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Modern Rheumatology Volume 27, 2017 - Issue 3
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Rapid Communication

Meta-analysis confirms an association between gout and a common variant of LRRC16A locus

Hiraku OgataDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
,
Hirotaka MatsuoDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan, Correspondence[email protected]
,
Masayuki SakiyamaDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
,
Toshihide HigashinoDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
,
Makoto KawaguchiDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
,
Akiyoshi NakayamaDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
,
Mariko NaitoDepartment of Preventive Medicine, Nagoya University Graduate School of Medicine, Nagoya, Aichi, Japan,
,
Hiroshi OoyamaRyougoku East Gate Clinic, Tokyo, Japan,
,
Kimiyoshi IchidaDepartment of Pathophysiology, Tokyo University of Pharmacy and Life Sciences, Tokyo, Japan, and ;Division of Kidney and Hypertension, Jikei University School of Medicine, Tokyo, Japan
&
Nariyoshi ShinomiyaDepartment of Integrative Physiology and Bio-Nano Medicine, National Defense Medical College, Tokorozawa, Saitama, Japan,
show all
Pages 553-555 | Received 31 Mar 2016, Accepted 24 Jul 2016, Published online: 01 Sep 2016

References

  • Sakiyama M, Matsuo H, Shimizu S, Chiba T, Nakayama A, Takada Y, et al. Common variant of leucine-rich repeat-containing 16A (LRRC16A) gene is associated with gout susceptibility. Hum Cell. 2014;27(1):1–4.
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  • Urano W, Taniguchi A, Inoue E, Sekita C, Ichikawa N, Koseki Y, et al. Effect of genetic polymorphisms on development of gout. J Rheumatol. 2013;40(8):1374–8.
  • Takada Y, Matsuo H, Nakayama A, Sakiyama M, Hishida A, Okada R, et al. Common variant of PDZK1, adaptor protein gene of urate transporters, is not associated with gout. J Rheumatol. 2014;41(11):2330–1.
  • Ichida K. What lies behind serum urate concentration? Insights from genetic and genomic studies. Genome Med. 2009;1(12):118.
  • Woodward OM, Köttgen A, Coresh J, Boerwinkle E, Guggino WB, Köttgen M. Identification of a urate transporter, ABCG2, with a common functional polymorphism causing gout. Proc Natl Acad Sci USA. 2009;106(25):10338–42.
  • Sakiyama M, Matsuo H, Shimizu S, Nakashima H, Nakamura T, Nakayama A, et al. The effects of URAT1/SLC22A12 nonfunctional variants, R90H and W258X, on serum uric acid levels and gout/hyperuricemia progression. Sci Rep. 2016;6:20148.
  • Sakiyama M, Matsuo H, Shimizu S, Nakashima H, Nakayama A, Chiba T, et al. A common variant of organic anion transporter 4 (OAT4/SLC22A11) gene is associated with renal underexcretion type gout. Drug Metab Pharmacokinet. 2014;29(2):208–10.
  • Chiba T, Matsuo H, Kawamura Y, Nagamori S, Nishiyama T, Wei L, et al. NPT1/SLC17A1 is a renal urate exporter in humans and its common gain-of-function variant decreases the risk of renal underexcretion gout. Arthritis Rheumatol. 2015;67(1):281–7.
  • GTEx Consortium. Human genomics. The genotype-tissue expression (GTEx) pilot analysis: multitissue gene regulation in humans. Science. 2015;348(6235):648–60.
  • Wagner L, Oliyarnyk O, Gartner W, Nowotny P, Groeger M, Kaserer K, et al. Cloning and expression of secretagogin, a novel neuroendocrine- and pancreatic islet of Langerhans-specific Ca2+binding protein. J Biol Chem. 2000;275(32):24740–51.

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