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2019 - High-resolution experimental and computational electrophysiology reveals weak β-lactam binding events in the porin PorB

icon pap   Port-a-Patch publication in Nature Scientific Reports (2019)

Bartsch A., Llabrés S., Pein F., Kattner C., Schön M., Diehn M., Tanabe M., Munk A., Zachariae U., Steinem C.

Nature Scientific Reports (2019) 9: 1264


The permeation of most antibiotics through the outer membrane of Gram-negative bacteria occurs through porin channels. To design drugs with increased activity against Gram-negative bacteria in the face of the antibiotic resistance crisis, the strict constraints on the physicochemical properties of the permeants imposed by these channels must be better understood. Here we show that a combination of high-resolution electrophysiology, new noise-filtering analysis protocols and atomistic biomolecular simulations reveals weak binding events between the beta-lactam antibiotic ampicillin and the porin PorB from the pathogenic bacterium Neisseria meningitidis. In particular, an asymmetry often seen in the electrophysiological characteristics of ligand-bound channels is utilised to characterise the binding site and molecular interactions in detail, based on the principles of electro-osmotic flow through the channel. Our results provide a rationale for the determinants that govern the binding and permeation of zwitterionic antibiotics in anion-selective porin channels.

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