Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters

Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters

Abstract Renal clearance of many drugs is mediated by renal organic anion transporters OAT1/3 and inhibition of these transporters may lead to drug‐drug interactions (DDIs). Pyridoxic acid (PDA) and homovanillic acid (HVA) were indicated as potential biomarkers of OAT1/3. The objective of this study...

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Main Authors: Amais Ahmad, Kayode Ogungbenro, Annett Kunze, Frank Jacobs, Jan Snoeys, Amin Rostami‐Hodjegan, Aleksandra Galetin
Format: Article
Language:English
Published: Wiley 2021-05-01
Series:CPT: Pharmacometrics & Systems Pharmacology
Online Access:https://doi.org/10.1002/psp4.12610
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spelling doaj-5bf2ee103c154af4818724a4d2d8a5c32021-05-18T07:38:35ZengWileyCPT: Pharmacometrics & Systems Pharmacology2163-83062021-05-0110546747710.1002/psp4.12610Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transportersAmais Ahmad0Kayode Ogungbenro1Annett Kunze2Frank Jacobs3Jan Snoeys4Amin Rostami‐Hodjegan5Aleksandra Galetin6Centre for Applied Pharmacokinetic Research School of Health Sciences The University of Manchester Manchester UKCentre for Applied Pharmacokinetic Research School of Health Sciences The University of Manchester Manchester UKDMPK Janssen Pharmaceutical Companies Beerse BelgiumDMPK Janssen Pharmaceutical Companies Beerse BelgiumDMPK Janssen Pharmaceutical Companies Beerse BelgiumCentre for Applied Pharmacokinetic Research School of Health Sciences The University of Manchester Manchester UKCentre for Applied Pharmacokinetic Research School of Health Sciences The University of Manchester Manchester UKAbstract Renal clearance of many drugs is mediated by renal organic anion transporters OAT1/3 and inhibition of these transporters may lead to drug‐drug interactions (DDIs). Pyridoxic acid (PDA) and homovanillic acid (HVA) were indicated as potential biomarkers of OAT1/3. The objective of this study was to develop a population pharmacokinetic model for PDA and HVA to support biomarker qualification. Simultaneous fitting of biomarker plasma and urine data in the presence and absence of potent OAT1/3 inhibitor (probenecid, 500 mg every 6 h) was performed. The impact of study design (multiple vs. single dose of OAT1/3 inhibitor) and ability to detect interactions in the presence of weak/moderate OAT1/3 inhibitors was investigated, together with corresponding power calculations. The population models developed successfully described biomarker baseline and PDA/HVA OAT1/3‐mediated interaction data. No prominent effect of circadian rhythm on PDA and HVA individual baseline levels was evident. Renal elimination contributed greater than 80% to total clearance of both endogenous biomarkers investigated. Estimated probenecid unbound in vivo OAT inhibitory constant was up to 6.4‐fold lower than in vitro values obtained with PDA as a probe. The PDA model was successfully verified against independent literature reported datasets. No significant difference in power of DDI detection was found between multiple and single dose study design when using the same total daily dose of 2000 mg probenecid. Model‐based simulations and power calculations confirmed sensitivity and robustness of plasma PDA data to identify weak, moderate, and strong OAT1/3 inhibitors in an adequately powered clinical study to support optimal design of prospective clinical OAT1/3 interaction studies.https://doi.org/10.1002/psp4.12610
collection DOAJ
language English
format Article
sources DOAJ
author Amais Ahmad
Kayode Ogungbenro
Annett Kunze
Frank Jacobs
Jan Snoeys
Amin Rostami‐Hodjegan
Aleksandra Galetin
spellingShingle Amais Ahmad
Kayode Ogungbenro
Annett Kunze
Frank Jacobs
Jan Snoeys
Amin Rostami‐Hodjegan
Aleksandra Galetin
Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
CPT: Pharmacometrics & Systems Pharmacology
author_facet Amais Ahmad
Kayode Ogungbenro
Annett Kunze
Frank Jacobs
Jan Snoeys
Amin Rostami‐Hodjegan
Aleksandra Galetin
author_sort Amais Ahmad
title Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
title_short Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
title_full Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
title_fullStr Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
title_full_unstemmed Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters
title_sort population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of oat1/3 renal transporters
publisher Wiley
series CPT: Pharmacometrics & Systems Pharmacology
issn 2163-8306
publishDate 2021-05-01
description Abstract Renal clearance of many drugs is mediated by renal organic anion transporters OAT1/3 and inhibition of these transporters may lead to drug‐drug interactions (DDIs). Pyridoxic acid (PDA) and homovanillic acid (HVA) were indicated as potential biomarkers of OAT1/3. The objective of this study was to develop a population pharmacokinetic model for PDA and HVA to support biomarker qualification. Simultaneous fitting of biomarker plasma and urine data in the presence and absence of potent OAT1/3 inhibitor (probenecid, 500 mg every 6 h) was performed. The impact of study design (multiple vs. single dose of OAT1/3 inhibitor) and ability to detect interactions in the presence of weak/moderate OAT1/3 inhibitors was investigated, together with corresponding power calculations. The population models developed successfully described biomarker baseline and PDA/HVA OAT1/3‐mediated interaction data. No prominent effect of circadian rhythm on PDA and HVA individual baseline levels was evident. Renal elimination contributed greater than 80% to total clearance of both endogenous biomarkers investigated. Estimated probenecid unbound in vivo OAT inhibitory constant was up to 6.4‐fold lower than in vitro values obtained with PDA as a probe. The PDA model was successfully verified against independent literature reported datasets. No significant difference in power of DDI detection was found between multiple and single dose study design when using the same total daily dose of 2000 mg probenecid. Model‐based simulations and power calculations confirmed sensitivity and robustness of plasma PDA data to identify weak, moderate, and strong OAT1/3 inhibitors in an adequately powered clinical study to support optimal design of prospective clinical OAT1/3 interaction studies.
url https://doi.org/10.1002/psp4.12610
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