Molecular cloning of a cDNA encoding a major pathogenic domain of the Heymann nephritis antigen gp330

Detection of two forms of GP330. Their role in Heymann nephritis

Heymann nephritis is characterized by glomerular immune deposits that contain a glycoprotein called gp330. The deposits are believed to result from shedding of immune complexes formed on podocytes. Complexes are also shed from proximal tubule cells, when antibodies combine with gp330 on the cell surface. We performed the present study to investigate what portion of the gp330 molecule is shed, using a rabbit antiserum against a peptide deduced to be in the cytoplasmic domain of gp330, as well as a rabbit antiserum and two monoclonal antibodies that recognize extracellular epitopes of gp330. The anti-cytoplasmic peptide antiserum precipitated from Fx1A (a crude renal cortical membrane preparation), a protein with a mass of about 440 kd that was reactive with two monoclonal anti-gp330 antibodies. (In our experiments, the protein called gp330 generally has a mass estimated to be about 440 kd.) The anti-cytoplasmic peptide antiserum also reacted with a truncated gp330 protein produced in transfected COS cells. Immunohistochemical studies showed that all the antibodies recognized the same group of epithelial cells. However, as seen in immunoultrastructural studies of proximal tubules, the anti-cytoplasmic peptide antiserum reacted only with components at the base of microvilli, whereas the anti-gp330 ectodomain antibodies identified material not only at the base, but over the surface of microvilli as well. In rats with Heymann nephritis, glomerular deposits and material shed into tubule lumens reacted with antibodies against extracellular epitopes of gp330, but not with the anti-cytoplasmic peptide antiserum. We propose that there are two forms of gp330 on the cell surface of proximal renal tubules. One form is restricted to coated pit regions at the base of microvilli and has a cytoplasmic domain containing a sequence deduced from a partial complementary DNA encoding gp330. The other form is present over microvilli (and possibly at the base of microvilli as well) and lacks the cytoplasmic domain deduced from the complementary DNA. The complexes that are shed in Heymann nephritis contain either a portion of gp330 cleaved from the full-length molecule or a form of gp330 that lacks the cytoplasmic domain.

Comparative immunochemistry and ontogeny of two closely related coated pit proteins. The 280-kd target of teratogenic antibodies and the 330-kd target of nephritogenic antibodies

We have previously shown that monoclonal antibodies specific for a 280-kd protein (gp280) concentrated within the coated pits of renal and yolk sac brush border-induced fetal malformations, whereas antibodies specific for gp330, another coated pit protein with a similar distribution, had no deleterious effect on embryonic development. In this study, we show that gp280 and gp330 are closely related proteins, as indicated by: 1) similarities in peptide maps obtained after cyanogen bromide cleavage, 2) immunological cross-reactivity related to a minor contingent of antibodies that do not have teratogenic activity, and 3) asynchronous but related expressions during ontogenesis. During the early stages of development, the expression of the two glycoproteins was limited to (gp330) or predominant in (gp280) the clathrin-coated pits and intermicrovillar areas. In the pre-implantation embryo, gp330 was expressed by trophectodermal cells, which became negative in day-6 embryos trapped in endometrial infoldings. At this stage, gp280 and gp330 were both simultaneously detectable at the apical pole of the first entoblastic cells and remained expressed by the brush border of visceral yolk sac epithelial cells until the end of pregnancy. In addition, gp330 was expressed by amniotic cells and neurectodermal structures. During nephrogenesis, in contrast, the expression of gp280 and gp330 by the intermicrovillar areas of the proximal tubule cell was the result of a complex maturation process. gp280 and gp330 were diffusely distributed in S-shaped bodies in the presumptive areas of the glomerulus, proximal tubule, and distal tubule (gp330). During development of the nephron, the pattern of expression became progressively restricted to the proximal tubule and glomerulus (gp330), and selective localization in the intermicrovillar areas was only achieved in filtrating nephrons.

Identification of a cell line that expresses a cell surface and a soluble form of the gp330/receptor-associated protein (RAP) Heymann nephritis antigenic complex

gp330 is a large glycoprotein located in clathrin-coated pits at the surface of the glomerular and proximal tubule epithelia in the rat kidney. It was originally identified as the target of autoimmune antibodies in Heymann nephritis (HN) and has since been shown to be a member of the low density lipoprotein receptor gene family and to form a stable association with receptor-associated protein (RAP), which together constitute the HN antigen complex (HNAC). Progress in defining the normal functions of gp330 as well as the molecular mechanisms of HN has been hampered by the lack of an available kidney cell line that expresses this protein. We here report the identification of a rat yolk sac carcinoma cell line (L2) that synthesizes HNAC and expresses it in coated pits at the cell surface. gp330 and RAP from L2 cells are immunologically identical to their kidney counterparts, and peptide maps of gp330 yielded identical peptide fragments. Characterization of the cell line revealed that there are 3.3 x 10(4) gp330 molecules per L2 cell and that the cells produce a soluble form of gp330 that is released into the medium. Heparin ligand blot analysis demonstrated that RAP but not gp330 binds heparin. By heparin affinity chromatography, gp330 and RAP copurify, indicating that the glycosaminoglycan binding site within RAP is accessible when the subunit is complexed with gp330. These results indicate that the L2 cell line provides a valid and useful model for studies on the function of HNAC and the pathogenesis of HN.

