Anke Siegmund scite author profile

Staphylococcus aureus colonizes epithelial surfaces, but it can also cause severe infections. The aim of this work was to investigate whether bacterial virulence correlates with defined types of tissue infections. For this, we collected 10–12 clinical S. aureus strains each from nasal colonization, and from patients with endoprosthesis infection, hematogenous osteomyelitis, and sepsis. All strains were characterized by genotypic analysis, and by the expression of virulence factors. The host–pathogen interaction was studied through several functional assays in osteoblast cultures. Additionally, selected strains were tested in a murine sepsis/osteomyelitis model. We did not find characteristic bacterial features for the defined infection types; rather, a wide range in all strain collections regarding cytotoxicity and invasiveness was observed. Interestingly, all strains were able to persist and to form small colony variants (SCVs). However, the low-cytotoxicity strains survived in higher numbers, and were less efficiently cleared by the host than the highly cytotoxic strains. In summary, our results indicate that not only destructive, but also low-cytotoxicity strains are able to induce infections. The low-cytotoxicity strains can successfully survive, and are less efficiently cleared from the host than the highly cytotoxic strains, which represent a source for chronic infections. The understanding of this interplay/evolution between the host and the pathogen during infection, with specific attention towards low-cytotoxicity isolates, will help to optimize treatment strategies for invasive and therapy-refractory infection courses.

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Exotoxins from Staphylococcus aureus activate 5-lipoxygenase and induce leukotriene biosynthesis

Romp

Arakandy

Fischer

et al. 2019

Cell. Mol. Life Sci.

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Characterization of the Atl-mediated staphylococcal internalization mechanism

Schlesier¹,

Siegmund

Rescher

et al. 2020

International Journal of Medical Microbiology

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Intracellular persistence of Staphylococcus aureus in endothelial cells is promoted by the absence of phenol-soluble modulins

et al. 2021

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A large proportion of clinical S. aureus isolates that carry an inactive Agr system are associated with persistent infection that is difficult to treat. Once S. aureus is inside the bloodstream, it can cross the endothelial barrier and invade almost every organ in the human body. Endothelial cells can either be lysed by this pathogen or they serve as a niche for its intracellular long-term survival. Following phagocytosis, several vesicles such as phagosomes and autophagosomes, target intracellular S. aureus for elimination. S. aureus can escape from these vesicles into the host cytoplasm through the activation of phenol-soluble modulins (PSMs) αβ. Thereafter, it replicates and lyses the host cell to disseminate to adjacent tissues. Herein we demonstrate that staphylococcal strains which lack the expression of PSMs employ an alternative pathway to better persist within endothelial cells. The intracellular survival of S. aureus is associated with the co-localization of the autophagy marker LC3. In cell culture infection models, we found that the absence of psmαβ decreased the host cell lysis and increased staphylococcal long-term survival. This study explains the positive selection of agr -negative strains that lack the expression of psmαβ in chronic infection due to their advantage in surviving and evading the clearance system of the host.

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Staphylococcus aureus requires less virulence to establish an infection in diabetic hosts

Tuchscherr

Korpos²,

Vyver

et al. 2018

International Journal of Medical Microbiology

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Anke Siegmund

Clinical S. aureus Isolates Vary in Their Virulence to Promote Adaptation to the Host

Exotoxins from Staphylococcus aureus activate 5-lipoxygenase and induce leukotriene biosynthesis

Characterization of the Atl-mediated staphylococcal internalization mechanism

Intracellular persistence of Staphylococcus aureus in endothelial cells is promoted by the absence of phenol-soluble modulins

Staphylococcus aureus requires less virulence to establish an infection in diabetic hosts

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