycle arrest and induction of caspase-dependent apoptosis. The effects of honokiol might be reversely related to the expression level of human epidermal growth receptor 2, (HER-2, also known as erbB2, c-erbB2) since knockdown of her-2 expression by siRNA significantly enhanced the sensitivity of the her-2 over-expressed BT-474 cells to the honokiol-induced apoptosis. Furthermore, inhibition of HER-2 signalling by specific human epidermal growth receptor 1/HER-2 (EGFR/HER-2) kinase inhibitor lapatinib synergistically enhanced the anti-cancer effects of honokiol in her-2 over-expressed breast cancer cells. Finally, we showed that honokiol was able to attenuate the PI3K/Akt/mTOR (Phosphoinositide 3-kinases/Akt/mammalian target of rapamycin) signalling by down-regulation of Akt phosphorylation and upregulation of PTEN (Phosphatase and Tensin homolog deleted on chromosome Ten) expression. Combination of honokiol with the mTOR inhibitor rapamycin presented synergistic effects on induction of apoptosis of breast cancer cells. In conclusion, honokiol, either alone or in combination with other therapeutics, could serve as a new, promising approach for breast cancer treatment.
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PMID:Anti-tumor effect of honokiol alone and in combination with other anti-cancer agents in breast cancer. 1858 72

The majority of breast cancers are estrogen receptor (ER) positive and depend on estrogen for growth. Therefore, blocking estrogen mediated actions remains the strategy of choice for the treatment and prevention of breast cancer. The selective estrogen receptor modulators (SERMs) are molecules that block estrogen action in breast cancer, but can still potentially maintain the beneficial effects of estrogen in other tissues, such as bone and cardiovascular system. Tamoxifen, the prototypical drug of this class has been used extensively for the past 30 years to treat and prevent breast cancer. The target of drug action, ERs alpha and beta, are the two receptors which are responsible for the first step in estrogen and SERM action. The SERM binds to the ERs and confers a unique conformation to the complex. In a target site which expresses antiestrogenic actions, the conformation of the ER is distinctly different from estrogen bound ER. The complex recruits protein partners called corepressors to prevent the transcription of estrogen responsive genes. In contrast, at a predominantly estrogenic site coactivators for estrogen action are recruited. Unfortunately at an antiestrogenic site such as breast cancer, long term SERM therapy causes the development of acquired resistance. The breast and endometrial tumor cells selectively become SERM stimulated. Overexpression of receptor tyrosine kinases, HER-2, EGFR and IGFR and the signaling cascades following their activation are frequently involved in SERM resistant breast cancers. The aberrantly activated PI3K/AKT and MAPK pathways and their cross talk with the genomic components of the ER action are implicated in SERM resistance. Other down stream factors of HER-2 and EGFR signaling, such as PI3K/AKT, MAPK or mTOR pathways has also been found to be involved in resistance mechanisms. Blocking the actions of HER-2 and EGFR represent a rational strategy for treating SERM resistant phenotypes and may in fact restore the sensitivity to the SERMs. Another approach exploits the discovery that low dose estrogen will induce apoptosis in the SERM resistant breast cancers. Numerous clinical studies are addressing these issues.
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PMID:Selective estrogen modulators as an anticancer tool: mechanisms of efficiency and resistance. 1863 93

Previous studies have demonstrated that monospecific antisense oligonucleotides (oligos) directed against mRNA encoding proteins associated with tumor growth, death, and survival are efficacious against breast and prostate tumors. Targeted proteins, associated with different signal transduction pathways, have included transforming growth factor-alpha [TGF-alpha (MR(1))], its binding site the epidermal growth factor receptor [EGFR (MR(2))] sharing sequence homology to the breast cancer prognostic marker Her-2/neu, an apoptosis inhibiting protein [bcl-2 (MR(4))], and the androgen receptor [AR (MR(5))]. In attempts to enhance antisense therapy, recent reports describe how two of the binding sites mentioned above can be sequentially placed within a single complementary (bispecific) strand and administered either in the presence or absence of additional therapeutic agents. When tested against breast and prostate tumor cell lines specific differences were noted: MCF-7 breast cancer cells were more receptive to the inhibitory effects of monospecific oligos, whereas PC-3 and LNCaP prostate cells were particularly responsive to bispecifics. In an effort to identify agents which enhance the activity of oligos and which possess less toxicity than traditionally employed chemotherapeutics, Rapamycin, an immunosuppressive agent known to regulate tumor growth and signal transduction mediated by the mTOR receptor, is compared to paclitaxel in combination therapy employing monospecific or bispecific oligos. Bispecifics were constructed recognizing the binding sites for TGF-alpha and EGFR mRNA [TGF-alpha/EGFR (MR(12)) and EGFR/TGF-alpha (MR(21))]; another pair recognized binding sites for EGFR and bcl-2 [EGFR/bcl-2 (MR(24)) and bcl-2/EGFR (MR(42))]; while a third pair employed only against the LNCaP prostate cell line recognized bcl-2 and the androgen receptor [bcl-2/AR (MR4(45)) and AR/bcl-2 (MR(54))]. Oligo pairs differ in their 5'-3' linear binding site orientations, and were tested in vitro against MCF-7 breast and PC-3 and LNCaP prostate tumor cell lines. Following cell attachment, incubations were done for 2 days with the agents followed by 2 days in their absence. Five experiments evaluated the effect of monospecific or bispecific antisense oligos in combination with an LD(50) dosage of either Rapamycin or paclitaxel and led to the conclusion that although these agents act via different mechanisms, they are comparable in effectiveness.
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PMID:Multigene targeting of signal transduction pathways for the treatment of breast and prostate tumors: comparison between combination therapies employing bispecific oligonucleotides with either Rapamycin or Paclitaxel. 1868 47

