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<i>Staphylococcus aureus</i> impairs dermal fibroblast functions with deleterious effects on wound healing

Masaya Yokota, Nicola Häffner, Matthew Kassier, Matthias Brunner, Srikanth Mairpady Shambat, Fabian Brennecke, Janine Gote-Schniering, Ewerton Marques Maggio, Oliver Distler, Annelies S. Zinkernagel, Britta Maurer

2021The FASEB Journal27 citationsDOIOpen Access PDF

Abstract

Chronic wounds are a major disease burden worldwide. The breach of the epithelial barrier facilitates transition of skin commensals to invasive facultative pathogens. Therefore, we investigated the potential effects of Staphylococcus aureus (SA) on dermal fibroblasts as key cells for tissue repair. In co-culture systems combining live or heat-killed SA with dermal fibroblasts derived from the BJ-5ta cell line, healthy individuals, and patients with systemic sclerosis, we assessed tissue repair including pro-inflammatory cytokines, matrix metalloproteases (MMPs), myofibroblast functions, and host defense responses. Only live SA induced the upregulation of IL-1β/-6/-8 and MMP1/3 as co-factors of tissue degradation. Additionally, the increased cell death reduced collagen production, proliferation, migration, and contractility, prerequisite mechanisms for wound closure. Intracellular SA triggered inflammatory and type I IFN responses via intracellular dsDNA sensor molecules and MyD88 and STING signaling pathways. In conclusion, live SA affected various key tissue repair functions of dermal fibroblasts from different sources to a similar extent. Thus, SA infection of dermal fibroblasts should be taken into account for future wound management strategies.

Topics & Concepts

Wound healingFibroblastMMP1Dermal fibroblastCell biologyMyofibroblastIntracellularMatrix metalloproteinaseImmunologyInflammationStaphylococcus aureusBiologyChemistryMicrobiologyCell cultureMedicineFibrosisPathologyGene expressionBacteriaGeneGeneticsBiochemistryWound Healing and TreatmentsDermatologic Treatments and ResearchSilk-based biomaterials and applications
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