Abstract 10303: CRRL290: A Novel and Mechanism-Based Therapeutic Peptide Targeting the Crosstalk Between Angiotensin II and the Natriuretic Peptide System for Cardiorenal Disease

Abstract

Introduction: Therapeutic strategies dual-targeting renin-angiotensin system (RAS) and natriuretic peptide system (NPS), such as Sacubitril/Valsartan, have been proven promising in treating cardiorenal disease (CRD). However, mechanisms behind the crosstalk between RAS and NPS remain to be fully elucidated. While angiotensin II (ANGII), the central RAS hormone, is thought to interact with NPS at multiple levels, whether and how it may influence the actions of particulate guanylyl cyclase A (pGC-A), the receptor activated by ANP and BNP to increase its second messenger cGMP, has not been investigated. Hypothesis: We hypothesize ANGII naturally suppresses pGC-A activity and inhibition of this ANGII mediated action can be a new strategy to combat CRD. Methods: Studies consist of biomarker analyses in plasma from healthy humans, drug infusions in normal rats, molecular characterization in human HEK293 cells, and in vitro assessment of CRRL290, an innovative dual-functional peptide designed to activate pGC-A and inhibit protein kinase C (PKC). Results: In 128 healthy humans, plasma cGMP was positively associated with ANP or BNP in low (≤ 4.5 pg/mL) but not those with high (> 4.5 pg/mL) ANGII levels. Infusion of ANP (300 pmol/kg/min) in normal rats increased plasma and urinary cGMP, however ANP mediated cGMP generation was reduced in the presence of ANGII. Interestingly, suppression effect of ANGII on pGC-A was only recapitulated in HEK293 cell overexpressing both pGC-A and AT1R, but not in HEK293 cell overexpressing pGC-A alone. We also found PKC, a known downstream target of AT1R, was a key mediator as the suppression effect of ANGII was largely ablated by Go6983, a pan PKC inhibitor. Accordingly, we designed and synthesized CRRL290. Notably, CRRL290 had superior potency in cGMP generation compared to the currently best-in-class ANP-analog, MANP, in HEK293 cells. Conclusions: We demonstrate that ANGII is a natural suppressor of pGC-A via AT1R and PKC signaling. We also report for the first time that CRRL290, a novel bioengineered peptide that activates pGC-A receptor while inhibiting PKC signaling, potently generates cGMP. Our study provides new insights into the RAS-NPS interaction, and highlights a novel and mechanism-based therapeutic avenue for treating CRD.