Dual‐Responsive Nanogels with Cascaded Gentamicin Release and Lysosomal Escape to Combat Intracellular Small Colony Variants for Peritonitis and Sepsis Therapies

庆大霉素 腹膜炎 细胞内 苯硼酸 败血症 细胞内寄生虫 细菌 细胞外 微生物学 生物 化学 免疫学 生物化学 抗生素 遗传学 催化作用
作者
Shuang Xie,Haijun Yu,Wenxiong Cao,Jiawen Peng,Kun Huang,Jie Meng,Xiaohong Li
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:13 (14): e2303671-e2303671 被引量:11
标识
DOI:10.1002/adhm.202303671
摘要

Abstract Intracellular bacteria are the major cause of serious infections including sepsis and peritonitis, but face great challenges in fighting against the stubborn intracellular small colony variants (SCVs). Herein, the authors have developed nanogels (NGs) to destroy both planktonic bacteria and SCVs and eliminate excessive inflammations for peritonitis and sepsis therapies. Free gentamicin (GEN) and hydroxyapatite nanoparticles (NPs) with GEN loading and mannose grafts (mHA G ) are inoculated into ε‐polylysine NGs to obtain NG@G1‐mHA G2 through crosslinking with phenylboronic acid and tannic acid. The H 2 O 2 consumption after reaction with phenylboronic esters and the elimination of free radicals by tannic acid alleviates the escalated inflammatory status to promote sepsis therapy. After mannose‐mediated uptake into macrophages, the acid‐triggered degradation of mHA G NPs generates Ca 2+ to destabilize lysosomes and the efficient lysosomal escape leads to reversion of hypometabolic SCVs into normal phenotype and their sensitivity to GEN. In a peritonitis mouse model, NG@G1‐mHA G2 treatment provides strong and persistent bactericidal effects against both extracellular bacteria and intracellular SCVs and extends survival of peritonitis mice without apparent hepatomegaly, splenomegaly, pulmonary edema, and inflammatory cell infiltration. Thus, this study demonstrates a concise and versatile strategy to eliminate SCVs and relieve inflammatory storms for peritonitis and sepsis therapies without infection recurrence.
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