Respiration suppress and apoptosis-like cell death of Escherichia coli in direct current therapy mediated by polypyrrole conductive hydrogel.

Targeting oxidative phosphorylation of bacteria is a novel antibiotic strategy leading to rapid cell death as a result of respiration suppress. Herein, a conductive polymer termed polypyrrole (PPy) is used to short-circuit the electron transfer chain (ETC) of bacteria cells owing to its higher electron affinity to electrons than all of the electron carriers on ETC. A hydrogel is fabricated using PPy which is anticipated to seize electrons from ETC and inhibit respiration of bacteria cells. The results show that the prepared PPy hydrogel can mediate an effective direct current (DC) antibacterial therapy which greatly enhances intracellular reactive oxygen species (ROS) level of Escherichia coli (E. coli), suppresses respiration, induces apoptosis-like cell death of E. coli accompanied by chromosomal condensation and loss of structural integrity, and rapidly cleared E. coli infection in vivo. Taken into the photothermal property of PPy, a combined direct current-photothermal therapy is developed which can enhance bacteria-killing effects with the assistance of an 808 nm laser. Our findings provide a new antibiotic strategy with metabolic pathway as a target.