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Second-site antibiotic resistance mutations in the ribosomal region of yeast mitochondrial DNA (1982)

Knight, Jeffrey A. ; Courey, Albert J. ; Stebbins, Barbara

Springer

Current genetics 5 (1982), S. 21-27

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ISSN: 1432-0983

Keywords: Yeast ; Mitochondrial DNA ; Antibiotic resistance mutations

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary A large proportion of the spontaneous erythromycin resistant mutants isolated from a strain carrying a previously-induced chloramphenicol resistance mutation at cap3 do not map at ery1, the locus most often associated with mitochondrial erythromycin resistance. Most of the new mutations are also nonallelic at spil, spi2, and other known antibiotic resistance loci within the 21S rRNA gene; they are allelic with each other and define the new locus, ery2. Induced second-site erythromycin resistant mutants from the cap r3 strain, as well as spontaneous or induced mutants from strains carrying a cap r 1 mutation, all tend to map at eryl. The cap r3 mutation is apparently necessary for the expression of erythromycin resistance resulting from a second mutation at ery2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00445736

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Nuclear suppressors of mitochondrial chloramphenicol resistance in Baker's yeast: their use for the isolation of novel mutants (1984)

Knight, Jeffrey A. ; Wedeen, Cathy J. ; Hughes, Kathryn A.

Springer

Current genetics 8 (1984), S. 121-126

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ISSN: 1432-0983

Keywords: Yeast ; Mitochondrial DNA ; Antibiotic resistance mutations ; Suppressor

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Strains that are genotypically sensitive to chloramphenicol and also contain one of the nuclear suppressors of mitochondrial chloramphenicol resistance (Waxman et al. 1979) were constructed. A manganese mutagenesis on such a strain produced chloramphenicol resistant mutants, most of which resulted from mutations in nuclear genes. These mutants may be either dominant or recessive, and they probably do not code for membrane proteins. The few mitochondrial mutants fall into several classes, but all result from mutations in the 21S rRNA gene. The suppressor allele effectively prevents the appearance of the most common group of mitochondrial mutants (those that map at cap1), and thereby enhances the selection of novel mutants in the region.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00420230

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Moscow, Jeffrey A. ; Dixon, Katharine H.

Springer

Cytotechnology 12 (1993), S. 155-170

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ISSN: 1573-0778

Keywords: etoposide ; doxorubucin ; glutathione ; glutathione peroxidase ; glutathione reductase ; glutathione S-transferase ; multidrug resistance ; P-glycoprotein ; vincristine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Process Engineering, Biotechnology, Nutrition Technology

Notes: Abstract This review examines the hypothesis that glutathione and its associated enzymes contribute to the overall drug-resistance seen in multidrug resistant cell lines. Reports of 34 cell lines independently selected for resistance to MDR drugs are compared for evidence of consistent changes in activity of glutathione-related enzymes as well as for changes in glutathione content. The role of glutathione S-transferases in MDR is further analyzed by comparing changes in sensitivity to MDR drugs in cell lines selected for resistance to non-MDR drugs that have resulting increases in glutathione S-transferase activity. In addition, results of studies in which genes for glutathione S-transferase isozymes were transfected into drug-sensitive cells are reviewed. The role of the glutathione redox cycle is examined by comparing changes in elements of this cycle in MDR cell lines as well as by analyzing reports of the effects of glutathione depletion on MDR drug sensitivity. Overall, there is no consistent or compelling evidence that glutathione and its associated enzymes augment resistance in multidrug resistant cell lines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00744663

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Inhibition of P-Glycoprotein by D-α-Tocopheryl Polyethylene Glycol 1000 Succinate (TPGS) (1999)

Dintaman, Jay M. ; Silverman, Jeffrey A.

Springer

Pharmaceutical research 16 (1999), S. 1550-1556

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ISSN: 1573-904X

Keywords: P-glycoprotein ; TPGS ; drug transport ; bioavailability

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. To investigate whether d-α-tocopheryl polyethylene glycol 1000 succinate (TPGS) functions as an inhibitor of P-glycoprotein (P-gp), the multidrug resistance transporter. Methods. Two assays were used to measure the function of TPGS on P-gp function. First, we examined the ability of TPGS to modulate the cytotoxicity of established, cytotoxic, P-glycoprotein substrates. Parental NIH 3T3 cells and NIH 3T3 cells transfected with the human MDR1 cDNA (G185) were exposed to doxorubicin, paclitaxel, colchicine, vinblastine and 5-fluorouracil (5FU) in the presence or absence of TPGS. Cytotoxicity was assessed with the MTT assay. Second, polarized transport of the P-gp substrates rhodamine 123 (R123), paclitaxel and vinblastine was measured using the human intestinal HCT-8 and Caco-2 cell lines grown in Transwell dishes. Drug flux was measured by liquid scintillation counting or fluorescence spectroscopy of the media. Results. G185 cells were 27−135 fold more resistant to the cytotoxic drugs doxorubicin, vinblastine, colchicine and paclitaxel than the parental NIH 3T3 cells. In contrast 5FU, which is not a P-gp substrate, is equally cytotoxic to parental and G185 cells. Co-administration of TPGS enhanced the cytotoxicity of doxorubicin, vinblastine, paclitaxel, and colchicine in the G185 cells to levels comparable to the parental cells. TPGS did not increase the cytotoxicity of 5FU in the G185 cells. Using a polarized epithelial cell transport assay, TPGS blocked P-gp mediated transport of Rl 23 and paclitaxel in a dose responsive manner. Conclusions. These data demonstrate that TPGS acts as a reversal agent for P-glycoprotein mediated multidrug resistance and inhibits P-gp mediated drug transport. These results suggest that enhanced oral bioavailability of drugs co-administered with TPGS may, in part, be due to inhibition of P-glycoprotein in the intestine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1015000503629

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