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Genome-wide association study revealed novel loci which aggravate asymptomatic hyperuricaemia into gout.
Kawamura Y, Nakaoka H, Nakayama A, Okada Y, Yamamoto K, Higashino T, Sakiyama M, Shimizu T, Ooyama H, Ooyama K, Nagase M, Hidaka Y, Shirahama Y, Hosomichi K, Nishida Y, Shimoshikiryo I, Hishida A, Katsuura-Kamano S, Shimizu S, Kawaguchi M, Uemura H, Ibusuki R, Hara M, Naito M, Takao M, Nakajima M, Iwasawa S, Nakashima H, Ohnaka K, Nakamura T, Stiburkova B, Merriman TR, Nakatochi M, Ichihara S, Yokota M, Takada T, Saitoh T, Kamatani Y, Takahashi A, Arisawa K, Takezaki T, Tanaka K, Wakai K, Kubo M, Hosoya T, Ichida K, Inoue I, Shinomiya N, Matsuo H. Kawamura Y, et al. Among authors: hosoya t. Ann Rheum Dis. 2019 Oct;78(10):1430-1437. doi: 10.1136/annrheumdis-2019-215521. Epub 2019 Jul 8. Ann Rheum Dis. 2019. PMID: 31289104 Free PMC article.
ABCG2/BCRP dysfunction as a major cause of gout.
Matsuo H, Takada T, Ichida K, Nakamura T, Nakayama A, Suzuki H, Hosoya T, Shinomiya N. Matsuo H, et al. Among authors: hosoya t. Nucleosides Nucleotides Nucleic Acids. 2011 Dec;30(12):1117-28. doi: 10.1080/15257770.2011.633954. Nucleosides Nucleotides Nucleic Acids. 2011. PMID: 22132966
Common dysfunctional variants in ABCG2 are a major cause of early-onset gout.
Matsuo H, Ichida K, Takada T, Nakayama A, Nakashima H, Nakamura T, Kawamura Y, Takada Y, Yamamoto K, Inoue H, Oikawa Y, Naito M, Hishida A, Wakai K, Okada C, Shimizu S, Sakiyama M, Chiba T, Ogata H, Niwa K, Hosoyamada M, Mori A, Hamajima N, Suzuki H, Kanai Y, Sakurai Y, Hosoya T, Shimizu T, Shinomiya N. Matsuo H, et al. Among authors: hosoya t. Sci Rep. 2013;3:2014. doi: 10.1038/srep02014. Sci Rep. 2013. PMID: 23774753 Free PMC article.
Genome-wide association study of clinically defined gout identifies multiple risk loci and its association with clinical subtypes.
Matsuo H, Yamamoto K, Nakaoka H, Nakayama A, Sakiyama M, Chiba T, Takahashi A, Nakamura T, Nakashima H, Takada Y, Danjoh I, Shimizu S, Abe J, Kawamura Y, Terashige S, Ogata H, Tatsukawa S, Yin G, Okada R, Morita E, Naito M, Tokumasu A, Onoue H, Iwaya K, Ito T, Takada T, Inoue K, Kato Y, Nakamura Y, Sakurai Y, Suzuki H, Kanai Y, Hosoya T, Hamajima N, Inoue I, Kubo M, Ichida K, Ooyama H, Shimizu T, Shinomiya N. Matsuo H, et al. Among authors: hosoya t. Ann Rheum Dis. 2016 Apr;75(4):652-9. doi: 10.1136/annrheumdis-2014-206191. Epub 2015 Feb 2. Ann Rheum Dis. 2016. PMID: 25646370 Free PMC article.
GWAS of clinically defined gout and subtypes identifies multiple susceptibility loci that include urate transporter genes.
Nakayama A, Nakaoka H, Yamamoto K, Sakiyama M, Shaukat A, Toyoda Y, Okada Y, Kamatani Y, Nakamura T, Takada T, Inoue K, Yasujima T, Yuasa H, Shirahama Y, Nakashima H, Shimizu S, Higashino T, Kawamura Y, Ogata H, Kawaguchi M, Ohkawa Y, Danjoh I, Tokumasu A, Ooyama K, Ito T, Kondo T, Wakai K, Stiburkova B, Pavelka K, Stamp LK, Dalbeth N; Eurogout Consortium; Sakurai Y, Suzuki H, Hosoyamada M, Fujimori S, Yokoo T, Hosoya T, Inoue I, Takahashi A, Kubo M, Ooyama H, Shimizu T, Ichida K, Shinomiya N, Merriman TR, Matsuo H; Eurogout Consortium. Nakayama A, et al. Among authors: hosoya t. Ann Rheum Dis. 2017 May;76(5):869-877. doi: 10.1136/annrheumdis-2016-209632. Epub 2016 Nov 29. Ann Rheum Dis. 2017. PMID: 27899376 Free PMC article.
