Characterization of Organic Anion Transporter 2 (SLC22A7): A Highly Efficient Transporter for Creatinine and Species-Dependent Renal Tubular Expression

Shen, Hong; Liu, Tongtong; Morse, Bridget L.; Zhao, Yue; Zhang, Yueping; Qiu, Xi; Chen, Cliff; Lewin, Anne; Wang, Xitao; Li, Xinwei; Christopher, Lisa J.; Marathe, Punit; Lai, Yurong

doi:10.1124/dmd.114.062364

Cited by 74 publications

(105 citation statements)

References 43 publications

(61 reference statements)

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“…OAT2 is expressed in the basolateral membrane of renal proximal tubule cells as well as in the sinusoidal membrane of hepatocytes (Kobayashi et al, 2005;Cheng et al, 2012). One group showed that OAT2 was localized in both basolateral and apical membranes of human and cynomolgus monkey renal proximal tubules, but only in the apical membrane of rat proximal tubules (Shen et al, 2015). These findings suggest species differences for OAT2/Oat2 localization and possibly a role in reabsorption of OAT2 in primates.…”

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 69%

“…Creatinine showed a somewhat higher affinity toward OAT2 (K m = 986 mM) as compared with OCT2 and OCT3. Other groups also observed higher affinity transport of creatinine by OAT2 compared with that by other transporters (Shen et al, 2015). OAT2 might contribute to creatinine secretion, and possibly reabsorption in human renal proximal tubules, but clinical data are needed to support this hypothesis.…”

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 89%

“…In contrast to OAT1 and OAT3, the role of OAT2 is less well characterized. More studies have emerged this decade focusing on OAT2 expression in the human kidney as well as its role in renal tubular handling of drugs (Cheng et al, 2012;Lepist et al, 2014;Shen et al, 2015). OAT2 is expressed in the basolateral membrane of renal proximal tubule cells as well as in the sinusoidal membrane of hepatocytes (Kobayashi et al, 2005;Cheng et al, 2012).…”

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 99%

“…Based on current evidence, OCT3 is likely less important than OCT2 for creatinine uptake in the kidney. Opposing the traditional view of organic cationic pathways as the sole mechanism of creatinine secretion in the kidney, creatinine has been reported to be an in vitro substrate for OAT2 (Ciarimboli et al, 2012;Lepist et al, 2014;Shen et al, 2015). A comprehensive analysis to identify the transporters for creatinine was performed, in which each transporter's mRNA and function were measured (Lepist et al, 2014).…”

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 99%

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The Complexities of Interpreting Reversible Elevated Serum Creatinine Levels in Drug Development: Does a Correlation with Inhibition of Renal Transporters Exist?

Chu

Bleasby

Chan

et al. 2016

Drug Metabolism and Disposition

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In humans, creatinine is formed by a multistep process in liver and muscle and eliminated via the kidney by a combination of glomerular filtration and active transport. Based on current evidence, creatinine can be taken up into renal proximal tubule cells by the basolaterally localized organic cation transporter 2 (OCT2) and the organic anion transporter 2, and effluxed into the urine by the apically localized multidrug and toxin extrusion protein 1 (MATE1) and MATE2K. Druginduced elevation of serum creatinine (SCr) and/or reduced creatinine renal clearance is routinely used as a marker for acute kidney injury. Interpretation of elevated SCr can be complex, because such increases can be reversible and explained by inhibition of renal transporters involved in active secretion of creatinine or other secondary factors, such as diet and disease state. Distinction between these possibilities is important from a drug development perspective, as increases in SCr can result in the termination of otherwise efficacious drug candidates. In this review, we discuss the challenges associated with using creatinine as a marker for kidney damage. Furthermore, to evaluate whether reversible changes in SCr can be predicted prospectively based on in vitro transporter inhibition data, an in-depth in vitro-in vivo correlation (IVIVC) analysis was conducted for 16 drugs with in-house and literature in vitro transporter inhibition data for OCT2, MATE1, and MATE2K, as well as total and unbound maximum plasma concentration (C max and C max,u ) data measured in the clinic.

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Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 69%

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 89%

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 99%

Section: Transporters Involved In Creatinine Uptake In the Kidneymentioning

confidence: 99%

See 2 more Smart Citations

The Complexities of Interpreting Reversible Elevated Serum Creatinine Levels in Drug Development: Does a Correlation with Inhibition of Renal Transporters Exist?

