Works by Akiyoshi Nakayama

Results: 51
    1
    2

    Genome-wide meta-analysis identifies multiple novel loci associated with serum uric acid levels in Japanese individuals.

    Published in:
    Communications Biology, 2019, v. 2, n. 1, p. N.PAG, doi. 10.1038/s42003-019-0339-0
    By:
    • Nakatochi, Masahiro;
    • Kanai, Masahiro;
    • Nakayama, Akiyoshi;
    • Hishida, Asahi;
    • Kawamura, Yusuke;
    • Ichihara, Sahoko;
    • Akiyama, Masato;
    • Ikezaki, Hiroaki;
    • Furusyo, Norihiro;
    • Shimizu, Seiko;
    • Yamamoto, Ken;
    • Hirata, Makoto;
    • Okada, Rieko;
    • Kawai, Sayo;
    • Kawaguchi, Makoto;
    • Nishida, Yuichiro;
    • Shimanoe, Chisato;
    • Ibusuki, Rie;
    • Takezaki, Toshiro;
    • Nakajima, Mayuko
    Publication type:
    Article
    3
    4
    5

    Dysuricemia.

    Published in:
    Biomedicines, 2023, v. 11, n. 12, p. 3169, doi. 10.3390/biomedicines11123169
    By:
    • Nakayama, Akiyoshi;
    • Kurajoh, Masafumi;
    • Toyoda, Yu;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Matsuo, Hirotaka
    Publication type:
    Article
    6

    A Proposal for Practical Diagnosis of Renal Hypouricemia: Evidenced from Genetic Studies of Nonfunctional Variants of URAT1/SLC22A12 among 30,685 Japanese Individuals.

    Published in:
    Biomedicines, 2021, v. 9, n. 8, p. 1012, doi. 10.3390/biomedicines9081012
    By:
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Shimizu, Seiko;
    • Toyoda, Yu;
    • Nishida, Yuichiro;
    • Hishida, Asahi;
    • Katsuura-Kamano, Sakurako;
    • Shibuya, Kenichi;
    • Tamura, Takashi;
    • Kawaguchi, Makoto;
    • Suzuki, Satoko;
    • Iwasawa, Satoko;
    • Nakashima, Hiroshi;
    • Ibusuki, Rie;
    • Uemura, Hirokazu;
    • Hara, Megumi;
    • Takeuchi, Kenji;
    • Takada, Tappei;
    • Tsunoda, Masashi;
    • Arisawa, Kokichi
    Publication type:
    Article
    7

    Common Defects of ABCG2, a High-Capacity Urate Exporter, Cause Gout: A Function-Based Genetic Analysis in a Japanese Population.

    Published in:
    Science Translational Medicine, 2009, v. 1, n. 5, p. 1, doi. 10.1126/scitranslmed.3000237
    By:
    • Matsuo, Hirotaka;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Nakamura, Takahiro;
    • Nakayama, Akiyoshi;
    • Ikebuchi, Yuki;
    • Ito, Kousei;
    • Kusanagi, Yasuyoshi;
    • Chiba, Toshinori;
    • Tadokoro, Shin;
    • Takada, Yuzo;
    • Oikawa, Yuji;
    • Inoue, Hiroki;
    • Suzuki, Koji;
    • Okada, Riek;
    • Nishiyama, Junichiro;
    • Domoto, Hideharu;
    • Watanabe, Satoru;
    • Fujita, Masanori;
    • Morimoto, Yuji
    Publication type:
    Article
    8

    Common dysfunctional variants of ABCG2 have stronger impact on hyperuricemia progression than typical environmental risk factors.

    Published in:
    Scientific Reports, 2014, p. 1, doi. 10.1038/srep05227
    By:
    • Nakayama, Akiyoshi;
    • Matsuo, Hirotaka;
    • Nakaoka, Hirofumi;
    • Nakamura, Takahiro;
    • Nakashima, Hiroshi;
    • Takada, Yuzo;
    • Oikawa, Yuji;
    • Takada, Tappei;
    • Sakiyama, Masayuki;
    • Shimizu, Seiko;
    • Kawamura, Yusuke;
    • Chiba, Toshinori;
    • Abe, Junko;
    • Wakai, Kenji;
    • Kawai, Sayo;
    • Okada, Rieko;
    • Tamura, Takashi;
    • Shichijo, Yuka;
    • Akashi, Airi;
    • Suzuki, Hiroshi
    Publication type:
    Article
    9
    10

    Common dysfunctional variants in ABCG2 are a major cause of early-onset gout.

