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Query: UMLS:C0598934 (tumor growth)
 58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

ErbB3 receptor tyrosine kinase has been shown to induce tumor progression in several types of cancer through heterodimerization with ErbB2. However, the role of ErbB3 and its ligand heregulin (HRG) in tumor metastasis remains poorly understood. In the present study, we tried to clarify their contributions to the metastasis of ErbB3-overexpressing B16-BL6 melanoma cells. Stimulation with HRG induced phosphorylation of ErbB3 and metastatic properties including MMP-9 expression, invasion, adhesion and experimental lung metastasis in vivo. These cellular responses were blocked by inhibiting the tyrosine kinase activity of EGFR with PD153035. In addition, phosphorylation of EGFR was rapidly induced by HRG, suggesting that EGFR is a possible heterodimeric counterpart of ErbB3. RNA interference demonstrated that subcutaneous tumor growth and angiogenesis was attenuated by inactivation of ErbB3 in cancer cells. Although experimental pulmonary metastasis was not affected by the knockdown of ErbB3, spontaneous metastasis was, even when primary tumors in the foot pad were amputated at a similar size. These results indicate that HRG-induced activation of ErbB3 via EGFR promotes tumor growth and metastasis of melanoma cells.
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PMID:Heregulin-induced activation of ErbB3 by EGFR tyrosine kinase activity promotes tumor growth and metastasis in melanoma cells. 1839 42

Molecularly targeted therapies aim to interfere with molecular mechanisms, selectively involved in carcinogenesis and tumor growth in order to optimize the efficacy and minimize the side effects of anticancer treatment. In the last decade, several receptor tyrosine kinase inhibitors (TKIs) have become approved for therapeutic use in hematological malignancies as well as solid tumors. However, a major challenge remains in the selection of patients most likely to respond to these agents. Successful examples of personalizing molecularly targeted therapies based on biomarkers include the use of trastuzumab in HER-2 overexpressing breast cancer and imatinib in c-KIT expressing gastrointestinal stromal tumor. In contrast, EGFR and anti-angiogenic TKIs have mostly been evaluated in unselected patient groups and so far no biomarkers that predict or reflect the efficacy of these TKIs have been validated in clinical practice. Nevertheless, potential biomarkers, including EGFR gene copy number and the absence of K-ras mutations for anti-EGFR agents, and functional imaging for anti-angiogenic agents, have been identified. These biomarkers await validation in randomized phase III trials to confirm their value in predicting drug efficacy. In order to maximize efficiency in the search for valid predictive biomarkers, there is an urgent need for the standardization of their assessment, as well as the techniques employed in their assays. This article will focus on studies that address biomarker discovery or validation for EGFR and anti-angiogenic TKIs, differentiating those markers that predict for drug efficacy (predictive markers) from those that reflect drug mechanisms of action or effects (pharmacodynamic markers).
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PMID:Progress and challenges in the identification of biomarkers for EGFR and VEGFR targeting anticancer agents. 1851 76

We examined the effect of linoleic acid (LA) on tumor formation. Cell growth was suppressed by LA in a dose-dependent manner in MKN28 and Colo320 cells. Continuous treatment with LA provided growth arrest in both cells at 5-7 weeks after the treatment. LA-pretreated MKN28 and Colo320 cells showed higher tumorigenicity (9/10 and 10/10, respectively) than nontreated cells (2/10 and 3/10, respectively; p < 0.01) in nude mice. In contrast, LA-pretreated MKN28 and Colo320 cells showed more suppressed tumor growth than nontreated cells (p < 0.01). LA-pretreated MKN28 and Colo320 cells with LA administration after the inoculation did not form macroscopic tumors. Histological examination revealed small cancer cell aggregations, which showed no proliferative activity. In LA-treated MKN28 and Colo320 cells, protein production of Bcl-2 was increased, whereas Bak, EGFR and VEGF levels were decreased. These findings suggest that LA might induce quiescence and subsequent dormancy in cancer cells.
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PMID:Linoleic-acid-induced growth suppression induces quiescent cancer cell nests in nude mice. 1858 68

