Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:3.6.3.44 (
P-glycoprotein
)
13,344
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous data showing the correlation of multidrug resistance (MDR) and differentiation in tumor cell populations (Melloni et al. 1988; Stavrovskaya et al. 1990) suggest that: 1) isolation of MDR cells by cytostatic drugs leads to the selection of more differentiated cell variants and 2) in more differentiated cell variants the activity of MDR-related
P-glycoprotein
(Pgp) is more prominent than in less differentiated cells. Here we used human melanoma cell line mS and two variants selected from mS population: a) MDR variant of mS selected by colchicine (mS-0.5) and b) mS-trRAR/2--variant obtained by introduction of expressing retinoic acid receptor
RAR-alpha
cDNA into mS cell. The differentiation status, expression of MDR1 gene and Pgp functioning were compared in wild-type cells and mS variants. Electron microscopic examination of melanosomes showed that the mS-0.5 subline comprised more differentiating cells in the population than parental mS cultures and that these cells were at later stages of melanogenesis. The increase in the degree of differentiation in mS-0.5 population coincided with MDR1 gene overexpression, occurrence of Pgp molecules on the cell membrane and acceleration of Pgp-mediated Rhodamine 123 (Rh123) efflux. mS-trRAR/2, proved to be more differentiated than mS cells. The MDR1 mRNA level and Rh123 efflux were not elevated in mS-trRAR/2 cells, however, retinoic acid (RA) treatment increased both the degree of differentiation and Rh123 efflux in mS-trRAR/2 to a greater extent than in mS cultures. Thus, the data obtained in this study are in favor of the suppositions mentioned above. The mechanisms of coordinated alterations of differentiation and Pgp activity in MDR cells are discussed.
...
PMID:Alterations of melanin synthesis in human melanoma cells selected in vitro for multidrug resistance. 758 Jan 2
Recent studies have shown that a high proportion of patients with acute promyelocytic leukemia (APL) achieve complete remission after treatment with all-trans retinoic acid (RA). Nevertheless, despite an initial good response, most patients who received continuous treatment with all-trans RA relapsed and develop RA-resistant disease. The detailed mechanisms for this development of RA resistance by APL cells are still unclear. Several possible mechanisms have been considered to explain in vitro resistance to RA. One obvious explanation is the generation of new mutations in the retinoid receptors. However, UF-1 cells (the first permanent APL cell line with RA-resistant features) had no point mutations in the ligand-binding domain of the
RAR-alpha
gene. Another potential mechanism for clinical RA resistance is the pharmacologic alteration in the metabolism of all-trans RA. Continuous treatment with all-trans RA in APL is associated with a progressive reduction of the plasma concentrations of RA. Induction of cytochrome P-450, cellular RA-binding protein (CRABP) and
P-glycoprotein
resulted in lower plasma and cellular levels of active retinoids. Thus, acquired resistance to RA may be explained at least in part by drug metabolism in leukemic cells.
...
PMID:Retinoid resistance in leukemic cells. 925 Aug 12
The goal of our study was to obtain direct evidence of co-ordinated regulation of
P-glycoprotein
(
P-gp
)-mediated multidrug resistance (MDR) and differentiation in tumour cells and to study some signalling pathways involved in joint regulation of these two cell phenotypes. The sublines of human melanoma (mS) and hepatoma (human HepG2 and rat McA RH 7777) cell lines were obtained by retroviral infection of the wild-type cells with the cDNA of the human
retinoic acid receptor alpha
(RAR alpha). The resulting sublines stably overexpressed exogenous RAR alpha gene. The infectants became more differentiated than the parental cells as determined by a decrease in the synthesis of the embryo-specific alpha-fetoprotein in HepG2 and McA RH 7777 hepatoma cells and by an increase in melanin synthesis in mS cells. The differentiation of human cells was accompanied by an increase in the amounts of MDR1 mRNA but not by an increase in
P-gp
activity as a drug transporter, in contrast, in the rat RAR alpha overexpressing cells
P-gp
functional activity was elevated. Treatment with cytotoxic drug (colchicine) or retinoic acid (RA) resulted in a slight increase in
P-gp
activity in the parental and RAR alpha-infected melanoma cells, whereas the increase in
P-gp
function in the infected hepatoma cells (both human and rat) was very prominent. Thus, we provide new evidence that cell differentiation caused by the overexpression of the gene participating in the differentiation programme leads to overexpression of MDR1 gene and drug resistance and that this effect is tissue and species specific. These data imply that the activation of the RA-controlled signalling pathway up-regulates MDR1 gene expression.
...
PMID:Influence of exogenous RAR alpha gene on MDR1 expression and P-glycoprotein function in human and rodent cell lines. 966 38
Treatment of ovarian carcinomas with the antimitotic antitumor drug paclitaxel is highly efficacious. However, development of drug resistance presents a major obstacle. The common cellular phenotypes associated with paclitaxel resistance are an increased expression of the drug transport protein
P-glycoprotein
(
P-gp
), an alteration in the levels of beta-tubulin isotypes, and/or changes in the drug binding affinity of the microtubules. We established two paclitaxel-resistant human ovarian carcinoma cell lines. The 2008/17/4 cells exhibited a "classic" multidrug-resistant phenotype (overexpression of
P-gp
associated with cross-resistance to natural product drugs), whereas the 2008/13/4 cells were an atypical multidrug-resistant subline (no overexpression of
P-gp
). In addition to being paclitaxel resistant (250-fold), the 2008/13/4 cells were also cross-resistant to etoposide (39-fold) and vincristine (460-fold). To identify the alterations in the gene expression profile associated with the development of atypical paclitaxel resistance, we used the Clontech Atlas Human Cancer cDNA Microarray (spotted with 588 genes). The expression of retinoic acid receptor (RAR)-gamma was significantly higher in the paclitaxel-resistant (2008/13/4 and 2008/17/4) cells than in the parental (2008) cells. Northern blotting analysis demonstrated that the expression of RAR-gamma was 7-fold higher in the 2008/13/4 and 2008/17/4 cells than in the 2008 cells, whereas the expression of
RAR-alpha
and RAR-beta was not observed in any cell line. Whereas the 2008, 2008/13/4, and 2008/17/4 cells were found to resist the antiproliferative effects of all-trans-retinoic acid, the paclitaxel-resistant cells were 6- to 7-fold cross-resistant to the antiproliferative effects of CD437 (a synthetic RAR-gamma-selective agonist; 6-[-(1-admantyl)-4-hydroxyphenyl]-2-naphthalenecarboxylic acid) compared with the sensitivity of the parental cells. To further understand the association of paclitaxel and CD437 resistance with the observed RAR-gamma overexpression, we transfected the 2008 cells with a full-length RAR-gamma cDNA construct. Two transfectants with increased expression of the RAR-gamma mRNA and protein were isolated and subjected to growth inhibition assays in the presence of various concentrations of paclitaxel, etoposide, vincristine, and CD437. The sensitivity of the 2008 transfected clones (displaying increased expression of RAR-gamma) to the cytotoxic effects of paclitaxel, etoposide, vincristine, and CD437 was similar to that observed in the parental 2008 cells. These results suggest that the overexpression of RAR-gamma (observed in the 2008/13/4 and 2008/17/4 cells) by itself is not capable of inducing paclitaxel and CD437 resistance (or resistance to etoposide and vincristine).
...
PMID:Cross-resistance to the synthetic retinoid CD437 in a paclitaxel-resistant human ovarian carcinoma cell line is independent of the overexpression of retinoic acid receptor-gamma. 1192 43
