UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have found using differential display of mRNA that the growth factor heregulin beta 1 (HRG), a combinatorial ligand for human epidermal growth factor receptors (HERs), induced expression of G3BP, the Ras GTPase-activating protein SH3 domain-binding protein, in breast cancer cells. G3BP is a downstream effector protein of Ras signaling with ATP-dependent RNase and helicase activities, which may link Ras signaling with RNA turnover and cell cycle progression. In human breast cancer cells, HRG induced G3BP mRNA and protein expression. Up-regulation of G3BP was found in MCF7 breast cancer cells overexpressing HER2. G3BP was also overexpressed in human breast tumors in parallel with HER2 overexpression and in an estrogen-independent manner, suggesting a role for G3BP in cancer progression. In addition, HRG stimulation of breast cancer cells promoted phosphorylation of G3BP and increased the association of G3BP with GTPase-activating protein, both of which are essential for G3BP activity. G3BP ATPase activity was also significantly increased by HRG treatment. Furthermore, HRG treatment resulted in G3BP translocation to the nucleus and colocalization with acetylated histone H3, a hallmark of active transcription sites. G3BP induction, phosphorylation, ATPase activity, and relocalization after HRG treatment could all be blocked by pretreatment with the anti-receptor HER2 monoclonal antibody Herceptin (trastuzumab), which may suggest additional applications for this therapeutic antibody. These findings demonstrate for the first time the receptor-dependent regulation of G3BP, a downstream effector of Ras signaling, by HRG, a growth factor with diverse functions in breast cancer cells.
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PMID:Heregulin induces expression, ATPase activity, and nuclear localization of G3BP, a Ras signaling component, in human breast tumors. 1188 85

The overexpression of HER2, a transmembrane glycoprotein tyrosine kinase, has been implicated in mitogenesis, cell survival, invasion and angiogenesis. Preclinical evidence suggests that HER2 overexpression contributes to tumor progression in non-small cell lung cancer (NSCLC) and retrospective clinical correlative studies show that it is probably associated with poor clinical outcome. Trastuzumab (Herceptin, Genentech Inc., South San Francisco, CA) is a recombinant humanized monoclonal antibody that targets HER2 and is currently approved for use in the treatment of patients with HER2-overexpressing metastatic breast cancer. Two primary mechanisms proposed for the activity of trastuzumab are downregulation of HER2 and induction of antibody-dependent cell-mediated cytotoxicity. Evidence from preclinical studies of trastuzumab in NSCLC and other cell lines, the presence of HER2 overexpression in NSCLC clinical specimens and the clinical benefit derived from trastuzumab in phase II and III metastatic breast cancer trials have led to the development of clinical trials of trastuzumab in NSCLC. Phase II studies of trastuzumab in patients with stage IIIB or IV NSCLC are being conducted to test the efficacy of trastuzumab as a single agent or in combination with chemotherapy. Preliminary results show combinations of chemotherapy plus trastuzumab are well tolerated, with encouraging response rates of 21-40%. A randomized phase II trial of chemotherapy with or without trastuzumab showed promise in a small subgroup of patients with 3+ HER2 overexpression by immunohistochemistry or HER2 DNA amplification by fluorescence in situ hybridization. Taken together, these data indicate that trastuzumab warrants further investigation in a clinical study in selected patients with NSCLC.
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PMID:Non-small cell lung cancer clinical trials with trastuzumab: their foundation and preliminary results. 1205 63

Protein tyrosine kinases are tightly regulated enzymes that play an important role in the control of most fundamental cellular processes, including cell proliferation, differentiation, metabolism, migration, and survival. These signaling proteins are the frequent target of oncogenic mutations or other genetic alterations leading to dysregulated tyrosine kinase activity, cellular transformation, and subsequent tumor progression. Many of the known dominant oncogenes encode aberrant protein tyrosine kinases and are causally associated with a significant fraction of human neoplasms, including breast carcinoma. The epidermal growth factor receptor and HER2/neu are two transmembrane tyrosine kinases that are members of the HER (erbB) signaling network. Aberrant signaling by this network is present in a cohort of breast carcinomas. Structure/function studies of these kinases have led to the identification of molecular approaches aimed at disabling signaling by this transforming network. Trastuzumab, a monoclonal antibody that binds the ectodomain of HER2, was recently shown to induce regression of HER2-overexpressing breast cancers, confirming the role of HER2 in tumor maintenance and progression. A rational therapeutic approach that builds on these results with trastuzumab and expands the targeting of the HER network will be presented.
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PMID:HER (erbB) tyrosine kinase inhibitors in the treatment of breast cancer. 1213 92

