Salmonella enterica persister cells exhibit distinct susceptibility profiles following exposure to human serum and macrophages
Rodrigo Lira Rodrigues, Júlia Abreu da Rosa, Douglas Diefenbach da Cunha, Thaís Lima Nunes, Pedro Maria Abreu Ferreira, Bruno Kendi Makiyama, Florencia María Barbé-Tuana, Sílvia Dias de Oliveira, Carlos Alexandre Sanchez Ferreira

TL;DR
Salmonella persister cells survive antibiotic treatment and show unique interactions with human serum and immune cells, which may contribute to persistent infections.
Contribution
The study reveals persister cells' distinct susceptibility profiles and immune interactions, highlighting their role in treatment failure.
Findings
Persister cells showed equal or greater serum resistance compared to regular cells.
Serum-resistant persisters were phagocytosed at higher rates than regular cells.
Intracellular survival varied among isolates, with some persisters proliferating while others were eradicated.
Abstract
Salmonella enterica, particularly non-typhoidal serovars (NTS), is a leading cause of foodborne illness, with invasive infections posing high mortality risks in developing countries. Fluoroquinolones and third-generation cephalosporins, such as ceftazidime (CAZ), are used to treat severe infections, yet they are facing concerning rates of antimicrobial resistance. Furthermore, recalcitrant and/or persistent infections are often linked to persister cells, a phenotype that enables cells to survive in the presence of high concentrations of antibiotics. Although persisters are associated with chronic infections, their interactions with the human immune system, particularly serum resistance and opsonophagocytosis, are not well understood. Here, three NTS isolates from the food protein chain (S45, S48, and 4SA(2)) were used. Persister cells were selected by exposure to CAZ concentration 100…
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Taxonomy
TopicsSalmonella and Campylobacter epidemiology · Bacterial Genetics and Biotechnology · Vibrio bacteria research studies
