Streptococcus pyogenes Sortase Mutants Are Highly Susceptible to Killing by Host Factors Due to Aberrant Envelope Physiology.

Assaf Raz,Ana-Maria Tanasescu,Anna Serrano,Asaf Sol,Vincent A Fischetti,Anna M Zhao,Tricia Alston,Gilad Bachrach,Roy Martin Roop

doi:10.1371/journal.pone.0140784

Assaf Raz, Ana-Maria Tanasescu + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0140784

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Journal: PloS one	Publication Date: Oct 20, 2015
Citations: 20	License type: CC BY 4.0

Affiliation: Rockefeller University, Hebrew University of Jerusalem

Abstract

Cell wall anchored virulence factors are critical for infection and colonization of the host by Gram-positive bacteria. Such proteins have an N-terminal leader sequence and a C-terminal sorting signal, composed of an LPXTG motif, a hydrophobic stretch, and a few positively charged amino acids. The sorting signal halts translocation across the membrane, allowing sortase to cleave the LPXTG motif, leading to surface anchoring. Deletion of sortase prevents the anchoring of virulence factors to the wall; the effects on bacterial physiology however, have not been thoroughly characterized. Here we show that deletion of Streptococcus pyogenes sortase A leads to accumulation of sorting intermediates, particularly at the septum, altering cellular morphology and physiology, and compromising membrane integrity. Such cells are highly sensitive to cathelicidin, and are rapidly killed in blood and plasma. These phenomena are not a loss-of-function effect caused by the absence of anchored surface proteins, but specifically result from the accumulation of sorting intermediates. Reduction in the level of sorting intermediates leads to a return of the sortase mutant to normal morphology, while expression of M protein with an altered LPXTG motif in wild type cells leads to toxicity in the host environment, similar to that observed in the sortase mutant. These unanticipated effects suggest that inhibition of sortase by small-molecule inhibitors could similarly lead to the rapid elimination of pathogens from an infected host, making such inhibitors much better anti-bacterial agents than previously believed.

Highlights

The cell wall of Gram-positive pathogens is coated with numerous covalently anchored virulence factors that are critical for the establishment of infection [1,2,3,4]
We noticed that passage of the sortase mutant in laboratory medium for several generations resulted in a return to wild type morphology
We reasoned that understanding the changes that led to a return to wild type morphology could help understand the underlying cause for the morphological aberrations

Summary

Introduction

The cell wall of Gram-positive pathogens is coated with numerous covalently anchored virulence factors that are critical for the establishment of infection [1,2,3,4] These factors have an Nterminal leader sequence, directing them for translocation through the secretion channel, and a conserved C-terminal sorting signal, comprised of an LPXTG motif followed by a hydrophobic region and a few positively charged amino acids at the C-terminus [5, 6]. Deletion of Sortase Disturbs Envelope Physiology halted when the C-terminal sorting signal reaches the secretion channel At this state the LPXTG motif is exposed on the extracellular side of the membrane, the hydrophobic stretch spans the membrane, and the positively charged residues are within the cytoplasm [6, 7]. The Cterminal portion of the cleaved sorting signal, containing the hydrophobic region and positively charged residues, is released back into the cytoplasm [10]

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