Covalently, cross-linked immune complexes were prepared with multivalent 2-nitro-4-azidophenyl X human serum albumin (NAP X HSA) and antibodies to NAP at five times antigen excess. After purification with gel filtration, affinity chromatography with antigen-agarose column, and addition of the hapten, 9.5% of the antibodies dissociated from the complexes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis. After injection of these cross-linked immune complexes into mice, glomeruli stained for the complexes by immunofluorescence microscopy for only a few hours and electron-dense deposits were not detected. In contrast, when the same immune complexes with comparable lattice but without covalent cross-linking were administered to a second group of mice, the initial deposition by immunofluorescence was comparable and then increased to extensive deposits that persisted to 96 h. In this second group of mice extensive electron-dense deposits evolved. These observations supported the conclusion that the immune complexes initially deposited from circulation must undergo rearrangement to persist and to form electron-dense deposits in glomeruli. The covalently cross-linked immune complexes existed in glomeruli only for a short period of time since these complexes could not rearrange.
Rearrangement of immune complexes in glomeruli leads to persistence and development of electron-dense deposits.
M Mannik, L Y Agodoa, K A David; Rearrangement of immune complexes in glomeruli leads to persistence and development of electron-dense deposits.. J Exp Med 1 May 1983; 157 (5): 1516–1528. doi: https://doi.org/10.1084/jem.157.5.1516
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