Hydrogen-induced disruption of the airway mucus barrier enhances nebulized RNA delivery to reverse pulmonary fibrosis
Chang Liu, Xidong Tian, Zhenping Wang, Jcw Mak, Shirui Mao, Tzu‐Ming Liu, Ying Zheng
Abstract
Nebulized RNA therapies are well suited for treating respiratory diseases, in particular pulmonary fibrosis (PF); however, effective delivery remains challenging. In this study, we present a highly efficient aerosol inhalation system that enables high levels of in vivo transfection efficiency in lung macrophages, yielding durable responses against PF. First, we established a nose-only aerosol inhalation device integrated with a hydrogen supplement system. This setup enables the precise administration of lipid nanoparticles (LNPs) at a controlled low dose, while simultaneously delivering the optimal concentration of therapeutic hydrogen gas. We further developed a hybrid lipid NP (HNP) by hybridizing a pH-dependent charge-inverting lipid film with apoptotic T cell membranes to enhance endosomal escape and trigger macrophage production of hepatocyte growth factor for lung repair. We demonstrated that the hydrogen flow–induced shear stresses disrupt the NP-mucus interaction, enhancing the deposition of aerosolized HNPs/ TGF β 1 siRNA within fibrotic lung lesions, effectively blocking fibrogenic signaling pathways and offering a clinically viable strategy for combating PF.