    Published in:
    Scientific Reports, 2013, p. 1, doi. 10.1038/srep02014
    By:
    • Hirotaka Matsuo;
    • Kimiyoshi Ichida;
    • Tappei Takada;
    • Akiyoshi Nakayama;
    • Hiroshi Nakashima;
    • Takahiro Nakamura;
    • Yusuke Kawamura;
    • Yuzo Takada;
    • Ken Yamamoto;
    • Hiroki Inoue;
    • Yuji Oikawa;
    • Mariko Naito;
    • Asahi Hishida;
    • Kenji Wakai;
    • Chisa Okada;
    • Seiko Shimizu;
    • Masayuki Sakiyama;
    • Toshinori Chiba;
    • Hiraku Ogata;
    • Kazuki Niwa
    Publication type:
    Article
    11
    12
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    Expression of a human NPT1/SLC17A1 missense variant which increases urate export.

    Published in:
    Nucleosides, Nucleotides & Nucleic Acids, 2016, v. 35, n. 10-12, p. 536, doi. 10.1080/15257770.2016.1149192
    By:
    • Sakiyama, Masayuki;
    • Matsuo, Hirotaka;
    • Nagamori, Shushi;
    • Ling, Wei;
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Higashino, Toshihide;
    • Chiba, Toshinori;
    • Ichida, Kimiyoshi;
    • Kanai, Yoshikatsu;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    14

    ABCG2 Dysfunction Increases the Risk of Renal Overload Hyperuricemia.

    Published in:
    Nucleosides, Nucleotides & Nucleic Acids, 2014, v. 33, n. 4-6, p. 266, doi. 10.1080/15257770.2013.866679
    By:
    • Matsuo, Hirotaka;
    • Takada, Tappei;
    • Nakayama, Akiyoshi;
    • Shimizu, Toru;
    • Sakiyama, Masayuki;
    • Shimizu, Seiko;
    • Chiba, Toshinori;
    • Nakashima, Hiroshi;
    • Nakamura, Takahiro;
    • Takada, Yuzo;
    • Sakurai, Yutaka;
    • Hosoya, Tatsuo;
    • Shinomiya, Nariyoshi;
    • Ichida, Kimiyoshi
    Publication type:
    Article
    15
    16
    17

    ABCG2/BCRP Dysfunction as a Major Cause of Gout.

    Published in:
    Nucleosides, Nucleotides & Nucleic Acids, 2011, v. 30, n. 12, p. 1117, doi. 10.1080/15257770.2011.633954
    By:
    • Matsuo, Hirotaka;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Nakamura, Takahiro;
    • Nakayama, Akiyoshi;
    • Suzuki, Hiroshi;
    • Hosoya, Tatsuo;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    18
    19

    ABCG2 variant has opposing effects on onset ages of Parkinson's disease and gout.

    Published in:
    Annals of Clinical & Translational Neurology, 2015, v. 2, n. 3, p. 302, doi. 10.1002/acn3.167
    By:
    • Matsuo, Hirotaka;
    • Tomiyama, Hiroyuki;
    • Satake, Wataru;
    • Chiba, Toshinori;
    • Onoue, Hiroyuki;
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Shimizu, Seiko;
    • Sakiyama, Masayuki;
    • Funayama, Manabu;
    • Nishioka, Kenya;
    • Shimizu, Toru;
    • Kaida, Kenichi;
    • Kamakura, Keiko;
    • Toda, Tatsushi;
    • Hattori, Nobutaka;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    20
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    Regulation of Urate Homeostasis by Membrane Transporters.

