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)

Previous studies demonstrated that tobacco and arsenic exposure are risk factors for bladder cancer. A case-case study was conducted to compare p53 mutations in 147 bladder tumors from South American patients by tobacco and arsenic exposure. Information on residential history and lifestyle factors was collected. The prevalence of p53 mutations and protein expression was examined in relation to tumor stage, grade, patient age, gender, tobacco and arsenic exposure. Smokers were grouped as ever/never smokers and by pack years of exposure (0, 1-20, >20). Patients were also grouped into four arsenic exposure categories based on the average of the five highest years arsenic concentration in their drinking water: group 1, non-detectable to <10 microg/l (n = 50); group 2, 10-99 microg/l (n = 31); group 3, 100-299 microg/l (n = 35); group 4, >300 microg/l (n = 30). The proportion of tumor samples with p53 mutations and P53 immunopositivity increased strongly with both stage and grade, but not with arsenic exposure or smoking. The prevalence of tumors containing mutational transitions increased markedly with tumor stage (from 14 to 52%, P(trend) = 0.005) and grade (from 11 to 48%, P(trend) = 0.004) and was higher in smokers than in non-smokers (34 versus 18%, respectively, P = 0.10). An increasing trend was observed with pack years of smoking (P = 0.09). The majority of mutations in tumors from both smokers and non-smokers were G-->A transitions, however, in smokers a preference for G-->A transitions at CpG sites was observed (P = 0.07, two-tailed) and a positive trend was observed with pack years of exposure (P = 0.04). A hotspot was found at codon 273 in 12% of the tumors from smokers but was not observed in never smokers (P = 0.05) and a positive trend was observed with pack years of tobacco exposure (P = 0.001). Neither stage nor grade demonstrated a preference for CpG site mutation, suggesting that these changes may be early exposure-related events in carcinogenesis and are not related to tumor progression. Arsenic exposure was not associated with an increased prevalence of p53 mutation or P53 immunopositivity and there was no evidence of interaction between arsenic and smoking with these outcome variables.
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PMID:P53 alterations in bladder tumors from arsenic and tobacco exposed patients. 1291 57

Breast cancer is significantly less prevalent among Asian women, whose diets contain high intake of soy products and tea. The objective of our present study was to identify the combined effects of dietary soy phytochemicals and tea components on breast tumor progression in a clinically relevant in vivo model of MCF-7 androgen-dependent human breast tumor in female SCID mice. MCF-7 tumor growth, tumor cell proliferation and apoptosis, microvessel density, and expressions of tumor estrogen receptors were compared in mice treated with genistin-rich soy isoflavones (GSI), soy phytochemical concentrate (SPC), black tea (BT), green tea (GT), SPC/BT combination and SPC/GT combination. GSI and SPC led to dose-dependent inhibition of MCF-7 tumor growth via inhibition of cancer cell proliferation in vivo. GT showed more potent anti-breast tumor activity than BT. GT infusion at 1.5 g tealeaf/100 mL water produced significant (p < 0.05) reductions of 56% in final tumor weight. GT plus SPC at 0.1% of the diet further reduced final tumor weight by 72% (p < 0.005). Analysis of serum and tumor biomarkers showed that the combined effects of SPC and GT inhibited tumor angiogenesis, and reduced estrogen receptor (ER)-alpha and serum levels of insulin-like growth factor (IGF)-I. Our study suggests that dietary SPC plus GT may be used as a potential effective dietary regimen for inhibiting progression of estrogen-dependent breast cancer.
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PMID:Combined inhibition of estrogen-dependent human breast carcinoma by soy and tea bioactive components in mice. 1461 9

