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)

A fusion between a selectable multidrug resistance (MDR1) cDNA and an adenosine deaminase (ADA) cDNA concomitantly confers multidrug resistance and ADA activity on transfected cells. We have produced a Harvey murine sarcoma virus-derived, replication-defective, recombinant retrovirus to transduce this chimeric MDR-ADA gene efficiently into a great variety of cells. Infection with the MDR-ADA retrovirus conferred the multidrug resistance phenotype on drug-sensitive cells, therefore allowing selection in the presence of colchicine. Colchicine-resistant cells synthesized large amounts of a membrane-associated 210-kDa MDR-ADA fusion protein that preserved both MDR and ADA functional activities. To monitor expression of the chimeric gene in vivo, Kirsten virus-transformed NIH cells were infected with the MDR-ADA retrovirus, and after drug-selection, injected into athymic nude mice. Tumors developed that contained the bifunctionally active MDR-ADA fusion protein. When these mouse tumor cells were placed in tissue culture without the selecting drug, they did not lose the bifunctionally active MDR-ADA fusion protein. The replication-defective, recombinant MDR-ADA retrovirus should be useful to stably introduce the chimeric MDR-ADA gene into a variety of cell types for biological experiments in vitro and in vivo.
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PMID:Retroviral transfer of a chimeric multidrug resistance-adenosine deaminase gene. 196 8

The resistance of tumor cells to chemotherapeutic drugs is a major obstacle to successful cancer chemotherapy. In human cells, expression of the MDR1 gene, encoding a transmembrane efflux pump (P-glycoprotein), leads to decreased intracellular accumulation and resistance to a variety of lipophilic drugs (multidrug resistance; MDR). The levels of MDR in cell lines selected in vitro have been shown to correlate with the steady-state levels of MDR1 mRNA and P-glycoprotein. In cells with a severalfold increase in cellular drug resistance, MDR1 expression levels are close to the limits of detection by conventional assays. MDR1 expression has been frequently observed in human tumors after chemotherapy and in some but not all types of clinically refractory tumors untreated with chemotherapeutic drugs. We have devised a highly sensitive, specific, and quantitative protocol for measuring the levels of MDR1 mRNA in clinical samples, based on the polymerase chain reaction. We have used this assay to measure MDR1 gene expression in MDR cell lines and greater than 300 normal tissues, tumor-derived cell lines, and clinical specimens of untreated tumors of the types in which MDR1 expression was rarely observed by standard assays. Low levels of MDR1 expression were found by polymerase chain reaction in most solid tumors and leukemias tested. The frequency of samples without detectable MDR1 expression varied among different types of tumors; MDR1-negative samples were most common among tumor types known to be relatively responsive to chemotherapy.
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PMID:Quantitative analysis of MDR1 (multidrug resistance) gene expression in human tumors by polymerase chain reaction. 197 52

We investigated whether two representative 1,4-dihydropyridine derivatives, NK-250 and NK-252, could potentiate the antitumor activity of multiple anticancer agents including vincristine (VCR), vinblastine, vindesine and actinomycin D in drug-resistant tumor cells and their parental drug-sensitive tumor cells. NK-250 and NK-252 at 5-10 microM almost completely reversed VCR resistance in cultured VCR-resistant P388/VCR cells derived from the mouse drug-sensitive P388/S leukemia cell line and also potentiated the cytocidal activity of VCR in drug-sensitive P388/S cells. NK-250 and NK-252 at 1-10 microM inhibited the photoaffinity labeling by [3H]azidopine of the cell-surface 170,000-molecular-weight P-glycoprotein. In chemotherapeutic experiments with leukemia-bearing mice, NK-250 or NK-252 was orally administered in combination with different drugs of the MDR phenotype administered intraperitoneally. The antitumor activity of the various combinations was found to be augmented in mice bearing P388/S- and P388/VCR-leukemia. Among the combinations examined, the combination of NK-250 and VCR was the most effective. These two 1,4-dihydropyridines, NK-250 and NK-252, are unique compounds because they were effective not only in circumventing the drug resistance, but also in potentiating the action of antitumor drugs against drug-sensitive tumors.
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PMID:Reversal by two dihydropyridine compounds of resistance to multiple anticancer agents in mouse P388 leukemia in vivo and in vitro. 197 28