Among the proinflammatory mediators, platelet-activating factor (PAF, 1-O-alkyl-2-acetyl-sn-glycero-3-phosphorylcholine) is a major primary and secondary messenger involved in intracellular and extracellular communication. Evidence suggests that PAF plays a significant role in oncogenic transformation, tumor growth, angiogenesis, and metastasis. However, PAF, with its receptor (PAFR) and their downstream signaling targets, has not been thoroughly studied in cancer. Here, we characterized the PAFR expression pattern in 4 normal human ovarian surface epithelial (HOSE) cell lines, 13 ovarian cancer cell lines, paraffin blocks (n = 84), and tissue microarrays (n = 230) from patients with ovarian cancer. Overexpression of PAFR was found in most nonmucinous types of ovarian cancer but not in HOSE and mucinous cancer cells. Correspondingly, PAF significantly induced cell proliferation and invasion only in PAFR-positive cells (i.e., OVCA429 and OVCA432), but not in PAFR-negative ovarian cells (HOSE and mucinous RMUG-L). The dependency of cell proliferation and invasion on PAFR was further confirmed using PAFR-specific small interfering RNA gene silencing probes, antibodies against PAFR and PAFR antagonist, ginkgolide B. Using quantitative multiplex phospho-antibody array technology, we found that tyrosine phosphorylation of EGFR/Src/FAK/paxillin was coordinately activated by PAF treatment, which was correlated with the activation of phosphatidylinositol 3-kinase and cyclin D1 as markers for cell proliferation, as well as matrix metalloproteinase 2 and 9 for invasion. Specific tyrosine Src inhibitor (PP2) reversibly blocked PAF-activated cancer cell proliferation and invasion. We suggest that PAFR is an essential upstream target of Src and other signal pathways to control the PAF-mediated cancer progression.
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PMID:Activation of platelet-activating factor receptor and pleiotropic effects on tyrosine phospho-EGFR/Src/FAK/paxillin in ovarian cancer. 1863 38

Fatty Acid Synthase (FASN), a cytoplasmic biosynthetic enzyme, is the major source of long-chain fatty acids, particularly palmitate. Caveolin-1 (Cav-1) is a palmitoylated lipid raft protein that plays a key role in signal transduction and cholesterol transport. Both proteins have been implicated in prostate cancer (PCa) progression, and Cav-1 regulates FASN expression in a mouse model of aggressive PCa. We demonstrate that FASN and Cav-1 are coordinately upregulated in human prostate tumors in a hormone-insensitive manner. Levels of FASN and Cav-1 protein expression discriminated between localized and metastatic cancers, and the two proteins exhibited analogous subcellular locations in a tumor subset. Endogenous FASN and Cav-1 were reciprocally co-immunoprecipitated from human and murine PCa cells, indicating that FASN forms a complex with Cav-1. FASN, a cytoplasmic enzyme, was induced to associate transiently with lipid raft membranes following alterations in signal transduction within the Src, Akt and EGFR pathways, suggesting that co-localization of FASN and Cav-1 is dependent on activation of upstream signaling mediators. A Cav-1 palmitoylation mutant, Cav-1(C133/143/156S), that prevents phosphorylation by Src, did not interact with FASN. When overexpressed in Cav-1-negative PCa cells, Cav-1(C133/143/156S) caused a reduction of both Src and Akt levels, as well as of their active, phosphorylated forms, in comparison with wild type Cav-1. These findings suggest that FASN and Cav-1 physically and functionally interact in PCa cells. They also imply that palmitoylation within this complex is involved in tumor growth and survival.
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PMID:Caveolin-1 interacts with a lipid raft-associated population of fatty acid synthase. 1863 71

Epidermal growth factor receptor (EGFR/ErbB1) and HER2 (ErbB2/neu), members of the ErbB receptor tyrosine kinase family, are frequently overexpressed in breast cancer and are known to drive tumor growth and progression, making them promising targets for cancer therapy. Lapatinib is a selective competitive inhibitor of both the HER2 and EGFR tyrosine kinases. Although lapatinib showed significant activity in patients with HER2-positive breast cancer, the role of EGFR in the response of breast cancer to lapatinib has not been defined. Here, we examined the role of EGFR expression levels in the sensitivity of HER2-overexpressing breast cancer cells to lapatinib. Depletion of EGFR by EGFR small-interfering RNA knockdown did not affect lapatinib sensitivity in these cells, whereas treated HER2 siRNA knockdown cells became more resistant to lapatinib. We conclude that the in vitro activity of lapatinib is not dependent on EGFR expression level in HER2-overexpressing breast cancer cells.
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PMID:Activity of lapatinib is independent of EGFR expression level in HER2-overexpressing breast cancer cells. 1864 97

