Author
Listed:
- Koichi Kikuchi
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Medicine)
- Daisuke Saigusa
(Tohoku University)
- Yoshitomi Kanemitsu
(Graduate School of Pharmaceutical Sciences)
- Yotaro Matsumoto
(Graduate School of Pharmaceutical Sciences)
- Paxton Thanai
(Waters Corporation)
- Naoto Suzuki
(Graduate School of Pharmaceutical Sciences)
- Koki Mise
(Dentistry and Pharmaceutical Sciences)
- Hiroaki Yamaguchi
(Tohoku University Hospital)
- Tomohiro Nakamura
(Tohoku University)
- Kei Asaji
(Graduate School of Pharmaceutical Sciences)
- Chikahisa Mukawa
(Graduate School of Pharmaceutical Sciences)
- Hiroki Tsukamoto
(Graduate School of Pharmaceutical Sciences)
- Toshihiro Sato
(Tohoku University Hospital)
- Yoshitsugu Oikawa
(Tohoku University Graduate School of Medicine)
- Tomoyuki Iwasaki
(Tohoku University Graduate School of Medicine)
- Yuji Oe
(Tohoku University Graduate School of Pharmaceutical Sciences)
- Tomoya Tsukimi
(Keio University)
- Noriko N. Fukuda
(Keio University)
- Hsin-Jung HO
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
- Fumika Nanto-Hara
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
- Jiro Ogura
(Tohoku University Hospital)
- Ritsumi Saito
(Tohoku University)
- Shizuko Nagao
(Fujita Health University)
- Yusuke Ohsaki
(Tohoku University Graduate School of Medicine)
- Satoshi Shimada
(Tohoku University Graduate School of Medicine)
- Takehiro Suzuki
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
- Takafumi Toyohara
(Tohoku University Graduate School of Medicine)
- Eikan Mishima
(Tohoku University Graduate School of Medicine)
- Hisato Shima
(Tohoku University Graduate School of Medicine)
- Yasutoshi Akiyama
(Tohoku University Graduate School of Medicine)
- Yukako Akiyama
(Tohoku University Graduate School of Medicine)
- Mariko Ichijo
(Tohoku University Graduate School of Medicine)
- Tetsuro Matsuhashi
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
- Akihiro Matsuo
(Tohoku University Graduate School of Medicine)
- Yoshiaki Ogata
(Tohoku University Graduate School of Medicine)
- Ching-Chin Yang
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
- Chitose Suzuki
(Tohoku University Graduate School of Medicine)
- Matthew C. Breeggemann
(Kidney Diseases Branch, NIDDK, NIH)
- Jurgen Heymann
(Kidney Diseases Branch, NIDDK, NIH)
- Miho Shimizu
(Kanazawa University)
- Susumu Ogawa
(Tohoku University Graduate School of Medicine)
- Nobuyuki Takahashi
(Tohoku University Graduate School of Pharmaceutical Sciences)
- Takashi Suzuki
(Tohoku University Graduate School of Medicine)
- Yuji Owada
(Tohoku University Graduate School of Medicine)
- Shigeo Kure
(Tohoku University Graduate School of Medicine)
- Nariyasu Mano
(Tohoku University Hospital)
- Tomoyoshi Soga
(Keio University)
- Takashi Wada
(Kanazawa University)
- Jeffrey B. Kopp
(Kidney Diseases Branch, NIDDK, NIH)
- Shinji Fukuda
(Keio University
Kanagawa Institute of Industrial Science and Technology
University of Tsukuba
PRESTO, Japan Science and Technology Agency)
- Atsushi Hozawa
(Tohoku University)
- Masayuki Yamamoto
(Tohoku University)
- Sadayoshi Ito
(Tohoku University Graduate School of Medicine)
- Jun Wada
(Dentistry and Pharmaceutical Sciences)
- Yoshihisa Tomioka
(Graduate School of Pharmaceutical Sciences)
- Takaaki Abe
(Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Medicine
Tohoku University Graduate School of Biomedical Engineering)
Abstract
Diabetic kidney disease is a major cause of renal failure that urgently necessitates a breakthrough in disease management. Here we show using untargeted metabolomics that levels of phenyl sulfate, a gut microbiota-derived metabolite, increase with the progression of diabetes in rats overexpressing human uremic toxin transporter SLCO4C1 in the kidney, and are decreased in rats with limited proteinuria. In experimental models of diabetes, phenyl sulfate administration induces albuminuria and podocyte damage. In a diabetic patient cohort, phenyl sulfate levels significantly correlate with basal and predicted 2-year progression of albuminuria in patients with microalbuminuria. Inhibition of tyrosine phenol-lyase, a bacterial enzyme responsible for the synthesis of phenol from dietary tyrosine before it is metabolized into phenyl sulfate in the liver, reduces albuminuria in diabetic mice. Together, our results suggest that phenyl sulfate contributes to albuminuria and could be used as a disease marker and future therapeutic target in diabetic kidney disease.
Suggested Citation
Koichi Kikuchi & Daisuke Saigusa & Yoshitomi Kanemitsu & Yotaro Matsumoto & Paxton Thanai & Naoto Suzuki & Koki Mise & Hiroaki Yamaguchi & Tomohiro Nakamura & Kei Asaji & Chikahisa Mukawa & Hiroki Tsu, 2019.
"Gut microbiome-derived phenyl sulfate contributes to albuminuria in diabetic kidney disease,"
Nature Communications, Nature, vol. 10(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09735-4
DOI: 10.1038/s41467-019-09735-4
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