Core Viewpoint - The article discusses the advancements in mRNA therapies, particularly focusing on the development of non-inflammatory lipid nanoparticles (NIF-LNP) to enhance the delivery and efficacy of mRNA treatments for chronic lung injuries [1][2][9]. Group 1: mRNA Therapy and Challenges - mRNA therapies have revolutionized the treatment of various diseases, but the use of lipid nanoparticles (LNP) is limited due to systemic inflammatory responses and side effects [1][5]. - Therapeutic mRNA requires significantly higher protein levels (up to 1000 times) compared to preventive mRNA vaccines, which may lead to increased reactogenicity and reduced transfection efficiency [1]. Group 2: Research Development - A study published in Nature Communications introduced a novel non-inflammatory lipid nanoparticle (NIF-LNP) that activates V-ATPase to enhance RNA nanotherapeutics for chronic lung injury [2][3]. - The NIF-LNP formulation, incorporating ursolic acid, demonstrated a 40-fold increase in protein expression in the lungs compared to traditional LNPs without significant reactogenicity [5]. Group 3: Mechanism and Clinical Application - The study revealed that ursolic acid activates the V-ATPase complex, promoting endosomal acidification and enhancing mRNA cytoplasmic release while maintaining endosomal stability [6]. - A lyophilized formulation of NIF-LNP was developed, showing good aerosolization and stability for over 90 days, with effective mRNA transfection in preclinical models [7].