Study by means of high-performance liquid chromatography of solutes that decrease theophylline/protein binding in the serum of uremic patients.

Substantial changes in protein binding of drugs occur during the progression of renal insufficiency. Protein-bound uremic solutes play a role in the inhibition of drug protein binding. We previously demonstrated that hippuric acid in uremic ultrafiltrate was an inhibitor of the theophylline protein binding.

Inhibition of calcitriol-induced monocyte CD14 expression by uremic toxins: role of purines.

End-stage renal disease is associated with a defect in immunologic functions. Previous studies have demonstrated that uremic ultrafiltrate (UUF) contains factors that suppress calcitriol synthesis and its biological actions. In the present study, the effect of UUF on basal and calcitriol-induced membrane bound CD14 expression of monocytes activated by phorbol 12-myristate 13-acetate was evaluated.

P-Cresol, a uremic compound, enhances the uptake of aluminum in hepatocytes.

In the end-stage renal disease patient, certain uremic compounds could influence the cellular accumulation of aluminum (Al). In this study, we examined the effect of 15 uremic ultrafiltrate fractions obtained by HPLC on the uptake and toxicity of Al in mouse hepatocytes (MH) in culture, a model system in which Al is taken up bound to transferrin (Tf). Uremic fractions 4 to 8, 12, 14, and 15 increased cellular Al uptake and aspartate aminotransferase release and decreased cell growth when Tf-Al, not Al citrate, was added to culture media.

HPLC fractions of human uremic plasma inhibit the RBC membrane calcium pump.

We have reported that uremic plasma filtrates (UF) inhibit the red blood cell (RBC) membrane calcium pump. The inhibitor was dialyzable, smaller than 3,000 molecular weight, heat-stable, and protease-resistant. In the present study, we used reverse-phase preparative HPLC, analytical HPLC, and Sephadex G-25 elution to identify inhibitory fractions.