Molecular identification of a renal urate-anion exchanger that regulates blood urate levels

Atsushi Enomoto; Hiroaki Kimura; Arthit Chairoungdua; Yasuhiro Shigeta; Promsuk Jutabha; Seok Ho Cha; Makoto Hosoyamada; Michio Takeda; Takashi Sekine; Takashi Igarashi; Hirotaka Matsuo; Yuichi Kikuchi; Takashi Oda; Kimiyoshi Ichida; Tatsuo Hosoya; Kaoru Shimokata; Toshimitsu Niwa; Yoshikatsu Kanai; Hitoshi Endou

doi:10.1038/nature742

Molecular identification of a renal urate-anion exchanger that regulates blood urate levels

Atsushi Enomoto
, Hiroaki Kimura
, Arthit Chairoungdua
, Yasuhiro Shigeta
, Promsuk Jutabha
, Seok Ho Cha
, Makoto Hosoyamada
, Michio Takeda
, Takashi Sekine
, Takashi Igarashi
, Hirotaka Matsuo
, Yuichi Kikuchi
, Takashi Oda
, Kimiyoshi Ichida
, Tatsuo Hosoya
, Kaoru Shimokata
, Toshimitsu Niwa
, Yoshikatsu Kanai
, Hitoshi Endou

Research output: Contribution to journal › Article › peer-review

1376 Citations (Scopus)

Abstract

Urate, a naturally occurring product of purine metabolism, is a scavenger of biological oxidants implicated in numerous disease processes, as demonstrated by its capacity of neuroprotection. It is present at higher levels in human blood (200-500 μM) than in other mammals, because humans have an effective renal urate reabsorption system, despite their evolutionary loss of hepatic uricase by mutational silencing. The molecular basis for urate handling in the human kidney remains unclear because of difficulties in understanding diverse urate transport systems and species differences. Here we identify the long-hypothesized urate transporter in the human kidney (URAT1, encoded by SLC22A12), a urate-anion exchanger regulating blood urate levels and targeted by uricosuric and anti-uricosuric agents (which affect excretion of uric acid). Moreover, we provide evidence that patients with idiopathic renal hypouricaemia (lack of blood uric acid) have defects in SLC22A12. Identification of URAT1 should provide insights into the nature of urate homeostasis, as well as lead to the development of better agents against hyperuricaemia, a disadvantage concomitant with human evolution.

Original language	English
Pages (from-to)	447-452
Number of pages	6
Journal	Nature
Volume	417
Issue number	6887
DOIs	https://doi.org/10.1038/nature742
Publication status	Published - 23-05-2002
Externally published	Yes

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10.1038/nature742

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Enomoto, A., Kimura, H., Chairoungdua, A., Shigeta, Y., Jutabha, P., Cha, S. H., Hosoyamada, M., Takeda, M., Sekine, T., Igarashi, T., Matsuo, H., Kikuchi, Y., Oda, T., Ichida, K., Hosoya, T., Shimokata, K., Niwa, T., Kanai, Y., & Endou, H. (2002). Molecular identification of a renal urate-anion exchanger that regulates blood urate levels. Nature, 417(6887), 447-452. https://doi.org/10.1038/nature742

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title = "Molecular identification of a renal urate-anion exchanger that regulates blood urate levels",

abstract = "Urate, a naturally occurring product of purine metabolism, is a scavenger of biological oxidants implicated in numerous disease processes, as demonstrated by its capacity of neuroprotection. It is present at higher levels in human blood (200-500 μM) than in other mammals, because humans have an effective renal urate reabsorption system, despite their evolutionary loss of hepatic uricase by mutational silencing. The molecular basis for urate handling in the human kidney remains unclear because of difficulties in understanding diverse urate transport systems and species differences. Here we identify the long-hypothesized urate transporter in the human kidney (URAT1, encoded by SLC22A12), a urate-anion exchanger regulating blood urate levels and targeted by uricosuric and anti-uricosuric agents (which affect excretion of uric acid). Moreover, we provide evidence that patients with idiopathic renal hypouricaemia (lack of blood uric acid) have defects in SLC22A12. Identification of URAT1 should provide insights into the nature of urate homeostasis, as well as lead to the development of better agents against hyperuricaemia, a disadvantage concomitant with human evolution.",

author = "Atsushi Enomoto and Hiroaki Kimura and Arthit Chairoungdua and Yasuhiro Shigeta and Promsuk Jutabha and Cha, \{Seok Ho\} and Makoto Hosoyamada and Michio Takeda and Takashi Sekine and Takashi Igarashi and Hirotaka Matsuo and Yuichi Kikuchi and Takashi Oda and Kimiyoshi Ichida and Tatsuo Hosoya and Kaoru Shimokata and Toshimitsu Niwa and Yoshikatsu Kanai and Hitoshi Endou",

