In order to study the activation of complement by soluble aggregates of human polyclonal serum IgA, lysis of sheep erythrocytes (E) coated with several IgA preparations was used as a model. A complement nonactivating monoclonal mouse IgG1 against IgA was used to coat the cells. IgA, isolated from normal human serum, was aggregated by either N-succinimidyl 3-(2-pyridyldithio)propionate (SPDP), glutaraldehyde, carbodiimide or heating. Depending on the size of the aggregates, and on the method of aggregation, E coated with aggregated IgA (E gamma 1.AIgA) could be lysed. The alternative pathway of complement appeared to mediate the lysis because the latter was observed in the presence of EGTA containing 5 mM Mg2+ (MgEGTA) and properdin (P) was deposited on the cells. Furthermore, no lysis was observed in C3-deficient serum. In the absence of AIgA the cells were not lysed, and no P deposition was observed. In another set of experiments E gamma 1.AIgA were first reacted with purified C3, B, D and P for 30 min at 30 degrees C, and subsequently in rat serum EDTA at 37 degrees C. Lysis occurred when E gamma 1.AIgA were prepared using SPDP-, glutaraldehyde- or carbodiimide-AIgA. Incubation of 100 micrograms/ml SPDP-AIgA with normal human serum for 30 min at 37 degrees C in the presence or absence of MgEGTA also induced consumption of total complement. The other soluble AIgA preparations were less effective in activating complement. These results suggest that polymeric serum IgA is capable of activating the alternative pathway of complement.
Jacalin, a D-galactose-specific lectin from jackfruit, interacts with human IgA and one or two other serum proteins. Incubation of jacalin with fresh human serum was shown to result in activation of the complement system. Therefore the mechanism of complement activation by jacalin was studied. Jacalin was extracted from jackfruit seeds (crude preparation) and purified to homogeneity by affinity chromatography on IgA-Sepharose to yield a pure preparation of jacalin. Both crude and pure jacalin were able to activate complement, accompanied by conversion of C3. Consumption of C1, C4 and C-1-inactivator (C-1-In) indicated involvement of the classical pathway. Aggregated IgG (AIgG) caused partial (38%) and jacalin induced complete consumption of C1-In functional activity. It was found upon Ouchterlony analysis that jacalin forms a precipitation line with purified C-1-In. In addition binding of 125I-C-1-In to jacalin-Sepharose was observed, and this binding was inhibitable by either secretory IgA or D-galactose. Next to binding of jacalin to C-1-In, jacalin was also shown to inhibit the functional activity of C-1-In. These results indicate that jacalin induces complement activation by inhibition of C-1-In function and thereby facilitates the activation of precursor C1 in either the absence or presence of low amounts of C1 activators.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.