Oncogenic upregulation of tissue factor (TF) and release of TF-containing microvesicles play an important role in cancer-related coagulopathy (Trousseau's syndrome), angiogenesis, and disease progression. In addition, certain types of host cells (stromal cells, inflammatory cells, activated endothelium) may also express TF. Although the relative contribution of host-related versus tumor-related TF to tumor progression is not known, our recent studies indicate that the role of both sources of TF in tumor formation is complex and context-dependent. Disruption of TF expression/activity in cancer cells leads to tumor growth inhibition in immunodeficient mice, even in cases where TF overexpression is driven by potent oncogenes ( K-RAS or EGFR). Interestingly, TF expression in vivo appears to be influenced by many factors, including the level of oncogenic transformation, tumor microenvironment, and differentiation from cancer stem-like cells. We postulate that activation of TF signaling and coagulation may deliver growth-promoting stimuli (e.g., fibrin, thrombin, platelets) to dormant cancer stem cells (CSCs). Functionally, these influences may be tantamount to formation of a provisional (TF-dependent) cancer stem cell niche. As such, these changes may contribute to the involvement of CSCs in tumor growth, angiogenesis, and metastasis.
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PMID:Diverse roles of tissue factor-expressing cell subsets in tumor progression. 1864 22

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

3'-Phosphoinositide-dependent kinase-1 (PDK1) has been identified for its ability to phosphorylate and activate Akt. Accumulated studies have shown that the activation of the PDK1/Akt pathway plays a pivotal role in cell survival, proliferation, and tumorigenesis. Therefore, the PDK1/Akt pathway is believed to be a critical target for cancer intervention. In this paper, we report the discovery of a new function of phenothiazines, widely known as antipsychotics, inhibiting PDK1/Akt pathway. Upon epidermal growth factor (EGF) stimulation, phenothiazines specifically suppressed the kinase activity of PDK1 and the phosphorylation level of Akt. The inhibition of PDK1/Akt kinase resulted in suppression of EGF-induced cell growth and induction of apoptosis in human ovary cancer cells. In particular, phenothiazines were highly selective for downstream targets of PDK1/Akt and did not inhibit the activation of phosphatidylinositol 3-kinase (PI3K), EGFR, or extracellular signal-regulated kinase 1/2 (ERK1/2). In particular, phenothiazines effectively suppressed tumor growth in nude mice of human cancer cells. Taken together, these findings provide strong evidence for novel function of phenothiazines, pharmacologically targeting PDK1/Akt for anticancer drug discovery.
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PMID:Potential inhibition of PDK1/Akt signaling by phenothiazines suppresses cancer cell proliferation and survival. 1883 15

All four members of the human epidermal growth factor (EGF) receptor (HER) family are implicated in human cancers. Although efficacious in a subset of patients, resistance to single-targeted anti-HER therapy [i.e., cetuximab (Erbitux) and trastuzumab (Herceptin)] is often associated with coexpression of other HER family members. This may be overcome by a HER ligand binding molecule that sequesters multiple EGF-like ligands, preventing ligand-dependent receptor activation. Toward this end, we have combined the HER-1/EGFR and HER-3 ligand binding domains, dimerized with fusion of an Fc fragment of human IgG1. This resulted in a mixture of HER-1/Fc homodimer (HFD100), HER-3/Fc homodimer (HFD300), and HER-1/Fc:HER-3/Fc heterodimer (RB200), also termed Hermodulins. The purified first-generation RB200 bound EGF and neuregulin 1 (NRG1)-beta1 ligands, determined by cross-linking and direct binding studies. The binding affinity for both was approximately 10 nmol/L by dissociation-enhanced lanthanide fluorescence immunoassay using europium (Eu)-labeled ligands. Competition studies with RB200 using Eu-EGF or Eu-NRG1-beta1 revealed that RB200 bound HER-1 ligands, including transforming growth factor-alpha and heparin-binding EGF, and HER-3 ligands NRG1-alpha and NRG1-beta3. RB200 inhibited EGF- and NRG1-beta1-stimulated tyrosine phosphorylation of HER family proteins, proliferation of a diverse range of tumor cells in monolayer cell growth assays, tumor cell proliferation as a single agent and in synergy with tyrosine kinase inhibitors, lysophosphatidic acid-stimulated cell proliferation, and tumor growth in two human tumor xenograft nude mouse models. Taken together, the data reveal that RB200 has the potential to sequester multiple HER ligands and interfere with signaling by HER-1, HER-2, and HER-3.
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PMID:Human epidermal growth factor receptor (HER-1:HER-3) Fc-mediated heterodimer has broad antiproliferative activity in vitro and in human tumor xenografts. 1885 26


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