Benzbromarone Analog SAR: Potent hURAT1 (SLC22A12) Inhibitors and Drug Transporter Interaction Studies.

IF 5.1 2区医学 Q1 CHEMISTRY, MEDICINAL Drug Design, Development and Therapy Pub Date : 2025-02-26 eCollection Date: 2025-01-01 DOI:10.2147/DDDT.S474398

Promsuk Jutabha, Vijay Kumar, Naohiko Anzai, Peter J Rice, Janet W Lightner, Hitoshi Endou, Michael F Wempe

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Abstract

Purpose: There were two main purposes for this study. One, to report two benzbromarone analogs and test their in vitro activity in the URAT1 inhibition assay; and two, to probe the structure-activity relationship (SAR) of various benzbromarone analogs regarding other drug transporters that may play a role in the uric acid uptake/elimination interplay.

Methods: In brief, chemical synthesis of two benzbromarone analogs was prepared using methods analogous to those reported. Furthermore, drug transporter protein inhibition was investigated in vitro using oocytes expressing hURAT1, hURATv1 (GLUT9), hOAT1, hOAT3, hOAT10, hNPT4, OATP1B1, OATP1B3 and OATP2B1 prepared and utilized to conduct inhibition studies. In addition, one novel benzbromarone analog was studied via in vivo rat pharmacokinetic experiments to determine apparent oral bioavailability.

Results: Two analogs, 6-fluoro-benzbromarone (5) and 5,6-difluoro-benzbromarone (9), were synthetically prepared and 5 had a hURAT1 IC₅₀ inhibition of 18 ± 4 nM, while analog (9) had an IC₅₀ of 245 ± 64 nM. Analog (5) had good oral bioavailability (F_a) >0.6 in rat. Eadie-Hofstee plot and double-reciprocal plot of the Michaelis-Menten equation are summarized for benzbromarone (2) and its major Phase I metabolite 6-hydroxy-benzbromarone (3).

Conclusion: These results illustrate that the K_m for [¹⁴C]UA uptake was not altered in the presence of 2 or 3, but rather the V_max was reduced in the presence of inhibitors when added to the uptake solutions. As a result, these data support the notion that 2 and 3 inhibit [¹⁴C]UA uptake by non-competitive inhibition and not at the URAT1 binding site.

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苯溴马龙类似物SAR：有效的hURAT1 （SLC22A12）抑制剂和药物转运体相互作用研究。

目的：本研究主要有两个目的。第一，报道了两种苯溴马龙类似物，并在URAT1抑制实验中测试了它们的体外活性；二是探讨各种苯溴马龙类似物与其他可能在尿酸摄取/消除相互作用中发挥作用的药物转运体的构效关系（SAR）。方法：采用类似文献报道的方法制备了两种苯溴马龙类似物。此外，利用制备并利用表达hURAT1、hURATv1 （GLUT9）、hOAT1、hOAT3、hOAT10、hNPT4、OATP1B1、OATP1B3和OATP2B1的卵母细胞进行体外药物转运蛋白抑制研究。此外，通过大鼠体内药代动力学实验研究了一种新型苯溴马龙类似物，以确定其口服表观生物利用度。结果：合成了6-氟-苯溴马龙(5)和5,6-二氟-苯溴马龙(9)两个类似物，其中5对hURAT1的IC50抑制为18±4 nM，而类似物(9)的IC50抑制为245±64 nM。类似物(5)在大鼠体内具有良好的口服生物利用度（Fa）。总结了苯溴马龙(2)及其主要I期代谢物6-羟基苯溴马龙(3)的Eadie-Hofstee图和Michaelis-Menten方程的双倒易图。结论：这些结果表明，在2或3的存在下，[14C]UA摄取的Km没有改变，但在抑制剂的存在下，Vmax降低了。因此，这些数据支持了2和3通过非竞争性抑制而不是在URAT1结合位点抑制[14C]UA摄取的观点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Drug Design, Development and Therapy CHEMISTRY, MEDICINAL-PHARMACOLOGY & PHARMACY

CiteScore

9.00

自引率

0.00%

发文量

382

审稿时长

>12 weeks

期刊介绍： Drug Design, Development and Therapy is an international, peer-reviewed, open access journal that spans the spectrum of drug design, discovery and development through to clinical applications. The journal is characterized by the rapid reporting of high-quality original research, reviews, expert opinions, commentary and clinical studies in all therapeutic areas. Specific topics covered by the journal include: Drug target identification and validation Phenotypic screening and target deconvolution Biochemical analyses of drug targets and their pathways New methods or relevant applications in molecular/drug design and computer-aided drug discovery* Design, synthesis, and biological evaluation of novel biologically active compounds (including diagnostics or chemical probes) Structural or molecular biological studies elucidating molecular recognition processes Fragment-based drug discovery Pharmaceutical/red biotechnology Isolation, structural characterization, (bio)synthesis, bioengineering and pharmacological evaluation of natural products** Distribution, pharmacokinetics and metabolic transformations of drugs or biologically active compounds in drug development Drug delivery and formulation (design and characterization of dosage forms, release mechanisms and in vivo testing) Preclinical development studies Translational animal models Mechanisms of action and signalling pathways Toxicology Gene therapy, cell therapy and immunotherapy Personalized medicine and pharmacogenomics Clinical drug evaluation Patient safety and sustained use of medicines.