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Literature DB >> 23496132

Drug discovery for hyperuricemia.

Abstract

Hyperuricemia is associated with an increased risk of developing gout. This increases with the degree and duration of hyperuricemia. Gout can be managed by dietary modification and pharmacologic urate-lowering therapies. The recent identification of the renal apical urate/anion exchanger URAT1 (SLC22A12) and several membrane proteins relevant to the transport of urate play an important role in gaining a better understanding of the mode of action of many drugs used to treat gout. As described in this review, therapeutics designed to modify URAT1 transport activities might be useful in treating pathologies associated with hyperuricemia such as gout and urolithiasis. Continuing studies into the urate transportsome hold promise for the development of new, more effective therapeutics for hyperuricemia.

Entities: Chemical Disease Gene

Year: 2007 PMID： 23496132 DOI： 10.1517/17460441.2.9.1251

Source DB: PubMed Journal: Expert Opin Drug Discov ISSN： 1746-0441 Impact factor: 6.098

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Cited

7 in total

Review 1. Recent advances in renal urate transport: characterization of candidate transporters indicated by genome-wide association studies.

Authors: Naohiko Anzai; Promsuk Jutabha; Sirirat Amonpatumrat-Takahashi; Hiroyuki Sakurai
Journal: Clin Exp Nephrol Date: 2011-11-01 Impact factor: 2.801

2. Human sodium phosphate transporter 4 (hNPT4/SLC17A3) as a common renal secretory pathway for drugs and urate.

Authors: Promsuk Jutabha; Naohiko Anzai; Kenichiro Kitamura; Atsuo Taniguchi; Shuji Kaneko; Kunimasa Yan; Hideomi Yamada; Hidetaka Shimada; Toru Kimura; Tomohisa Katada; Toshiyuki Fukutomi; Kimio Tomita; Wako Urano; Hisashi Yamanaka; George Seki; Toshiro Fujita; Yoshinori Moriyama; Akira Yamada; Shunya Uchida; Michael F Wempe; Hitoshi Endou; Hiroyuki Sakurai
Journal: J Biol Chem Date: 2010-09-01 Impact factor: 5.157

3. Identification of the multivalent PDZ protein PDZK1 as a binding partner of sodium-coupled monocarboxylate transporter SMCT1 (SLC5A8) and SMCT2 (SLC5A12).

Authors: Sunena Srivastava; Kiyoshi Nakagawa; Xin He; Toru Kimura; Toshiyuki Fukutomi; Seiji Miyauchi; Hiroyuki Sakurai; Naohiko Anzai
Journal: J Physiol Sci Date: 2019-01-02 Impact factor: 2.781

4. Effect of immediate and prolonged GLP-1 receptor agonist administration on uric acid and kidney clearance: Post-hoc analyses of four clinical trials.

Authors: Lennart Tonneijck; Marcel H A Muskiet; Mark M Smits; Petter Bjornstad; Mark H H Kramer; Michaela Diamant; Ewout J Hoorn; Jaap A Joles; Daniël H van Raalte
Journal: Diabetes Obes Metab Date: 2018-02-20 Impact factor: 6.577

Review 5. Hypouricemia: what the practicing rheumatologist should know about this condition.

Authors: Carlos Pineda; Carina Soto-Fajardo; Jaime Mendoza; Jessica Gutiérrez; Hugo Sandoval
Journal: Clin Rheumatol Date: 2019-10-24 Impact factor: 2.980

6. Serum Uric Acid-Lowering Effects of Combined Glycine and Tryptophan Treatments in Subjects with Mild Hyperuricemia: A Randomized, Double-Blind, Placebo-Controlled, Crossover Study.

Authors: Shunji Oshima; Sachie Shiiya; Yasunori Nakamura
Journal: Nutrients Date: 2019-03-06 Impact factor: 5.717

7. Combined Supplementation with Glycine and Tryptophan Reduces Purine-Induced Serum Uric Acid Elevation by Accelerating Urinary Uric Acid Excretion: A Randomized, Single-Blind, Placebo-Controlled, Crossover Study.

Authors: Shunji Oshima; Sachie Shiiya; Yasunori Nakamura
Journal: Nutrients Date: 2019-10-23 Impact factor: 5.717

7 in total