Abstract 113: Renal Phenotype of Inwardly Rectifying Potassium Channel Kcnj16 (Kir 5.1) Knockout in the Dahl Salt-Sensitive Rats

Abstract

The inward-rectifying channels play an important role in the control of resting membrane potential and tubular homeostasis in the kidney. Kcnj16 (Kir 5.1) form a heteromeric channel with Kcnj10 (Kir 4.1) at the basolateral membranes of aldosterone-sensitive distal nephron (ASDN); mutations in the human KCNJ10 gene result in SeSAME)/EAST syndrome, a complex disorder that includes salt wasting and hypokalemic alkalosis. To illuminate the importance of Kcnj16 (Kir 5.1) in the context of a disease state in vivo, we generated a Kcnj16 knockout rat model in Dahl salt-sensitive (SS) background by using ZFN technology. ZFN against Kcnj16 caused a 18-bp in-frame deletion that occurred in the second protein transmembrane domain. IHC analysis demonstrated highly specific expression of Kcnj16 on the basolateral membranes of ASDN in the control kidneys of SS rats, which was completely abolished in Kcnj16-/- rats. The electrophysiological recording of K+ channels in the CCD basolateral membrane revealed activity of only homomeric Kcnj10 channels (21 pS channel in Kcnj16-/- rats compared to both 41 and 21 pS channels in SS rats). Thus, these data provide evidence of successful knock out of this protein and consequent degradation of the channel in renal tubules. The Kcnj16-/- knockout in SS rat induces electrolyte imbalance, epileptic seizures and result in changes in development (37% reduction in body and 54% in kidney mass). The mean arterial pressure was significantly lower in Kcnj16-/- compared to SS rats (91.3±1.8 to 104.7±5.5 mmHg) when animals were fed a low salt (0.4%) diet. Knockout of Kcnj16 resulted in hypokalemia (4.25±0.09 vs 2.08±0.12 mmol/L in serum of control vs KO rats), hypermagnesemia (0.49±0.02 vs 0.63±0.01 mmol/L in serum of control vs KO rats), and FSGS. Urea electrolyte balance was also disturbed compared to control animals. Importantly, change of the diet to high salt (4%) caused mortality of KO rats within 1-2 days. These data demonstrate critical role of Kcnj16 channels in renal salt handling and in the development of salt-sensitive hypertension.