Probing the physiological roles of the extracellular loops of chitoporin from Vibrio campbellii

VhChiP, a sugar-specific porin found on the outer membrane of Vibrio campbellii, is responsible for the transport of chitooligosaccharides, allowing the bacterium to thrive in aquatic environments using chitin as a nutrient. We previously showed that VhChiP is composed of three identical subunits, each containing a 16-stranded β-barrel connected by eight extracellular loops and eight short periplasmic turns. This study is focused on the specific roles of three prominent extracellular loops of VhChiP-L2, L3, and L8. The deletion of L2 completely disrupted the L2-L2 interactions, thus destabilizing the protein trimers as well as the integrity of the secondary structure. The deletion of L3 caused a drastic loss in the binding affinity for sugar substrates because of the absence of a cluster of key amino acid residues that form the affinity sites. The removal of L8 induced pronounced gating, which is highly responsive to elevated potentials. Our data provide further information on the important roles of the three prominent loops of VhChiP: loop L2 maintains the trimeric structure and the integrity of secondary structure, loop L3 controls the binding affinity for sugar substrates, and loop L8 retains the stably open state of the channel.