Poly-D-glutamic acid induces an acute lysosomal thesaurismosis of proximal tubules and a marked proliferation of interstitium in rat kidney.

Kishore BK, Maldague P, Tulkens PM, Courtoy PJ Unite de Pharmacologie Cellulaire et Moleculaire, Universite Catholique de Louvain, Brussels, Belgium.

Renal damage caused by polycationic peptides is well documented, but renal damage caused by polyanionic peptides is not. During our attempts to inhibit the nephrotoxicity of aminoglycoside antibiotics by polyanionic peptides, we discovered that poly-D-glutamic acid (molecular weight, 20 kd; 250 mg/kg/day subcutaneously for 1 to 4 days) produces an acute thesaurismosis in the proximal tubular cells associated with a marked proliferation of peritubular interstitial cells in rat kidney. Thesaurismotic bodies were easily visualized by light microscopy at the basal pole of proximal tubular cells with the cationic stain Giemsa. By electron microscopy, these bodies appeared membrane-limited, frequently distorted, filled with heterogeneous granular material, accessible to injected peroxidase (a tracer of the endocytic pathway), and generally stainable for the lysosomal enzyme arylsulfatase. Specimens obtained 3 hours after injection of poly-D-glutamic acid and horseradish peroxidase suggested an impairment of endosome and/or lysosome fission, but not fusion. By histoautoradiographic examination after 3H-thymidine incorporation, global labeling indices of cortical cells were increased 11- to 18-fold in poly-D-glutamic acid-treated rats as compared with controls, with > 80% of labeled cells localized in the interstitium. Distal tubular and glomerular cells also showed a moderate proliferation, but proximal tubular cells showed no significant necrosis or proliferation. Although tubular thesaurismosis persisted, interstitial cell proliferation resolved within 7 days after cessation of treatment. We suggest that poly-D-glutamic acid is a convenient tool to induce a rapid and sustained lysosomal storage disorder. It could also help clarify the relationship between insults to tubular cells and proliferation of peritubular cells, two features frequently associated in tubulointerstitial disorders. The mechanism of the thesaurismosis and of the interference with the dynamics of fusion-fission of the endocytic apparatus are addressed in the companion paper.

PMID: 8667606, UI: 96249110