AI Article Synopsis
- There are significant differences between species in the way their kidneys process certain antiviral drugs, which complicates drug development.
- Adefovir, an antiviral medication, faced issues with kidney toxicity in humans, particularly after tests in animal models.
- The study identified a specific amino acid in the human OAT1 transporter that affects how efficiently drugs are processed, highlighting differences between humans and commonly used lab animals in drug testing.
Article Abstract
Species differences in renal drug transporters continue to plague drug development with animal models failing to adequately predict renal drug toxicity. For example, adefovir, a renally excreted antiviral drug, failed clinical studies for human immunodeficiency virus due to pronounced nephrotoxicity in humans. In this study, we demonstrated that there are large species differences in the kinetics of interactions of a key class of antiviral drugs, acyclic nucleoside phosphonates (ANPs), with organic anion transporter 1 [(OAT1) SLC22A6] and identified a key amino acid residue responsible for these differences. In OAT1 stably transfected human embryonic kidney 293 cells, the value of tenofovir for human OAT1 (hOAT1) was significantly lower than for OAT1 orthologs from common preclinical animals, including cynomolgus monkey, mouse, rat, and dog. Chimeric and site-directed mutagenesis studies along with comparative structure modeling identified serine at position 203 (S203) in hOAT1 as a determinant of its lower value. Furthermore, S203 is conserved in apes, and in contrast alanine at the equivalent position is conserved in preclinical animals and Old World monkeys, the most related primates to apes. Intriguingly, transport efficiencies are significantly higher for OAT1 orthologs from apes with high serum uric acid (SUA) levels than for the orthologs from species with low serum uric acid levels. In conclusion, our data provide a molecular mechanism underlying species differences in renal accumulation of nephrotoxic ANPs and a novel insight into OAT1 transport function in primate evolution.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5987998 | PMC |
| http://dx.doi.org/10.1124/mol.117.111153 | DOI Listing |
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