Mice lacking N-acetylglucosaminyltransferase III (GlcNAc-TIII) exhibit slightly but significantly retarded liver tumor progression after a single injection of 10 micro g/g diethylnitrosamine (DEN) and continued administration of phenobarbital (PB) in drinking water. A key question is whether the absence of GlcNAc-TIII inhibits cell proliferation or induces apoptosis. Because PB aids tumor progression, we tested whether it diminished the difference in tumor progression between Mgat3(+/+) and Mgat3(Delta/Delta) mice. Here, we show that in the absence of PB, control males developed about twice as many liver tumor nodules as males lacking GlcNAc-TIII. Both the size of liver tumors and liver weights were significantly greater in DEN-treated wild-type or heterozygous mice. Apoptosis assays performed monthly after DEN treatment showed no differences between mutant and wild-type. However, there was a marked retardation in liver regeneration after partial (70%) hepatectomy (PH). Wild-type mice incorporated bromodeoxyuridine in approximately 15% of hepatocyte nuclei at 48 h after PH, whereas mice lacking GlcNAc-TIII had only approximately 5% positive nuclei. This was not because of enhanced apoptosis in mutant mice after PH. Expression of the Mgat3 gene remained undetectable in wild-type liver by Northern analysis after tumor induction or after PH. In addition, transgenic overexpression of GlcNAc-TIII in hepatocytes did not enhance tumor progression in Mgat3(Delta/Delta) mice, and there were no differences in tumor progression or liver regeneration after PH between control and transgenic mice overexpressing GlcNAc-TIII in liver. Therefore, the nonhepatic action of GlcNAc-TIII promotes hepatocyte proliferation after PH, as well as the progression of DEN-induced tumors, providing evidence for a functional role of the bisecting GlcNAc on circulating glycoprotein growth factor(s) that stimulate hepatocyte proliferation.
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PMID:Reduced hepatocyte proliferation is the basis of retarded liver tumor progression and liver regeneration in mice lacking N-acetylglucosaminyltransferase III. 1463

The modifying effects of dietary administration of protocatechuic acid (PCA) during the progression phase of tongue carcinogenesis initiated with 4-nitroquinoline 1-oxide (4-NQO) were investigated in male F344 rats. For tumor progression we developed a new animal model, where rats initiated by 4-week treatment of 20 ppm 4-NQO in drinking water, received four cycles of 20 ppm 4-NQO to induce advanced tongue cancer (one cycle: 2 weeks of 4-NQO followed by 2 weeks of tap water), starting at 14 weeks after the initiation. In this model, metastasis of tongue cancer occurred in lungs. Starting two weeks before the cycle treatment with 4-NQO, animals were fed the 2000 ppm PCA containing diet and continued on this diet until the end of the study. At the termination of the experiment (week 32), the incidences of tongue neoplasms and preneoplastic lesions, polyamine levels in the tongue tissue, and cell proliferation activity estimated by morphometric analysis of silver-stained nucleolar organizer regions protein were compared among the groups. Feeding with PCA containing diet during the progression phase significantly decreased the occurrence of advanced tongue squamous cell carcinoma with metastasis (P<0.05) and preneoplasia (hyperplasia and dysplasia) (P<0.001). In addition, PCA exposure decreased polyamine levels in the tongue tissue (P<0.001) during progression phase. Our results suggest that dietary PCA inhibits progression of 4-NQO-induced oral carcinogenesis, and such inhibition might be related to suppression of cell proliferation by PCA.
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PMID:Dietary protocatechuic acid during the progression phase exerts chemopreventive effects on chemically induced rat tongue carcinogenesis. 1472 90

