Renal redox dysregulation in AKI: application for oxidative stress marker of AKI
Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patien...
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| Published in | American journal of physiology. Renal physiology Vol. 307; no. 12; pp. F1342 - F1351 |
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| Main Authors | , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Physiological Society
15.12.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1931-857X 1522-1466 1522-1466 |
| DOI | 10.1152/ajprenal.00381.2013 |
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| Abstract | Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patients with various kinds of kidney disease and in mice with renal ischemia-reperfusion injury. Urinary TRX1 levels were markedly higher in patients with AKI than in those with chronic kidney disease or in healthy subjects. In a receiver operating characteristic curve analysis to differentiate between AKI and other renal diseases, the area under the curve for urinary TRX1 was 0.94 (95% confidence interval, 0.90–0.98), and the sensitivity and specificity were 0.88 and 0.88, respectively, at the optimal cutoff value of 43.0 μg/g creatinine. Immunostaining revealed TRX1 to be diffusely distributed in the tubules of normal kidneys, but to be shifted to the brush borders or urinary lumen in injured tubules in both mice and humans with AKI. Urinary TRX1 in AKI was predominantly in the oxidized form. In cultured human proximal tubular epithelial cells, hydrogen peroxide specifically and dose dependently increased TRX1 levels in the culture supernatant, while reducing intracellular levels. These findings suggest that urinary TRX1 is an oxidative stress-specific biomarker useful for distinguishing AKI from chronic kidney disease and healthy kidneys. |
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| AbstractList | Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patients with various kinds of kidney disease and in mice with renal ischemia-reperfusion injury. Urinary TRX1 levels were markedly higher in patients with AKI than in those with chronic kidney disease or in healthy subjects. In a receiver operating characteristic curve analysis to differentiate between AKI and other renal diseases, the area under the curve for urinary TRX1 was 0.94 (95% confidence interval, 0.90–0.98), and the sensitivity and specificity were 0.88 and 0.88, respectively, at the optimal cutoff value of 43.0 μg/g creatinine. Immunostaining revealed TRX1 to be diffusely distributed in the tubules of normal kidneys, but to be shifted to the brush borders or urinary lumen in injured tubules in both mice and humans with AKI. Urinary TRX1 in AKI was predominantly in the oxidized form. In cultured human proximal tubular epithelial cells, hydrogen peroxide specifically and dose dependently increased TRX1 levels in the culture supernatant, while reducing intracellular levels. These findings suggest that urinary TRX1 is an oxidative stress-specific biomarker useful for distinguishing AKI from chronic kidney disease and healthy kidneys. Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patients with various kinds of kidney disease and in mice with renal ischemia-reperfusion injury. Urinary TRX1 levels were markedly higher in patients with AKI than in those with chronic kidney disease or in healthy subjects. In a receiver operating characteristic curve analysis to differentiate between AKI and other renal diseases, the area under the curve for urinary TRX1 was 0.94 (95% confidence interval, 0.90-0.98), and the sensitivity and specificity were 0.88 and 0.88, respectively, at the optimal cutoff value of 43.0 μg/g creatinine. Immunostaining revealed TRX1 to be diffusely distributed in the tubules of normal kidneys, but to be shifted to the brush borders or urinary lumen in injured tubules in both mice and humans with AKI. Urinary TRX1 in AKI was predominantly in the oxidized form. In cultured human proximal tubular epithelial cells, hydrogen peroxide specifically and dose dependently increased TRX1 levels in the culture supernatant, while reducing intracellular levels. These findings suggest that urinary TRX1 is an oxidative stress-specific biomarker useful for distinguishing AKI from chronic kidney disease and healthy kidneys.Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patients with various kinds of kidney disease and in mice with renal ischemia-reperfusion injury. Urinary TRX1 levels were markedly higher in patients with AKI than in those with chronic kidney disease or in healthy subjects. In a receiver operating characteristic curve analysis to differentiate between AKI and other renal diseases, the area under the curve for urinary TRX1 was 0.94 (95% confidence interval, 0.90-0.98), and the sensitivity and specificity were 0.88 and 0.88, respectively, at the optimal cutoff value of 43.0 μg/g creatinine. Immunostaining revealed TRX1 to be diffusely distributed in the tubules of normal kidneys, but to be shifted to the brush borders or urinary lumen in injured tubules in both mice and humans with AKI. Urinary TRX1 in AKI was predominantly in the oxidized form. In cultured human proximal tubular epithelial cells, hydrogen peroxide specifically and dose dependently increased TRX1 levels in the culture supernatant, while reducing intracellular levels. These findings suggest that urinary TRX1 is an oxidative stress-specific biomarker useful for distinguishing AKI from chronic kidney disease and healthy kidneys. Oxidative stress is a major determinant of acute kidney injury (AKI); however, the effects of an AKI on renal redox system are unclear, and few existing AKI markers are suitable for evaluating oxidative stress. We measured urinary levels of the redox-regulatory protein thioredoxin 1 (TRX1) in patients with various kinds of kidney disease and in mice with renal