UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelial growth factor C (VEGF-C) is a critical activator of tumor lymphangiogenesis that recently has been strongly implicated in the tumor metastasis process. In this study, we identified that HRG-beta 1 stimulated up-regulation of VEGF-C mRNA and protein of human breast cancer cells in a dosage- and time-dependent manner and that this up-regulation was de novo RNA synthesis-dependent. The HRG-beta 1-induced increase in VEGF-C expression was effectively reduced by treatment with Herceptin, an antibody specifically against HER2. Also, when HER2 was overexpressed in MCF-7 cells that resulted in an evident increase in the VEGF-C level, suggesting an essential role of HER2 in mediating VEGF-C up-regulation by HRG-beta 1. NF-kappa B has been shown to be probably involved in interleukin-1 beta- or tumor necrosis factor-alpha-induced VEGF-C mRNA expression in human fibroblasts. Here we found that HRG-beta 1 could stimulate NF-kappa B nuclear translocation and DNA-binding activity via the I kappa B alpha phosphorylation-degradation mechanism. Blockage of the NF-kappa B activation cascade caused a complete inhibition of the HRG-beta 1-induced elevation of VEGF-C. In promoter-reporter assay, the luciferase activities of the reporter constructs, including the putative NF-kappa B site deleted and mutated form were significantly reduced after HRG-beta 1 treatment as compared with the 1.5-kb VEGF-C promoter. Although investigating the upstream kinase pathway(s) involved in HRG-beta 1-elicited NF-kappa B activation and VEGF-C up-regulation, we found that HRG-beta1 could activate extracellular signal-regulated protein kinase 1/2, phosphatidylinositol 3'-kinase, and p38 mitogen-activated protein kinase (MAPK) in MCF-7. However, only SB203580 (a specific inhibitor of p38 MAPK), not PD98059 nor LY294002, blocked the up-regulation of VEGF-C by HRG-beta 1. A similar inhibition in VEGF-C expression was obtained by cell transfection with dominant-negative p38 (p38AF). Interestingly, the HRG-beta 1-induced NF-kappa B activation cascade was also effectively blocked by SB203580 treatment or p38AF transfection. Our data thus suggests that HRG-beta 1 stimulated a NF-kappa B-dependent up-regulation of VEGF-C through the p38 MAPK signaling pathway in human breast cancer cells.
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PMID:Up-regulation of vascular endothelial growth factor C in breast cancer cells by heregulin-beta 1. A critical role of p38/nuclear factor-kappa B signaling pathway. 1247 Oct 41

Because conventional chemotherapy is not specific for cancer cells leading to toxic side effects there is a need for novel agents with high grade antitumor specificity. The major prerequisite to develop such drugs is to understand the targets that these agents should attack. In recent years a number of promising new anticancer drugs have been developed which target intracellular pathways or extracellular cell molecules. The clinically most effective compounds function as tyrosine kinase inhibitors. In the past, various tyrosine kinase receptors have been identified as regulators of tumor or tumor vessel growth. Having shown their expression characteristics in different tumor entities, specific inhibitors of the ATP binding sites of these receptors or antibodies were developed and entered clinical trials. The pathognomonic role of the tyrosine kinase defines the way of action of the inhibiting drug, whereas the amount of expression in tumor tissue defines the rationale to use the inhibitor to treat a specific protein. The future will define indications for such drugs by tumor kinase profiles instead of tumor entities. Gleevec, inhibiting the BCR-ABL tyrosine kinase; Iressa, inhibiting the EGF-receptor tyrosine kinase; Herceptin, inhibiting the Her2/neu tyrosine kinase and PTK787/ZK222584, inhibiting the VEGF-receptor tyrosine kinase will be discussed as representatives of selective tyrosine kinase inhibitors whereas ZD6474 and SU6668 will be discussed as representatives of multitarget tyrosine kinase inhibitors.
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PMID:Receptor tyrosine kinases: the main targets for new anticancer therapy. 1255 64

In the past few years, new agents based on monoclonal antibodies have been developed in Oncology. Indeed in some case tumor cells express antigenic targets at higher levels than normal cells. There are 2 main types of monoclonal antibodies that can be either conjugated to cytotoxic drugs or radio-active compounds or be non-conjugated. Among the last category, some are currently used in the treatment of patients, including 2 monoclonal antibodies targeting receptors with tyrosine kinase activity (HER2: Herceptin (DCI: trastuzumab), EGFr: Erbitux (DCI: cetuximab). A third monoclonal antibody is commonly used in cancer treatment, which targets CD20, a transmembrane marker of B lymphoma (MabThera (DCI: rituximab). Both Herceptin and MabThera have been associated with improved survival in patients with breast carcinoma and lymphoma, respectively. New promising agents are under investigation such anti EGFr in colon and head and neck carcinoma or new compounds such as anti-VEGF. These examples outline the importance of the recent progress in selectively targeting tumor antigen and the potential impact of these approaches in Oncology.
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PMID:[Principal therapeutic uses of monoclonal antibodies in oncology]. 1258 79