The purpose of this report is to summarize information on oxaliplatin, a drug recently approved by the U.S. Food and Drug Administration. Information provided includes regulatory history, study design, efficacy and safety results, and pertinent literature references. A single, multicenter, randomized trial, enrolling 463 patients with metastatic colorectal carcinoma whose disease had recurred or progressed during or within 6 months of completion of therapy with the combination of bolus 5-fluorouracil (FU)/leucovorin (LV) and irinotecan, was submitted. Study arms included infusional 5-FU/LV alone (arm A), oxaliplatin alone (arm B), and the combination of oxaliplatin and infusional 5-FU/LV(arm C). Oxaliplatin, at a dose of 85 mg/m2, was administered to patients in arms B and C intravenously over 2 hours in 250-500 ml of dextrose 5% in water (D5W) on day 1 only. A 200-mg/m2 dose of LV was administered simultaneously to arm C patients, in a separate bag using a Y-line, or alone to arm A patients, by i.v. infusion, over 2 hours. 5-FU was then administered to arms A and C patients, first as a bolus injection over 2-4 minutes at a dose of 400 mg/m2, then as a continuous infusion in 500 ml of D5W over 22 hours at a dose of 600 mg/m2. LV was repeated on day 2 of the cycle (arms A and C) followed by a 400-mg/m2 5-FU bolus and a 600-mg/m2 22-hour infusion. Treatment was repeated every 2 weeks. Response rate was the prespecified end point for accelerated approval. Time to progression (TTP) was a secondary end point. The prespecified primary comparison was between the 5-FU/LV regimen and the 5-FU/LV/ oxaliplatin combination regimen. The three arms were well balanced for patient prognostic factors. There were no complete responders. The partial response rates were 0%, 1%, and 9% for the 5-FU/LV, oxaliplatin, and oxaliplatin plus 5-FU/LV treatments, respectively (p = 0.0002, arm C versus arm A). The median times to radiographic tumor progression, based on available radiographs, were 2.7 months, 1.6 months, and 4.6 months, respectively (p < 0.0001, arm C versus arm A). Common adverse events associated with the combination treatment included peripheral neuropathy, fatigue, diarrhea, nausea, vomiting, stomatitis, and abdominal pain. Neutropenia was the major hematologic toxicity. Adverse events were similar in men and women and in patients <65 and > or =65 years of age, but older patients may have been more susceptible to dehydration, diarrhea, hypokalemia, and fatigue. Oxaliplatin in combination with infusional 5-FU/LV was approved for the treatment of patients with metastatic carcinoma of the colon or rectum whose disease has recurred or progressed during or within 6 months of completion of first-line therapy with the combination of bolus 5-FU/LV and irinotecan. Approval was based on response rate and on an interim analysis of TTP. No results are available, at this time, that demonstrate a clinical benefit, such as improvement in disease-related symptoms or survival.
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PMID:FDA drug approval summaries: oxaliplatin. 1475 10

Repeated, local, nonviral IL12 (interleukin-12) gene delivery decreased tumor progression and increased immunogenicity. We combined our IL12 gene delivery with systemic paclitaxel chemotherapy as a treatment for paclitaxel (PCT)-resistant 4T1 subcutaneous mouse mammary carcinomas and PCT-sensitive, immunogenic/nonimmunogenic tumors. We mixed PCT with either a biodegradable polymeric solubilizer, HySolv, or Cremophor EL for bimonthly systemic treatments and injected water-soluble lipopolymer (WSLP)/p2CMVmIL-12 (plasmid encoding IL12 gene) complexes locally every week. We compared treated subcutaneous tumor volume and lung metastasis with controls. HySolv alone performed better compared to Cremophor EL in combination with WSLP/p2CMVmIL-12. We showed inhibition of 4T1 tumor growth and lung metastases in the combined WSLP/p2CMVmIL-12/HySolv group compared to the controls and the paclitaxel-only treated groups. In parallel experiments we also demonstrated additive responses for tumor growth and number of lung metastases within other PCT-sensitive mammary tumor models using this combination strategy. Our combination therapy provides evidence for the efficacy and feasibility of improved drug delivery systems. Local cytokine gene delivery can augment local and systemic chemotherapy without placing the host at risk for further systemic toxicity.
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PMID:Combination of local, nonviral IL12 gene therapy and systemic paclitaxel treatment in a metastatic breast cancer model. 1519 49

