Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease

Emiko Sato; Takefumi Mori; Eikan Mishima; Arisa Suzuki; Sanae Sugawara; Naho Kurasawa; Daisuke Saigusa; Daisuke Miura; Tomomi Morikawa-Ichinose; Ritsumi Saito; Ikuko Oba-Yabana; Yuji Oe; Kiyomi Kisu; Eri Naganuma; Kenji Koizumi; Takayuki Mokudai; Yoshimi Niwano; Tai Kudo; Chitose Suzuki; Nobuyuki Takahashi; Hiroshi Sato; Takaaki Abe; Toshimitsu Niwa; Sadayoshi Ito

doi:10.1038/srep36618

Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease

Emiko Sato, Takefumi Mori, Eikan Mishima, Arisa Suzuki, Sanae Sugawara, Naho Kurasawa, Daisuke Saigusa, Daisuke Miura, Tomomi Morikawa-Ichinose, Ritsumi Saito, Ikuko Oba-Yabana, Yuji Oe, Kiyomi Kisu, Eri Naganuma, Kenji Koizumi, Takayuki Mokudai, Yoshimi Niwano, Tai Kudo, Chitose Suzuki, Nobuyuki TakahashiHiroshi Sato, Takaaki Abe, Toshimitsu Niwa, Sadayoshi Ito

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Abstract

Sarcopenia is associated with increased morbidity and mortality in chronic kidney disease (CKD). Pathogenic mechanism of skeletal muscle loss in CKD, which is defined as uremic sarcopenia, remains unclear. We found that causative pathological mechanism of uremic sarcopenia is metabolic alterations by uremic toxin indoxyl sulfate. Imaging mass spectrometry revealed indoxyl sulfate accumulated in muscle tissue of a mouse model of CKD. Comprehensive metabolomics revealed that indoxyl sulfate induces metabolic alterations such as upregulation of glycolysis, including pentose phosphate pathway acceleration as antioxidative stress response, via nuclear factor (erythroid-2-related factor)-2. The altered metabolic flow to excess antioxidative response resulted in downregulation of TCA cycle and its effected mitochondrial dysfunction and ATP shortage in muscle cells. In clinical research, a significant inverse association between plasma indoxyl sulfate and skeletal muscle mass in CKD patients was observed. Our results indicate that indoxyl sulfate is a pathogenic factor for sarcopenia in CKD.

Original language	English
Article number	36618
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep36618
Publication status	Published - 2016 Nov 10

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Sato, E., Mori, T., Mishima, E., Suzuki, A., Sugawara, S., Kurasawa, N., Saigusa, D., Miura, D., Morikawa-Ichinose, T., Saito, R., Oba-Yabana, I., Oe, Y., Kisu, K., Naganuma, E., Koizumi, K., Mokudai, T., Niwano, Y., Kudo, T., Suzuki, C., ... Ito, S. (2016). Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease. Scientific reports, 6, [36618]. https://doi.org/10.1038/srep36618

Sato, E, Mori, T, Mishima, E, Suzuki, A, Sugawara, S, Kurasawa, N, Saigusa, D, Miura, D, Morikawa-Ichinose, T, Saito, R, Oba-Yabana, I, Oe, Y, Kisu, K, Naganuma, E, Koizumi, K, Mokudai, T, Niwano, Y, Kudo, T, Suzuki, C, Takahashi, N, Sato, H, Abe, T, Niwa, T & Ito, S 2016, 'Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease', Scientific reports, vol. 6, 36618. https://doi.org/10.1038/srep36618

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title = "Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease",

abstract = "Sarcopenia is associated with increased morbidity and mortality in chronic kidney disease (CKD). Pathogenic mechanism of skeletal muscle loss in CKD, which is defined as uremic sarcopenia, remains unclear. We found that causative pathological mechanism of uremic sarcopenia is metabolic alterations by uremic toxin indoxyl sulfate. Imaging mass spectrometry revealed indoxyl sulfate accumulated in muscle tissue of a mouse model of CKD. Comprehensive metabolomics revealed that indoxyl sulfate induces metabolic alterations such as upregulation of glycolysis, including pentose phosphate pathway acceleration as antioxidative stress response, via nuclear factor (erythroid-2-related factor)-2. The altered metabolic flow to excess antioxidative response resulted in downregulation of TCA cycle and its effected mitochondrial dysfunction and ATP shortage in muscle cells. In clinical research, a significant inverse association between plasma indoxyl sulfate and skeletal muscle mass in CKD patients was observed. Our results indicate that indoxyl sulfate is a pathogenic factor for sarcopenia in CKD.",

