Abstract

URAT1 is a transporter responsible for uric acid (UA) reabsorption by renal proximal tubules and a pharmacological target of uricosuric agents. Probenecid and benzbromarone have been used as uricosuric agents, while dotinurad was recently approved in Japan. Notably, the in vitro inhibition potential (IC₅₀) of dotinurad on URAT1 is not strong enough to explain its in vivo uricosuric effect estimated based on clinical unbound plasma concentrations, suggesting the presence of mechanisms other than competition with UA uptake at the extracellular domain of URAT1 (cis-inhibition). In this study, trans-inhibition was hypothesized as the mechanism underlying URAT1 inhibition by dotinurad, wherein intracellularly accumulated dotinurad inactivates URAT1. In URAT1-expressing MDCK-II cells and Xenopus oocytes, pre-incubation with dotinurad potentiated the inhibitory effect more than co-incubation alone, but this effect was not observed with benzbromarone or probenecid. Under co-incubation, dotinurad inhibited UA uptake in a competitive manner (cis-inhibition). When we pre-injected dotinurad directly into oocytes and immediately measured [¹⁴C]UA uptake without co-incubation (only trans-inhibition), dotinurad noncompetitively inhibited UA uptake. URAT1 is an exchange transporter for UA and monocarboxylates such as nicotinic acid (NA). Pre-injected dotinurad and extracellular UA attenuated and facilitated efflux of [³H]NA, respectively, whereas pre-injection of benzbromarone or probenecid did not affect it, suggesting that dotinurad exhibits trans-inhibition by attenuating URAT1-mediated efflux of monocarboxylates, which is a driving force for UA uptake by URAT1. Accordingly, dotinurad ameliorates URAT1-mediated UA reabsorption by both cis- and trans-inhibition, explaining its clinically stronger uricosuric effect than that estimated by the in vitro IC₅₀ value.

Significance Statement The uricosuric agent dotinurad inhibits uric acid reabsorptive transporter URAT1 with a clinical potency stronger than that estimated from IC₅₀ obtained by in vitro URAT1 inhibition. This in vivo-in vitro discrepancy was explained by the trans-inhibition effect of dotinurad on URAT1. Trans-inhibition was due to the attenuation of monocarboxylates efflux via URAT1, which is a driving force for URAT1-mediated exchange transport of uric acid. Overall, this is the first study to experimentally demonstrate trans-inhibition mechanism of URAT1.