Subtype-specific gout susceptibility loci and enrichment of selection pressure on ABCG2 and ALDH2 identified by subtype genome-wide meta-analyses of clinically defined gout patients.
Nakayama A, Nakatochi M, Kawamura Y, Yamamoto K, Nakaoka H, Shimizu S, Higashino T, Koyama T, Hishida A, Kuriki K, Watanabe M, Shimizu T, Ooyama K, Ooyama H, Nagase M, Hidaka Y, Matsui D, Tamura T, Nishiyama T, Shimanoe C, Katsuura-Kamano S, Takashima N, Shirai Y, Kawaguchi M, Takao M, Sugiyama R, Takada Y, Nakamura T, Nakashima H, Tsunoda M, Danjoh I, Hozawa A, Hosomichi K, Toyoda Y, Kubota Y, Takada T, Suzuki H, Stiburkova B, Major TJ, Merriman TR, Kuriyama N, Mikami H, Takezaki T, Matsuo K, Suzuki S, Hosoya T, Kamatani Y, Kubo M, Ichida K, Wakai K, Inoue I, Okada Y, Shinomiya N, Matsuo H; Japan Gout Genomics Consortium (Japan Gout). Nakayama A, et al. Among authors: hosoya t. Ann Rheum Dis. 2020 May;79(5):657-665. doi: 10.1136/annrheumdis-2019-216644. Epub 2020 Apr 1. Ann Rheum Dis. 2020. PMID: 32238385 Free PMC article.
Common defects of ABCG2, a high-capacity urate exporter, cause gout: a function-based genetic analysis in a Japanese population.
Matsuo H, Takada T, Ichida K, Nakamura T, Nakayama A, Ikebuchi Y, Ito K, Kusanagi Y, Chiba T, Tadokoro S, Takada Y, Oikawa Y, Inoue H, Suzuki K, Okada R, Nishiyama J, Domoto H, Watanabe S, Fujita M, Morimoto Y, Naito M, Nishio K, Hishida A, Wakai K, Asai Y, Niwa K, Kamakura K, Nonoyama S, Sakurai Y, Hosoya T, Kanai Y, Suzuki H, Hamajima N, Shinomiya N. Matsuo H, et al. Among authors: hosoya t. Sci Transl Med. 2009 Nov 4;1(5):5ra11. doi: 10.1126/scitranslmed.3000237. Sci Transl Med. 2009. PMID: 20368174
Decreased extra-renal urate excretion is a common cause of hyperuricemia.
Ichida K, Matsuo H, Takada T, Nakayama A, Murakami K, Shimizu T, Yamanashi Y, Kasuga H, Nakashima H, Nakamura T, Takada Y, Kawamura Y, Inoue H, Okada C, Utsumi Y, Ikebuchi Y, Ito K, Nakamura M, Shinohara Y, Hosoyamada M, Sakurai Y, Shinomiya N, Hosoya T, Suzuki H. Ichida K, et al. Among authors: hosoya t. Nat Commun. 2012 Apr 3;3:764. doi: 10.1038/ncomms1756. Nat Commun. 2012. PMID: 22473008 Free PMC article.
ABCG2 dysfunction causes hyperuricemia due to both renal urate underexcretion and renal urate overload.
Matsuo H, Nakayama A, Sakiyama M, Chiba T, Shimizu S, Kawamura Y, Nakashima H, Nakamura T, Takada Y, Oikawa Y, Takada T, Nakaoka H, Abe J, Inoue H, Wakai K, Kawai S, Guang Y, Nakagawa H, Ito T, Niwa K, Yamamoto K, Sakurai Y, Suzuki H, Hosoya T, Ichida K, Shimizu T, Shinomiya N. Matsuo H, et al. Among authors: hosoya t. Sci Rep. 2014 Jan 20;4:3755. doi: 10.1038/srep03755. Sci Rep. 2014. PMID: 24441388 Free PMC article.
1,153 results