Glutathione depletion as a mechanism of 3,4-dideoxyglucosone-3-ene-induced cytotoxicity in human peritoneal mesothelial cells: role in biocompatibility of peritoneal dialysis fluids

doi:10.1093/ndt/gfn645

NDT Advance Access published online on November 25, 2008
Nephrology Dialysis Transplantation, doi:10.1093/ndt/gfn645

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Glutathione depletion as a mechanism of 3,4-dideoxyglucosone-3-ene-induced cytotoxicity in human peritoneal mesothelial cells: role in biocompatibility of peritoneal dialysis fluids

Takashi Yamamoto^1,2, Tadashi Tomo³, Eiji Okabe³, Shinji Namoto¹, Koji Suzuki¹ and Yoshihiko Hirao²

¹ Research & Development, JMS Co. Ltd, Hiroshima ² Department of Urology, Nara medical University, Kashihara ³ Second Department of Internal Medicine, Faculty of Medicine Oita University, Oita, Japan

Correspondence and offprint requests to: Takashi Yamamoto, Research & Development, JMS Co. Ltd, 12-17 Kako-machi, Naka-ku, Hiroshima, Japan. Tel: +81-82-243-5980; Fax: +81-82-243-5955; E-mail: t-yamamoto{at}jms.cc

Abstract

Background. The potential detrimental effects of glucose degradationproducts (GDPs) contained in peritoneal dialysis fluids (PDFs)on peritoneal mesothelial cells (PMCs) may impair intraperitonealhomeostasis in patients undergoing continuous ambulatory peritonealdialysis (CAPD). A recent study showed that 3,4-dideoxyglucosone-3-ene(3,4-DGE) was the most strongly cytotoxic among all identifiedGDPs in PDFs. The present study examined the effects of clinicallyrelevant concentrations of 3,4-DGE on the proliferative capacityof PMCs and oxidative injury to them.

Method. The concentrations of eight GDPs in commercially availablePDFs were determined by HPLC. The effect of cell growth mediaspiked with GDPs on the proliferation capacity of PMCs was evaluated.As a marker of the cellular redox status, total cellular glutathione(tGSH) was determined in PMCs incubated with GDPs. The reactionof 3,4-DGE with GSH under nonenzymatic conditions was analysedby liquid chromatography–electrospray ionization–massspectrometry (LC-ESI-MS).

Result. The concentrations of 3,4-DGE in a heat-sterilized single-compartmentstandard-type PDF (S-PDF) and in a heat-sterilized dual-chamber-typePDF (N-PDF) were 16 µM and 1.7 µM, respectively.The most cytotoxic GDP was 3,4-DGE, and the concentration atwhich it causes 50% inhibition of cell growth was 35 µM.A significant decrease in the cellular tGSH levels was observedin the cells treated with 10 µM 3,4-DGE. 3,4-DGE disappearedon incubation with GSH under nonenzymatic conditions for 1 h,and the 3,4-DGE-GSH conjugate was confirmed by accurate massmeasurement using LC-ESI-MS. These data demonstrated that thechange in the cellular redox status by GSH depletion might bea contributory factor in 3,4-DGE-induced cytotoxicity.

Conclusion. 3,4-DGE is a highly reactive GDP and is responsiblefor the depletion of the total intracellular glutathione. 3,4-DGEhas an intense impact on PMC growth at concentrations foundin standard PDFs. It is desired that the amount of 3,4-DGE inPDFs should be minimized.

Keywords: CAPD; 3,4-DGE; GDP; glutathione; peritoneal mesothelial cell

Received for publication: 31. 7.07
Accepted in revised form: 27.10.08

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