The MDR P-glycoprotein has been described as a major factor of multidrug resistance. This transmembrane glycoprotein acts like an energy dependent efflux pump which possesses a broad specificity. It seems to be acting as a pump requiring drug fixation prior to extrusion. With the aim of investigating which parameters influence the recognition of drugs by the MDR system, we have determined the toxicities of different drugs on human and murine sensitive and resistant cell lines. For this purpose we have isolated and characterized a human adriamycin-resistant cell line, CEM/Adr, which presents an MDR phenotype. The tested drugs were ellipticine and olivacine derivatives which differ through discrete lateral chain substitutions. The influence of lateral chain lipophilicity and nitrogen quaternarization on drug recognition was studied. Small modifications in the chemical structure of the drugs have induced large changes in their toxicities and in the cross-resistance levels of the MDR cells to the tested compounds. The cross-resistances of the murine and human cells to the various compounds were strikingly different. The validity of murine screening models in the selection of anti-tumor drugs for human therapy must therefore be questioned.
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PMID:Comparative cytotoxicities of a series of ellipticine and olivacine derivatives on multidrug resistant cells of human and murine origins. 198 10

Extrachromosomal DNA (eDNA) is mammalian cells is represented not only as mitochondrial DNA but also as circular DNA existing both in the nucleus and in the cytoplasm. According to its size eDNA could be divided into two major classes: small polydisperse circular DNAs and large circular DNAs. Small polydisperse circular DNAs sized from 150 to 20,000 base pair are found both in the nucleus and in the cytoplasm. Large circular DNAs from 150,000 to 900,000 base pair are found in the nucleus only. Small polydisperse circular DNAs contain mainly repetitive sequences but occasionally they may contain very low repetitive sequences or unique ones. Such sequences may result from intrachromosomal recombinations, replicon misfiring, reverse transcription or fragmentation of chromosomal DNA by endogenous nucleases. Large circular DNAs are known to consist mainly of amplified sequences of oncogenes or MDR genes, which result from the deletion of appropriate regions of chromosomes. The number of copies of eDNA is greater in the malignant cells and in cells at certain stages of differentiation. The increase in copy number of eDNA reflects the intensity of processes in the cells. Autonomous replication of small and large circular DNAs is evident in tumor cells, although not all eDNAs can replicate autonomously. The presence in tumor cells of self-replicating molecules of eDNA, which are distributed in daughter cells independently of chromosomal DNA, determines presumably the high rate of adaptability of these cells to environmental conditions (metastasis and resistance to chemotherapeutic agents). It is quite possible that the existence of amplified copies of oncogenes and some other genes in the form of eDNA can determine some phenotypic characteristics of the transformed cells.
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PMID:[Extrachromosomal DNA in mammalian cells]. 209 40

Experience has shown that markers created in research laboratories can be adapted to everyday surgical pathology practice for malignant melanomas. These studies are feasible and readily conducted on frozen tissue as is routinely done in typing of lymphoma. The demonstration of heterogeneity using this monoclonal antibody panel, and other antibodies yet to come, may be important for prognostication. Tumor cell heterogeneity of surface antigens reflects disruption of the tumor cell's patterned gene expression. This should be regarded as an indication of different clones of cells (subsets) with a tumor, whether primary or secondary. It is entirely possible that autologous immune cells can kill or at least restrict the growth of subsets of melanoma cells having certain surface antigenic phenotypes while they are incompetent to handle other subsets. This would enable a particular phenotype within a primary melanoma to survive and escape the immunologic regression known to occur in 3 to 6 percent of these tumors. Such patients may present years later with metastases in the brain, liver, gastrointestinal (GI) tract, or lymph nodes. There are also implications in chemotherapy and chemoimmunotherapy for melanoma in this regard. It could be theorized that these agents may dispose of or restrict the growth of some phenotypes, leaving others in a resistant state. Perhaps the MDR gene is activated. Alternatively a tumor suppressor gene(s) could be absent or inactivated, as in neuroblastoma and carcinoma of the breast and lung. Markers present at the cell membrane surfaces and in the membranes themselves constitute an important field for study in the understanding of tumorigenesis. Many of these markers are present in embryos as early as the 4-to-8-cell stage and in blastocysts. Embryonic antigens in the intercell mass of blastocysts are stage-specific embryonic antigens. They are signals for organ development and the differentiation of cells. At various stages of this development, these markers disappear, especially upon differentiation into tissue types and specific organs. These cell signals are therefore organogenesis markers. Detecting a given antigen is not simple because it may be present but not immunohistochemically detectable because glycosylation, acetylation, phosphorylation, or sulfation have not taken place, or have resulted in a structural conformation not recognized by monoclonal antibodies.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Immunohistochemical phenotyping of malignant melanoma. A procedure whose time has come in pathology practice. 220 65