    Published in:
    Gout, Urate, & Crystal Deposition Disease, 2024, v. 2, n. 2, p. 206, doi. 10.3390/gucdd2020016
    By:
    • Takada, Tappei;
    • Miyata, Hiroshi;
    • Toyoda, Yu;
    • Nakayama, Akiyoshi;
    • Ichida, Kimiyoshi;
    • Matsuo, Hirotaka
    Publication type:
    Article
    25
    26

    Hyperuricemia in acute gastroenteritis is caused by decreased urate excretion via ABCG2.

    Published in:
    Scientific Reports, 2016, p. 31003, doi. 10.1038/srep31003
    By:
    • Matsuo, Hirotaka;
    • Tsunoda, Tomoyuki;
    • Ooyama, Keiko;
    • Sakiyama, Masayuki;
    • Sogo, Tsuyoshi;
    • Takada, Tappei;
    • Nakashima, Akio;
    • Nakayama, Akiyoshi;
    • Kawaguchi, Makoto;
    • Higashino, Toshihide;
    • Wakai, Kenji;
    • Ooyama, Hiroshi;
    • Hokari, Ryota;
    • Suzuki, Hiroshi;
    • Ichida, Kimiyoshi;
    • Inui, Ayano;
    • Fujimori, Shin;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    27
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    The effects of URAT1/SLC22A12 nonfunctional variants,R90H and W258X, on serum uric acid levels and gout/hyperuricemia progression.

    Published in:
    Scientific Reports, 2016, p. 20148, doi. 10.1038/srep20148
    By:
    • Sakiyama, Masayuki;
    • Matsuo, Hirotaka;
    • Shimizu, Seiko;
    • Nakashima, Hiroshi;
    • Nakamura, Takahiro;
    • Nakayama, Akiyoshi;
    • Higashino, Toshihide;
    • Naito, Mariko;
    • Suma, Shino;
    • Hishida, Asahi;
    • Satoh, Takahiro;
    • Sakurai, Yutaka;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Ooyama, Hiroshi;
    • Shimizu, Toru;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    29

    Common variant of <italic>BCAS3</italic> is associated with gout risk in Japanese population: the first replication study after gout GWAS in Han Chinese.

    Published in:
    BMC Medical Genetics, 2018, v. 19, n. 1, p. N.PAG, doi. 10.1186/s12881-018-0583-z
    By:
    • Sakiyama, Masayuki;
    • Matsuo, Hirotaka;
    • Nakaoka, Hirofumi;
    • Kawamura, Yusuke;
    • Kawaguchi, Makoto;
    • Higashino, Toshihide;
    • Nakayama, Akiyoshi;
    • Akashi, Airi;
    • Ueyama, Jun;
    • Kondo, Takaaki;
    • Wakai, Kenji;
    • Sakurai, Yutaka;
    • Yamamoto, Ken;
    • Ooyama, Hiroshi;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    30
    31

    Genetic epidemiological analysis of hypouricaemia from 4993 Japanese on non-functional variants of URAT1/SLC22A12 gene.

    Published in:
    Rheumatology, 2022, v. 61, n. 3, p. 1276, doi. 10.1093/rheumatology/keab545
    By:
    • Nakayama, Akiyoshi;
    • Kawamura, Yusuke;
    • Toyoda, Yu;
    • Shimizu, Seiko;
    • Kawaguchi, Makoto;
    • Aoki, Yuka;
    • Takeuchi, Kenji;
    • Okada, Rieko;
    • Kubo, Yoko;
    • Imakiire, Toshihiko;
    • Iwasawa, Satoko;
    • Nakashima, Hiroshi;
    • Tsunoda, Masashi;
    • Ito, Keiichi;
    • Kumagai, Hiroo;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Shinomiya, Nariyoshi;
    • Matsuo, Hirotaka
    Publication type:
    Article
    32

    Substantial anti-gout effect conferred by common and rare dysfunctional variants of URAT1/SLC22A12.

