Elsevier

Kidney International

Volume 47, Issue 2, February 1995, Pages 510-517
Kidney International

Laboratory Investigation
Mechanisms of uremic inhibition of phagocyte reactive species production: Characterization of the role of p-cresol

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Mechanisms of uremic inhibition of phagocyte reactive species production: Characterization of the role of p-cresol. It is generally recognized that the uremic syndrome results in a depression of immune function, but the uremic solutes responsible remain largely unidentified. In this study, the effect of 18 known uremic retention solutes, including urea and creatinine, on hexose monophosphate shunt (HMS)-dependent glucose-1-C14 utilization (G1C-U), chemiluminescence production (CL-P) and flow cytometric parameters (FCP) of respiratory burst and phagocytosis were evaluated in granulocytes and/or monocytes. Among the compounds studied, only p-cresol depressed whole blood respiratory burst reactivity (G1C-U, CL-P) dose dependently at concentrations currently encountered in end-stage renal disease (ESRD) (P < 0.05 from 5 µg/ml on). The effect of p-cresol was enhanced by increasing incubation times from 10 to 120 minutes. HMS activity of isolated packed erythrocytes remained unaffected. FCP of respiratory burst activity (BursttestR, expressed as log fluorescence units, LFU) revealed a marked depression in the presence of p-cresol (from 700 ± 167 to 291 ± 128 LFU for granulocytes, from 278 ± 102 to 146 ± 52 LFU for monocytes, P < 0.01), whereas particle ingestion (PhagotestR) remained unaffected. Cell-free myeloperoxidase activity was also markedly depressed in the presence of p-cresol. Polarity based HPLC-elution of a standard solution containing all the solutes studied, using a gradient from 100% formic acid to 100% methanol during 60 minutes, revealed elution of p-cresol after 46.6 minutes, pointing to its relative hydrophobicity. Conjugation of p-cresol to p-cresylsulfate anihilated the depressive effect of p-cresol on granulocyte function, and at the same time caused a shift in HPLC-elution pattern to a less lipophilic range. It is concluded that p-cresol, in a concentration range currently observed in renal failure, is a hydrophobic uremic retention solute depressing phagocyte functional capacity. This effect is not related to defective particle ingestion, but rather to a depression of the metabolic axis involving protein kinase C, NADPH-oxidase and myeloperoxidase, resulting in a lower energy delivery requirement by the HMS.

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