Neuroblastic tumors (NT) are the most frequently occurring extracranial solid tumors during childhood. The overall 5-year survival is approximately 20% for patients with metastatic disease. Novel treatments are therefore intensively sought and tumor-targeted immuno- and chemotherapy appear promising. The HER2/neu oncogene, which is highly homologous to the EGF receptor, was initially isolated from rat neuroblastoma cells. HER2/neu over-expression is frequently detected in breast tumors and constitutes an important unfavorable prognostic factor. HER2/neu is a suitable target for antibody-based immunotherapy, as demonstrated by the clinical efficacy of the Herceptin monoclonal antibody (mAb), which reacts with its extracellular domain. Expression of HER2/neu has also been reported to be a negative prognostic factor in a small survey of NT tumors. Here, we have investigated HER2/neu expression in 14 human and 2 murine neuroblastoma (NB) cell lines by flow cytometric analysis and in 93 NT by means of a certified immunohistochemical system. HER2/neu over-expression was found in 2 human cell lines and 11 tumors (14% for both types of samples). No significant association was found between HER2/neu expression and stage, age, sex, ploidy, histological type or subtype. Moreover, log rank test indicated that overall and event-free survival was not significantly different in HER2/neu positive and negative patients. These data suggest that HER2/neu should not be considered as a relevant prognostic factor in NT, and that HER2/neu-based immunotherapy may be feasible only in a minority of NT patients.
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PMID:Expression of HER2/neu is uncommon in human neuroblastic tumors and is unrelated to tumor progression. 1259 75

Bladder cancer is an urologic common tumor after prostatic carcinoma. Treatment of bladder cancer requires an interdisdisciplinary approach, including urologist, medical oncologist and radiation oncologist. Treatment of superficial tumors is based on endovesical instillations and sometimes on radical cystectomy for pejorative recurrences. For invasive tumor, radical cystectomy is needed. At present, ileal reconstructions could be largely proposed, in men as in women, for better quality of life. For selected patients, chemoradiotherapy is a valid alternative treatment to radical cystectomy, with similar survival rates and conservation rates of functional bladder about 50-60 %. In spite of the efficacy of local treatment, almost one half of patients develop metastasis. Recently, new drugs like paclitaxel, gemcitabine or Herceptin are available to improve the management of metastatic disease.
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PMID:[Bladder cancer: realities and perspectives]. 1260 6

A humanized monoclonal antibody against HER2 has been using in a clinical setting and has been shown to possess therapeutic properties. A mimetic peptide against HER2 was also reported to bind to the HER2 receptor with some therapeutic potential. Based on a previous report and the sequence of Herceptin, we designed oligonucleotides of anti-HER2 mimetic peptides, named V2 and V3 peptides, in order to develop a peptide- producing vector system for biologic therapy against HER2- overexpressing cancers. We also adopted the sequence of a previously reported mimetic peptide, V1 (Park BW et al. Nat. Biotechnol, 2000, 18:194-198), as a reference peptide. We examined the effects of the V2 and V3 peptides against the HER2-overexpressing cell lines, SK-BR-3 and T6-17. Transient transfection of the construct expressing V1 and V2 inhibited cell proliferation in HER2-overexpressing cell lines by 20 - 30%, but had no effect on the HER2-negative NIH3T3 cells. The proliferation inhibition shown by V2 was slightly better than that shown by V1. Recombinant peptides V2 and V3 were produced on a large scale in an E. coli system, and the V2 peptide showed anti-HER2-specific tumor cell proliferation inhibition of 10% to 30%. Current results suggest that anti-HER2 mimetic peptides, overexpressed by a constitutive promoter or produced in an E. coli system, could specifically inhibit the proliferation of HER2-expressing cancer cells. Further efforts to augment the biologic specificity and efficacy and to develop new technologies for the purification of the peptide from the E coli system are needed.
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PMID:Anti-HER2/neu peptide producing vector system for biologic therapy - is it possible to mass-produce the peptide? 1261 76