The parameters that characterize the intricate water diffusion in tumors may serve to reveal their distinct pathology. Specifically, the application of diffusion magnetic resonance imaging (MRI) can aid in characterizing breast cancer, as well as monitoring response to therapy. We present here a non-invasive, quantitative MRI investigation, at high spatial resolution, of water diffusion in hormonal dependent MCF7 breast tumors implanted orthotopically in immunodeficient mice. Distinctive MRI protocols were designed in this study, utilizing a broad range of diffusion times and diffusion gradient strengths. Application of these protocols allowed water diffusion in the tissue extracellular and intracellular compartments to be distinguished, and the effect of restricted diffusion and water exchange on the water diffusion in these compartments to be evaluated. Pixel-by-pixel analysis yielded parametric maps of the estimated volume fraction and apparent diffusion coefficient of each compartment. The diffusion of the water in the extracellular microenvironment was approximately two fold slower than that of free water, and in the intracellular compartment was about one order of magnitude slower than that of free water and demonstrated restriction of water diffusion at long diffusion times. Mapping of the water fraction in each compartment was further employed to monitor changes during tumor progression and to assess tumor response to hormonal manipulation with a new antiestrogenic drug, tamoxifen methiodide (TMI). It was found that, in parallel to the growth arrest by this drug, the volume fraction of the slowly diffusing water increased, suggesting a TMI-induced cell swelling. This study can serve as a basis for extending diffusion breast MRI in the clinical setting.
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PMID:Water diffusion in the different microenvironments of breast cancer. 1522 30

Clusterin (CLU) protein is widely distributed in animal tissues and is involved in many different processes, including apoptosis and neoplastic transformation. Green tea catechins (GTC) are known to exert chemopreventive effects in many cancer models, including transgenic adenocarcinoma mouse prostate (TRAMP) mice that spontaneously develop prostate cancer (CaP). We report here that growth of SV40-immortalized human prostate epithelial cells (PNT1A) as well as tumorigenic, poorly differentiated prostate cancer cells (PC-3) was potently inhibited by EGCG, the major green tea catechin, while normal human prostate epithelial cells were not significantly affected. IC(50) doses of EGCG for 24 h caused caspase cascade activation and CLU protein accumulation in both cells lines but not in normal cells, in which CLU remained undetectable. While 100% of TRAMP mice developed CaP, only 20% of those receiving 0.3% GTC in drinking water developed the neoplasm. In TRAMP mice, the CLU gene was dramatically down-regulated during onset and progression of CaP. In GTC-treated TRAMP mice in which tumor progression was chemoprevented, CLU mRNA and protein progressively accumulated in the prostate gland. CLU dropped again to undetectable levels in animals in which GTC chemoprevention failed and CaP developed. Up-regulation of histone H3 and down-regulation of growth arrest-specific gene 1 (Gas1) mRNAs in CaP-developing TRAMP mice demonstrated a high proliferation rate in tumors, while the opposite occurred in the glands of GTC chemoprevented animals. Failure of GTC chemoprevention caused induction of both histone H3 and Gas1 and down-regulation of CLU. Immunohistochemistry experiments confirmed CLU down-regulation during CaP onset and progression, and CLU sustained expression in chemoprevented TRAMP mice. A possible role for CLU as a novel tumor-suppressor gene in the prostate is thus suggested.
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PMID:The chemopreventive action of catechins in the TRAMP mouse model of prostate carcinogenesis is accompanied by clusterin over-expression. 1535 31

