Salmonella enterica Serovars Dublin and Enteritidis Comparative Proteomics Reveals Differential Expression of Proteins Involved in Stress Resistance, Virulence, and Anaerobic Metabolism

Autor: Adriana Martínez-Sanguiné, José A. Chabalgoity, A. Mónaco, Laura Betancor, Lucía Yim, G. M. Traglia, M. Langleib, Bruno D'Alessandro, R. Durán
Rok vydání: 2021
Předmět:
Zdroj: Infect Immun
ISSN: 1098-5522
0019-9567
DOI: 10.1128/iai.00606-20
Popis: The Enteritidis and Dublin serovars of Salmonella enterica are phylogenetically closely related yet differ significantly in host range and virulence. S. Enteritidis is a broad-host-range serovar that commonly causes self-limited gastroenteritis in humans, whereas S. Dublin is a cattle-adapted serovar that can infect humans, often resulting in invasive extraintestinal disease. The mechanism underlying the higher invasiveness of S. Dublin remains undetermined. In this work, we quantitatively compared the proteomes of clinical isolates of each serovar grown under gut-mimicking conditions. Compared to S. Enteritidis, the S. Dublin proteome was enriched in proteins linked to response to several stress conditions, such as those encountered during host infection, as well as to virulence. The S. Enteritidis proteome contained several proteins related to central anaerobic metabolism pathways that were undetected in S. Dublin. In contrast to what has been observed in other extraintestinal serovars, most of the coding genes for these pathways are not degraded in S. Dublin. Thus, we provide evidence that S. Dublin metabolic functions may be much more affected than previously reported based on genomic studies. Single and double null mutants in stress response proteins Dps, YciF, and YgaU demonstrate their relevance to S. Dublin invasiveness in a murine model of invasive salmonellosis. All in all, this work provides a basis for understanding interserovar differences in invasiveness and niche adaptation, underscoring the relevance of using proteomic approaches to complement genomic studies.
Databáze: OpenAIRE