HER-2 /neu is a 185-kDa glycoprotein and a transmembrane receptor with tyrosine kinase activity. Its overexpression is observed in 25-30% of primary breast carcinomas and is associated with a poor clinical prognosis. Recently, the U.S. Food and Drug Administration and the Japanese Ministry of Health, Welfare, and Labor approved the use of trastuzumab (Herceptin, Genentech, South San Francisco, CA) for the treatment of patients with metastatic breast carcinomas overexpressing HER-2 /neu. Results of clinical trials with Herceptin suggest that it may prolong the survival of patients with advanced metastatic breast carcinoma. Relatively little is known concerning the relationship between HER-2 /neu status and ovarian clear cell carcinoma. If HER-2 /neu overexpression status were demonstrable in ovarian clear cell carcinoma and a clinical correlation between overexpression and prognosis could be established, a rationale for clinical use of Herceptin for this tumor could be established. Our aim was to evaluate HER-2 /neu status in ovarian clear cell carcinomas. Fifteen ovarian clear cell carcinoma cases were immunostained for HER-2 /neu using HercepTest (DAKO, Glostrup, Denmark). Overexpression of HER-2 /neu was detected in only one case. Unlike in breast carcinoma, HER-2 /neu overexpression appeared to be uncommon in ovarian clear cell carcinomas. Herceptin may thus target only a small proportion of ovarian clear cell carcinomas and be of limited clinical value for treatment of this carcinoma.
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PMID:HER-2/neu expression in ovarian clear cell carcinomas. 1263 Dec 16

The HER-2/neu gene is frequently amplified in bladder cancer. Topoisomerase 2 Alpha (TOP2A) which is located nearby the HER-2/neu gene is an important molecular target for several anti cancer drugs. The frequency of TOP2A amplification in urinary bladder cancer is unknown. It was the aim of this study to determine the frequency of HER-2 and TOP2A amplification in urinary bladder cancer and to evaluate the association of these amplifications with tumor phenotype. For this purpose a tissue microarray containing 768 pTa, 425 pT1 and 571 pT2-4 carcinomas was analyzed by fluorescence in situ hybridization (FISH). Amplifications of both genes were significantly associated with advanced tumor stage and high grade. HER-2 amplification was found in 1.6% of pTa, 7.2% of pT1 and 13.8% of pT2-4 carcinomas (p < 0.0001). HER-2 amplification was present in only 1.1% of grade 1 and 0.8% of grade 2 tumors but in 14.2% of grade 3 tumors (p < 0.0001). TOP2A amplification was present in 0.7% pTa, 1.8% pT1 and 3.4% pT2-4 carcinomas (p < 0.0001). TOP2A was found in none of the grade 1, in 0.2% of grade 2 and 3.8% of grade 3 tumors (p < 0.0001). 1% of all analyzed tumors had simultaneously high level amplification of TOP2A and HER-2. Amplification of both genes were significantly associated with tumor specific survival if all tumors were analyzed together. Given the high frequency of HER-2 amplification in urinary bladder cancer, some of these tumors may respond favorable to Herceptin therapy. The TOP2A amplification status may influence response to anthracyclin treatment.
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PMID:[HER-2 and TOP 2A gene amplifications in urinary bladder carcinoma]. 1264 67

Engineering antibodies with reduced immunogenicity and enhanced effector functions, and selecting antigen targets with the appropriate specificity, density, and/or functionality, have contributed to the recent clinical successes in using unconjugated "naked" antibody therapies of B-cell lymphoma (rituximab) and breast carcinoma (Herceptin). The non-overlapping toxicities of naked antibodies and chemotherapy, together with their potential synergy, which is based on unique and complementary mechanisms of action, have contributed to the creation of new standards of care in cancer therapy and management. Clinical trial results supporting these concepts are presented. Furthermore, the exquisite specificity of antibodies renders them ideal vehicles for selective delivery of toxic payloads such as drugs or radionuclides. Although successful in therapy of hematological cancers (Zevalin, Mylotarg), the broader application of these technologies to carcinomas still remains to be proven in clinical testing. Engineering of antibody constructs with optimal blood clearance and tumor-targeting kinetics, and selecting the radionuclide that may deliver sufficient radiation energy to kill the more radio-resistant carcinomas, are discussed. With the advent of genomics and proteomics, new membrane-associated tumor antigens are being discovered and will provide novel targets for future antibody therapy of cancer.
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PMID:Antibody therapy of non-Hodgkin's B-cell lymphoma. 1270 Sep 43

Recent progress in development of molecular cancer therapeutics revealed new types of antitumor drugs, such as Herceptin, Gleevec, and Iressa as potent therapeutics for each specific tumor. We have been working on molecular cancer therapeutics, and in particular, those related to drug resistance, Here, I describe several resistance mechanisms, including apoptosis regulation, cellular stress response and cellular survival signals which have show close relevance to drug resistance. P-glycoprotein (P-gp) is the key molecule in multidrug resistance (MDR) and a good target for chemotherapy. Proteasome is involved in the resistance mechanism to topo II-targeted chemotherapy in solid tumors. Apoptosis program in tumor cells plays a critical role in chemotherapy-induced tumor cell killing, and the blockade of the apoptosis-inducing pathway could be another mechanism for drug resistance. Glyoxalase I is a molecule involved in apoptosis resistance mechanism in tumors. Survival (antiapoptosis) signals are the good targets for various antitumor drugs to overcome innate drug resistance. Our present studies provide novel targets for effective molecular cancer therapeutics in future.
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PMID:Molecular cancer therapeutics: recent progress and targets in drug resistance. 1270 87

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