Attenuation of the Type IV Pilus Retraction Motor Influences Neisseria gonorrhoeae Social and Infection Behavior.

Alyson M Hockenberry,Danielle M Hutchens,Al Agellon,Magdalene So,Nancy E Freitag

doi:10.1128/mbio.01994-16

Alyson M Hockenberry, Danielle M Hutchens + Show 3 more

Open Access

https://doi.org/10.1128/mbio.01994-16

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Journal: mBio	Publication Date: Dec 6, 2016
Citations: 32	License type: CC BY 4.0

Affiliation: University of Arizona, BIO5 Institute

Abstract

ABSTRACTRetraction of the type IV pilus (Tfp) mediates DNA uptake, motility, and social and infection behavior in a wide variety of prokaryotes. To date, investigations into Tfp retraction-dependent activities have used a mutant deleted of PilT, the ATPase motor protein that causes the pilus fiber to retract. ΔpilT cells are nontransformable, nonmotile, and cannot aggregate into microcolonies. We tested the hypothesis that these retraction-dependent activities are sensitive to the strength of PilT enzymatic activity by using the pathogen Neisseria gonorrhoeae as a model. We constructed an N. gonorrhoeae mutant with an amino acid substitution in the PilT Walker B box (a substitution of cysteine for leucine at position 201, encoded by pilTL201C). Purified PilTL201C forms a native hexamer, but mutant hexamers hydrolyze ATP at half the maximal rate. N. gonorrhoeae pilTL201C cells produce Tfp fibers, crawl at the same speed as the wild-type (wt) parent, and are equally transformable. However, the social behavior of pilTL201C cells is intermediate between the behaviors of wt and ΔpilT cells. The infection behavior of pilTL201C is also defective, due to its failure to activate the epidermal growth factor receptor (EGFR)-heparin-binding EGF-like growth factor (HB-EGF) pathway. Our study indicates that pilus retraction, per se, is not sufficient for N. gonorrhoeae microcolony formation or infectivity; rather, these activities are sensitive to the strength of PilT enzymatic activity. We discuss the implications of these findings for Neisseria pathogenesis in the context of mechanobiology.

Highlights

Type IV pili (Tfp) are produced by many prokaryotes, including members of the Archaea [1]
The infection behavior of pilTL201C is defective, due to its inability to activate the epidermal growth factor receptor (EGFR)-heparin-binding EGF-like growth factor (HB-EGF) pathway. ⌬pilT is defective in this regard. These findings show that EGFR-HB-EGF activation requires Tfp retraction, that there is a threshold for activating this pathway, and that a PilT motor with reduced ATPase activity is insufficient to overcome this threshold
We focused our attention on the biological impact of the leucine at position 201 for a cysteine (L201C) mutation. (A separate study is under way to measure the physical properties of pilus retraction in N. gonorrhoeae pilTL201C.) We determined whether pilTL201C retracts its Tfp fibers by using DNA transformation and twitching motility as readouts

Summary

Introduction

Type IV pili (Tfp) are produced by many prokaryotes, including members of the Archaea [1]. Tfp plays an important role in the social behavior of bacterial cells, facilitating biofilm formation and host cell signaling [3, 9,10,11,12,13]. These activities require the physical retraction of the Tfp fiber. Many host cell responses to N. gonorrhoeae infection are known to be caused by this mechanical stimulation [12], but whether these responses are sensitive to variations in the pilus retraction force is unknown.

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