Antimicrobial Resistance Profiles of Multidrug-Resistant Enterobacteria Isolated from Feces of Weaned Piglets.

Nosocomial infections caused by multidrug-resistant enterobacteria have become a major challenge in global public health. Previous studies have indicated that use of antibiotics in livestock production chains is linked to the rising threat of antibiotic resistance in humans. In this study, we aimed to evaluate the distribution of genes encoding resistance to tetracycline, ß-lactams, and colistin in multidrug-resistant enterobacteria isolated from feces of weaned pigs. Ninety-four enterobacteria isolates were submitted to antibiotic susceptibility test by minimum inhibitory concentration (MIC). In addition, we performed conjugation experiments to verify if plasmid-bearing isolates containing the mcr-1 gene could transfer their resistance determinant to a colistin-sensitive recipient strain. Our results demonstrated a positive association between the detection of antibiotic resistance genes in enterobacteria and the phenotypic resistance profiles of the bacterial isolates. At least one of the extended-spectrum ß-lactamases (ESBL) genes (blaCTX-M, blaTEM, or bla SHV) and tetA was found among most bacterial genera analyzed. In addition, results revealed that the mcr-1 gene can be transferred from E. coli UFV-627 isolate to an F- recipient (Escherichia coli K12) by conjugation. Our findings support the hypothesis that swine represents an important reservoir of antibiotic resistance genes and suggest that horizontal transfer mechanisms (e.g., conjugation) may mediate the spread of these genes in the swine gastrointestinal tract.

KPC-2-producing Enterobacterales from ready-to-eat food to hospitalized patients.

Foodstuffs are a well-documented source of multidrug-resistant bacteria, and hospitalized patients are usually susceptible to hospital infections owing to their immune status. Therefore, this study aimed to investigate the presence of beta-lactamase-producing Enterobacterales in ready-to-eat foods consumed by hospitalized patients. For this purpose, 51 vegetable and meat samples were collected over 2 months and analyzed. Enterobacterales isolates were identified and subjected to antimicrobial susceptibility testing, followed by beta-lactamase gene screening, pH tolerance assays, and whole-genome sequencing (WGS). Isolates harboring genes encoding extended-spectrum beta-lactamases, cephalosporinases, or carbapenemases were detected, and all isolates tolerated pH levels similar to those in the human gastrointestinal tract. The blaKPC-2 carriers were characterized by WGS and lineages closely related to those causing human infections were identified. These results showed that dietary intake is an alternative route for the transmission of antimicrobial-resistant bacteria, which must be considered when designing effective strategies for infection control.

Genomic analysis of Escherichia coli circulating in the Brazilian poultry sector.

Escherichia coli are gut commensal bacteria and opportunistic pathogens, and the emergence of antimicrobial resistance threatens the safety of the food chain. To know the E. coli strains circulating in the Brazilian poultry sector is important since the country corresponds to a significant chicken meat production. Thus, we analyzed 90 publicly genomes available in a database using web-based tools. Genomic analysis revealed that sul alleles were the most detected resistance genes, followed by aadA, blaCTX-M, and dfrA. Plasmids of the IncF family were important, followed by IncI1-Iα, Col-like, and p0111. Genes of specific metabolic pathways that contribute to virulence (terC and gad) were predominant, followed by sitA, traT, and iss. Additionally, pap, usp, vat, sfa/foc, ibeA, cnf1, eae, and sat were also predicted. In this regard, 11 E. coli were characterized as avian pathogenic E. coli and one as atypical enteropathogenic E. coli. Phylogenetic analysis confirmed the predominant occurrence of B1 but also A, D, B2, F, E, G, C, and Clade I phylogroups, whereas international clones ST38, ST73, ST117, ST155, and ST224 were predicted among 53 different sequence types identified. Serotypes O6:H1 and:H25 were prevalent, and fimH31 and fimH32 were the most representatives among the 36 FimH types detected. Finally, single nucleotide polymorphisms-based phylogenetic analysis confirmed high genomic diversity among E. coli strains. While international E. coli clones have adapted to the Brazilian poultry sector, the virulome background of these strains support a pathogenic potential to humans and animals, with lineages carrying resistance genes that can lead to hard-to-treat infections.