Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Cytogenetic alterations that characterize different histologic subtypes of soft tissue sarcomas have been identified. In a few situations, more precise chromosomal mapping has allowed identification of certain genes that may be involved in the development or tumor progression of sarcomas. Careful family histories must be elicited in sarcoma patients. While "cancer families" are rarely identified when screening close relatives of sarcoma patients, the discovery of the currently known tumor suppressor gene syndromes associated with germ line retinoblastoma gene and p53 gene defects were made possible by their association with sarcomas. Optimal management of primary sarcomas includes function-sparing complete resection and radiotherapy. Innovative radiotherapy, utilizing radiation sensitizers or brachytherapy, may increase local control in patients with unresectable tumors. New drugs are needed. Epirubicin and other anthracycline analogues do have significant activity; however, no other novel drugs have documented efficacy. Dose intensity is being explored with sarcoma trials providing the "vehicle" to evaluate new cytokines. Several mechanisms of doxorubicin resistance have been identified in cell lines and fresh tumors, including alterations in glutathione peroxidase activity and MDR-1 gene expression. These observations need to be taken to the clinic.
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PMID:Advances in the diagnosis and management of sarcomas. 151 Oct 24

The resistance of malignant tumors to chemotherapy with anticancer drugs has been considered to be due partly to overexpression of the multidrug resistance gene (mdr1) and its gene product, P-glycoprotein (P-GP), which acts as a drug efflux pump for several chemotherapeutic agents. In order to elucidate the mechanism of anticancer drug resistance in anaplastic thyroid carcinoma with very poor prognosis, we examined the expression of mdr1 mRNA and P-GP, and analyzed their relationships to chemotherapy response. Twenty surgical samples from 16 patients with anaplastic thyroid carcinoma were used. The mdr1 mRNA expression was examined by reverse transcription and polymerase chain reaction, and P-GP expression was evaluated by an immunohistochemical method using JSB-1 monoclonal antibody. Of the 20 clinical samples, expression of mdr1 mRNA and P-GP was observed in three and four samples, respectively. Three of the patients from whom the samples were obtained had been given anticancer drugs before biopsy. Of 12 patients who received chemotherapy for clinically evaluable diseases, 2 responded well, but 10 showed no response. All except one patient died of cancer progression. There was no relationship between the response to chemotherapy and the expression of mdr1 and P-GP. The expression of mdr1 mRNA and/or P-GP was observed in 5 of 16 patients with anaplastic thyroid carcinoma. However, the appearance of anticancer drug resistance in anaplastic thyroid carcinoma may not be explained solely by the expression of mdr1 and P-GP.
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PMID:Multidrug resistance gene and P-glycoprotein expression in anaplastic carcinoma of the thyroid. 781 88

The overexpression of P-glycoprotein is thought to be responsible for resistance to chemotherapy in some non-responsive cancers. The mechanism by which P-glycoprotein is overexpressed in human tumors is poorly understood. However, several lines of evidence suggest that the major regulatory mechanism of P-glycoprotein overexpression in human tumors is at the transcriptional level. During tumor progression one of the most commonly observed alterations is mutation of the p53 tumor-suppressor gene. It has been shown that the p53 protein plays a role in transcriptional regulation. To gain insight into the effect p53 protein may have on P-glycoprotein promoter activity, we transiently co-transfected plasmids containing the hamster pgp1 or human mdr1 promoter linked to the chloramphenicol acetyltransferase (CAT) reporter gene with plasmids encoding either wild-type or mutant p53 protein into Chinese hamster ovary (CHO) cells. In this report, we show that wild-type p53 protein represses P-glycoprotein promoter activity, while mutant forms of p53 protein enhance P-glycoprotein promoter activity. Furthermore, we present data which indicate that the transcriptional regulatory effects of p53 are mediated through interactions with pgp1/mdr1 core promoter sequences. These findings have implications for our understanding of the molecular mechanism(s) by which p53 protein functions as a transcriptional regulator of gene expression. In addition, our results suggest a mechanism by which P-glycoprotein may be overexpressed in human cancers that also express mutant forms of p53 protein.
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PMID:The core promoter region of the P-glycoprotein gene is sufficient to confer differential responsiveness to wild-type and mutant p53. 850 78