We have previously shown that tamoxifen+epigallocatechin gallate (EGCG) is synergistically cytotoxic towards oestrogen receptor (ER)-negative breast cancer cells. To determine if this response would correlate with significant tumour suppression in vivo, athymic nude female mice were implanted with MDA-MB-231 cells and treated with tamoxifen, EGCG, EGCG+tamoxifen, or vehicle control for 10 weeks. Tumour volume in EGCG- (25 mg kg(-1))+tamoxifen (75 microg kg(-1))-treated mice decreased by 71% as compared with vehicle control (P<0.05), whereas tumour weight was decreased by 80% compared with control (P<0.01). Epigallocatechin gallate treatment did not alter ER protein expression in MDA-MB-231 cells and thus was not a mechanism for the observed tumour suppression. However, western blotting of tumour extracts demonstrated that epidermal growth factor receptor (EGFR; 85% lower than control), pEGFR (78% lower than control), mammalian target of rapamycin (mTOR; 78% lower than control), and CYP1B1 (75% lower than control) were significantly lower after the combination treatment as compared with all other treatments. Nuclear factor-kappaB (NF-kappaB), b-Raf, p-MEK, S6K, 4EBP1, Akt, vascular EGFR-1 (VEGFR-1) and VEGF expressions were decreased in control but not in the individual treatments, whereas MEK, phospholipase D 1/2, TGF alpha, and ERK expressions were not changed after any treatment. The results demonstrate that tamoxifen at realistic doses (75 mug kg(-1)) can suppress the growth of ER-negative breast cancer when combined with EGCG. In addition, the dominant mechanism for tumour suppression is the concomitant decrease in tumour protein expressions of mTOR and the EGFR.
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PMID:A new role for tamoxifen in oestrogen receptor-negative breast cancer when it is combined with epigallocatechin gallate. 1879 54

Mechanisms that specifically modulate cell spreading and/or cell migration following epithelial wounding are poorly understood. Using micro-wounded human gastric epithelial monolayers, we show herein that EGF and TGFalpha maximally increase spreading of epithelial sheets under a cell proliferation-independent mechanism. Treatment of confluent HGE-17 cells with the phosphatidylinositol 3-kinase inhibitor, LY294002, and the epidermal growth factor receptor inhibitor, PD153035, strongly reduced basal and TGFalpha-stimulated cell spreading. While pharmacological inhibition of pp60src-kinase activity also attenuated basal epithelial spreading, addition of the mTOR/p70S6K inhibitor rapamycin or a specific siRNA targeting ILK sequence did not affect the kinetic rates of wound closure. Epithelial wound healing was initiated by actin purse-string contraction followed by lamellae formation. Conversely, disruption of actin and tubulin stability with cytochalasin D and nocodazole, respectively, inhibited epithelial sheet spreading. Finally, antibodies directed against the alpha3 integrin subunit, but not against the alpha6 or alpha2 subunits, attenuated epithelial sheet spreading as well as lamellae formation. In conclusion, the current investigation establishes that EGF/TGFalpha and the alpha3beta1 integrin, pp60c-src, EGFR and PI3K pathways are mainly associated with the cell spreading of the restitution process during healing of human gastric epithelial wounds.
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PMID:Specific signaling cascades involved in cell spreading during healing of micro-wounded gastric epithelial monolayers. 1880 22

