Abstract
Antimicrobial resistance is one of the most important public health concerns—it causes 700,000 deaths annually according to the World Health Organization (WHO). Enterobacterales such as E. coli and Klebsiella pneumoniae, have become resistant to many relevant antimicrobials including carbapenems and extended spectrum cephalosporins. These clinically relevant resistant Enterobacterales (CRRE) members are now globally distributed in the environment including different food types (meats, produce, dairy). Unlike known foodborne pathogens, CRRE are not usually part of most food surveillance systems. However, numerous reports of CRRE highlight the importance of these bacteria in food and have been shown to contribute to the overall crisis of antimicrobial resistance. This is especially important in the context of carriage of these pathogens by immuno-compromised individuals. CRRE infections upon consumption of contaminated food could colonize the human gastrointestinal tract and eventually be a source of systemic infections such as urinary tract infections or septicemia. While different aspects need to be considered to elucidate this, whole genome sequencing along with metadata could be used to understand genomic relationships of CRRE obtained from foods and humans, including isolates from clinical infections. Once robust scientific data is available on the role of CRRE in food, countries could move forward to better survey and control CRRE in food.
Highlights
Antimicrobial resistance (AMR) occurs when microorganisms evolve to resist the action of antimicrobials, making infections harder to treat, especially in critical patients leading to premature death (Dadgostar, 2019)
To tackle AMR, it is important to reduce transmission of resistant bacteria that are circulating among humans and animals
Reports on the detection of bacteria resistant to clinically relevant antibiotics associated with food have increased worldwide, the outcome of clinically relevant resistant Enterobacterales (CRRE) in different food types and the potential public health impacts are currently unknown
Summary
Antimicrobial resistance (AMR) occurs when microorganisms evolve to resist the action of antimicrobials, making infections harder to treat, especially in critical patients leading to premature death (Dadgostar, 2019). To tackle AMR, it is important to reduce transmission of resistant bacteria that are circulating among humans and animals To accomplish this a better understanding of the role of these organisms in food production is needed. Carbapenemresistant Enterobacterales along with those that produce ESBLs are considered clinically relevant-resistant bacteria, these are found in human but are widely reported in the environment and food. E. coli and K. pneumoniae are the most commonly CRRE reported in food These organisms are found to harbor genes coding for carbapenemases (e.g., blaOXA−48 and blaNDM). CRRE carrying genes coding for the ESBL enzymes blaSHV, blaCTX-M, and blaTEM, have been extensively reported in meat and produce (Table 1). BlaSHV-12; blaTEM-1B; blaCTX-M-1 blaSHV; blaTEM; blaCTX-M-1,-15,-61 blaSHV; blaTEM; blaCTX-M blaCTX-M-1, blaSHV-5,-12; blaTEM-1b; blaCTX-M-1,-3,-15; blaCMY-2 blaCTX-M, blaTEM, blaSHV, blaCMY blaNDM-5,-9; mcr-1 blaCTX-M-1G; blaNDM-5; blaKPC-2 blaCTX-M blaSHV, blaTEM blaSHV-1,-2,-11,-12,-27,-28,61; blaTEM-1; blaCTX-M-14,-15,-55 blaSHV-12, blaCTX-M-14
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