Matthias Schulze

Basic fibroblast growth factor augments podocyte injury and induces glomerulosclerosis in rats with experimental membranous nephropathy.

Podocyte injury is believed to contribute to glomerulosclerosis in membranous nephropathy. To identify the factors involved, we investigated the effects of basic fibroblast growth factor (bFGF), a cytokine produced by podocytes, on rats with membranous nephropathy (passive Heymann nephritis [PHN]). All rats received a daily i.v. bolus of 10 microg bFGF or vehicle from days 3-8 after PHN induction. In proteinuric PHN rats on day 8, bFGF injections further increased proteinuria. Podocytes of bFGF-injected PHN rats showed dramatic increases in mitoses, pseudocyst formation, foot process retraction, focal detachment from the glomerular basement membrane, and desmin expression. bFGF injections in PHN rats did not alter antibody or complement deposition or glomerular leukocyte influx. bFGF-injected PHN rats developed increased glomerulosclerosis when compared with control PHN rats. Also, bFGF induced proteinuria and podocyte damage in rats injected with 10% of the regular PHN-serum dose. None of these changes occurred in bFGF-injected normal rats, complement-depleted PHN rats or rats injected with 5% of the regular PHN serum dose. These divergent bFGF effects were explained in part by upregulated glomerular bFGF receptor expression, induced by PHN serum. Thus, bFGF can augment podocyte damage, resulting in increased glomerular protein permeability and accelerated glomerulosclerosis. This bFGF action is confined to previously injured podocytes. Release of bFGF from glomerular sources (including podocytes themselves) during injury may represent an important mechanism by which podocyte damage is enhanced or becomes self sustained.

Platelets mediate neutrophil-dependent immune complex nephritis in the rat.

Neutrophils and platelets are frequently present in glomeruli in immune glomerulonephritis (GN). No role for the platelet in acute neutrophil-mediated renal injury has been defined. We investigated a neutrophil-mediated model of subendothelial immune complex GN in the rat. Rats were platelet-depleted (mean platelet less than 10,000/microliter) with goat anti-platelet IgG before induction of GN by the renal artery perfusion of concanavalin A followed by anti-concanavalin A IgG. Platelet-depletion resulted in a significant reduction in albuminuria (7 +/- 2 vs. 55 +/- 10 mg/24 h) and fractional albumin excretion (0.045 +/- 0.01 vs. 0.410 +/- 0.09) compared with controls. The decrease in albuminuria was not due to differences in blood or glomerular neutrophil counts, complement, renal function, or glomerular antibody binding. Platelet-depleted rats had equivalent subendothelial deposits and glomerular endothelial cell injury but had minimal platelet infiltrates and fibrin deposition compared with controls. These studies demonstrate a role for platelets in mediating acute neutrophil-induced glomerular injury and proteinuria in this model of GN.

Inhibition of terminal complement complex formation and cell lysis by monoclonal antibodies.

Three monoclonal antibodies (mabs), two against C5 and one against C6, were identified and characterized. They inhibited the generation of the terminal complement complex (TCC) in serum to over 90% as assayed by a sensitive ELISA based on a neoepitope-specific mab, which recognized TCC-integrated C9. The haemolytic function of the TCC was markedly reduced by all three mabs implying that they are directed to epitopes on C5 and C6 which are essential for TCC formation in both the fluid phase and on erythrocyte membranes. Since the generation of C5a was also impaired by these mabs, they may serve as tools in investigations of the sequelae of the generation of C5a and of TCC.

A Sensitive Enzyme Immunoassay for the Quantitation of Human C5a/C5a(desArg) Anaphylatoxin Using a Monoclonal Antibody with Specificity for a Neoepitope

The direct quantitation of C5a/C5a(desArg) in human plasma was achieved by a specific and highly sensitive ELISA which is based on the neoepitope-specific monoclonal antibody C17/5. The error-prone removal of C5 from plasma prior to the assay is therefore not required. With a detection limit of 20 pg C5a/ml plasma, the sensitivity of this assay allowed to define normal ranges (1.94 +/- 1.49 ng C5a/nl, mean +/- SD) of C5a/C5a(desArg) in human blood plasma. This assay will also be applicable to the quantitation of C5a in specimens with low protein content where precipitation-based assays fail to accurately determine C5a. In addition, the mAb C17/5 turned out to efficiently block the binding of C5a/C5a (desArg) to its cellular receptor and therefore provides a valuable tool in the delineation of C5a effects in complex biologic systems in the presence of native C5, such as under in vivo conditions.