Increased expression of Goodpasture antigen-binding protein (GPBP), a protein that binds and phosphorylates basement membrane collagen, has been associated with immune complex-mediated pathogenesis. However, recent reports have questioned this biological function and proposed that GPBP serves as a cytosolic ceramide transporter (CERT L ). Thus, the role of GPBP in vivo remains unknown. New Zealand White (NZW) mice are considered healthy animals although they convey a genetic predisposition for immune complex-mediated glomerulonephritis. Here we show that NZW mice developed age-dependent lupus-prone autoimmune response and immune complex-mediated glomerulonephritis characterized by elevated GPBP, glomerular basement membrane (GBM) collagen disorganization and expansion, and deposits of IgA on disrupted GBM. Transgenic overexpression of human GPBP (hGPBP) in non-lupusprone mice triggered similar glomerular abnormalities including deposits of IgA on a capillary GBM that underwent dissociation, in the absence of an evident autoimmune response. We provide in vivo evidence that GPBP regulates GBM collagen organization and its elevated expression causes dissociation and subsequent accumulation of IgA on the GBM. Finally, we describe a previously unrecognized pathogenic mechanism that may be relevant in human primary immune complex-mediated glomerulonephritis. (Am J Pathol
The noncollagenous-1 domain of the alpha3 chain of collagen IV networks of basement membranes is the target of an antibody-mediated inflammatory response in Goodpasture autoimmune disease. This domain when excised from basement membranes by bacterial collagenase digestion exists in two molecular forms, M(H) and M(L), that differ in cleavage site and mobility in SDS-PAGE. In the present study, M(H) and M(L) were shown to also differ with respect to epitope exposure, susceptibility to endoprotease digestion, and redox states of specific cystene residues, as determined by MS. Moreover, M(H) and M(L) assemble to form different quaternary structures, critically influencing pathogenic epitope(s) exposure and autoantibody binding. Collectively, our findings reveal that M(H) and M(L) are conformational isomers stabilized by a distinct disulfide bond connectivity, and coexist in basement membranes. The hitherto unrecognized conformational diversification of the Goodpasture autoantigen may be of relevance in pathogenesis.
Two HLA-B,D-identical siblings, who differed only for the HLA-A region because of a maternal recombinational event, were studied in primary (1 degrees) and secondary (2 degrees) mixed lymphocyte culture (MLC). The HLA-A:B recombinant child did not respond to its HLA-B,D-identical sibling in either 1 degrees or 2 degrees MLC. In the reciprocal combination the non-recombinant child responded only weakly in 1 degrees MLC but responded significantly in 2 degrees MLC to the HLA-A:B recombinant child. Thus, it was possible to selectively prime to a non-HLA-D determinant, which is controlled by a gene located distal to HLA-B. Because this determinant was not present on T-cells, it could be distinguished from the serologically defined antigen controlled by the HLA-A locus. Such primed lymphocytes, as well as lymphocytes primed between HLA-identical siblings, revealed high autologous control responses which were not observed when using lymphocytes primed in conventional one-haplotype combinations. The significant 2 degrees MLC response to autologous cells after sensitization to allogeneic cells may reflect recognition of self antigens and raises the question to what extent genetic similarity between responding and stimulating cells is required in the priming phase to elicit a 2 degrees response to autologous cells.
ErratumConformational diversity of the Goodpasture antigen, the noncollagenous-1 domain of the a3 chain of collagen IV By J. J. Calvete et al., vol. 6, issue S1, pp. S237-S244 DOI: 10.1002/pmic.200500495The corrected version of Figure 1 is:In addition, the legend for Figure 4 should read:
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