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Pharmacol Ther. 2000 Mar;85(3):217-29.

Resistance mechanisms associated with altered intracellular distribution of anticancer agents.

Author information

1
Laboratory of Biology and Pharmacology of DNA Topoisomerases, CNRS UMR 8532, Institut Gustave-Roussy, PR2, Villejuif, France. aklarsen@igr.fr

Abstract

The resistance of tumor cells to anticancer agents remains a major cause of treatment failure in cancer patients. The term multidrug resistance (MDR) is used to define a resistance phenotype where cells are resistant to multiple drugs with no obvious structural resemblance and with different molecular targets. It is now clear that MDR is always multifactorial. The intracellular drug distribution is modified in many MDR cell lines, leading to increased drug sequestration in acidic vesicles, such as the trans-Golgi apparatus, recycling endosomes, and lysosomes, followed by transport to the plasma membrane and extrusion into the external medium. Since most anticancer agents target DNA or nuclear enzymes, sequestration of drug in cytoplasmic organelles will lead to decreased drug-target interaction and thereby, decreased cytotoxicity. Altered intracellular drug distribution is usually associated with the expression of drug efflux pumps, such as the P-glycoprotein and the multidrug resistance protein. Another common modification in MDR cells is alkalization of the intracellular pH. The relationship between these different resistance mechanisms is reviewed and a model proposed that suggests why these different resistance mechanisms are co-expressed in multiple cell lines.

PMID:
10739876
DOI:
10.1016/s0163-7258(99)00073-x
[Indexed for MEDLINE]

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