ABSTRACT
The isolated liver perfusion model has been used to investigate immunological elimination of bacteria and yeasts but not for analysis of mechanisms of immunological destruction of extracellular parasitic protozoa. Extracellular trypanosomes are eliminated primarily through antibody (and complement?)-promoted hepatic (Kupffer cell) uptake and destruction. We studied the suitability of the isolated liver model system for analyzing the mechanism of immune elimination of mouse-specific Trypanosoma musculi and identified several factors which can complicate such analyses: (i) mechanical trapping of trypanosomes that are quite large (for example, reproducing forms or epimastigotes) or are nonviable and, therefore, nondeformable; (ii) variable species and concentrations of cytadhesive molecules; and (iii) the integrity and composition of the trypanosomal surface coat. There was a substantial difference between hepatic retention of infused T. musculi organisms coated with a specific antibody and those devoid of antibody when both were suspended in normal mouse serum. The difference appeared sufficient to allow accurate quantitative studies of immune destruction in the liver. Studies of whole mice indicated that quantitative investigations of immunological elimination of trypanosomes from the bloodstream are likely to be complicated by problems such as cytadherence of parasites to host endothelial cells and mechanical trapping. Uptake by the liver and spleen appeared more reliable. Thus, the isolated liver perfusion model should significantly benefit studies to elucidate the mechanisms of immune elimination of extracellular trypanosomes.