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Enomoto, A, Kimura, H, Chairoungdua, A, Shigeta, Y, Jutabha, P, Cha, SH, Hosoyamada, M, Takeda, M, Sekine, T, Igarashi, T, Matsuo, H, Kikuchi, Y, Oda, T, Ichida, K, Hosoya, T, Shimokata, K, Niwa, T, Kanai, Y & Endou, H 2002, 'Molecular identification of a renal urate-anion exchanger that regulates blood urate levels', Nature, vol. 417, no. 6887, pp. 447-452. https://doi.org/10.1038/nature742

TY - JOUR

T1 - Molecular identification of a renal urate-anion exchanger that regulates blood urate levels

AU - Enomoto, Atsushi

AU - Kimura, Hiroaki

AU - Chairoungdua, Arthit

AU - Shigeta, Yasuhiro

AU - Jutabha, Promsuk

AU - Cha, Seok Ho

AU - Hosoyamada, Makoto

AU - Takeda, Michio

AU - Sekine, Takashi

AU - Igarashi, Takashi

AU - Matsuo, Hirotaka

AU - Kikuchi, Yuichi

AU - Oda, Takashi

AU - Ichida, Kimiyoshi

AU - Hosoya, Tatsuo

AU - Shimokata, Kaoru

AU - Niwa, Toshimitsu

AU - Kanai, Yoshikatsu

AU - Endou, Hitoshi

PY - 2002/5/23

Y1 - 2002/5/23

N2 - Urate, a naturally occurring product of purine metabolism, is a scavenger of biological oxidants implicated in numerous disease processes, as demonstrated by its capacity of neuroprotection. It is present at higher levels in human blood (200-500 μM) than in other mammals, because humans have an effective renal urate reabsorption system, despite their evolutionary loss of hepatic uricase by mutational silencing. The molecular basis for urate handling in the human kidney remains unclear because of difficulties in understanding diverse urate transport systems and species differences. Here we identify the long-hypothesized urate transporter in the human kidney (URAT1, encoded by SLC22A12), a urate-anion exchanger regulating blood urate levels and targeted by uricosuric and anti-uricosuric agents (which affect excretion of uric acid). Moreover, we provide evidence that patients with idiopathic renal hypouricaemia (lack of blood uric acid) have defects in SLC22A12. Identification of URAT1 should provide insights into the nature of urate homeostasis, as well as lead to the development of better agents against hyperuricaemia, a disadvantage concomitant with human evolution.

AB - Urate, a naturally occurring product of purine metabolism, is a scavenger of biological oxidants implicated in numerous disease processes, as demonstrated by its capacity of neuroprotection. It is present at higher levels in human blood (200-500 μM) than in other mammals, because humans have an effective renal urate reabsorption system, despite their evolutionary loss of hepatic uricase by mutational silencing. The molecular basis for urate handling in the human kidney remains unclear because of difficulties in understanding diverse urate transport systems and species differences. Here we identify the long-hypothesized urate transporter in the human kidney (URAT1, encoded by SLC22A12), a urate-anion exchanger regulating blood urate levels and targeted by uricosuric and anti-uricosuric agents (which affect excretion of uric acid). Moreover, we provide evidence that patients with idiopathic renal hypouricaemia (lack of blood uric acid) have defects in SLC22A12. Identification of URAT1 should provide insights into the nature of urate homeostasis, as well as lead to the development of better agents against hyperuricaemia, a disadvantage concomitant with human evolution.

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SP - 447

EP - 452

JO - Nature

JF - Nature

IS - 6887

ER -

Molecular identification of a renal urate-anion exchanger that regulates blood urate levels

Abstract

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