抗生素
化学
微生物学
纳米技术
医学
生物
材料科学
作者
Xiaojian Yan,Lei Hua,Hongping Wan,Yong Liu,Tao Jin,Yicen Ge,Michael R. Hamblin,Mahdi Karimi,Xinghong Zhao,Yi Hu,Linqi Shi,Yuanfeng Li
标识
DOI:10.1002/advs.202507407
摘要
Integrating both targeted delivery and stimulus-responsive release into a single small molecule for drug delivery presents challenges related to synthesis, stability, and efficacy. In this study, single-molecular lipids incorporating a Lewis pair (Lp-lipids) are described, composed of a Lewis acid (phenylboronic acid) and a Lewis base (amine) within a single small molecular structure, to formulate lipid nanoparticles for antibiotic delivery. For targeted delivery to bacterial biofilms, the phenylboronic acid selectively binds to bacteria or biofilms by forming boronate ester bonds with diols in the microbial dextran or peptidoglycan. Additionally, the amine group responds to the acidic microenvironment, enhancing electrostatic interactions with bacteria and biofilms. Regarding stimulus-responsive drug release, the Lewis base reacts to low pH, while the Lewis acid responds to H2O2 and ATP, triggering changes in the hydrophobicity and structural integrity of the lipid nanoparticles. These changes facilitate the release of encapsulated antibiotics, effectively eradicating both Gram-positive and Gram-negative bacteria in vitro and in vivo. The combined targeting and stimuli-responsive release properties of Lp-lipids significantly enhance their potential for biomedical applications and clinical translation.
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