Chlamydia Trachomatis Oligopeptide Transporter Performs Dual Functions of Oligopeptide Transport and Peptidoglycan Recycling

Overview

Journal Infect Immun

Publisher American Society for Microbiology

Specialty Allergy & Immunology

Date 2020 Feb 26

PMID 32094256

Citations 13

Authors

Raghuveer Singh

George Liechti

Jessica A Slade

Anthony T Maurelli

Affiliations

Soon will be listed here.

Abstract

Peptidoglycan, the sugar-amino acid polymer that composes the bacterial cell wall, requires a significant expenditure of energy to synthesize and is highly immunogenic. To minimize the loss of an energetically expensive metabolite and avoid host detection, bacteria often recycle their peptidoglycan, transporting its components back into the cytoplasm, where they can be used for subsequent rounds of new synthesis. The peptidoglycan-recycling substrate binding protein (SBP) MppA, which is responsible for recycling peptidoglycan fragments in , has not been annotated for most intracellular pathogens. One such pathogen, , has a limited capacity to synthesize amino acids and therefore must obtain oligopeptides from its host cell for growth. Bioinformatics analysis suggests that the putative oligopeptide transporter OppABCDF (OppABCDF ) encodes multiple SBPs (OppA1 , OppA2 , and OppA3 ). Intracellular pathogens often encode multiple SBPs, while only one, OppA, is encoded in the operon. We hypothesized that the putative OppABCDF transporter of functions in both oligopeptide transport and peptidoglycan recycling. We coexpressed the putative SBP genes ( , , ) along with in an mutant lacking the Opp transporter and determined that all three chlamydial OppA subunits supported oligopeptide transport. We also demonstrated the functionality of the chlamydial Opp transporter in Importantly, we found that one chlamydial SBP, OppA3 , possessed dual substrate recognition properties and is capable of transporting peptidoglycan fragments (tri-diaminopimelic acid) in and in These findings suggest that evolved an oligopeptide transporter to facilitate the acquisition of oligopeptides for growth while simultaneously reducing the accumulation of immunostimulatory peptidoglycan fragments in the host cell cytosol. The latter property reflects bacterial pathoadaptation that dampens the host innate immune response to infection.

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