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Single intramuscular injection of self-amplifying RNA of <i>Nppa</i> to treat myocardial infarction

Kaiyue Zhang, Hongyan Tao, Dashuai Zhu, Zhang Yue, Shiqi Hu, Yiping Wu, Na Yan, Yilan Hu, Shuo Liu, Mengrui Liu, Torsten Vahl, Lauren S. Ranard, Xiao Cheng, А. Романов, Jiaming Liu, Shuai Zhang, Yuan Li, Chao Lu, Ming Shen, Andrew Lewis, Ke Huang, Ke Cheng

2026Science9 citationsDOIOpen Access PDF

Abstract

Self-amplifying RNA (saRNA) enables sustained protein expression from a single administration. In this study, we developed an intramuscular saRNA-lipid nanoparticle (saNppa-LNP) therapy encoding natriuretic peptide type A ( Nppa ) for cardioprotection. A single injection induced sustained pro–atrial natriuretic peptide (pro-ANP) secretion for 4 weeks; pro-ANP was subsequently cleaved by the cardiac protease corin into active ANP, producing robust cardioprotection in mouse and swine myocardial infarction models. At equivalent doses, saNppa achieved greater efficacy than conventional mRNA. Single-nucleus transcriptomics identified natriuretic peptide receptor 1–positive ( Npr1 + ) endothelial and epicardial cells as primary effectors, with saNppa-LNPs reshaping their paracrine profile to promote cardiomyocyte regeneration and suppress fibrosis. Longitudinal biosafety assessments revealed no systemic toxicity. Together, these results demonstrate that one-shot saNppa-LNP therapy offers durable cardioprotection, supporting the broader potential of saRNA-LNP–based approaches for cardiac therapy.

Topics & Concepts

CardioprotectionMyocardial infarctionMedicineNatriuretic peptideCardiologyInternal medicineAtrial natriuretic peptideParacrine signallingIntramuscular injectionPharmacologyPeptideBiosafetyRNAReceptorHeart failureBrain natriuretic peptideMyocarditisSecretionCell therapyCardiac function curveProteaseCellInfarctionMesenchymal stem cellEndocrinologyTranscriptomeRNA Interference and Gene DeliveryCardiac Fibrosis and RemodelingTissue Engineering and Regenerative Medicine