Loss of the Basement Membrane Matrix Molecule, Bamin, in Diphenylamine-Treated Mice

Polycystic kidney disease (PKD) is a life-threatening disease characterized by focal dilatations or cysts in certain kidney tubules. Changes (i. e. thickening) in the support structure for these tubules, the basement membrane, have been related to the development of the cysts. Analysis of changes in basement membranes of humans with PKD is difficult, however, due to the restricted amount of material available for study. Several genetic and induced animal models, including diphenylamine-treated rats, have been employed to study the effects of PKD on basement membrane synthesis. While all these studies agree that PKD has a significant influence on basement membranes, no clear understanding as to how PKD effects basement membrane composition has emerged. Here, we report our findings of the effect of diphenylamine treatment on the composition of the basement membrane. Our immunohistological studies indicate that bamin, a recently described glycoprotein associated with glomerular basement membranes (Robinson et al., 1989), is not present in the glomerular basement membranes of diphenylaminetreated mice. This finding was confirmed by analysis of the composition of the basement membrane matrix synthesized by EHS tumors grown in control and diphenylamine-treated mice. The possible role of bamin in the pathogenesis of renal cysts is discussed.