Immunological and non-immunological mechanisms of proteinuria.

Proteinuria as a general symptom of a broad range of different diseases can result from gene mutations of molecules building up the glomerular sieve, from immune-mediated, haemodynamic or metabolic disturbances of the glomerular filter. This filter is not a static barrier but consists of a highly dynamic interacting podocyte foot process to foot process to glomerular basement membrane complex. Its function is to prevent leakage of macromolecules and blood cells into the urine. Molecules like nephrin and podocin are directly involved in the formation of the slit diaphragm located at the end of the foot processes. Other molecules, i.e. CD2AP, play a role in organizing the correct position of the podocytes and its foot processes via controlling intra-cellular actin filaments. Gene mutations coding for these molecules directly cause proteinuric diseases. Autoantibodies or circulating immune complexes can destroy this fragile network of cells and the basement membrane via accumulation of inflammatory cells, cytokines and generation of oxygen radicals. Hemodynamic and metabolic changes as seen in diabetic nephropathy are associated with increased TGF-ss expression and extra-cellular matrix expansion in the mesangium and a decrease of podocyte numbers. Thus, proteinuria is the result of a disturbance of the highly fragile network of cells and the basement membrane on the micro-anatomical and molecular level.

Glomerular morphometry in biopsy evaluation of minimal change disease, membranous glomerulonephritis, thin basement membrane disease and Alport's syndrome.

OBJECTIVE: To assess the role of glomerular morphometry in biopsy evaluation in renal disorders in addition to conventional diagnostic procedures. STUDY DESIGN: The study includes 10 cases each of minimal change disease (MCD), idiopathic membranous glomerulonephritis (idiopathic MGN), thin basement membrane disease (TBMD) and Alport's syndrome. Renal biopsies for normal study were obtained from age- and sex-matched autopsy cases without any renal disorder, confirmed histologically and ultrastructurally. Glomerular morphometry was performed by semiautomatic procedure using Quantimet-600 image analysis system (Leica, Cambridge, United Kingdom). RESULTS: Morphometric findings revealed significant increase in glomerular "diameter and area" and "tuft diameter and area" in patients of idiopathic MGN, but no significant difference was found in patients of MCD, TBMD and Alport's syndrome. Evaluation of glomerular volume fractions revealed a decrease in capillary space volume fraction and an increase in "membranes and mesangial matrix" volume fraction in patients with idiopathic MGN. Significant decrease in capillary space volume fraction was also observed in patients of MCD. Patients with Alport's syndrome showed variable changes. CONCLUSION: Glomerular morphometry could be considered as an adjunct to the diagnostic armamentarium of light microscopy, immunofluorescence and electron microscopy because it provides deep insight into quantitative parameters.