Litcius/Paper detail

Intestinal Excretion, Intestinal Recirculation, and Renal Tubule Reabsorption Are Underappreciated Mechanisms That Drive the Distribution and Pharmacokinetic Behavior of Small Molecule Drugs

Donglu Zhang, Cong Wei, Cornelis E. C. A. Hop, Matthew Wright, Ming Hu, Yurong Lai, S. Cyrus Khojasteh, W. Griff Humphreys

2021Journal of Medicinal Chemistry39 citationsDOI

Abstract

Drug reabsorption following biliary excretion is well-known as enterohepatic recirculation (EHR). Renal tubular reabsorption (RTR) following renal excretion is also common but not easily assessed. Intestinal excretion (IE) and enteroenteric recirculation (EER) have not been recognized as common disposition mechanisms for metabolically stable and permeable drugs. IE and intestinal reabsorption (IR:EHR/EER), as well as RTR, are governed by dug concentration gradients, passive diffusion, active transport, and metabolism, and together they markedly impact disposition and pharmacokinetics (PK) of small molecule drugs. Disruption of IE, IR, or RTR through applications of active charcoal (AC), transporter knockout (KO), and transporter inhibitors can lead to changes in PK parameters. The impacts of intestinal and renal reabsorption on PK are under-appreciated. Although IE and EER/RTR can be an intrinsic drug property, there is no apparent strategy to optimize compounds based on this property. This review seeks to improve understanding and applications of IE, IR, and RTR mechanisms.

Topics & Concepts

ReabsorptionChemistryRenal physiologyPharmacokineticsExcretionPharmacologyEnterohepatic circulationKidneyTransporterEndocrinologyMetabolismBiochemistryRenal functionMedicineGeneOrganic chemistrySodiumDrug Transport and Resistance MechanismsPharmacogenetics and Drug MetabolismCannabis and Cannabinoid Research