Litcius/Paper detail

Cross Talk between ARF1 and RhoA Coordinates the Formation of Cytoskeletal Scaffolds during Chlamydia Infection

Adam Haines, Jordan Wesolowski, Nathan M. Ryan, Tiago Monteiro-Brás, Fabienne Paumet

2021mBio24 citationsDOIOpen Access PDF

Abstract

Chlamydia trachomatis is a major cause of human disease worldwide. The ability of Chlamydia to establish infection and cause disease depends on the maintenance of its parasitic niche, called the inclusion. To accomplish this feat, Chlamydia reorganizes host actin and microtubules around the inclusion membrane. How Chlamydia orchestrates these complex processes, however, is largely unknown. Here, we discovered that the chlamydial effector InaC activates Ras homolog family member A (RhoA) to control the formation of actin scaffolds around the inclusion, an event that is critical for inclusion stability. Furthermore, InaC directs the kinetics of actin and posttranslationally modified microtubule scaffolds by mediating cross talk between the GTPases that control these cytoskeletal elements, RhoA and ADP-ribosylation factor 1 (ARF1). The precise timing of these events is essential for the maintenance of the inclusion. Overall, this study provides the first evidence of ARF1-RhoA-mediated cross talk by a bacterial pathogen to coopt the host cytoskeleton.

Topics & Concepts

RHOAActinForminsCell biologyChlamydia trachomatisMicrotubuleCytoskeletonBiologyEffectorActin remodelingActin cytoskeletonChlamydiaCrosstalkSignal transductionCellVirologyImmunologyGeneticsPhysicsOpticsReproductive tract infections researchReproductive System and PregnancyUrinary Bladder and Prostate Research