ischemia-reperfusion injury. Urinary TRX1 levels were markedly higher in patients with AKI than in those with chronic kidney disease or in healthy subjects. In a receiver operating characteristic curve analysis to differentiate between AKI and other renal diseases, the area under the curve for urinary TRX1 was 0.94 (95% confidence interval, 0.90-0.98), and the sensitivity and specificity were 0.88 and 0.88, respectively, at the optimal cutoff value of 43.0 ...g/g creatinine. Immunostaining revealed TRX1 to be diffusely distributed in the tubules of normal kidneys, but to be shifted to the brush borders or urinary lumen in injured tubules in both mice and humans with AKI. Urinary TRX1 in AKI was predominantly in the oxidized form. In cultured human proximal tubular epithelial cells, hydrogen peroxide specifically and dose dependently increased TRX1 levels in the culture supernatant, while reducing intracellular levels. These findings suggest that urinary TRX1 is an oxidative stress-specific biomarker useful for distinguishing AKI from chronic kidney disease and healthy kidneys. (ProQuest: ... denotes formulae/symbols omitted.) |
| Author | Kasuno, Kenji Yoshida, Haruyoshi Yamada, Narihisa Shigemi, Kenji Koshiji, Takaaki Uno, Kazuko Nogaki, Fumiaki Kusano, Hitoshi Tanabe, Sawaka Ono, Takahiko Shirakawa, Kiichi Muso, Eri Takahashi, Naoki Kimura, Hideki Iwano, Masayuki Nobukawa, Yasunari Yodoi, Junji Nakamura, Hajime Mori, Kiyoshi |
| Author_xml | – sequence: 1 givenname: Kenji surname: Kasuno fullname: Kasuno, Kenji organization: Division of Nephrology, Department of General Medicine, School of Medicine, University of Fukui, Fukui, Japan – sequence: 2 givenname: Kiichi surname: Shirakawa fullname: Shirakawa, Kiichi organization: Department of Nephrology and Dialysis, Kitano Hospital, Tazuke Kofukai Medical Research Institute, Osaka, Japan – sequence: 3 givenname: Haruyoshi surname: Yoshida fullname: Yoshida, Haruyoshi organization: Division of Nephrology, Department of General Medicine, School of Medicine, University of Fukui, Fukui, Japan – sequence: 4 givenname: Kiyoshi surname: Mori fullname: Mori, Kiyoshi organization: Medical Innovation Center, Kyoto University Graduate School of Medicine, Kyoto, Japan – sequence: 5 givenname: Hideki surname: Kimura fullname: Kimura, Hideki organization: Division of Nephrology, Department of General Medicine, School of Medicine, University of Fukui, Fukui, Japan – sequence: 6 givenname: Naoki surname: Takahashi fullname: Takahashi, Naoki organization: Division of Nephrology, Department of General Medicine, School of Medicine, University of Fukui, Fukui, Japan – sequence: 7 givenname: Yasunari surname: Nobukawa fullname: Nobukawa, Yasunari organization: Intensive Care Unit, Fukui University Hospital, Fukui, Japan – sequence: 8 givenname: Kenji surname: Shigemi fullname: Shigemi, Kenji organization: Intensive Care Unit, Fukui University Hospital, Fukui, Japan – sequence: 9 givenname: Sawaka surname: Tanabe fullname: Tanabe, Sawaka organization: Division of Cardiovascular Surgery, Department of Surgery, School of Medicine, University of Fukui, Fukui, Japan – sequence: 10 givenname: Narihisa surname: Yamada fullname: Yamada, Narihisa organization: Division of Cardiovascular Surgery, Department of Surgery, School of Medicine, University of Fukui, Fukui, Japan – sequence: 11 givenname: Takaaki surname: Koshiji fullname: Koshiji, Takaaki organization: Division of Cardiovascular Surgery, Department of Surgery, School of Medicine, University of Fukui, Fukui, Japan – sequence: 12 givenname: Fumiaki surname: Nogaki fullname: Nogaki, Fumiaki organization: Department of Nephrology, Shimada Municipal Hospital, Shizuoka, Japan – sequence: 13 givenname: Hitoshi surname: Kusano fullname: Kusano, Hitoshi organization: Department of Nephrology and Dialysis, Kitano Hospital, Tazuke Kofukai Medical Research Institute, Osaka, Japan – sequence: 14 givenname: Takahiko surname: Ono fullname: Ono, Takahiko organization: Department of Nephrology, Atami Hospital, International University of Health and Welfare, Shizuoka, Japan – sequence: 15 givenname: Kazuko surname: Uno fullname: Uno, Kazuko organization: Louis Pasteur Center for Medical Research, Kyoto, Japan – sequence: 16 givenname: Hajime surname: Nakamura fullname: Nakamura, Hajime organization: Department of Preventive Medicine, Kitano Hospital, Tazuke Kofukai Medical Research Institute, Osaka, Japan – sequence: 17 givenname: Junji surname: Yodoi fullname: Yodoi, Junji organization: Department of Biological Responses, Institute for Virus Research, Graduate School of Medicine, Kyoto University, Kyoto, Japan; and, Department of Bioinspired Science, Ewha Womans University, Seoul, Korea – sequence: 18 givenname: Eri surname: Muso fullname: Muso, Eri organization: Department of Nephrology and Dialysis, Kitano Hospital, Tazuke Kofukai Medical Research Institute, Osaka, Japan – sequence: 19 givenname: Masayuki surname: Iwano fullname: Iwano, Masayuki organization: Division of Nephrology, Department of General Medicine, School of Medicine, University of Fukui, Fukui, Japan |
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| SubjectTerms | Acute Kidney Injury - diagnosis Acute Kidney Injury - urine Adult Aged Aged, 80 and over Animals Area Under Curve Biomarkers - urine Case-Control Studies Diagnosis, Differential Disease Models, Animal Enzyme-Linked Immunosorbent Assay Female Humans Injuries Ischemia Kidney - metabolism Kidneys Male Mice Middle Aged Oxidation-Reduction Oxidative Stress Predictive Value of Tests Proteins Renal Insufficiency, Chronic - diagnosis Renal Insufficiency, Chronic - urine Reperfusion Injury - diagnosis Reperfusion Injury - urine ROC Curve Rodents Thioredoxins - urine Time Factors Up-Regulation |
| Title | Renal redox dysregulation in AKI: application for oxidative stress marker of AKI |
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