Abstract
Many tumor cells become resistant to commonly used cytotoxic drugs due to the overexpression of ATP-binding cassette (ABC) transporters, namely P-glycoprotein (P-gp). The discovery of the reversal of multidrug resistance (MDR) by verapamil occured in 1981, and in 1968 MDR Chinese hamster cell lines were isolated for the first time. Since then, P-gp inhibitors have been intensively studied as potential MDR reversers. Initially, drugs to reverse MDR were not specifically developed for inhibiting P-gp; in fact, they had other pharmacological properties, as well as a relatively low affinity for MDR transporters. An example of this first generation P-gp inhibitors is verapamil. The second generation included more specific with less side-effect inhibitors, such as dexverapamil or dexniguldipine. A third generation of P-gp inhibitors comprised compounds such as tariquidar, with high affinity to P-gp at nanomolar concentrations. These generations of inhibitors of P-gp have been examined in preclinical and clinical studies; however, these trials have largely failed to demonstrate an improvement in therapeutic efficacy. Therefore, new and innovative strategies, such as the fallback to natural products, the design of peptidomimetics and dual activity ligands emerged as a fourth generation of P-gp inhibitors. The chemistry of P-gp inhibitors, as well as their in vitro, in vivo and clinical trials are discussed, and the most recent advances concerning Pgp modulators are reviewed.
Keywords: ATP-binding cassette transporters, blood brain barrier, cancer, cancer stem cells, clinical trials, dual ligands, multidrug resistance, natural products, old drugs, P-glycoprotein, P-gp modulation assays, small molecules inhibitors, structure-activity relationships
Current Medicinal Chemistry
Title:Three Decades of P-gp Inhibitors: Skimming Through Several Generations and Scaffolds
Volume: 19 Issue: 13
Author(s): A. Palmeira, E. Sousa, M. H. Vasconcelos and M. M. Pinto
Affiliation:
Keywords: ATP-binding cassette transporters, blood brain barrier, cancer, cancer stem cells, clinical trials, dual ligands, multidrug resistance, natural products, old drugs, P-glycoprotein, P-gp modulation assays, small molecules inhibitors, structure-activity relationships
Abstract: Many tumor cells become resistant to commonly used cytotoxic drugs due to the overexpression of ATP-binding cassette (ABC) transporters, namely P-glycoprotein (P-gp). The discovery of the reversal of multidrug resistance (MDR) by verapamil occured in 1981, and in 1968 MDR Chinese hamster cell lines were isolated for the first time. Since then, P-gp inhibitors have been intensively studied as potential MDR reversers. Initially, drugs to reverse MDR were not specifically developed for inhibiting P-gp; in fact, they had other pharmacological properties, as well as a relatively low affinity for MDR transporters. An example of this first generation P-gp inhibitors is verapamil. The second generation included more specific with less side-effect inhibitors, such as dexverapamil or dexniguldipine. A third generation of P-gp inhibitors comprised compounds such as tariquidar, with high affinity to P-gp at nanomolar concentrations. These generations of inhibitors of P-gp have been examined in preclinical and clinical studies; however, these trials have largely failed to demonstrate an improvement in therapeutic efficacy. Therefore, new and innovative strategies, such as the fallback to natural products, the design of peptidomimetics and dual activity ligands emerged as a fourth generation of P-gp inhibitors. The chemistry of P-gp inhibitors, as well as their in vitro, in vivo and clinical trials are discussed, and the most recent advances concerning Pgp modulators are reviewed.
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Palmeira A., Sousa E., H. Vasconcelos M. and M. Pinto M., Three Decades of P-gp Inhibitors: Skimming Through Several Generations and Scaffolds, Current Medicinal Chemistry 2012; 19 (13) . https://dx.doi.org/10.2174/092986712800167392
DOI https://dx.doi.org/10.2174/092986712800167392 |
Print ISSN 0929-8673 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-533X |
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