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Softness enhanced macrophage-mediated therapy of inhaled apoptotic-cell-inspired nanosystems for acute lung injury

Dazheng Sun, Guanglin Zhang, Mingyang Xie, Yina Wang, Xiangchao Liang, Mei Tu, Zhijian Su, Rong Zeng

2023Journal of Nanobiotechnology26 citationsDOIOpen Access PDF

Abstract

Abstract Engineered nanosystems offer a promising strategy for macrophage-targeted therapies for various diseases, and their physicochemical parameters including surface-active ligands, size and shape are widely investigated for improving their therapeutic efficacy. However, little is known about the synergistic effect of elasticity and surface-active ligands. Here, two kinds of anti-inflammatory N -acetylcysteine (NAC)-loaded macrophage-targeting apoptotic-cell-inspired phosphatidylserine (PS)-containing nano-liposomes (PSLipos) were constructed, which had similar size and morphology but different Young’s modulus (E) (H, ~ 100 kPa > E macrophage vs. L, ~ 2 kPa < E macrophage ). Interestingly, these PSLipos-NAC showed similar drug loading and encapsulation efficiency, and in vitro slow-release behavior of NAC, but modulus-dependent interactions with macrophages. Softer PSLipos-L-NAC could resist macrophage capture, but remarkably prolong their targeting effect period on macrophages via durable binding to macrophage surface, and subsequently more effectively suppress inflammatory response in macrophages and then hasten inflammatory lung epithelial cell wound healing. Especially, pulmonary administration of PSLipos-L-NAC could significantly reduce the inflammatory response of M1-like macrophages in lung tissue and promote lung injury repair in a bleomycin-induced acute lung injury (ALI) mouse model, providing a potential therapeutic approach for ALI. The results strongly suggest that softness may enhance ligand-directed macrophage-mediated therapeutic efficacy of nanosystems, which will shed new light on the design of engineered nanotherapeutics. Graphical abstract

Topics & Concepts

MacrophageApoptosisLiposomeAlveolar macrophageLungCancer researchChemistryAcetylcysteineInflammationWound healingCellPhosphatidylserineIn vitroPharmacologyImmunologyMedicineMembraneBiochemistryInternal medicinePhospholipidAntioxidantPhagocytosis and Immune RegulationImmune cells in cancerNanoplatforms for cancer theranostics