azidopine and iodomycin

azidopine has been researched along with iodomycin* in 2 studies

Other Studies

2 other study(ies) available for azidopine and iodomycin

ArticleYear
Iodomycin and iodipine, a structural analogue of azidopine, bind to a common domain in hamster P-glycoprotein.
    European journal of biochemistry, 1999, Volume: 264, Issue:3

    Both the overexpression of P-glycoprotein and the broad range of substrates of this ATP-binding cassette (ABC) transporter induce the phenomenon of multidrug resistance, one major cause of the failure of cancer chemotherapy in humans. This study reports that [125I]iodipine, a structural analogue of the 1,4-dihydropyridine azidopine, shares a common binding site with iodomycin, a Bolton-Hunter derivative of the anthracycline daunomycin. This binding site is different from that described for iodoarylazidoprazosin, which is presumed to share a common binding site with azidopine. Edman sequencing revealed that [125I]iodipine had photolabelled the same peptide as iodomycin and spans the primary sequence of hamster isoform pgp1 from amino acid 230 to amino acid 312.

    Topics: Affinity Labels; Animals; ATP Binding Cassette Transporter, Subfamily B, Member 1; Azides; Binding Sites; CHO Cells; Cricetinae; Daunorubicin; Dihydropyridines; Drug Resistance, Multiple; Humans; Iodine Radioisotopes; Iodobenzenes

1999
Effect of anthracycline analogs on photolabelling of p-glycoprotein by [125I]iodomycin and [3H]azidopine: relation to lipophilicity and inhibition of daunorubicin transport in multidrug resistant cells.
    British journal of cancer, 1993, Volume: 67, Issue:2

    Eight anthracycline analogs that have been shown to modulate multidrug resistance (Friche et al., Biochem. Pharmacol., 39, 1721-1726; 1990) were tested for their inhibitory effect on the photolabelling of P-glycoprotein. We photoaffinity labelled P-glycoprotein in daunorubicin (DNR) resistant Ehrlich ascites tumour cells (EHR2/DNR +) with a [125I]iodinated Bolton-Hunter derivative of daunorubicin ([125I]iodomycin) and with [3H]azidopine. The photolabelling of P-glycoprotein by [125I]iodomycin was inhibited more than 50% by 10 microM (1000-fold molar excess) of DNR (52%), N,N-dibenzyl-DNR (52%), and N-benzyladriamycin-14-valerate (AD-198) (85%). Vincristine at 10 microM inhibited [125I]iodomycin labelling of P-glycoprotein by 95%. Thus vincristine was more potent than any of the eight anthracyclines tested, despite its relatively low lipophilicity. Increasing the concentration of DNR, AD-198 and N,N-dibenzyl-DNR to 40 microM resulted in 90, 99.5 and 99.5% inhibition of P-glycoprotein labelling by [125I]iodomycin, respectively. In comparison with the other anthracycline analogs, N,N-dibenzyl-DNR and Ad-198 were also found to exert the greatest inhibition of [3H]azidopine labelling of P-glycoprotein (about 90% at 100-fold molar excess). The solvents Cremophor EL and Tween 80 (30 micrograms ml-1; 0.003% v/v), which are modulators of multidrug resistance in EHR2/DNR + cells, also inhibited [125I]iodomycin labelling > 90%. We showed earlier that there is a correlation between the lipid solubility within the anthracycline group of MDR-associated drugs and their ability to enhance DNR accumulation in EHR2/DNR + cells but a corresponding correlation to lipophilicity when it comes to the inhibitory effect on the specific photolabelling of Pgp ligand binding sites could not be demonstrated. Neither could a correlation between the modulating effect of the analogs on DNR accumulation and inhibition on the labelling of Pgp be demonstrated. With increasing lipophilicity of the analogs it seems that the chemical structure plays a lesser role, and the degree of lipophilicity becomes a more important feature.

    Topics: Affinity Labels; Animals; Antibiotics, Antineoplastic; ATP Binding Cassette Transporter, Subfamily B, Member 1; Azides; Binding, Competitive; Biological Transport; Carcinoma, Ehrlich Tumor; Daunorubicin; Detergents; Dihydropyridines; Doxorubicin; Drug Resistance; Iodine Radioisotopes; Membrane Glycoproteins; Photochemistry; Structure-Activity Relationship; Tritium; Tumor Cells, Cultured; Vincristine

1993