Molecular Therapy: Methods & Clinical Development (Jun 2018)

Biocompatible, Purified VEGF-A mRNA Improves Cardiac Function after Intracardiac Injection 1 Week Post-myocardial Infarction in Swine

  • Leif Carlsson,
  • Jonathan C. Clarke,
  • Christopher Yen,
  • Francine Gregoire,
  • Tamsin Albery,
  • Martin Billger,
  • Ann-Charlotte Egnell,
  • Li-Ming Gan,
  • Karin Jennbacken,
  • Edvin Johansson,
  • Gunilla Linhardt,
  • Sofia Martinsson,
  • Muhammad Waqas Sadiq,
  • Nevin Witman,
  • Qing-Dong Wang,
  • Chien-Hsi Chen,
  • Yu-Ping Wang,
  • Susan Lin,
  • Barry Ticho,
  • Patrick C.H. Hsieh,
  • Kenneth R. Chien,
  • Regina Fritsche-Danielson

Journal volume & issue
Vol. 9
pp. 330 – 346

Abstract

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mRNA can direct dose-dependent protein expression in cardiac muscle without genome integration, but to date has not been shown to improve cardiac function in a safe, clinically applicable way. Herein, we report that a purified and optimized mRNA in a biocompatible citrate-saline formulation is tissue specific, long acting, and does not stimulate an immune response. In small- and large-animal, permanent occlusion myocardial infarction models, VEGF-A 165 mRNA improves systolic ventricular function and limits myocardial damage. Following a single administration a week post-infarction in mini pigs, left ventricular ejection fraction, inotropy, and ventricular compliance improved, border zone arteriolar and capillary density increased, and myocardial fibrosis decreased at 2 months post-treatment. Purified VEGF-A mRNA establishes the feasibility of improving cardiac function in the sub-acute therapeutic window and may represent a new class of therapies for ischemic injury. Keywords: modRNA, mRNA, mRNA, VEGF, heart failure