Antibiotic-resistant bacteria, such as Extended-spectrum β -lactamase-producing Klebsiella pneumoniae (ESBL- Kp ), represent a major threat to public health. Despite increasing reports of community-acquired ESBL- Kp infections, the dynamics of ESBL- Kp in low- and middle-income countries communities remains poorly understood. This study aimed to detect the fecal carriage of ESBL- Kp at the human–animal–environment interface in Peru and to characterize underlying molecular mechanisms involved. We detected 15 ESBL- Kp isolates among 652 (2.3%) fecal and water samples (i.e., 244 dairy cows from 25 farms, 261 pigs from 25 farms, 58 dogs, 39 farmers, and 50 water sources). ESBL- Kp was isolated from two humans, two dogs, four cows, three pigs, and four water sources. Genomic analyses identified 10 different ESBL- Kp sequence types (STs), including high-risk clones ST11, ST307, and ST37, as well as ST45, ST111, ST1, ST348, ST789, ST881, and ST983, and three CTX-M-encoding genes ( bla CTX-M-15 , bla CTX-M-27 , bla CTX-M-14 ). Four ESBL- Kp STs (ST348, ST983, ST789, and ST11) were found in more than one source, both within and between farms. In particular, two ESBL- Kp ST983 isolates, one from a human and one from a cow on the same farm, differed by 37 SNPs and had almost identical genetic profiles, suggesting bacterial clonal exchange across host species or contamination from a common source. Likewise, two nearly identical ST348 isolates were recovered from a cow and a water source on the same farm, suggesting ESBL- Kp exchange between livestock and water. Our results highlight the circulation of ESBL- Kp across humans, animals, and water in rural environments in Peru, representing one of the first genomic studies exploring potential cross-species ESBL- Kp relatedness in Latin America. Our study supports the need to implement sanitary measures to limit the cross-species spread of antimicrobial-resistant bacteria and to reduce water source contamination in Peru.
Bénavidès et al. (Thu,) studied this question.