    Published in:
    Rheumatology, 2021, v. 60, n. 11, p. 5224, doi. 10.1093/rheumatology/keab327
    By:
    • Toyoda, Yu;
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Nakaoka, Hirofumi;
    • Higashino, Toshihide;
    • Shimizu, Seiko;
    • Ooyama, Hiroshi;
    • Morimoto, Keito;
    • Uchida, Naohiro;
    • Shigesawa, Ryuichiro;
    • Takeuchi, Kenji;
    • Inoue, Ituro;
    • Ichida, Kimiyoshi;
    • Suzuki, Hiroshi;
    • Shinomiya, Nariyoshi;
    • Takada, Tappei;
    • Matsuo, Hirotaka
    Publication type:
    Article
    33

    An X chromosome-wide meta-analysis based on Japanese cohorts revealed that non-autosomal variations are associated with serum urate.

    Published in:
    Rheumatology, 2021, v. 60, n. 9, p. 4430, doi. 10.1093/rheumatology/keab404
    By:
    • Nakatochi, Masahiro;
    • Toyoda, Yu;
    • Kanai, Masahiro;
    • Nakayama, Akiyoshi;
    • Kawamura, Yusuke;
    • Hishida, Asahi;
    • Mikami, Haruo;
    • Matsuo, Keitaro;
    • Takezaki, Toshiro;
    • Momozawa, Yukihide;
    • Project, The Biobank Japan;
    • Kamatani, Yoichiro;
    • Ichihara, Sahoko;
    • Shinomiya, Nariyoshi;
    • Yokota, Mitsuhiro;
    • Wakai, Kenji;
    • Okada, Yukinori;
    • Matsuo, Hirotaka;
    • Urate), the Japan Uric Acid Genomics Consortium (Japan
    Publication type:
    Article
    34
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    NPT1/SLC17A1 Is a Renal Urate Exporter in Humans and Its Common Gain-of-Function Variant Decreases the Risk of Renal Underexcretion Gout.

    Published in:
    Arthritis & Rheumatology, 2015, v. 67, n. 1, p. 281, doi. 10.1002/art.38884
    By:
    • Chiba, Toshinori;
    • Matsuo, Hirotaka;
    • Kawamura, Yusuke;
    • Nagamori, Shushi;
    • Nishiyama, Takashi;
    • Wei, Ling;
    • Nakayama, Akiyoshi;
    • Nakamura, Takahiro;
    • Sakiyama, Masayuki;
    • Takada, Tappei;
    • Taketani, Yutaka;
    • Suma, Shino;
    • Naito, Mariko;
    • Oda, Takashi;
    • Kumagai, Hiroo;
    • Moriyama, Yoshinori;
    • Ichida, Kimiyoshi;
    • Shimizu, Toru;
    • Kanai, Yoshikatsu;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    38

    Strong genetic effect on gout revealed by genetic risk score from meta-analysis of two genome-wide association studies.

    Published in:
    2025
    By:
    • Nakayama, Akiyoshi;
    • Kawamura, Yusuke;
    • Nakatochi, Masahiro;
    • Toyoda, Yu;
    • Nakajima, Mayuko;
    • Maehara, Kazuki;
    • Kirihara, Mana;
    • Shimizu, Seiko;
    • Matsuo, Keitaro;
    • Matsuo, Hirotaka;
    • the Japan Gout Genomics Consortium (Japan Gout);
    • Shimizu, Toru;
    • Ooyama, Hiroshi;
    • Ooyama, Keiko;
    • Nagase, Mitsuo;
    • Hidaka, Yuji;
    • Yamamoto, Ken;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Wakai, Kenji
    Publication type:
    Letter
    39

    Identification of novel gout loci from trans-ethnic meta-analysis of serum urate level.

    Published in:
    2025
    By:
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Nakatochi, Masahiro;
    • Aoki, Yuka;
    • Toyoda, Yu;
    • Nakamura, Takahiro;
    • Shimizu, Seiko;
    • Matsuo, Keitaro;
    • Shinomiya, Nariyoshi;
    • Matsuo, Hirotaka;
    • for Japan Gout Genomics Consortium (Japan Gout);
    • Yamamoto, Ken;
    • Shimizu, Toru;
    • Ooyama, Hiroshi;
    • Ooyama, Keiko;
    • Nagase, Mitsuo;
    • Hidaka, Yuji;
    • Takada, Tappei;
    • Ichida, Kimiyoshi;
    • Wakai, Kenji
    Publication type:
    Letter
    40
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    A meta-analysis of genome-wide association studies using Japanese and Taiwanese has revealed novel loci associated with gout susceptibility.