Typical multidrug resistance in human and animal cell lines is caused by overactivity of an unidirectional transmembrane drug efflux pump, encoded by the MDR genes, called mdr genes in mice and humans and pgp genes in hamsters. In humans, two mdr genes, mdr1 and mdr3, with approximately 80% nucleotide homology, have been identified. There is increasing evidence that overexpression of the mdr1 gene plays a role in resistance to anticancer agents in specific tumor types. However, currently no data are available on a possible role for mdr3 in drug resistance. Here we report high levels of expression of mdr3 gene sequences in leukemic cells from 6 out of 6 patients with prolymphocytic leukemia (PLL). No mdr1 expression was detected in 5 out of 6 of these samples, whereas a low level of mdr1 expression was found in a sample from one PLL patient in the course of transformation to non-Hodgkin's lymphoma. Except for this patient, all other PLL cases studied had not received prior chemotherapy. In vitro drug uptake studies showed that daunorubicin accumulation in PLL cells was increased by cyclosporin A. Since cyclosporin A is an inhibitor of the mdr1-encoded P-glycoprotein drug pump, these data suggest that in PLL cells mdr3 also codes for a drug efflux pump. Our findings could partly explain the primary refractoriness of PLL to chemotherapy.
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PMID:Expression of the mdr3 gene in prolymphocytic leukemia: association with cyclosporin-A-induced increase in drug accumulation. 232 39

Human renal cell carcinomas display a characteristically high degree of intrinsic chemoresistance to a multitude of chemotherapeutic agents. It was suggested previously, that P-170 glycoprotein contributes to this phenomenon in renal cell carcinoma indicated by elevated MDR-1 gene mRNA levels and by the expression of this specific resistance characteristic. The P-170-related efflux mechanism can be inactivated by certain calcium antagonists. P-170 was traced immunohistochemically using monoclonal antibody C 219. Concomitantly, we studied the enhancement of vinblastine cytotoxicity with 4 major classes of calcium-blocking agents in a microculture tetrazolium assay. Seven different calcium antagonists were selected: verapamil (VPM, racemic form), its R-stereoisomer (R-VPM), diltiazem, flunarizine, nifedipine, and its derivatives nimodipine and nitrendipine. Verapamil or R-verapamil causes a significant decrease of viable tumor cells as compared to vinblastine alone (P less than 0.001). Similar effects were found with diltiazem, nifedipine, and its derivatives reaching approximately 70% of the VPM/R-VPM activity. Flunarizine showed only minor enhancement of cytotoxicity. P-170 expression was demonstrated in 18 of 32 tumors, and a relation to chemoresistance was evident. None of the chemoresponders, but 18 of 25 (72%) of the highly resistant tumors, revealed this resistance factor. It was concluded that certain calcium antagonists in combination with chemotherapy may well offer therapeutic options in renal cell carcinoma as they apparently inactivate the underlying mechanism conferring resistance. The new stereoisomer R-VPM, in particular, may be used in clinical trials since it combines strong enhancement of vinblastine drug responsiveness with a 10-fold lower cardiovascular activity as compared to racemic VPM, thus allowing higher concentrations to be applied.
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PMID:Effects of calcium antagonists in multidrug resistant primary human renal cell carcinomas. 234 May 16

Sixteen human breast carcinomas were subjected to molecular biological and biochemical analyses to determine tumor cell MDR-1 (P-glycoprotein) levels and progesterone receptor content. The results of these analyses disclosed a strong reciprocal and inverse correlation between levels of tumor cell-specific MDR-1 complementary hybrids and progesterone receptor content. These results suggest that the mechanisms which control expression of the P-glycoprotein gene and the progesterone receptor are interrelated and antagonistic, a result with obvious molecular biological, physiological, and clinical implications.
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PMID:Human breast carcinoma cell levels of MDR-1 (P-glycoprotein) transcripts correlate in vivo inversely and reciprocally with tumor progesterone receptor content. 257 82

Tumor cells often become refractory to diverse drugs with different mechanisms of cytotoxic action. This paper reviews the current state of our knowledge of multidrug resistance, the limitations of present concepts to fully explain the diversity of the MDR phenotypes, and the clinical relevance of these studies derived largely from cell culture systems. The authors discuss the use of markers associated with the multi-drug resistance phenotype to identify potentially drug-resistant tumors and outline strategies that might be used to overcome the resistance phenomenon.
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PMID:Mechanisms and clinical significance of multidrug resistance. 307 88

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