R Soffir scite author profile

The human MDR (P-glycoprotein) gene family is known to include two members, MDR] and MDR2. The product of the MDR] gene, which is responsible for resistance to different cytotoxic drugs (multidrug resistance), appears to serve as an energy-dependent efflux pump for various lipophilic compounds. The function of the MDR2 gene remains unknown. We have examined the structure of the human MDR gene family by Southern hybridization of DNA from different multidrug-resistant cell lines with subfragments of MDR] cDNA and by cloning and sequencing of genomic fragments. We have found no evidence for any other cross-hybridizing MDR genes. The sequence of two exons of the MDR2 gene was determined from genomic clones. Hybridization with single-exon probes showed that the human MDR] gene is closely related to two genes in mouse and hamster DNA, whereas MDR2 corresponds to one rodent gene. The human MDR locus was mapped by field-inversion gel electrophoresis, and both MDR genes were found to be linked within 330 kilobases. The expression patterns of the human MDR genes were examined by enzymatic amplification of cDNA. In multidrug-resistant cell lines, increased expression of MDR] mRNA was paralleled by a smaller increase in the levels of MDR2 mRNA. In normal human tissues, MDR2 was coexpressed with MDR] in the liver, kidney, adrenal gland, and spleen. MDR] expression was also detected in colon, lung, stomach, esophagus, muscle, breast, and bladder.

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Multidrug resistance of DNA-mediated transformants is linked to transfer of the human mdr1 gene.

Shen¹,

Fojo²,

Roninson³

et al. 1986

Mol. Cell. Biol.

140

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Multidrug Resistance of DNA-Mediated Transformants is Linked to Transfer of the Human mdr1 Gene

Shen

Fojo

Roninson

et al. 1986

Molecular and Cellular Biology

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Mouse NIH 3T3 cells were transformed to multidrug resistance with high-molecular-weight DNA from multidrug-resistant human KB carcinoma cells. The patterns of cross resistance to colchicine, vinblastine, and doxorubicin hydrochloride (Adriamycin; Adria Laboratories Inc.) of the human donor cell line and mouse recipients were similar. The multidrug-resistant human donor cell line contains amplified sequences of the mdr1 gene which are expressed at high levels. Both primary and secondary NIH 3T3 transformants contained and expressed these amplified human mdr1 sequences. Amplification and expression of the human mdr1 sequences and amplification of cotransferred human Alu sequences in the mouse cells correlated with the degree of multidrug resistance. These data suggest that the mdr1 gene is likely to be responsible for multidrug resistance in cultured cells.

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Structure and Expression of the Human MDR (P-Glycoprotein) Gene Family

Chin

Soffir

Noonan

et al. 1989

Molecular and Cellular Biology

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The human MDR (P-glycoprotein) gene family is known to include two members, MDR1 and MDR2. The product of the MDR1 gene, which is responsible for resistance to different cytotoxic drugs (multidrug resistance), appears to serve as an energy-dependent efflux pump for various lipophilic compounds. The function of the MDR2 gene remains unknown. We have examined the structure of the human MDR gene family by Southern hybridization of DNA from different multidrug-resistant cell lines with subfragments of MDR1 cDNA and by cloning and sequencing of genomic fragments. We have found no evidence for any other cross-hybridizing MDR genes. The sequence of two exons of the MDR2 gene was determined from genomic clones. Hybridization with single-exon probes showed that the human MDR1 gene is closely related to two genes in mouse and hamster DNA, whereas MDR2 corresponds to one rodent gene. The human MDR locus was mapped by field-inversion gel electrophoresis, and both MDR genes were found to be linked within 330 kilobases. The expression patterns of the human MDR genes were examined by enzymatic amplification of cDNA. In multidrug-resistant cell lines, increased expression of MDR1 mRNA was paralleled by a smaller increase in the levels of MDR2 mRNA. In normal human tissues, MDR2 was coexpressed with MDR1 in the liver, kidney, adrenal gland, and spleen. MDR1 expression was also detected in colon, lung, stomach, esophagus, muscle, breast, and bladder.

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R Soffir

Structure and expression of the human MDR (P-glycoprotein) gene family.

Multidrug resistance of DNA-mediated transformants is linked to transfer of the human mdr1 gene.

Multidrug Resistance of DNA-Mediated Transformants is Linked to Transfer of the Human mdr1 Gene

Structure and Expression of the Human MDR (P-Glycoprotein) Gene Family

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