Insights into cAMP signaling in polycystic kidney disease from depletion and interaction studies of Phosphodiesterase 1A and Polycystin 2 in zebrafish

Substantial evidence indicates the importance of elevated cAMP in polycystic kidney disease (PKD). Preclinical and clinical trials have shown the feasibility of therapies (vasopressin V2 receptor antagonists and somatostatin analogs) acting on G protein coupled receptors to inhibit adenylyl cyclase activity and production of cAMP. An additional or alternative approach could be to increase phosphodiesterase (PDE) mediated hydrolysis of cAMP. Of the large PDE superfamily, PDE1 is the only family activated by calcium, which is reduced in PKD cells. To assess the contribution of PDE1A to renal cyst formation, we depleted PDE1A levels using antisense morpholinos in zebrafish. We identified two splice isoforms with alternative starts corresponding to human PDE1A1 and PDE1A5. Two splice‐blocking morpholinos targeting the common hydrolase domain of both isoforms induced renal cysts. Two additional morpholinos, targeting each start, also induced renal cysts with dose dependence and additive effects. Co‐injection of the start 1 morpholino with pkd2 morpholino increased the severity of hydrocephalus, renal cysts, and body curvature, demonstrating functional interaction of PDE1A and PC2. Overall, data implicate PDE1A in PKD pathogenesis and validate further investigation of PDE1A as a therapeutic target in PKD.