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Tornadic Shear Stress Induces a Transient, Calcineurin-Dependent Hypervirulent Phenotype in Mucorales Molds

Sebastian Wurster, Alexander M. Tatara, Nathaniel D. Albert, Ashraf S. Ibrahim, Joseph Heitman, Soo Chan Lee, Amol C. Shetty, Carrie McCracken, Karen T. Graf, Antonios G. Mikos, Vincent M. Bruno, Dimitrios P. Kontoyiannis

2020mBio26 citationsDOIOpen Access PDF

Abstract

Given the limited efficacy of current medical treatments in trauma-related necrotizing mucormycosis, there is a dire need to better understand the Mucoralean pathophysiology in order to develop novel strategies to counteract fungal tissue invasion following severe trauma. Here, we describe that tornadic shear stress challenge transiently induces a hypervirulent phenotype in various pathogenic Mucorales species but not in other molds known to cause wound infections. Pharmacological and genetic inhibition of calcineurin signaling abrogated hypervirulence in shear stress-challenged Mucorales, encouraging further evaluation of (topical) calcineurin inhibitors to improve therapeutic outcomes of NMM after combat-related blast injuries or violent storms.

Topics & Concepts

MucoralesVirulenceCalcineurinMicrobiologyMucormycosisBiologyPhenotypeHsp90Fungal proteinHeat shock proteinMedicineMutantPathologyInternal medicineGeneticsTransplantationGeneBacterial biofilms and quorum sensingFungal Biology and ApplicationsAntifungal resistance and susceptibility
Tornadic Shear Stress Induces a Transient, Calcineurin-Dependent Hypervirulent Phenotype in Mucorales Molds | Litcius