c-erbB-2, proto-oncogene is amplified and overexpressed in a number of human adenocarcinomas. Overexpression of c-erbB-2 is indicated as a worse prognostic factor and associated with neoplastic progression in various organs. To investigate the therapeutic effect of Trastuzumab in gallbladder cancer, we studied HER-2/neu expression in 43 primary tumors, 12 metastatic lymph nodes and two liver metastasis, using the Hercep test. Among primary tumors, strong (3+) immunohistochemical intensity was found in two cases (4.7%), weak (2+) in two (4.7%) and negative (1+) (2.3%) in one case. This positivity rate was distinctly lower than those in previous reports. There was no tendency between clinicopathologic characteristics and HER-2 positivity in the primary gallbladder. Among 12 metastatic lymph nodes, only one specimen showed 2+ positivity where the primary lesion revealed 3+ intensity of HER-2. In two liver metastatic lesions, the expression of HER-2 was not found. Our study implied that Trastzumab may not contribute to improvement in treatment of gallbladder cancer. However, there may be a therapeutic possibility for cases with lymph node recurrence overexpressing c-erbB-2.
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PMID:Gallbladder cancers rarely overexpress HER-2/neu, demonstrated by Hercep test. 1501 Aug 78

We have examined overexpression of the human epidermal growth factor receptor 2 (HER2) to determine if it modifies the anti-proliferative effect of transforming growth factor (TGF)-beta against MCF-10A human mammary epithelial cells. Exogenous TGF-beta inhibited cell proliferation and induced Smad-dependent transcriptional reporter activity in both MCF-10A/HER2 and MCF-10A/vector control cells. Ligand-induced reporter activity was 7-fold higher in HER2-overexpressing cells. In wound closure and transwell assays, TGF-beta induced motility of HER2-transduced, but not control cells. The HER2-blocking antibody trastuzumab (Herceptin) prevented TGF-beta-induced cell motility. Expression of a constitutively active TGF-beta type I receptor (ALK5(T204D)) induced motility of MCF-10A/HER2 but not MCF-10A/vector cells. TGF-beta-induced motility was blocked by coincubation with either the phosphatidylinositol 3-kinase inhibitor LY294002, the mitogen-activated protein kinase (MAPK) inhibitor U0126, the p38 MAPK inhibitor SB202190, and an integrin beta(1) blocking antibody. Rac1 activity was higher in HER2-overexpressing cells, where both Rac1 and Pak1 proteins were constitutively associated with HER2. Both exogenous TGF-beta and transduction with constitutively active ALK5 enhanced this association. TGF-beta induced actin stress fibers as well as lamellipodia within the leading edge of wounds. Herceptin blocked basal and TGF-beta-stimulated Rac1 activity but did not repress TGF-beta-stimulated transcriptional reporter activity. These data suggest that 1) overexpression of HER2 in nontumorigenic mammary epithelial is permissive for the ability of TGF-beta to induce cell motility and Rac1 activity, and 2) HER2 and TGF-beta signaling cooperate in the induction of cellular events associated with tumor progression.
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PMID:Overexpression of HER2 (erbB2) in human breast epithelial cells unmasks transforming growth factor beta-induced cell motility. 1504 65

Recent advances in molecular biology have led to the development of selective molecular targeting agents for genes involved in cell proliferation, apoptosis, and angiogenesis in cancer cells. The current success of molecular targeting therapy is shown by: imatinib mesylate (STI571, Gleevec), targeted to the Bcr/Abl fusion protein derived from a translocation between chromosomes 9 and 22 in chronic myelogenous leukemia; rituximab (Rituxan), a monoclonal antibody to CD20 used in non-Hodgkin's lymphoma; trastuzumab (Herceptin), a chimeric monoclonal antibody to HER-2 used in breast cancer; and gefinitib (ZD1839, Irresa), a tyrosine kinase inhibitor of the epidermal growth factor receptor used in non-small cell lung cancer. The superior therapeutic efficacy of these molecular targeting agents over traditional chemotherapy has been shown by the survival benefit achieved for patients with advanced or recurrent cancers. Although the precise molecular mechanisms by which these agents produce or enhance an antitumor effect, alone or in combination with anticancer drugs, are not known, the specific inhibition of target genes critically involved in tumor progression and metastasis by the agent is clear. However, further studies to determine which patient groups and anticancer drugs are appropriate for combination therapy with these molecular targeting agents are needed. Herein, we discuss the current status and potential for overcoming drug resistance in solid tumors and focus on the differential features of the tumor microenvironment in solid and hematologic malignancies.
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PMID:Changes in therapy for solid tumors: potential for overcoming drug resistance in vivo with molecular targeting agents. 1505 42

