Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

S-Adenosylmethionine (AdoMet) synthetase (EC 2.5.1.6), which catalyzes the synthesis of AdoMet from methionine and ATP, is the major methyl donor for transmethylation reactions and propylamino donor for the biosynthesis of polyamines in biological systems. We have reported previously that wild-type C-1300 murine neuroblastoma (wMNB) cells, made resistant to the nucleoside analogue (Z)-5'-fluoro-4',5'-didehydro-5'-deoxyadenosine (MDL 28,842), an irreversible inhibitor of S-adenosylhomocysteine (AdoHcy) hydrolase (EC 3.3.1.1), express increased AdoMet synthetase activity (M. R. Hamre et al., Oncol. Res., 7: 487-492, 1995). In the present study, immunoblot analyses of AdoMet Synthetase with isoform-specific (MATII) antibodies demonstrated an elevation in the AdoMet synthetase immunoprotein in nucleoside analogue-resistant MNB cells (rMNB-MDL) when compared to wild-type, nonresistant MNB cells. An increase of 2.1-fold was observed in the alpha2/alpha2' catalytic subunit, which differed significantly from the much smaller increment in the noncatalytic beta-subunit of AdoMet synthetase. Densitometric analyses revealed that an increased expression of AdoMet synthetase in rMNB-MDL cells was due to overexpression of the alpha2 (Mr 53,000; 2.6-fold) and alpha2' (Mr 51,000; 1.8-fold) subunits. AdoMet synthetase mRNA expression in rMNB-MDL cells was remarkably greater than wMNB cells, as determined by quantitative competitive reverse transcription-PCR (QC-PCR) analysis. DNA (cytosine) methyl transferase expression, measured by reverse transcription-PCR analysis, was also elevated significantly in rMNB-MDL cells. In contrast, Western blot analyses demonstrated down-regulation (1.6-fold) of AdoMet synthetase in doxorubicin-resistant human leukemia cells (HL-60-R) expressing multidrug resistance protein when compared with wild-type, nonresistant HL-60 cells. The resistance of rMNB-MDL cells to nucleoside analogue inhibitors of S-adenosylhomocysteine hydrolase correlates directly with overexpression of the alpha2/alpha2' subunits of AdoMet synthetase. Cellular adaptation allows sufficient AdoMet to be synthesized, so that viability of the MNB cells can be maintained even in the presence of high AdoHcy concentrations. This novel mechanism of drug resistance does not appear to require multidrug resistance protein (P-glycoprotein) overexpression.
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PMID:S-adenosylmethionine synthetase is overexpressed in murine neuroblastoma cells resistant to nucleoside analogue inhibitors of S-adenosylhomocysteine hydrolase: a novel mechanism of drug resistance. 1021 91

IDN5109 is a new taxane, derived from 14beta-hydroxy-10-deacetylbaccatin III, selected for its lack of cross-resistance in tumor cell lines expressing the multidrug resistant phenotype. Because, unlike paclitaxel, IDN5109 is a poor substrate for P-glycoprotein, we hypothesized that IDN5109 given p.o. could improve bioavailability compared with paclitaxel. Here, we studied the p.o. and i.v. pharmacokinetics of IDN5109 together with its antitumor activity. Using a high-performance liquid chromatography method, the bioavailability of IDN5109 was determined to be 48% after oral delivery. IDN5109 given p.o. was highly active against the two human ovarian carcinoma xenografts 1A9 and HOC18 (90-100% tumor regressions) and showed significant activity on the paclitaxel-resistant MNB-PTX1 xenograft (10% tumor regressions). The p.o. administration was as active as the i.v. route at doses reflecting the pharmacokinetic data. IDN5109 is the first taxane with good oral bioavailability and potent antitumor activity and represents a potential candidate for clinical investigation.
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PMID:IDN5109, a taxane with oral bioavailability and potent antitumor activity. 1070 91

We have previously reported that C-1300 murine neuroblastoma (rMNB) cells made resistant to the nucleoside analogue, (Z)-5'-fluoro-4', 5'-didehydro-5'deoxyadenosine (MDL), an irreversible inhibitor of S-adenosylhomocysteine (AdoHcy) hydrolase have an increased expression of the S-adenosylmethionine (AdoMet) synthetase gene. Results of the immunoblot analysis of DNA (cytosine) methyltransferase with anti-human DNA (cytosine) methyltransferase specific polyclonal antibody demonstrated a significant increase ( approximately 2-fold, p<0.01) in expression of DNA (cytosine) methyltransferase protein in rMNB/MDL cells compared to wild-type C1300 MNB (wMNB) cells. To rule out the possibility that multidrug resistance (MDR) genes are involved in development of acquired drug resistance in murine neuroblastoma (rMNB/MDL) cells made resistant to MDL, the expression of Mdr1a, Mdr1b, Mdr2 (multidrug resistance/P-glycoprotein), and Mrp-1 (multidrug resistance associated protein) was examined in rMNB-MDL cells. The analysis of Mdr and Mrp-1 expression was performed by RT-PCR using PCR specific primers to respective genes. No significant difference was observed in the expression of MDR1a, Mdr1b and Mrp-1 genes between wMNB and rMNB-MDL cells, however, a slight decrease was noticed in Mdr1 expression in some samples. Expression of the Mdr2 (human MDR3) gene, which is not associated with the acquired drug resistance phenotype, was significantly decreased in rMNB-MDL cells. These findings were also confirmed by the immunoblot analyses using specific monoclonal antibodies to Mdr1/3 proteins. Expression of N-Myc gene--a prognostic factor in neuroblastoma tumors was also not altered in rMNB-MDL cells. Results of the present study suggest that acquired drug resistance in rMNB-MDL cells to MDL is associated to the overexpression of DNA (cytosine) methyltransferase, and could be due to genetic or epigenetic changes in particular to DNA hypermethylation in response to an increased AdoMet synthetase gene expression.
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PMID:DNA (cytosine) methyltransferase overexpression is associated with acquired drug resistance of murine neuroblastoma cells. 1117 99