Effects of renal impairment on transporter‐mediated renal reabsorption of drugs and renal drug–drug interactions: A simulation‐based study

Follman, Kristin E.; Dave, Rutwij A.; Morris, Marilyn E.

doi:10.1002/bdd.2128

Cited by 9 publications

(14 citation statements)

References 36 publications

(47 reference statements)

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“…shown to mediate the uptake and elimination of a wide range of organic anions, including drugs, endogenous metabolites, signaling molecules, antioxidants, and toxins (including uremic toxins) (14,17,18). In CKD, the expression and function of these transporters has been shown to be altered (64)(65)(66). Using STN in rats as a model of chronic renal failure, we investigated the contribution of the OAT system to residual renal function, with a particular emphasis on the uremic solutes and uremic toxins.…”

Section: Discussionmentioning

confidence: 99%

Gut-derived uremic toxin handling in vivo requires OAT-mediated tubular secretion in chronic kidney disease

Bush¹,

Singh²,

Nigám³

2020

JCI Insight

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Section: Discussionmentioning

confidence: 99%

Gut-derived uremic toxin handling in vivo requires OAT-mediated tubular secretion in chronic kidney disease

Bush¹,

Singh²,

Nigám³

2020

JCI Insight

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“…Whole-body PBPK models with 11 major tissues were used for the kinetics of PA and NAPA, whereas a minimal PBPK model was used for cimetidine. For kidney, a major organ where DDIs may occur, a previously described semi-mechanistic model was incorporated in the present study [32,33]. Physiological and anatomical variables, required in PBPK calculations, were obtained from the literature [41] (i.e., essentially the default values found in Simcyp software [42], version 15, release 1; Simcyp Limited, Sheffield, UK), as summarized in Table 1.…”

Section: Methodsmentioning

confidence: 99%

“…In the present study, the semi-mechanistic kidney model [32,33] was incorporated in the PBPK model, based on the considerations of physiologically-relevant fluid reabsorptions and carrier-mediated transports of PA and NAPA (see Appendix A). Briefly, rat kidney was composed of a series of nephron segments (i.e., glomeruli, proximal tubules, loops of Henle, distal tubules, and collecting ducts), in which segmental fluid flow rates and volumes were applied as functions of GFR (Figure 1, Table 1).…”

Section: Methodsmentioning

confidence: 99%

“…The final model proposed in this study includes the pharmacokinetics of PA and NAPA in major tissue compartments for the prediction of tissue concentrations/urinary excretion profiles as well as plasma concentration profiles in the absence or presence of cimetidine in rats. A series of our simulation studies with the model incorporating semi-mechanistic kidney compartments [32,33] facilitated our sensitivity analysis to determine which process at the level of basolateral uptake by rat organic cation transporter 2 (rOCT2) (i.e., rOCT2, homolog of hOCT2) or apical efflux by rat multidrug and toxin extrusion protein 1 (rMATE1) (i.e., homolog of hMATE1) had more impact on the pharmacokinetics of PA and NAPA.…”

Section: Introductionmentioning

confidence: 99%

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Physiologically-Based Pharmacokinetic Modeling for Drug-Drug Interactions of Procainamide and N-Acetylprocainamide with Cimetidine, an Inhibitor of rOCT2 and rMATE1, in Rats

et al. 2019

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Previous observations demonstrated that cimetidine decreased the clearance of procainamide (PA) and/or N-acetylprocainamide (NAPA; the primary metabolite of PA) resulting in the increased systemic exposure and the decrease of urinary excretion. Despite an abundance of in vitro and in vivo data regarding pharmacokinetic interactions between PA/NAPA and cimetidine, however, a mechanistic approach to elucidate these interactions has not been reported yet. The primary objective of this study was to construct a physiological model that describes pharmacokinetic interactions between PA/NAPA and cimetidine, an inhibitor of rat organic cation transporter 2 (rOCT2) and rat multidrug and toxin extrusion proteins (rMATE1), by performing extensive in vivo and in vitro pharmacokinetic studies for PA and NAPA performed in the absence or presence of cimetidine in rats. When a single intravenous injection of PA HCl (10 mg/kg) was administered to rats, co-administration of cimetidine (100 mg/kg) significantly increased systemic exposure and decreased the systemic (CL) and renal (CLR) clearance of PA, and reduced its tissue distribution. Similarly, cimetidine significantly decreased the CLR of NAPA formed by the metabolism of PA and increased the AUC of NAPA. Considering that these drugs could share similar renal secretory pathways (e.g., via rOCT2 and rMATE1), a physiologically-based pharmacokinetic (PBPK) model incorporating semi-mechanistic kidney compartments was devised to predict drug-drug interactions (DDIs). Using our proposed PBPK model, DDIs between PA/NAPA and cimetidine were successfully predicted for the plasma concentrations and urinary excretion profiles of PA and NAPA observed in rats. Moreover, sensitivity analyses of the pharmacokinetics of PA and NAPA showed the inhibitory effects of cimetidine via rMATE1 were probably important for the renal elimination of PA and NAPA in rats. The proposed PBPK model may be useful for understanding the mechanisms of interactions between PA/NAPA and cimetidine in vivo.

