Abstract 11936: Development of Monthly to Quarterly Subcutaneous Administration of RNAi Therapeutics Targeting the Metabolic Diseases Genes PCSK9, ApoC3 and ANGPTL3

Introduction: Cardiovascular disease remains the top cause of mortality in the United States. We have developed, and validated in human trials, a platform for reducing the synthesis of genes expressed in the liver. The platform utilizes a GalNAc sugar ligand attached to the 3’end of the sense strand of an RNAi molecule to enable delivery specifically to the liver. Here we present data from this platform on multiple targets of interest in cardiovascular disease, including PCSK9, ANGPLT3 and ApoC3. Hypothesis: RNAi therapeutics targeting liver genes of interest (such as PCSK9, ApoC3 and Angptl3) will allow for control of lipid levels and reduce the risk of cardiovascular disease. Methods: Chemically modified siRNAs were designed using bioinformatic algorithms and were screened for potency in vitro. pM active siRNA molecules were developed targeting PCSK9, ANGPLT3 and ApoC3. Results: ALN-PCSsc: In NHPs a single dose of ALN-PCSsc at ≥ 6 mg/kg reduced circulating PCSK9 levels up to 97% and LDL-C up to 67%. Mor...