author = "Emiko Sato and Takefumi Mori and Eikan Mishima and Arisa Suzuki and Sanae Sugawara and Naho Kurasawa and Daisuke Saigusa and Daisuke Miura and Tomomi Morikawa-Ichinose and Ritsumi Saito and Ikuko Oba-Yabana and Yuji Oe and Kiyomi Kisu and Eri Naganuma and Kenji Koizumi and Takayuki Mokudai and Yoshimi Niwano and Tai Kudo and Chitose Suzuki and Nobuyuki Takahashi and Hiroshi Sato and Takaaki Abe and Toshimitsu Niwa and Sadayoshi Ito",

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AU - Sato, Emiko

AU - Mori, Takefumi

AU - Mishima, Eikan

AU - Suzuki, Arisa

AU - Sugawara, Sanae

AU - Kurasawa, Naho

AU - Saigusa, Daisuke

AU - Miura, Daisuke

AU - Morikawa-Ichinose, Tomomi

AU - Saito, Ritsumi

AU - Oba-Yabana, Ikuko

AU - Oe, Yuji

AU - Kisu, Kiyomi

AU - Naganuma, Eri

AU - Koizumi, Kenji

AU - Mokudai, Takayuki

AU - Niwano, Yoshimi

AU - Kudo, Tai

AU - Suzuki, Chitose

AU - Takahashi, Nobuyuki

AU - Sato, Hiroshi

AU - Abe, Takaaki

AU - Niwa, Toshimitsu

AU - Ito, Sadayoshi

PY - 2016/11/10

Y1 - 2016/11/10

N2 - Sarcopenia is associated with increased morbidity and mortality in chronic kidney disease (CKD). Pathogenic mechanism of skeletal muscle loss in CKD, which is defined as uremic sarcopenia, remains unclear. We found that causative pathological mechanism of uremic sarcopenia is metabolic alterations by uremic toxin indoxyl sulfate. Imaging mass spectrometry revealed indoxyl sulfate accumulated in muscle tissue of a mouse model of CKD. Comprehensive metabolomics revealed that indoxyl sulfate induces metabolic alterations such as upregulation of glycolysis, including pentose phosphate pathway acceleration as antioxidative stress response, via nuclear factor (erythroid-2-related factor)-2. The altered metabolic flow to excess antioxidative response resulted in downregulation of TCA cycle and its effected mitochondrial dysfunction and ATP shortage in muscle cells. In clinical research, a significant inverse association between plasma indoxyl sulfate and skeletal muscle mass in CKD patients was observed. Our results indicate that indoxyl sulfate is a pathogenic factor for sarcopenia in CKD.

AB - Sarcopenia is associated with increased morbidity and mortality in chronic kidney disease (CKD). Pathogenic mechanism of skeletal muscle loss in CKD, which is defined as uremic sarcopenia, remains unclear. We found that causative pathological mechanism of uremic sarcopenia is metabolic alterations by uremic toxin indoxyl sulfate. Imaging mass spectrometry revealed indoxyl sulfate accumulated in muscle tissue of a mouse model of CKD. Comprehensive metabolomics revealed that indoxyl sulfate induces metabolic alterations such as upregulation of glycolysis, including pentose phosphate pathway acceleration as antioxidative stress response, via nuclear factor (erythroid-2-related factor)-2. The altered metabolic flow to excess antioxidative response resulted in downregulation of TCA cycle and its effected mitochondrial dysfunction and ATP shortage in muscle cells. In clinical research, a significant inverse association between plasma indoxyl sulfate and skeletal muscle mass in CKD patients was observed. Our results indicate that indoxyl sulfate is a pathogenic factor for sarcopenia in CKD.

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Metabolic alterations by indoxyl sulfate in skeletal muscle induce uremic sarcopenia in chronic kidney disease

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