Membranoproliferative glomerulonephritis type III: Association of glomerular deposits with circulating nephritic factor-stabilized convertase

Abstract

Deposits in the glomerular ultrastructure of 44 renal biopsy specimens from 21 patients with membranoproliferative glomerulonephritis (MPGN) type III have been compared with those in the ultrastructure of 34 biopsy specimens from 19 patients with MPGN type I. Previous studies have concluded that subepithelial deposits on the paramesangial portion of the glomerular basement membrane in MPGN types II and III are closely associated with circulating nephritic factor-stabilized convertase. In the present study, subendothelial deposits in MPGN type III were also found to be closely associated with nephritic factor; they were present in 14 of 26 (54%) biopsy specimens obtained during hypocomplementemia but in none of the 18 biopsy specimens obtained during normocomplementemia (P < 0.001). Subepithelial loop deposits in type III were also more frequent in biopsy specimens obtained during hypocomplementemia and are probably in some way also associated with circulating stabilized convertase. Taken together, the results of this and previous studies are compatible with the hypothesis that an excess of the C3b-dependent convertase in the circulation is basic to the pathogenesis of MPGN types II and III as well as of several other nephritides associated with factor H dysfunction. The half-life, structural complexity, and size of the convertases circulating in these nephritides increase in the following order: native convertase, convertase stabilized by the nephritic factor of the amplification loop (NFa), and convertase stabilized by nephritic factor of the terminal pathway (NFt). In the same order, the nephritides associated with these convertases more frequently manifest and have increasing amounts of glomerular deposit. This relationship of glomerular deposits with circulating convertase, however, is only circumstantial. There is no evidence that the convertase or a part thereof is a constituent of the deposits. The lesion that is the hallmark of MPGN type III is one in which interruptions of lamina densa are associated with subendothelial and subepithelial deposits, often confluent, and interspersed with multiple layers of new lamina densa-like material. This “type III lesion,” which by implication is also associated with circulating nephritic factor, is the most persistent of the glomerular deposits. For reasons that are not yet clear, the type III lesion was absent in three patients who were severely hypocomplementemic, and the diagnosis of type III was made only after this lesion appeared in biopsy specimens obtained later. In MPGN type I, differing from type III, subendothelial deposits were present in 100% of biopsy specimens obtained during hypocomplementemia and in 47% of those obtained during normocomplementemia. Their persistence in type I may reflect rearrangement and condensation of the deposited material, shown by other investigators to be dependent on the presence of immunoglobulin G, which is largely absent from the deposits in type III. The comparison of deposits in types I and III indicates that relating the presence of subendothelial and paramesangial deposits to the C3 level at the time of biopsy can be helpful in distinguishing types I and III when the type III lesion is not present. (Am J Kidney Dis 1998 Jul;32(1):56-63)