Friedrich-Alexander Universität Erlangen-Nürnberg, Institute of Experimental and Clinical Pharmacology and Toxicology, Fahrstr. 17, 91054 Erlangen, Germany.
Expert Opin Drug Metab Toxicol. 2013 Mar;9(3):287-306. doi: 10.1517/17425255.2013.742063. Epub 2013 Jan 7.
The ATP-binding cassette transporter ABCG2 can actively extrude a broad range of endogenous and exogenous substrates across biological membranes. Thereby, ABCG2 limits oral drug bioavailability, mediates hepatobiliary and renal excretion and participates functionally in the blood-brain barrier.
The paper provides a review of the clinical evidence of the role of ABCG2 in the bioavailability and brain disposition of drugs. It also sheds light on the value of experimental/preclinical data in predicting the role of ABCG2 in pharmacokinetics in humans.
Experimental studies indicate that ABCG2 may limit the oral bioavailability and brain penetration of many drugs. ABCG2 has also been recognized as an important determinant of the disposition of some drugs in humans. For example, loss-of-function variants of ABCG2 affect the pharmacokinetics and pharmacodynamics of rosuvastatin in a clinically significant manner. Moreover, clinically relevant pharmacokinetic drug-drug interactions have been attributed to ABCG2 inhibition. However, examples from human studies are still rare compared with the overwhelming evidence from experimental studies. The large degree of functional redundancy of ABCG2 with other transporters such as P-glycoprotein may explain the rare occurrence of ABCG2-dependent drug-drug interactions in humans. Providing clinicians with consolidated information on the clinically relevant interactions of drugs with ABCG2 remains a matter of future exploration.
ATP 结合盒转运蛋白 ABCG2 可在生物膜上主动外排广泛的内源性和外源性底物。因此,ABCG2 限制了口服药物的生物利用度,介导了肝胆和肾脏的排泄,并在血脑屏障功能中发挥作用。
本文综述了 ABCG2 在药物生物利用度和脑分布中的作用的临床证据。它还阐明了实验/临床前数据在预测 ABCG2 在人类药代动力学中的作用方面的价值。
实验研究表明,ABCG2 可能会限制许多药物的口服生物利用度和脑穿透性。ABCG2 也被认为是某些药物在人体中处置的重要决定因素。例如,ABCG2 的功能丧失变体以临床上显著的方式影响瑞舒伐他汀的药代动力学和药效学。此外,临床上相关的药代动力学药物-药物相互作用归因于 ABCG2 抑制。然而,与实验研究的压倒性证据相比,来自人体研究的例子仍然很少。ABCG2 与其他转运蛋白(如 P-糖蛋白)的功能冗余程度很大,这可能解释了 ABCG2 依赖性药物-药物相互作用在人类中罕见发生的原因。为临床医生提供关于 ABCG2 与药物的临床相关相互作用的综合信息仍然是未来探索的问题。