Germ cell testicular tumors (GCTTs) are very sensitive to anticancer treatment. However some patients ultimately die of their disease due to tumor resistance. Multidrug resistance is mediated by the mdr1 gene product P-glycoprotein (P-gp) which is one important mechanism of drug resistance. This study attempted to examine the correlation between P-gp and tumor progression and to evaluate the clinical relevance of P-gp immunoreactivity in patients with GCTT. Expression of the P-glycoprotein was screened in 48 primary human GCTTs, that have not been treated with chemotherapy, using monoclonal antibody (C219) and immunoenzyme staining. Of the samples from 14 seminomatous germ cell testicular tumors (SGCT, 2 seminomas (14%), and of 34 non-seminomatous tumors (NSGCT) 18 (53%) showed high expression of P-glycoprotein. This difference proved to be significant (P = 0.006). The expression of P-gp showed a statistically significant positive correlation with cancers of advanced stages (P = 0.003) and cancers that showed resistance to chemotherapy (P = 0.0052). Detection of P-gp expression in patients with GCTTs before the application of anti-cancer treatment can be used as a useful prognostic marker to isolate patient subgroups with worse prognosis and less susceptibility to chemotherapy.
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PMID:Multidrug resistance of testis cancers: the study of clinical relevance of P-glycoprotein expression. 904 5

Increased expression of the bisecting GlcNAc has been correlated with tumor progression in several experimental tumor models. Its expression and function in brain tumors are, however, not yet known. In this study, we investigated expression of the bisecting GlcNAc structure in a series of pediatric brain tumors and its relationship to tumor response to vinblastine. A plant lectin (E-PHA) that recognizes the bisecting GlcNAc structure was used for detection of this molecule in a total of 90 pediatric brain tumors and normal brain tissue specimens. Our results showed that, whereas E-PHA staining was undetectable in the normal brain tissue, pediatric brain tumor specimens exhibited different levels of reactivity. Lectin staining was particularly prominent in high-grade astrocytomas (73%) and ependymomas (72%). In astrocytomas, there was a positive correlation with the tumor grade, which suggests that the bisecting GlcNAc may be of particular interest as a tumor marker for diagnosis and/or prognosis. By using a human glioma cell culture model, we have found that treatment of these cells with E-PHA lectin enhances their sensitivity to vinblastine. E-PHA interacted directly with the drug transporter P-glycoprotein and inhibited its drug efflux function. In a drug-resistant glioma cell line transfected with the mdr1 gene, drug resistance was reversed by E-PHA. Our findings indicate that: (a) expression of the bisecting GlcNAc in pediatric brain tumors may have a potential relevance as a tumor marker; and (b) glioma response to chemotherapy may be modulated through the bisecting GlcNAc.
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PMID:Expression of bisecting GlcNAc in pediatric brain tumors and its association with tumor cell response to vinblastine. 1058 84

To characterize the multidrug resistance (MDR) phenotype in human oral squamous cell carcinomas (OSCCs), the expression levels of four MDR-related genes (multidrug resistance, mdr1; multidrug resistance-associated protein, MRP; glutathione S-transferase-pi, GST-pi; and DNA topoisomerase II, topoII) were analyzed in OSCCs. Fifty-two OSCC tissues and 22 normal oral mucosal tissues were involved in this study. The expression of each gene was analyzed with a reverse-transcription polymerase chain reaction (RT-PCR) method using beta(2)m microglobulin (beta(2)m) mRNA as an endogenous control. The mean values of mdr1, MRP, GST-pi, and topoII gene expression relative to the beta(2)m gene in OSCC tissues were 0.37, 0.75, 0.66, and 1.11; those of normal oral mucosa were 0.40, 0.27, 0.62, and 0.91, respectively. The averaged expression levels of the MRP and topoII gene in OSCC tissues were higher than those of normal oral mucosas (P=0.001 and P=0.02, respectively). The expression levels of four MDR-related genes in OSCCs were not related with the degree of histologic cell differentiation, tumor stage, primary or recurred tumor, or the presence or absence of chemotherapy. Linear regression analysis showed a correlation between the expression levels of MRP and GST-pi in normal oral mucosas (r=0.596, P=0.003) and in OSCCs (r=0.287, P=0.039). The results suggest that MRP expression is activated during the tumorigenesis of OSCCs and that this may play a role in de novo drug resistance in OSCCs. These results should provide further insight into the complex role postulated for MDR-related genes in chemotherapy, carcinogenesis and tumor progression.
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PMID:Expression of multidrug resistance-related genes in oral squamous cell carcinomas. 1159 75

It has been shown that serum levels of interleukin (IL)-6 are elevated in patients with various types of cancer. However, the exact source of IL-6 in these patients and its role in tumor progression remain unclear. Here we demonstrate that the autocrine production of IL-6 by tumor cells promotes resistance of the cells to chemotherapy, a novel function of IL-6 in cancer biology. Breast cancer cells that are sensitive to drug treatment do not express IL-6, whereas high levels of IL-6 are produced by multidrug-resistant breast cancer cells. Expression of the IL-6 gene in drug-sensitive breast cancer cells increases their resistance to drug treatment by activating the CCAAT enhancer-binding protein family of transcription factors and inducing mdr1 gene expression. Thus, the autocrine production of IL-6 by tumor cells is an important factor in determining the susceptibility or resistance of these cells to drug treatment. Because tumors from some breast cancer patients contain IL-6-producing cells, it is possible that IL-6 could potentially be used as a prognostic factor for chemotherapy resistance.
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PMID:Autocrine production of interleukin 6 causes multidrug resistance in breast cancer cells. 1175 8