    Published in:
    2022
    By:
    • Chang, Shun-Jen;
    • Toyoda, Yu;
    • Kawamura, Yusuke;
    • Nakamura, Takahiro;
    • Nakatochi, Masahiro;
    • Nakayama, Akiyoshi;
    • Liao, Wei-Ting;
    • Shimizu, Seiko;
    • Takada, Tappei;
    • Takeuchi, Kenji;
    • Wakai, Kenji;
    • Shi, Yongyong;
    • Shinomiya, Nariyoshi;
    • Chen, Chung-Jen;
    • Li, Changgui;
    • Okada, Yukinori;
    • Ichida, Kimiyoshi;
    • Matsuo, Hirotaka;
    • for Japan Gout Genomics Consortium (Japan Gout);
    • Shirai, Yuya
    Publication type:
    Literature Review
    42

    Increase of serum uric acid levels associated with APOE ε2 haplotype: a clinico-genetic investigation and in vivo approach.

    Published in:
    Human Cell, 2021, v. 34, n. 6, p. 1727, doi. 10.1007/s13577-021-00609-w
    By:
    • Ogura, Masatsune;
    • Toyoda, Yu;
    • Sakiyama, Masayuki;
    • Kawamura, Yusuke;
    • Nakayama, Akiyoshi;
    • Yamanashi, Yoshihide;
    • Takada, Tappei;
    • Shimizu, Seiko;
    • Higashino, Toshihide;
    • Nakajima, Mayuko;
    • Naito, Mariko;
    • Hishida, Asahi;
    • Kawai, Sayo;
    • Okada, Rieko;
    • Sasaki, Makoto;
    • Ayaori, Makoto;
    • Suzuki, Hiroshi;
    • Takata, Koki;
    • Ikewaki, Katsunori;
    • Harada-Shiba, Mariko
    Publication type:
    Article
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    Clinical practice guideline for renal hypouricemia (1st edition).

    Published in:
    Human Cell, 2019, v. 32, n. 2, p. 83, doi. 10.1007/s13577-019-00239-3
    By:
    • Nakayama, Akiyoshi;
    • Matsuo, Hirotaka;
    • Ohtahara, Akira;
    • Ogino, Kazuhide;
    • Hakoda, Masayuki;
    • Hamada, Toshihiro;
    • Hosoyamada, Makoto;
    • Yamaguchi, Satoshi;
    • Hisatome, Ichiro;
    • Ichida, Kimiyoshi;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    48
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    Common variant of ALPK1 is not associated with gout: a replication study.

    Published in:
    Human Cell, 2015, v. 28, n. 1, p. 1, doi. 10.1007/s13577-014-0103-1
    By:
    • Chiba, Toshinori;
    • Matsuo, Hirotaka;
    • Sakiyama, Masayuki;
    • Nakayama, Akiyoshi;
    • Shimizu, Seiko;
    • Wakai, Kenji;
    • Suma, Shino;
    • Nakashima, Hiroshi;
    • Sakurai, Yutaka;
    • Shimizu, Toru;
    • Ichida, Kimiyoshi;
    • Shinomiya, Nariyoshi
    Publication type:
    Article
    50

    A common variant of leucine-rich repeat-containing 16A (LRRC16A) gene is associated with gout susceptibility.

    Published in:
    Human Cell, 2014, v. 27, n. 2, p. 1, doi. 10.1007/s13577-013-0081-8
    By:
    • Masayuki Sakiyama;
    • Hirotaka Matsuo;
    • Seiko Shimizu;
    • Toshinori Chiba;
    • Akiyoshi Nakayama;
    • Yuzo Takada;
    • Takahiro Nakamura;
    • Tappei Takada;
    • Emi Morita;
    • Mariko Naito;
    • Kenji Wakai;
    • Hiroki Inoue;
    • Seishiro Tatsukawa;
    • Junki Sato;
    • Kazumi Shimono;
    • Toshiaki Makino;
    • Takahiro Satoh;
    • Hiroshi Suzuki;
    • Yoshikatsu Kanai;
    • Nobuyuki Hamajima
    Publication type:
    Article