Multiple genetic and epigenetic events, including the aberrant expression and function of molecules regulating cell signaling, growth, survival, motility, angiogenesis, and cell cycle control, underlie the progressive acquisition of a malignant phenotype in squamous carcinomas of the head and neck (HNSCC). In this regard, there has been a recent explosion in our understanding on how extracellular components, cell surface molecules, and a myriad of intracellular proteins and second messenger systems interact with each other, and are organized in pathways and networks to control cellular and tissue functions and cell fate decisions. This emerging ability to understand the basic mechanism controlling inter- and intra-cellular communication has provided an unprecedented opportunity to understand how their dysregulation contributes to the growth and dissemination of human cancers. Here, we will discuss the emerging information on how the use of modern technologies, including gene array and proteomic studies, combined with the molecular dissection of aberrant signaling networks, including the EGFR, ras, NFkappaB, Stat, Wnt/beta-catenin, TGF-beta, and PI3K-AKT-mTOR signaling pathways, can help elucidate the molecular mechanisms underlying HNSCC progression. Ultimately, we can envision that this knowledge may provide tremendous opportunities for the diagnosis of premalignant squamous lesions, and for the development of novel molecular-targeted strategies for the prevention and treatment of HNSCC.
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PMID:Dysregulated molecular networks in head and neck carcinogenesis. 1880 44

Dermcidin (DCD) is a human gene mapped to chromosome 12q13 region, which is co-amplified with multiple oncogenes with a well-established role in the growth, survival and progression of breast cancers. Here, we present a summary of a DNA microarray-based study that identified the genes that are up- and down-regulated in a human MDA-361 pLKO control clone and three clones expressing short hairpin RNA against three different regions of DCD mRNA. A list of 235 genes was differentially expressed among independent clones (> 3-fold change and p < 0.005). The gene expression of 208 was reduced and of 27 was increased in the three DCD-RNAi clones compared to pLKO control clone. The expression of 77 genes (37%) encoding for enzymes involved in amino acid metabolism, glucose metabolism and oxidoreductase activity and several genes required for cell survival and DNA repair were decreased. The expression of EGFR/ErbB-1 gene, an important predictor of outcome in breast cancer, was reduced together with the genes for betacellulin and amphiregulin, two known ligands of EGFR/ErbB receptors. Many of the 27 genes up-regulated by DCD-RNAi expression have not yet been fully characterized; among those with known function, we identified the calcium-calmodulin-dependent protein kinase-II delta and calcineurin A alpha. We compared 132 up-regulated and 12 down-regulated genes in our dataset with those genes up- and down-regulated by inhibitors targeting various signaling pathway components. The analysis showed that the genes in the DCD pathway are aligned with those functionally influenced by the drugs sirolimus, LY-294002 and wortmannin. Therefore, DCD may exert its function by activating the PI3K/AKT/mTOR signaling pathway. Together, these bioinformatic approaches suggest the involvement of DCD in the regulation of genes for breast cancer cell metabolism, proliferation and survival.
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PMID:Genes up- and down-regulated by dermcidin in breast cancer: a microarray analysis. 1894 10

The article reviews the main molecular pathology alterations of endometrial and ovarian carcinomas and melanoma. Several promising drugs targeting the genes most frequently altered in these tumors are under consideration. The most promising signaling pathways to be targeted for therapies in these tumors are the tyrosine kinase receptor (EGFR, HER2, c-KIT), the RAS/B-RAF/MAPK, the PI3K-mTOR, and apoptosis signaling pathways.
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PMID:Targeted therapies in gynecologic cancers and melanoma. 1901 92

Since 2004 and the first improvement in overall survival in hormone refractory prostate cancer patients (HRPC) brought about by docetaxel, numerous phase II and III studies have been initiated. Considering the lack of efficacy in terms of overall survival, hormonal manipulations such as antiandrogen withdrawal, di-ethylstilbesterol or dexamethason are only indicated in "rising PSA" patients without clinical or radiological evidence of metastases. As first line treatment, the optimal chemotherapy regimen is docetaxel (75 mg/m(2) every 3 weeks) in association with prednisone (5 mg twice daily). Second line chemotherapies (mitoxantron, ixabepilon, docetaxel as a re-treatment, vinorelbin, doxorubicin...) provide modest results only in terms of progression-free survival. A phase III study of Straplatin has been prematurely interrupted. Targeted anti-angiogenic therapies have shown encouraging results in patients with metastatic localizations, and underline the need to identify target patients early through cellular markers (mTOR or EGFR overexpression) as well as the uselessness of PSA dosage to monitor efficacy. An ongoing phase III study is evaluating bevacizumab in association with docetaxel to improve overall survival. Both the Provenge vaccine and DN 101 (calcitriol) showed a survival gain of a few months in phase III studies. An ongoing EORTC phase II trial is evaluating antisense oligonucleotids in HRPC. Early introduction of docetaxel raises the issue of when to start chemotherapy as it may be relevant to initiate this treatment before the onset of hormone independence. GETUG 15 trial will try to answer this question.
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PMID:[Chemotherapy of hormonorefractory and hormonoresistant metastatic prostate cancer]. 1907 Aug 17


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