Pamela Pritzl

Complement membrane attack complex stimulates production of reactive oxygen metabolites by cultured rat mesangial cells.

To explore possible mechanisms by which complement membrane attack complexes (MAC) that are deposited in the glomerular mesangium might be pathogenic, we stimulated rat glomerular mesangial cells grown in vitro with nascent MACs formed from the purified human complement components C5b6 and normal human serum and measured production of superoxide ion (O2-) and hydrogen peroxide (H2O2). Mesangial cells incubated with C5b6 + serum, which results in cell membrane interaction with the MAC, produce 0.9 +/- 0.15 nmol O2-/10(5) cells per 30 min, which was significantly greater than the amount produced by cells incubated with C5b6 alone, serum alone, or decayed MACs that can no longer interact with the cell membrane (0.3 +/- 0.2, 0.4 +/- 0.1, 0.3 +/- 0.2 nmol O2-/10(5) cells per 30 min, respectively; P less than 0.02). Production of O2- after stimulation with MACs increased during the first 20 min of incubation but then plateaued. Cells exposed to decayed MACs produced small amounts of O2-, which did not increase from 20 to 60 min. Production of H2O2 was also observed after stimulation with MACs, and continued to increase during 60 min of incubation (1.22 +/- 0.16 nmol H2O2/10(5) cells per 60 min), whereas H2O2 production could not be detected after exposure to decayed MACs. Cell viability was not adversely affected by exposure to nascent MACs as determined by trypan blue exclusion or chromium-51 release. These results demonstrate that glomerular mesangial cell membrane interaction with the MAC stimulates the production of the toxic oxygen metabolites O- and H2O2. Activation of the terminal complement pathway by mesangial immune deposits in vivo might lead to tissue injury by stimulation of local production of toxic oxygen-free radicals.

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.

Characterization of rat mast cell granule proteins

Abstract Mast cell granules free of membranes were isolated by differential centrifugation of water-lysed cells. The granules were extracted sequentially with 0.5, 1.0, and 2.0 m KCl. The 0.5 m fraction contained 95% of the N -acetyl-β-glucosaminidase activity; this enzyme probably accounts for no more than 1% of the total granule protein. The 1.0 m fraction contained more than 80% of the granule chymotrypsin-like activity; the chymotrypsin-like enzyme was calculated to represent at least 15% of total granule protein. Heparin was found largely in the 1.0 m extract and in the residue after 2.0 m extraction. The heparin in both fractions had a molecular weight by gel exclusion chromatography considerably in excess of commercial porcine heparin. Acrylamide-gel electrophoresis of granules dissolved in 1% sodium dodecyl sulfate and reduced with dithiothreitol demonstrated four major protein bands. The 1.0 m fraction contained the most prominent, rapidly migrating band. The more slowly migrating, higher molecular weight bands appeared in greater proportion in the 2.0 m and residue fractions. Autodigestion of the 1.0 m extract permitted purification of the mast cell chymotrypsin-like enzyme to specific activities as high as that of crystallized bovine pancreatic α-chymotrypsin. The mast cell chymotrypsin-like enzyme purified in this way migrated on dodecyl sulfate-gel electrophoresis as a single major band with an estimated molecular weight of 29,000.

Differential uptake of human β-glucuronidase isoenzymes from spleen by deficient fibroblasts

Summary Two fractions of β-glucuronidase have been separated from an extract of human spleen by salt elution from DEAE. The two fractions correspond to two bands on gel acrylamide electrophoresis at pH 4.3. The 0.02 M NaCl eluate gives an immunodiffusion reaction of identity with β-glucuronidase purified from liver, and is taken up poorly by deficient human fibroblasts. The 0.1 M eluate fails to cross react with the antibody to the liver enzyme, and is taken up avidly by deficient fibroblasts.

A mucopolysaccharide storage disease with involvement of the renal glomerular epithelium

Abstract A young child with severe mental retardation, skeletal abnormalities and the phenotypic appearance typical of a mucopolysaccharide disorder was found to have a previously unrecognized form of mucopolysaccharide storage disease. Mucopolysaccharide was found to accumulate in perichondrium, coronary arteries, aorta and the glomerular epithelial cells of the kidney; the reticuloendothelial system remained free of mucopolysaccharide. Lipid accumulation was observed in peripheral neurons but not in central neurons. Skin fibroblast cultures accumulated 35 SO 4 to an extent intermediate between normal cell lines and those from patients with classic mucopolysaccharide storage disorders.