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
Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Drug resistance is a major impediment to the effective treatment of parasitic diseases. The role of multidrug resistance (mdr) genes and their products in this drug resistance phenomenon, however, remains controversial. In order to determine whether mdr gene amplification and overexpression can be connected to a multidrug resistance phenotype in parasitic protozoa, a mutant strain of Leishmania donovani was generated by virtue of its ability to proliferate in medium containing increasing concentrations of vinblastine. The vinblastine-resistant strain, VINB1000, displayed a cross-resistance to puromycin and the anthracyclines, a growth phenotype that could be attributed to an impaired ability to accumulate the toxic drugs. By using the polymerase chain reaction, two different DNA fragments, LEMDR06 and LEMDRF2, were amplified from leishmanial genomic DNA, and each amplified fragment encoded a product that was significantly homologous to parts of the mammalian P-glycoprotein. In the VINB1000 strain, the mdr gene recognized by the LEMDR06 probe was amplified approximately 50-fold in copy number, whereas the mdr genes that hybridized to LEMDRF2 or to a fragment of the previously characterized ltpgpA gene were not amplified. Moreover, the VINB1000 cell line expressed a LEMDR06 gene transcript of 12.5 kb in size that was not detected in the parental wild-type strain. To furnish a functional test for mdr gene amplification and expression in L. donovani, the L. donovani gene recognized by the LEMDR06 polymerase chain reaction product, ldmdr1, was isolated from a genomic library, transfected into wild-type cells, and amplified over 500-fold by selection in 0.5 mg of
G418
per ml. The resulting transfectants were resistant to all drugs to which VINB1000 cells were resistant and sensitive to all drugs to which VINB1000 cells were sensitive. These studies demonstrate that amplification of the ldmdr1 gene either by direct selection or subsequent to transfection can confer a drug-resistant phenotype in parasitic protozoa similar to that observed for
MDR
mammalian cells.
...
PMID:Multidrug resistance in Leishmania donovani is conferred by amplification of a gene homologous to the mammalian mdr1 gene. 135 Mar 25
In order to reverse P-glycoprotein-mediated drug resistance in a specific manner, we designed two hammerhead ribozymes which can cleave the GUC sequence in codon 179 and 196 of MDR1 (PGY1) mRNA. The ribozymes were directly synthesized using a set of primers, one containing a bacteriophage T7 RNA polymerase promoter. A target MDR1 RNA was created by a reverse transcription polymerase chain reaction using a MOLT-3 human acute leukemia cell line resistant to trimetrexate (TMQ) (MOLT-3/TMQ800), which displayed MDR1 overexpression. In a cell-free system, both ribozymes cleaved a target piece of MDR1 RNA into 2 fragments at the specific sites at a physiological pH and temperature. The cleavage reaction was dependent on time, ribozyme:substrate ratio, and magnesium concentration. The 196 MDR1 ribozyme was more active than the 179 MDR1 ribozyme. The 196 MDR1 ribozyme was then cloned into a human expression vector, and MOLT-3/TMQ800 cells were transfected. The original MOLT-3/TMQ800 cells were nearly 700-fold resistant to vincristine, whereas the transfectant cells selected in
G418
became only 20- to 30-fold resistant. The level of resistance and the amount of MDR1 RNA expressed appeared to correlate inversely with the amount of ribozyme expression. A disabled 196 MDR1 ribozyme was capable of neither specific cleavage in vitro nor decreasing MDR1 expression in transfectant cells. These results indicate that it was the ribozyme activity and not antisense activity which was responsible for decreased MDR1 RNA. This approach may be applicable to cancer patients as a specific means to reverse tumors with P-glycoprotein-mediated
MDR
phenotype back to a drug-sensitive one.
...
