促炎细胞因子
药物输送
吸入
肺
药理学
医学
粘液
药品
气道
内吞作用
肺表面活性物质
材料科学
呼吸系统
不利影响
细胞因子
脂质体
渗透(战争)
炎症
渗透(HVAC)
靶向给药
毒品携带者
纳米载体
肺炎
作者
Qiang Zhang,Yu Miao,Haibin Zhao,Yi Liu,Zhiqiang Wu,Junjie Zhu,Yuan Fang,Baoye Ma,Lidong Chen,Qian Chen,Yang Yang
标识
DOI:10.1021/acsami.5c25832
摘要
Acute lung injury (ALI), characterized by dysregulated inflammation, remains a life-threatening condition with high clinical morbidity and mortality. Aerosol inhalation offers a promising route for targeted pneumonia therapy; however, its efficacy is significantly limited by poor drug penetration through the airway mucus barrier. To address this challenge, we developed an innovative surfactant-based delivery system utilizing ring-opened sophorolipids (acidic sophorolipids, aSL), which endowed them with both surfactant properties and amphiphilicity, thereby achieving dual functionalities: (1) facilitating enhanced cellular endocytosis and prolonged pulmonary retention and (2) serving as a versatile platform for hydrophobic drug encapsulation. All-trans retinoic acid (ATRA), as a representative hydrophobic drug, was assembled into sophorolipids, forming aSL@ATRA, which effectively mitigated lung tissue damage by downregulating inflammatory cell infiltration (including macrophages, neutrophils, and monocytes) and key proinflammatory cytokine secretion, while preserving the alveolar-capillary barrier integrity. Moreover, aSL@ATRA exhibited a favorable safety profile, with nearly no observable adverse effects in ALI-bearing mice. These findings position aSL@ATRA as a breakthrough noninvasive inhalation platform, offering substantial therapeutic potential not only for ALI but also for other refractory respiratory diseases.
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