Abstract

AbstractMetabolic competition is a zero‐sum game between bacterial biofilms and host immune responses on the surface of medical implants. In an in vitro biofilm‐macrophages co‐culture system, it is found that suppressed lipid metabolic processes in host macrophages in the biofilm microenvironment correlates with immune tolerance and intracellular persistence. Reactivation of immune cells against bacterial infection by reprogramming lipid metabolism through the supply of lipids such as oleic acid (OA) is a promising strategy, but this cannot completely destroy the bacterial biofilms. Nanomaterial‐based zinc ion interference therapy in antibacterial field emerges relying on the outstanding benefits of nanomaterials. Therefore, a targeted nano‐fat HSA‐IR820@OA@ZIF‐8 (HIROZ) with near infrared‐II (NIR‐II) photothermal capacities is developed for the destrcution of the biofilms via zinc ion combined photothermal therapy. The improved cellular compatibility and enhanced intracellular uptake make HIROZ induce intracellular lipid droplets (LDs) formation in macrophages. Photothermal combined zinc ion‐induced metabolic interference augments the antimicrobial effect of LDs and activates lipometabolic reprogramming‐mediated antibacterial immune responses via mitochondrial stress. In the mouse wound biofilm infections model and subcutaneous implant‐associated biofilm infections (IABIs) model, HIROZ demonstrates sustained and thorough biofilm scavenging based on reprogramming of lipid metabolism, providing a new idea for metabolic interference‐centered therapeutic strategies for full‐scale IABIs eliminations.

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