Liver cell reactive components in peritoneal dialysis fluids.

Metabolic changes in peritoneal dialysis (PD) patients are an important aspect concerning long-term outcome. Liver plays the main role in regulating metabolism. The effects of peritoneal dialysis fluids (PDF) on liver cell function are scarcely investigated. Therefore, we investigated the effects of PDF, different in some components, on liver cell metabolism in vitro. Metabolic activity (MTT), cell integrity (LDH release), proliferation (BrdU incorporation) and synthesis of albumin and transferrin are measured by incubating HepG2 cells for 3 h and 24 h with six different PDFs: (a) lactate-buffered, pH5.5: PDF I (1.5% gluc.); PDF II (4.5% gluc. ); (b) bicarbonate-buffered, pH7.4: PDF III (1.5% gluc.), PDF IV (4. 5% gluc.); (c) amino acid-based solutions, pH 7.4: PDF V (low AA level) and PDF VI (high AA level). Metabolic activity of bicarbonate-treated cells is greatly enhanced in comparison to lactate-buffered PDFs. These findings are confirmed by proliferation data. Synthesis of albumin and transferrin is significantly enhanced by amino acid-based solutions. Our data demonstrate, that lactate-buffered PDF impair liver cells much stronger than bicarbonate-buffered PDF. pH is the parameter which contributes to cytotoxicity and impaired metabolism to a major extent. In contrast to glucose-containing solutions, amino acid-based PDF stimulate protein synthesis in liver cells.