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“…Similarly, the absorption of Bbr is significantly decreased when Bbr and baicalin are combined. But the bioavailability of baicalin obviously improved with the presence of Bbr 17. It is well known that CYP3A4 and OATP1BA are metabolic enzymes and transporters, respectively, of Bbr, while baicalin has a significant induction effect on CYP3A4 and OATP1BA, which ultimately leads to the occurrence of drug interactions.…”

Section: Introductionmentioning

confidence: 99%

Pharmacokinetic interactions and tolerability of berberine chloride with simvastatin and fenofibrate: an open-label, randomized, parallel study in healthy Chinese subjects

Zhao

Qiu

et al. 2018

DDDT

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PurposeFenofibrate (Fbt) is a prodrug that has been used to reduce low-density-lipoprotein cholesterol, triglycerides, and increase high-density-lipoprotein cholesterol. Simvastatin (Svt) is a classic lipid-lowering drug that is widely used in the treatment of hypercholesterolemia and hypertriglyceridemia, while berberine chloride (Bbr) is a novel hypolipidemic agent and its blood-lipid-reducing mechanism is distinct from traditional drugs. Currently, drug combination is the trend in treating hyperlipidemia to improve clinical efficacy. The purpose of this study was to evaluate drug interaction from the perspective of pharmacokinetics between Bbr and Fbt/Svt and the tolerability of combined administration in healthy Chinese subjects.MethodsHealthy subjects (n=60) were randomly allocated to five treatment groups: Bbr alone, Fbt alone, Svt alone, Bbr plus Fbt, and Bbr plus Svt. The experiment was divided into two parts: single-dose administration and multiple-dose administration. Bbr, Fbt, and Svt were taken once every 8 hours, 24 hours, and 24 hours, respectively, over 7 days in the multidose group. Plasma samples were collected and liquid chromatography–mass spectrometry/mass spectrometry was used to detect drug concentrations.ResultsNo serious adverse reactions or intolerance were observed throughout the trial. More importantly, the combined-administration groups did not show an increase in incidence of side effects. Coadministration of Fbt and Svt with Bbr had no significant effect on the pharmacokinetic parameters of Bbr, except time to maximum concentration, apparent volume of distribution, and apparent clearance. Concurrent coadministration of Bbr had no obvious impact on the pharmacokinetic behavior of Fbt or Svt. Additionally, there was no significant correlation between sex and pharmacokinetic results.ConclusionAll treatments were well tolerated. No clinically obvious pharmacokinetic interactions between Bbr and Fbt/Svt were observed with combined administration. The results demonstrated that Bbr can be coadministered safely with Fbt and Svt without dose adjustment.

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Effects of renal impairment on transporter‐mediated renal reabsorption of drugs and renal drug–drug interactions: A simulation‐based study

Cited by 9 publications

References 36 publications

Gut-derived uremic toxin handling in vivo requires OAT-mediated tubular secretion in chronic kidney disease

Gut-derived uremic toxin handling in vivo requires OAT-mediated tubular secretion in chronic kidney disease

Physiologically-Based Pharmacokinetic Modeling for Drug-Drug Interactions of Procainamide and N-Acetylprocainamide with Cimetidine, an Inhibitor of rOCT2 and rMATE1, in Rats

Pharmacokinetic interactions and tolerability of berberine chloride with simvastatin and fenofibrate: an open-label, randomized, parallel study in healthy Chinese subjects

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