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  • p-Cresyl sulfate causes renal tubular cell damage by inducing oxidative stress by activation of NADPH oxidase.

p-Cresyl sulfate causes renal tubular cell damage by inducing oxidative stress by activation of NADPH oxidase.

Kidney international (2013-01-18)
Hiroshi Watanabe, Yohei Miyamoto, Daisuke Honda, Hisae Tanaka, Qiong Wu, Masayuki Endo, Tsuyoshi Noguchi, Daisuke Kadowaki, Yu Ishima, Shunsuke Kotani, Makoto Nakajima, Keiichiro Kataoka, Shokei Kim-Mitsuyama, Motoko Tanaka, Masafumi Fukagawa, Masaki Otagiri, Toru Maruyama
ZUSAMMENFASSUNG

The accumulation of p-cresyl sulfate (PCS), a uremic toxin, is associated with the mortality rate of chronic kidney disease patients; however, the biological functions and the mechanism of its action remain largely unknown. Here we determine whether PCS enhances the production of reactive oxygen species (ROS) in renal tubular cells resulting in cytotoxicity. PCS exhibited pro-oxidant properties in human tubular epithelial cells by enhancing NADPH oxidase (nicotinamide adenine dinucleotide phosphate-oxidase) activity. PCS also upregulated mRNA levels of inflammatory cytokines and active TGF-β1 protein secretion associated with renal fibrosis. Knockdown of p22(phox) or Nox4 expression suppressed the effect of PCS, underlining the importance of NADPH oxidase activation on its mechanism of action. PCS also reduced cell viability by increasing ROS production. The toxicity of PCS was largely suppressed in the presence of probenecid, an organic acid transport inhibitor. Administration of PCS for 4 weeks caused significant renal tubular damage in 5/6-nephrectomized rats by enhancing oxidative stress. Thus, the renal toxicity of PCS is attributed to its intracellular accumulation, leading to both increased NADPH oxidase activity and ROS production, which, in turn, triggers induction of inflammatory cytokines involved in renal fibrosis. This mechanism is similar to that for the renal toxicity of indoxyl sulfate.

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Sigma-Aldrich
Probenecid
Probenecid, European Pharmacopoeia (EP) Reference Standard