SPARSENTAN, THE DUAL ENDOTHELIN ANGIOTENSIN RECEPTOR ANTAGONIST (DEARA), ATTENUATES ALBUMINURIA AND PROTECTS FROM THE DEVELOPMENT OF RENAL INJURY TO A GREATER EXTENT THAN LOSARTAN IN THE GDDY MOUSE MODEL OF IGA NEPHROPATHY: A 16-WEEK STUDY

Abstract BACKGROUND AND AIMS gddY mice are an IgA nephropathy (IgAN)-prone mouse model that develops albuminuria by 8 weeks (wks) of age with glomerular IgA, IgG and C3 deposits and progressive mesangioproliferative glomerulonephritis. We have previously shown that sparsentan (SP), a novel, highly selective, first-in-class, single-molecule dual endothelin angiotensin receptor antagonist (DEARA) being developed for the treatment of focal segmental glomerulosclerosis and IgAN, protected gddY mice from the development of albuminuria and glomerulosclerosis in an 8-week study. Here we compare the impact of SP and losartan (LS), an angiotensin II subtype 1 receptor antagonist (AT1R), on albuminuria, % of sclerotic glomeruli (GS), podocyte number, and glycocalyx damage in gddY mice treated for 16 weeks. METHOD gddY mice at 4 weeks of age were treated for 8 or 16 weeks either with chow as a control (C) (n = 10) or containing SP at 900 ppm (SP900) (n = 12) or with control chow and LS in drinking water to deliver 30 mg/kg of LS (LS30) (n = 12). Systolic blood pressure (BP) was measured by tail-cuff plethysmography at 8, 12 and 18 weeks of age. Albuminuria/creatinine ratio (ACR) was assessed every 2 weeks until 20 weeks of age. Kidney biopsies (n = 4–5 per group) were taken from a subset of mice sacrificed at age 12 weeks and at the end of the study at 20 weeks of age (5–7 per group) and processed for determination of GS, the number of podocytes assessed by immunohistochemistry using an anti-WT-1 antibody (30 glomeruli per animal), and measurement of the glycocalyx area using FITC-labeled lectin (10 glomeruli per animal). RESULTS gddY mice treated with SP900 or LS30 had an equivalent and significant (P < .01) reduction in BP compared with C mice at 12 and 18 weeks of age (18 weeks of age mean BP ± SD mmHg: C, 147 ± 28; SP900, 100 ± 6; LS30, 101 ± 8). Despite similar systemic hemodynamic effects, SP900 treatment resulted in a greater and more rapid reduction in ACR from baseline compared with either mice treated with C or LS30 during the first 4 weeks of treatment (Fig. 1). Development of GS was significantly attenuated in mice at 20 weeks of age treated with SP900 (P < .001) compared with C mice, but not in those treated with LS30 (mean sclerosis score ± SD: C, 28 ± 17; SP900, 3 ± 1; LS30, 19 ± 21). Compared with C mice at 20 weeks of age, SP900 (P < .0001) and LS30 (P < .05) significantly prevented the reduction in WT-1 immunoreactivity (WT-1 positive cells/glomerulus, mean ± SD: C, 7.3 ± 0.5; SP900, 10.0 ± 0.5; LS30 8.1 ± 0.8). Notably, SP900-treated mice had significantly greater WT-1 staining (P < .0001) and glycocalyx area (Fig. 2) than LS30 mice. CONCLUSION gddY mice treated from 4–20 weeks of age with sparsentan demonstrated a more rapid attenuation of ACR and greater protection from GS than mice treated with losartan. Sparsentan protected the glomeruli from loss of podocytes and glycocalyx to a greater extent than losartan despite equivalent lowering of BP. These results suggest that the ability of sparsentan to protect gddY mice from progression of IgAN nephropathy may go beyond effects mediated through reduction in blood pressure and antagonism of AT1R alone and may be attributed to its dual mechanism of action. If translated to the clinic, these data may support sparsentan as a new approach to the treatment of IgAN.