The ubiquitous NF-kappaB transcription factor has been reported to inhibit apoptosis and to induce drug resistance in cancer cells. Drug resistance is the major reason for cancer therapy failure and neoplastic cells often develop multiple mechanisms of drug resistance during tumor progression. We observed that NF-kappaB or P-glycoprotein inhibition in the HCT15 colon cancer cells led to increased apoptotic cell death in response to daunomycin treatment. Interestingly, NF-kappaB inhibition through transfection of a plasmid coding for a mutated IkappaB-alpha inhibitor increased daunomycin cell uptake. Indeed, the inhibition of NF-kappaB reduced mdr1 mRNA and P-glycoprotein expression in HCT15 cells. We identified a consensus NF-kappaB binding site in the first intron of the human mdr1 gene and demonstrated that NF-kappaB complexes could bind with this intronic site. Moreover, NF-kappaB transactivates an mdr1 promoter luciferase construct. Our data thus demonstrate a role for NF-kappaB in the regulation of the mdr1 gene expression in cancer cells and in drug resistance.
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PMID:NF-kappaB transcription factor induces drug resistance through MDR1 expression in cancer cells. 1252 11

DNA amplification plays important roles in the development of drug resistance and tumor progression. One mechanism of DNA amplification involves the breakage-fusion-bridge (BFB) cycle. We previously reported that in Chinese hamster ovary (CHO) cell line, breakage at fragile site 1q31 was associated with mdr1 gene amplification through the BFB mechanism. To elucidate the molecular basis of BFB-mediated DNA amplification, we cloned 1q31 fragile site DNA from a Chinese hamster cell line containing an integrated neomycin-resistance marker. Sequence analyses revealed many characteristics similar to those in other common fragile sites. Moreover, this fragile site contains an evolutionarily conserved novel gene, designated fragile site-associated (FSA) gene. FSA encodes a approximately 16-kb mRNA, from which an unusually large open reading frame (orf) of 5005 amino acids can be deduced. The C-terminal portion of FSA shares a striking sequence similarity to that of Caenorhabditi elegans lipid depleted-3 (lpd-3) gene whose function has been demonstrated to involve in lipid storage. We also demonstrated that expression of FSA is associated with the developmental programs of spermatogenesis and adipogenesis. Our results suggest that the Chinese hamster 1q31 fragile site has many important functions including regulation of mdr1 amplification and differentiation of adipocytes and spermatocytes.
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PMID:Molecular cloning of Chinese hamster 1q31 chromosomal fragile site DNA that is important to mdr1 gene amplification reveals a novel gene whose expression is associated with spermatocyte and adipocyte differentiation. 1654 29

Acquired drug resistance represents a frequent obstacle which hampers efficient chemotherapy of cancers. The contribution of aberrant DNA methylation to the development of drug resistant tumor cells has gained increasing attention over the past decades. Hence, the objective of the presented study was to characterize DNA methylation changes which arise from treatment of tumor cells with the chemotherapeutic drug doxorubicin. DNA methylation levels from CpG islands (CGIs) linked to twenty-eight genes, whose expression levels had previously been shown to contribute to resistance against DNA double strand break inducing drugs or tumor progression in different cancer types were analyzed. High-definition DNA methylation profiles which consisted of methylation levels from 800 CpG sites mapping to CGIs around the transcription start sites of the selected genes were determined. In order to investigate the influence of CGI methylation on the expression of associated genes, their mRNA levels were investigated via qRT-PCR. It was shown that the employed method is suitable for providing highly accurate methylation profiles, comparable to those obtained via clone sequencing, the gold standard for high-definition DNA methylation studies. In breast carcinoma cells with acquired resistance against the double strand break inducing drug doxorubicin, changes in methylation of specific cytosines from CGIs linked to thirteen genes were detected. Moreover, similarities between methylation profiles obtained from breast and ovarian carcinoma cell lines with acquired doxorubicin resistance were found. The expression levels of a subset of analyzed genes were shown to be linked to the methylation levels of the analyzed CGIs. Our results provide detailed DNA methylation information from two separate model systems for acquired doxorubicin resistance and suggest the occurrence of similar methylation changes in both systems upon exposure to the drug.
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PMID:High-definition DNA methylation profiles from breast and ovarian carcinoma cell lines with differing doxorubicin resistance. 2054 21


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