People are continuously exposed exogenously to varying amounts of chemicals that have been shown to have carcinogenic or mutagenic properties in experimental systems. Exposure can occur exogenously when these agents are present in food, air or water, and also endogenously when they are products of metabolism or pathophysiologic states such as inflammation. It has been estimated that exposure to environmental chemical carcinogens may contribute significantly to the causation of a sizable fraction, perhaps a majority, of human cancers, when exposures are related to "life-style" factors such as diet, tobacco use, etc. This chapter summarizes several aspects of environmental chemical carcinogenesis that have been extensively studied and illustrates the power of mechanistic investigation combined with molecular epidemiologic approaches in establishing causative linkages between environmental exposures and increased cancer risks. A causative relationship between exposure to aflatoxin, a strongly carcinogenic mold-produced contaminant of dietary staples in Asia and Africa, and elevated risk for primary liver cancer has been demonstrated through the application of well-validated biomarkers in molecular epidemiology. These studies have also identified a striking synergistic interaction between aflatoxin and hepatitis B virus infection in elevating liver cancer risk. Use of tobacco products provides a clear example of cancer causation by a life-style factor involving carcinogen exposure. Tobacco carcinogens and their DNA adducts are central to cancer induction by tobacco products, and the contribution of specific tobacco carcinogens (e.g. PAH and NNK) to tobacco-induced lung cancer, can be evaluated by a weight of evidence approach. Factors considered include presence in tobacco products, carcinogenicity in laboratory animals, human uptake, metabolism and adduct formation, possible role in causing molecular changes in oncogenes or suppressor genes, and other relevant data. This approach can be applied to evaluation of other environmental carcinogens, and the evaluations would be markedly facilitated by prospective epidemiologic studies incorporating phenotypic carcinogen-specific biomarkers. Heterocyclic amines represent an important class of carcinogens in foods. They are mutagens and carcinogens at numerous organ sites in experimental animals, are produced when meats are heated above 180 degrees C for long periods. Four of these compounds can consistently be identified in well-done meat products from the North American diet, and although a causal linkage has not been established, a majority of epidemiology studies have linked consumption of well-done meat products to cancer of the colon, breast and stomach. Studies employing molecular biomarkers suggest that individuals may differ in their susceptibility to these carcinogens, and genetic polymorphisms may contribute to this variability. Heterocyclic amines, like most other chemical carcinogens, are not carcinogenic per se but must be metabolized by a family of cytochrome P450 enzymes to chemically reactive electrophiles prior to reacting with DNA to initiate a carcinogenic response. These same cytochrome P450 enzymes--as well as enzymes that act on the metabolic products of the cytochromes P450 (e.g. glucuronyl transferase, glutathione S-transferase and others)--also metabolize chemicals by inactivation pathways, and the relative amounts of activation and detoxification will determine whether a chemical is carcinogenic. Because both genetic and environmental factors influence the levels of enzymes that metabolically activate and detoxify chemicals, they can also influence carcinogenic risk. Many of the phenotypes of cancer cells can be the result of mutations, i.e., changes in the nucleotide sequence of DNA that accumulate as tumors progress. These can arise as a result of DNA damage or by the incorporation of non-complementary nucleotides during DNA synthetic processes. Based upon the disparity between the infrequency of spontaneous mutations and the large numbers of mutations reported in human tumors, it has been postulated that cancers must exhibit a mutator phenotype, which would represent an early event in cancer progression. A mutator phenotype could be generated by mutations in genes that normally function to guarantee genetic stability. These mutations presumably arise via DNA damage by environmental or endogenous agents, but it remains to be determined whether the acquisition of a mutator phenotype is a necessary event during tumor progression.
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PMID:Environmental and chemical carcinogenesis. 1548 40

Development of improved gene transfer methods is needed for gene therapy to achieve its clinical potential. The use of biocompatible polymeric gene carriers has shown effectiveness in overcoming the current problems associated with viral vectors in safety, immunogenicity and mutagenesis. Previous work has demonstrated that repeated, local, non-viral interleukin-12 (IL-12) gene delivery successfully slows down tumor progression, while improving immunogenicity. Combining IL-12 gene delivery with systemic paclitaxel (PCT) chemotherapy as a treatment for various subcutaneous mouse mammary carcinomas, we used PCT with either a biodegradable polymeric solubilizer, HySolv or Cremophor EL for systemic treatment and injected water soluble lipopolymer (WSLP)/plasmid-encoding IL-12 gene (p2CMVmIL-12) complexes local once every week. The amount of lung metastases being essential for survival as well as subcutaneous tumor volume were compared against untreated controls. We showed inhibition of tumor growth and decreased lung metastases in the combined WSLP/p2CMVmIL-12/HySolv group compared to the controls and the PCT only treated groups. Compared to Cremophor, HySolv performed better alone or in combination with IL-12. Using polymeric vectors as gene carrier systems in combination with improved systemic therapies provide evidence for the efficacy and feasibility of polymer-based drug delivery systems. Especially local cytokine gene delivery showed augmentation of systemic chemotherapy while reducing the hosts risk for further systemic toxicity.
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PMID:Local, non-viral IL-12 gene therapy using a water soluble lipopolymer as carrier system combined with systemic paclitaxel for cancer treatment. 1558 11

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