Proton Motive Force-Disrupting Antimycobacterial Guanylurea Polymer.

Mycobacterial infectious diseases, including tuberculosis (TB), severely threaten global public health. Nonreplicating Mycobacterium tuberculosis ( Mtb ) is extremely difficult to eradicate using current TB drugs that primarily act on replicating cells. Novel TB drugs acting on unconventional targets are needed to combat TB efficiently. Although membrane-disrupting antimicrobial peptides and their synthetic mimics exhibit the potential to kill persisters, the lack of microbe selectivity, especially toward mycobacteria, has been a concern. Here, we report that the recently developed poly(guanylurea)-piperazine (PGU-P) shows fast and selective mycobactericidal effects. Using a nonpathogenic model organism, Mycobacterium smegmatis ( Msm ), we have found that the mycobactericidal effects of PGU-P are correlated to the disruption of the mycobacterial membrane potential and bioenergetics. Accordingly, PGU-P also potentiates bedaquiline, an oxidative phosphorylation-targeting TB drug disturbing mycobacterial bioenergetics. Importantly, PGU-P also exhibits a promising activity against pathogenic Mtb with a minimum inhibitory concentration of 37 μg/mL. Our results support that PGU-P is a novel class of antimycobacterial biomaterial, and the unique structural feature can contribute to developing novel antimycobacterial drugs.