#1460 Targeting cyst progression: evaluation of anthelmintic and proton pump inhibitor in a rodent PKD model

Abstract

Abstract Background and Aims In polycystic kidney disease (PKD) cyst formation and growth leads to progressive kidney damage. Recognizing the need for effective cyst-inhibitory drugs, we previously performed high-content screening of approved, repurposable drugs in a zebrafish model and identified several compounds with cyst-inhibitory activity and low toxicity. Here, we further tested two of the identified compounds, an anthelmintic agent and proton pump inhibitor, in a rodent model of PKD (PCK rat) for their cyst inhibitory and GFR-preserving capacity in mammals. Method The identified compounds were administered to 3-week-old male and female PCK rats for a total of 10 weeks to evaluate early drug effects on kidney function. Untreated PCK rats fed a normal ROD16 diet served as controls. After 5 weeks of treatment, total kidney and cystic volume and number of cysts were assessed in vivo by ultrasound. Following 10 weeks of treatment, kidney function was assessed by transcutaneous measurement of FITC-Sinistrin. After perfusion fixation in the same week, the kidneys, liver, heart, and pancreas were harvested for subsequent histological and molecular biological analyses. Results In male rats, 5-week proton pump inhibitor treatment was associated with a 50% reduction in the number of cysts (p < 0.05) and a nominal 22% reduction of fractional cystic kidney volume (CKV). Females showed a 16% reduction in cyst count and a modest reduction in fractional CKV. Treatment with the anthelmintic tended to reduce fractional CKV and cyst count in female animals whereas fractional cyst volume in males increased. After 10 weeks of treatment, a trend towards better preservation of GFR was observed for both therapies. Conclusion In conclusion, our study demonstrates a potential therapeutic benefit of a proton pump inhibitor and an anthelmintic agent in attenuating the progression of polycystic kidney disease (PKD) in a PCK rat model. The observed reductions in fractional cystic kidney volume and cyst count, coupled with marginal improvements in renal function, document a potential therapeutic effect of these compounds. Our preliminary findings justify further exploration of novel treatment modalities targeting cyst progression and renal dysfunction in this challenging clinical condition.