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Time-resolved analysis of <i>Staphylococcus aureus</i> invading the endothelial barrier

Elisa J. M. Raineri, Harita Yedavally, Anna Salvati, Jan Maarten van Dijl

2020Virulence33 citationsDOIOpen Access PDF

Abstract

HG001 was used. As shown by flow cytometry and fluorescence- or electron microscopy, differentiation of HUVEC into a cell barrier with cell-cell junctions sets limits to the rates of bacterial internalization, the numbers of internalized bacteria, the percentage of infected cells, and long-term intracellular bacterial survival. Clear strain-specific differences were observed with the HG001 strain infecting the highest numbers of HUVEC and displaying the longest intracellular persistence, whereas the MRSA strains reproduced faster intracellularly. Nonetheless, all internalized bacteria remained confined in membrane-enclosed LAMP-1-positive lysosomal or vacuolar compartments. Once internalized, the bacteria had a higher propensity to persist within the differentiated endothelial cell barrier, probably because internalization of lower numbers of bacteria was less toxic. Altogether, our findings imply that intact endothelial barriers are more likely to sustain persistent intracellular infection.

Topics & Concepts

InternalizationBiologyMicrobiologyStaphylococcus aureusEndothelial stem cellEndotheliumIntracellularBacteriaUmbilical veinFlow cytometryPathogenHuman umbilical vein endothelial cellIntracellular parasiteCellImmunologyIn vitroCell biologyGeneticsEndocrinologyBiochemistryAntimicrobial Resistance in StaphylococcusStreptococcal Infections and TreatmentsBacterial Identification and Susceptibility Testing
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