Epitope specificity of anti-gp330 autoantibodies determines the development of proteinuria in active Heymann nephritis

In active Heymann nephritis, an experimental autoimmune disease in the rat, gp330 is regarded as the main antigenic target. Immunization with detergent-solubilized renal tubular epithelium (RTE-DOC) has been shown to be less nephritogenic than immunization with crude RTE. In this study immunization with either crude RTE or affinity-purified gp330 did, but immunization with RTE-DOC did not induce proteinuria. Both a possible aberrant subclass distribution of anti-gp330 autoantibodies and the involvement of additional nephritogenic autoantigens such as DPP IV (gp90) or laminin could be excluded. Circulating anti-gp330 autoantibody titers were significantly higher in RTE-DOC-immunized rats than in RTE-immunized animals. In contrast, significantly more antibodies were shown to bind in the glomeruli in the latter group. The time of onset of abnormal proteinuria was shown to be related to the recognition of a particular V8 protease-induced 250 kD fragment of gp330 in Western blots. This study shows that a particular fragment-specific subset of autoantibodies against gp330 is involved in the glomerular damage in Heymann nephritis.

Immune modulation of biologic systems in renal somatic cells

The various theories discussed here suggest that somatic renal cells are susceptible to biologic modulation by the immune system independent of an inflammatory effect. (1) The mode of repression of type IV collagen synthesis by novel, soluble antigen-binding proteins, the down-regulation of class II MHC expression with interruption of antigen presentation to epithelia after selective gene regulation by antibody, and the diverse interactions of antibody with renal glomerular cells producing functional disturbances in endocytosis and permselectivity; (2) modification of surface-antigen composition; (3) alteration of matrix deposition, remodeling and composition; (4) biophysical perturbation of cytoskeletal and cell membrane components; (5) and lastly, alterations in cell adhesion through cell-surface alterations, all lend testimony to the richness of the signal transduction pathways in somatic cells. Although the preceding examples represent only a small fraction of those which may take place within the glomerular and tubular microenvironments, these paradigms may nevertheless serve as new models upon which one can consider the multitude of potential communications between disparate biologic systems that connect in complex organisms.

Identification of a pathogenic epitope involved in initiation of Heymann nephritis

Heymann nephritis is an experimental autoimmune disease model for human membranous nephropathy. We have recently identified a pathogenic epitope, clone 14 (C14), responsible for formation and deposition of glomerular immune complexes that is contained within the small subunit of the Heymann nephritis antigenic complex (HNAC). HNAC is a heterodimer composed of a large subunit designated gp330 and a smaller (44 kDa) subunit, which is immunologically identical to the receptor-associated protein. In this study, we prepared antibodies to fusion proteins with C-terminal deletions in the C14 sequence and assessed their ability to promote formation of immune deposits (IDs). When IgG specific for the shortest truncated fusion protein (C14/delta 3; 86 amino acids) was injected into rats, small IDs developed. In contrast, when IgG raised against the full-length C14 sequence was depleted of its reactivity toward the C14/delta 3 fusion protein (C14/delta 3-fp), no IDs could be detected. These data indicate that at least one pathogenic epitope is contained within the N-terminal 86 amino acids of C14. Since the IDs induced with the C14/delta 3-fp-specific IgG are smaller than those induced with the poly-epitope-specific anti-gp330 antibodies, it is likely that other epitopes in addition to those expressed by the C14/delta 3-fp are required for formation and growth of immune complexes.

