Aspandiar G. Katki scite author profile

The safe disposal of unused opioid drugs is an area of regulatory concern. While toilet flushing is recommended for some drugs to prevent accidental exposure, there is a need for data that can support a more consistent disposal policy based on an assessment of relative risk. For drugs acting at the Mu-opioid receptor (MOR), published measurements of binding affinity (K(i)) are incomplete and inconsistent due to differences in methodology and assay system, leading to a wide range of values for the same drug thus precluding a simple and meaningful relative ranking of drug potency. Experiments were conducted to obtain K(i)'s for 19 approved opioid drugs using a single binding assay in a cell membrane preparation expressing recombinant human MOR. The K(i) values obtained ranged from 0.1380 nM (sufentanil) to 12.486 μM (tramadol). The drugs were separated into three categories based upon their K(i) values: K(i)> 100 nM (tramadol, codeine, meperidine, propoxyphene and pentazocine), K(i)=1-100 nM (hydrocodone, oxycodone, diphenoxylate, alfentanil, methadone, nalbuphine, fentanyl and morphine) and K(i) < 1 nM (butorphanol, levorphanol, oxymorphone, hydromorphone, buprenorphine and sufentanil). These data add to the understanding of the pharmacology of opioid drugs and support the development of a more consistent labeling policies regarding safe disposal.

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Differential formation of hydroxyl radicals by adriamycin in sensitive and resistant MCF-7 human breast tumor cells: implications for the mechanism of action

Sinha

et al. 1987

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Adriamycin-stimulated formation of .OH in sensitive and resistant subline of human breast tumor cells (MCF-7) has been examined by electron spin resonance spectroscopy. It was shown that adriamycin significantly stimulated the formation of .OH spin adducts [5,5-dimethyl-1-pyrroline N-oxide (DMPO)-OH] in the sensitive cells but not in the resistant cells. By use of spin-broadening techniques and inhibition of .OH with high molecular weight poly(ethylene glycol), which does not enter intact cells, it was shown that 60-65% of adriamycin-induced .OH were located extracellularly and were metal ion dependent since they were decreased in the presence of desferal. Furthermore, superoxide dismutase and catalase, enzymes that detoxify superoxide and hydrogen peroxide, also significantly inhibited adriamycin-induced .OH formation and protected against the cytotoxicity of adriamycin. The differential .OH formation in these two cell lines is not due to diminished activities of flavin-dependent activating enzymes nor decreased accumulation of the drug in the cells but appears to be related to enhanced activities of detoxifying enzymes, particularly, glutathione peroxidases in the resistant cells.

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Overexpression of a novel anionic glutathione transferase in multidrug-resistant human breast cancer cells.

Batist

Tulpule

Sinha

et al. 1986

Journal of Biological Chemistry

684

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Isolation, Structural Determination, and Biological Activity of 6.alpha.-Hydroxytaxol, the Principal Human Metabolite of Taxol

Harris¹,

Katki²,

Anderson³

et al. 1994

J. Med. Chem.

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The principal biotransformation product of taxol was found to be identical for human hepatic microsomes, human liver slices, and patient bile samples. We have isolated this metabolite from the bile of a patient given taxol, and we report its structure and its cytotoxicity relative to taxol. The NMR and SIMS data presented here indicate that, in humans, taxol is regiospecifically hydroxylated at the 6-position on the taxane ring and that this hydroxyl is stereospecifically placed trans to the hydroxyl at position 7, yielding 6 alpha-hydroxytaxol. This metabolite is apparently not formed in rats. Tests of the growth inhibition potential of 6 alpha-hydroxytaxol versus taxol in two human tumor cell lines showed that the metabolite was approximately 30-fold less cytotoxic than taxol. Thus the cytochrome P-450-mediated biotransformation of taxol to 6 alpha-hydroxytaxol can be classified as a detoxification reaction.

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Adriamycin-stimulated hydroxyl radical formation in human breast tumor cells

Sinha

Katki

Batist

et al. 1987

Biochemical Pharmacology

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