Determination of Kupffer cell Fc receptor function in vivo following injury.

This study was carried out to determine whether Kupffer cell Fc receptor function is depressed after injury. Three approaches to the determination of Fc receptor function were evaluated: IgG-coated erythrocytes (EIgG) were used as the receptor probe with a perfused liver system, EIgG were used as the receptor probe in vivo, and small aggregates of IgG (AIgG) were used as the receptor probe in vivo. Nearly half of the injected dose of EIgG was taken up by the perfused liver (nonrecirculating, serum-free system). In contrast, only 2.6% of erythrocytes not coated with IgG were taken up, and only 5.6% of erythrocytes coated with IgM were taken up by the perfused liver. Thus, there was little nonspecific or complement-dependent uptake of EIgG by the liver. The uptake of EIgG by the perfused liver was depressed following thermal injury, endotoxemia, and the phagocytosis of EIgG. These results were interpreted as indicating that Kupffer cell Fc receptor function was depressed under these conditions. The results obtained with the hepatic uptake of EIgG in vivo were very similar to those with EIgG in the perfused liver. However, since it was found that complement receptors as well as Fc receptors were probably involved in the in vivo clearance of EIgG, these results could be due to a depression of one or both of these receptors. The hepatic uptake of AIgG was not depressed by complement depletion, but was decreased by the injection of large aggregates of IgG. However, the hepatic uptake of AIgG was not depressed following thermal injury, endotoxemia, or the phagocytosis of EIgG. Thus, AIgG was not sensitive to the effects of injury on Kupffer cell function, whereas the uptake of EIgG by the perfused liver may provide an indication of Kupffer cell Fc receptor function. The depression of Kupffer cell Fc receptor function following injury may contribute to the impairment of host defense caused by injury.