Chu

Bleasby

Chan

et al. 2016

Drug Metabolism and Disposition

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“…Use of Monkey to Assess Transport by OCT2 and MATEs 245 at ASPET Journals on March 31, 2019 dmd.aspetjournals.org counterparts, likely function to mediated the secretion of substrates such as MFM, creatinine, and cisplatin (Urakami et al, 2004;Tanihara et al, 2007Tanihara et al, , 2009Imamura et al, 2011;Shen et al, 2015a). It is worth noting that although the impact of transporters on systemic exposure is relatively modest (less than threefold), their effects on drug distribution or tissue exposure could be more dramatic.…”

Section: Discussionmentioning

confidence: 99%

Cynomolgus Monkey as a Clinically Relevant Model to Study Transport Involving Renal Organic Cation Transporters: In Vitro and In Vivo Evaluation

Shen

Liu

Jiang

et al. 2015

Drug Metabolism and Disposition

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Organic cation transporter (OCT) 2, multidrug and toxin extrusion protein (MATE) 1, and MATE2K mediate the renal secretion of various cationic drugs and can serve as the loci of drug-drug interactions (DDI). To support the evaluation of cynomolgus monkey as a surrogate model for studying human organic cation transporters, monkey genes were cloned and shown to have a high degree of amino acid sequence identity versus their human counterparts (93.7, 94.7, and 95.4% for OCT2, MATE1, and MATE2K, respectively). Subsequently, the three transporters were individually stably expressed in human embryonic kidney (HEK) 293 cells and their properties (substrate selectivity, time course, pH dependence, and kinetics) were found to be comparable to the corresponding human form. For example, six known human cation transporter inhibitors, including pyrimethamine (PYR), showed generally similar IC 50 values against the monkey transporters (within sixfold). Consistent with the in vitro inhibition of metformin (MFM) transport by PYR (IC 50 for cynomolgus OCT2, MATE1, and MATE2K; 1.2 6 0.38, 0.17 6 0.04, and 0.25 6 0.04 mM, respectively), intravenous pretreatment of monkeys with PYR (0.5 mg/kg) decreased the clearance (54 6 9%) and increased in the area under the plasma concentration-time curve of MFM (AUC ratio versus control = 2.23; 90% confidence interval of 1.57 to 3.17). These findings suggest that the cynomolgus monkey may have some utility in support of in vitroin vivo extrapolations (IVIVEs) involving the inhibition of renal OCT2 and MATEs. In turn, cynomolgus monkey-enabled IVIVEs may inform human DDI risk assessment. IntroductionIt is widely appreciated that renal elimination of cations, drug, toxin, or endogenous metabolite related, is achieved not only by glomerular filtration but also by active transport processes that facilitate their tubular secretion and reabsorption. Indeed, the mechanisms governing the renal elimination of organic cations have been studied in detail, and the transporters facilitating their tubular uptake and extrusion have been identified (Okuda et al., 1996;Otsuka et al., 2005;Masuda et al., 2006).Secretion of organic cations in renal proximal tubules involves at least two distinct transporters, located in the basolateral and apical membranes of proximal tubule cells (Motohashi et al., 2002Masuda et al., 2006). Specifically, organic cations, like metformin (MFM), 1-methyl-4-phenylpyridinium (MPP + ), tetraethylammonium (TEA), and cimetidine (CMD), are taken up from the circulation by organic cation transporter 2 (OCT2) expressed on the basolateral domain of renal proximal tubular cells. In turn, uptake is followed by efflux into the tubular fluid by multidrug and toxin extrusion protein (MATE) 1 and MATE2K expressed on the apical domain of the same cells. Therefore, OCT2 and MATEs function coordinately to mediate vectorial transport of certain cationic drugs, from blood to tubular fluid, which represents the tubular secretion clearance component of total renal clearance. Perturbation of c...

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Role of Renal Transporters in Drug–Drug Interactions and Nephrotoxicity

Zhang¹,

Miller

2021

Transporters and Drug‐Metabolizing Enzymes in Drug Toxicity

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Characterization of Organic Anion Transporter 2 (SLC22A7): A Highly Efficient Transporter for Creatinine and Species-Dependent Renal Tubular Expression

Cited by 74 publications

References 43 publications

The Complexities of Interpreting Reversible Elevated Serum Creatinine Levels in Drug Development: Does a Correlation with Inhibition of Renal Transporters Exist?

The Complexities of Interpreting Reversible Elevated Serum Creatinine Levels in Drug Development: Does a Correlation with Inhibition of Renal Transporters Exist?

Cynomolgus Monkey as a Clinically Relevant Model to Study Transport Involving Renal Organic Cation Transporters: In Vitro and In Vivo Evaluation

Role of Renal Transporters in Drug–Drug Interactions and Nephrotoxicity

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