Amplification and overexpression of the HER-2 oncogene in breast cancer is felt to be stable over the course of disease and concordant between primary tumor and metastases. Therefore, patients with HER-2-negative primary tumors rarely will receive anti-Her-2 antibody (trastuzumab, Herceptin) therapy. A very sensitive blood test was used to capture circulating tumor cells (CTCs) and evaluate their HER-2 gene status by fluorescence in situ hybridization. The HER-2 status of the primary tumor and corresponding CTCs in 31 patients showed 97% agreement, with no false positives. In 10 patients with HER-2-positive tumors, the HER-2/chromosome enumerator probe 17 ratio in each tumor was about twice that of the corresponding CTCs (mean 6.64 +/- 2.72 vs. 2.8 +/- 0.6). Hence, the ratio of the CTCs is a reliable surrogate marker for the expected high ratio in the primary tumor. Her-2 protein expression of 10 CTCs was sufficient to make a definitive diagnosis of the HER-2 gene status of the whole population of CTCs in 19 patients with recurrent breast cancer. Nine of 24 breast cancer patients whose primary tumor was HER-2-negative each acquired HER-2 gene amplification in their CTCs during cancer progression, i.e., 37.5% (95% confidence interval of 18.8-59.4%). Four of the 9 patients were treated with Herceptin-containing therapy. One had a complete response and 2 had a partial response.
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PMID:HER-2 gene amplification can be acquired as breast cancer progresses. 1519 24

Targeted molecular therapeutics are tailored toward the genetic abnormalities that cause tumor progression. Modulation of certain signaling pathways that are aberrant in cancer cells has the potential to provide an effective, nontoxic approach to therapy in a broad range of cancers. Agents targeting BCR-ABL (imatinib mesylate [formerly known as STI-571], Gleevec; Novartis Pharmaceuticals Corp, East Hanover, NJ), retinoid receptor fusion proteins (all-trans retinoic acid), ErbB-2 or HER2/neu (trastuzumab, Herceptin; Genentech, Inc, South San Francisco, CA), epidermal growth factor receptor (IMC-C225 and ZD1839), and the phosphatidylinositol 3-kinase pathway (CCI-779) have all induced remarkable, nontoxic responses in a subset of patients with cancer and abnormalities in the corresponding signal transduction cascades. To achieve successful individualized therapy, the specific components within the aberrant signaling pathways that are driving the pathophysiology of the tumors must be identified in each patient. Molecular diagnostics can identify patients in whom the target is aberrant; linking molecular diagnostics with effective molecular therapeutics will be necessary to translate these concepts into approaches that will alter the outcome for patients with cancer. In addition, intermediary markers and/or molecular imaging techniques must be used to identify the biologically relevant dose that is sufficient to inhibit the target of interest. This review focuses on the P13K pathway, and novel molecules targeting this pathway, to illustrate the questions and challenges underlying the implementation of molecular therapeutics in breast and ovarian cancer.
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PMID:Mammalian target of rapamycin. 1579 39

The investigation of the molecular mechanisms involved in carcinogenesis and tumor progression has led to the development of numerous biochemical markers. Biochemical markers may serve for early prediction of tumor recurrence, progression and development of metastases including bone metastases and for prediction of response to therapy. Tumor antigens have been used for more than a decade and although they have shown promising clinical results, their sensitivity and specificity remain limited. A lot of knowledge on the key molecules which control cell cycle, apoptosis and angiogenesis has been acquired during recent years, but their clinical value remains uncertain. Molecular markers which are linked to malignant transformation may provide a non-surgical therapeutic approach by targeting these molecules through gene therapy or antisense molecules. Because of the complexity of the physiopathogical processes involved in tumorogenesis and metastases, we first provide a review on the molecular basis of the various tumor markers and then discuss their potential clinical utility for the major cancers. The review of the current literature indicates that at the exception of a few examples, such as the use of Her-2 to predict response of the targeted Herceptin therapy, no single marker is sensitive and specific enough to perform an accurate diagnosis, predict disease progression or response to treatment. A combination of different biochemical and imaging markers appears to be the most promising strategy to monitor patients with cancer.
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PMID:Biochemical markers in oncology. Part I: molecular basis. Part II: clinical uses. 1743 51

Biologic agents represent an already proven addition in the armamentarium of anticancer weapons. Anti-HER2 therapy was the first to demonstrate survival benefit by associating a targeted agent to cytotoxic chemotherapy. Four major adjuvant trials--Herceptin Adjuvant (HERA), National Surgical Adjuvant Breast and Bowel Project (NSABP) B-31, North Central Cancer Treatment Group (NCCTG) N9831, and Breast Cancer International Research Group (BCIRG) 006--including more than 13,000 women with HER-2-positive early breast cancer, have investigated different adjuvant treatment approaches with trastuzumab. These trials have shown that trastuzumab reduces the 3-year risk of recurrence by about half in this patient population. Accurate testing for HER2 amplification/overexpression is essential before treatment initiation. Patients progressing while on combined chemotherapy and trastuzumab may still benefit from continuation of trastuzumab with other agents; evidence also supports the use of the capecitabine/lapatinib combination in this setting, which improves response and time to further tumor progression. Antiangiogenic therapy with bevacizumab in association with weekly paclitaxel improves disease-free survival for metastatic breast cancer patients. Future studies will provide much needed data on predicting response to biologic therapies, revealing the mechanisms of resistance to such therapies and maximizing the patient's benefit.
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PMID:Integrating biological agents into systemic therapy of breast cancer: trastuzumab, lapatinib, bevacizumab. 1793 69

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