PMID:Reversal of drug sensitivity in multidrug-resistant tumor cells by an MDR1 (PGY1) ribozyme. 811 16
Recent studies indicate that wild-type p53 can trigger cell apoptosis induced by many chemotherapeutic agents which induce DNA damage or cause disruptions of DNA metabolism, such as ADM, 5-FU, VP-16 and radiation. We introduced the wild-type p53 gene into a
MDR
cell line KBV200 in which the endogenous p53 was found to be rearranged. By
G418
selection and Northern blot analysis, a
G418
-resistant clone named KBV200-p53 was obtained which continuously expressed the exogenous wild-type p53 mRNA. After treatment with Vincristine(VCR), the wild type p53-expression cells presented typical morphology characteristic of apoptosis analysed under electron and fluorescence microscopes. Flow cytometer analysis showed that the KBV200-p53 cells were more readily undergo apoptosis than their parental cells KBV200. After treatment with VCR 600 nmol.L-1 for 24 h, the apoptotic percentage of KBV200-p53 and KBV200 cells was about 42.4% and 8.4%, respectively. This result indicates that wild-type p53 stimulates VCR-induced apoptosis in KBV200 cells.
...
PMID:[Wild-type p53 stimulates vincristine-induced apoptosis]. 1159 2
AIM:To construct Hsp90 antisense RNA eukaryotic expression vector, transfect it into SGC7901 and SGC7901/VCR of
MDR
-type human gastric cancer cell lines, HCC7402 of human hepatic cancer and Ec109 of human esophageal cancer cell lines, and to study the cell cycle distribution of the gene transected cells and their response to chemotherapeutic drugs.METHODS:A 1.03kb cDNA sequence of Hsp90beta was obtained from the primary plasmid phHSP90 by EcoR I and BamH I nuclease digestion and was cloned to the EcoR I and BamH I site of the pcDNA by T4DNA ligase and an antisense orientation of Hsp90beta expression vector was constructed. The constructs were transfected with lipofectamine and positive clones were selected with
G418
. The expression of RNA was determined with dot blotting and RNase protection assay, and the expression of Hsp90 protein determined with western blot. Cell cycle distribution of the transfectants was analyzed with flow cytometry, and the drug sensitivity of the transfectants to Adriamycin (ADR), vincrinstine (VCR), mitomycin (MMC) and cyclophosphamide (CTX) with MTT and intracellular drug concentration of the transfectants was determined with flow cytometry.RESULTS:In EcoR I and BamH I restriction analysis, the size and the direction of the cloned sequence of Hsp90beta remained what had been designed and the gene constructs were named pcDNA-Hsp90.AH-SGC7901, AH-SGC7901/VCR, AH-HCC7402 and AH-Ec109 cell clones all expressed Hsp90 anti-sense RNA. The expression of Hsp90 was down-regulated in AH-SGC7901, AH-SGC7901/VCR, AH-HCC7402 and AH-Ec109 cell clones. Cell cycle distribution was changed differently. In AH-SGC7901/VCR and AH-Ec109 cells, G(1) phase cells were increased; S phase and G(2) phase cells were decreased as compared with their parental cell lines. In AH-SGC7901 cell, G(1)phase cells were decreased, G(2) phase cells increased and S phase cells were not changed, and in AH-HCC7402 cells G(1), S and G(2) phase cells remained unchanged as compared with their parental cell lines. The sensitivity of AH-SGC7901, AH-SGC7901/VCR, AH-HCC7402 and AH-Ec109 to chemotherapeutic drugs, the sensitivity of AH-SGC7901/VCR to ADR, VCR, MMC and CTX the sensitivity of AH-HCC7402 to ADR and VCR, and the sensitivity of Ec109 to ADR, VCR and CTX all increased as compared with their parental cell lines. The mean fluorescence intensity of ADR in AH-SGC7901, AH-SGC7901/VCR, AH-HCC7402 and AH-Ec109 was also significantly elevated (P < 0.05).CONCLUSION: Down-regulation of Hsp90 could change cell cycle distribution and increase the drug sensitivity of tumor cells.
...
PMID:Down-regulation of Hsp90 could change cell cycle distribution and increase drug sensitivity of tumor cells. 1181 30
