The ATP-binding cassette(ABC)transporters P-glycoprotein(P-gp)and ABCG2 are multidrug transporters that confer drug resistance to numerous anti-cancer therapeutics in cell culture.These findings initially created grea...The ATP-binding cassette(ABC)transporters P-glycoprotein(P-gp)and ABCG2 are multidrug transporters that confer drug resistance to numerous anti-cancer therapeutics in cell culture.These findings initially created great excitement in the medical oncology community,as inhibitors of these transporters held the promise of overcoming clinical multidrug resistance in cancer patients.However,clinical trials of P-gp and ABCG2 inhibitors in combination with cancer chemotherapeutics have not been successful due,in part,to flawed clinical trial designs resulting from an incomplete molecular understanding of the multifactorial basis of multidrug resistance(MDR)in the cancers examined.The field was also stymied by the lack of high-resolution structural information for P-gp and ABCG2 for use in the rational structure-based drug design of inhibitors.Recent advances in structural biology have led to numerous structures of both ABCG2 and P-gp that elucidated more clearly the mechanism of transport and the polyspecific nature of their substrate and inhibitor binding sites.These data should prove useful helpful for developing even more potent and specific inhibitors of both transporters.As such,although possible pharmacokinetic interactions would need to be evaluated,these inhibitors may show greater effectiveness in overcoming ABC-dependent multidrug resistance in combination with chemotherapeutics in carefully selected subsets of cancers.Another perhaps even more compelling use of these inhibitors may be in reversibly inhibiting endogenously expressed P-gp and ABCG2,which serve a protective role at various blood-tissue barriers.Inhibition of these transporters at sanctuary sites such as the brain and gut could lead to increased penetration by chemotherapeutics used to treat brain cancers or other brain disorders and increased oral bioavailability of these agents,respectively.展开更多
文摘The ATP-binding cassette(ABC)transporters P-glycoprotein(P-gp)and ABCG2 are multidrug transporters that confer drug resistance to numerous anti-cancer therapeutics in cell culture.These findings initially created great excitement in the medical oncology community,as inhibitors of these transporters held the promise of overcoming clinical multidrug resistance in cancer patients.However,clinical trials of P-gp and ABCG2 inhibitors in combination with cancer chemotherapeutics have not been successful due,in part,to flawed clinical trial designs resulting from an incomplete molecular understanding of the multifactorial basis of multidrug resistance(MDR)in the cancers examined.The field was also stymied by the lack of high-resolution structural information for P-gp and ABCG2 for use in the rational structure-based drug design of inhibitors.Recent advances in structural biology have led to numerous structures of both ABCG2 and P-gp that elucidated more clearly the mechanism of transport and the polyspecific nature of their substrate and inhibitor binding sites.These data should prove useful helpful for developing even more potent and specific inhibitors of both transporters.As such,although possible pharmacokinetic interactions would need to be evaluated,these inhibitors may show greater effectiveness in overcoming ABC-dependent multidrug resistance in combination with chemotherapeutics in carefully selected subsets of cancers.Another perhaps even more compelling use of these inhibitors may be in reversibly inhibiting endogenously expressed P-gp and ABCG2,which serve a protective role at various blood-tissue barriers.Inhibition of these transporters at sanctuary sites such as the brain and gut could lead to increased penetration by chemotherapeutics used to treat brain cancers or other brain disorders and increased oral bioavailability of these agents,respectively.