Distribution of the alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein in human tissues

The hepatic alpha 2-macroglobulin receptor (alpha 2MR)/low density lipoprotein receptor-related protein (LRP) binds and endocytoses alpha 2-macroglobulin-proteinase complexes in plasma. In addition, it binds lipoproteins, a novel 40 kDa protein, and complexes between plasminogen activators and plasminogen activator inhibitor type-1. This study shows, for the first time, the tissue distribution of alpha 2MR/LRP as determined by immunohistochemistry with specific monoclonal antibodies. The analysis revealed alpha 2MR/LRP-expression in a restricted spectrum of cell types, including neurons and astrocytes in the central nervous system, epithelial cells of the gastrointestinal tract, smooth muscle cells, fibroblasts, Leydig cells in testis, granulosa cells in ovary, and dendritic interstitial cells of kidney. Monocyte-derived cells displayed marked alpha 2MR/LRP expression in the phagocytes of liver, lung and lymphoid tissues, but no or low expression in antigen-presenting cells including Langerhans' cells of the skin. The high abundance of alpha 2MR/LRP in certain cell types of most organs suggests two main routes for alpha 2MR/LRP-mediated ligand clearance: (1) systemic removal in liver of circulating ligands, and (2) non-hepatic interstitial removal in different organs, including the brain.

gp330 associates with a 44-kDa protein in the rat kidney to form the Heymann nephritis antigenic complex

Using antibodies isolated from glomeruli of nephritic rats we have previously identified a 330-kDa cell surface glycoprotein (gp330) as a major pathogenic antigen of Heymann nephritis (HN), an experimental model of human membranous glomerulonephritis. Recently, we have isolated a cDNA clone, C14, encoding a polypeptide that contains a pathogenic epitope of HN responsible for the initiation of the disease. Subsequently, another protein, alpha 2-macroglobulin receptor-associated protein (alpha 2-MRAP), which is a subunit of the receptor for human alpha 2-macroglobulin/low density lipoprotein receptor-related protein (LRP), was shown to possess a high degree of sequence homology to the C14 protein (C14p). In this report, we have investigated the relationship between gp330, C14p, and alpha 2-MRAP. Immunoprecipitation studies demonstrate that gp330 forms a heterodimeric association with a 44-kDa polypeptide that is stable to detergent extraction and long-term centrifugation. Further, immunoblotting analysis on the purified complex indicates that the 44-kDa associated protein shares immunological identity to C14p and alpha 2-MRAP. In addition, antibodies eluted from glomeruli of HN rats and antibodies to a C14 fusion protein immunoprecipitated gp330 and the 44-kDa protein, demonstrating that the epitopes responsible for the initial events of HN are accessible within the complex. Based on these data, three models are proposed to explain how pathogenic epitopes in the gp330-44-kDa, HN antigenic complex may be presented at the cell surface and initiate the onset of HN.

Loss of antigens associated with the apical endocytotic pathway in proximal tubules from rats with heymann nephritis

In addition to the glomerular lesions associated with Heymann nephritis, a rat model of human membranous nephritis, proximal tubule damage, and a perturbation of proximal tubule function also have been reported to occur in this disease. The aim of the present study was to examine in more detail the nature of the apical plasma membrane damage in proximal tubules using specific antibodies directed against clathrin, gp330, and a proton-pumping adenosine triphosphatase, all of which are components of the apical endocytotic apparatus of these epithelial cells. Immunocytochemical studies revealed a marked reduction in staining for all three antigens in proximal tubules from rats with active Heymann nephritis. Furthermore endocytotic uptake of intravenously injected FITC-dextran was considerably lower in diseased animals than in normal rats. Gp330 and rat IgG were identified as components of the luminal debris that accumulated during the course of Heymann nephritis. These results show that perturbation of proximal tubule endocytosis occurs in Heymann nephritis together with a loss of three apical antigens that are normally localized on membrane domains associated with the apical endocytotic pathway in these cells. The results also suggest that antibody-antigen complexes may be shed from the plasma membrane in both the glomerulus and the proximal tubule in this disease.

Molecular characterization of a major nephritogenic domain in the autoantigen of anti-tubular basement membrane disease

Anti-tubular basement membrane (alpha TBM) disease is a form of primary interstitial nephritis mediated by autoimmune T cells and alpha TBM antibodies. In mice and humans the nephritogenic immune response is directed to a glycoprotein (3M-1) found along the proximal tubule of the kidney. We have isolated cDNAs from an expression library that encodes for the common framework domain of the 3M-1 antigen. This common domain was once related evolutionarily to a family of intermediate filament-associated proteins. Northern hybridization revealed that all isoforms of 3M-1 range between 1700 and 1900 base pairs and in situ hybridization studies indicate that transcripts are found in tubular epithelium. Candidate peptide fragments were deduced and synthesized from the sequence encoding this common framework domain, and one of the peptide residues was able to bind a monoclonal 3M-1-reactive alpha TBM antibody, stimulate the growth of 3M-1-reactive helper T cells, and induce nephritogenic effector T cells capable of producing interstitial nephritis. Our results indicate that a unique, immunodominant region of the 3M-1 antigen is an informative participant in the emergence of autoimmune injury to certain basement membranes.