Analysis of the endocytic pathway upon intracellular transport of IgG molecules through Fc receptors

The uniformly distributed Fc receptors (FcRs) on the surface of many cell types are involved in a variety of immune reactions by non-specifically facilitating the entry of antigen-specific IgG molecules to the cell. Such reactions may be beneficial to the organism when foreign antigens are involved, or harmful in cases of self antigens and viruses. In order to avoid the IgG-mediated self antigen presentation or viral infection in autoimmunity and viral attack respectively, we attempt in this study to inhibit the intracellular transport of antibodies. This blockage, however, implies: efficacy of inhibition, inability of de novo exocytosis of the internalised antibody and finally maintenance of normal cell growth and morphology. We thus concentrate our interest on the endocytic pathway followed by a neutralising antibody in murine trophoblast cells where we try to inhibit antibody intracellular transport by various agents according to the criteria set above. In our model-system, IFN-gamma, upon induction of FcRs, facilitates endocytosis of the anti-p21ras antibody which blocks in turn the IFN-gamma-induced surface class II major histocompatibility complex (MHC) expression. Using various intracellular transport inhibitors, we study the required conditions by which these compounds cancel the inhibitory action of anti-p21ras and allow induction of class II MHC molecules by IFN-gamma. The effectiveness of the inhibitors in a ranking order is shown as following: monodansyl cadaverine > didansyl cadaverine > pepstatin A > leupeptin > NH4Cl > brefeldin A > ZPCK > TPCK. From these inhibitors, only brefeldin A, leupeptin, pepstatin and ZPCK do not allow exocytosis of the antibody in the culture medium and only didansyl cadaverine, pepstatin and leupeptin maintain cell viability and morphology. However, by sequential elimination based on this study's established criteria, only pepstatin A and leupeptin are shown to be effective inhibitors to specific antibody intracellular transport, protecting also the cell's viability and physiology.