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Current landscape of antimicrobial resistance genes in Staphylococcus aureus from milk: a thousand genome-based analysis

Published online by Cambridge University Press:  11 December 2023

Daniel F. M. Monte  and
Celso Jose Bruno de Oliveira
Daniel F. M. Monte*
Affiliation:
Department of Animal Science, College for Agricultural Sciences, Federal University of Paraiba (CCA/UFPB), Areia, PB, Brazil
Celso Jose Bruno de Oliveira
Affiliation:
Department of Animal Science, College for Agricultural Sciences, Federal University of Paraiba (CCA/UFPB), Areia, PB, Brazil
*
Corresponding author: Daniel F. M. Monte; Email: monte_dfm@alumni.usp.br
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Abstract

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Type
Letter to the Editor
Information
Journal of Dairy Research , Volume 90 , Issue 4 , November 2023 , pp. 418
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Hannah Dairy Research Foundation

To the editor

The use of antibiotics in dairy farming is a common practice to treat and prevent bacterial infections in cows, including mastitis caused by Staphylococcus aureus (Rajamanickam et al., Reference Rajamanickam, Yang, Chidambaram and Sakharkar2020). However, the widespread use of antibiotics in agriculture is believed to have contributed to the dissemination of antimicrobial resistance (AMR) in bacteria, including S. aureus. This organism can cause chronic intramammary infections and antimicrobial resistant strains can play a role as sources of antimicrobial resistant genes in milk. Furthermore, certain S. aureus strains can be associated with infections in humans, such as livestock associated methicillin-resistant Staphylococcus aureus (LA-MRSA). MRSA strains are resistant to virtually all beta-lactam antibiotics, posing an increasing threat to public health (Paramasivam et al., Reference Paramasivam, Gopal, Dhandapani, Subbarayalu, Elangovan, Prabhu, Veerappan, Nandheeswaran, Paramasivam and Muthupandian2023). In this regard, we analyzed 1103 publicly available S. aureus genomes to understand the current landscape of AMR genes distributed in milk.

We uncovered a high prevalence of S. aureus carrying tet (99.7%), mepA (95.4%), blaZ (31.4%), and fosB (25.7%) genes. Moreover, the clinically important AMR gene mecA (7.6%) was identified. Most interestingly, several S. aureus strains isolated from milk phylogenetically clustered with clinical strains from different years and countries. The clustering of milk-derived S. aureus strains with clinical strains from diverse geographic regions and time periods suggests a genetic relatedness between these isolates. This raises questions about how these strains are transmitted and whether certain strains have a broader distribution than previously thought. In addition, the data raise questions about the genetic factors that allow these strains to persist in different environments and hosts. We should convey that anthropological actions might be the major significant factor that contributes to contamination of milk in dairy production, especially in low-income countries.

In summary, the presence of AMR genes in S. aureus isolated from milk highlights the need for stringent antibiotic use in dairy farming, improved hygiene practices and ongoing efforts to monitor and address antimicrobial resistance in both animal and human health contexts.

References

Paramasivam, R, Gopal, DR, Dhandapani, R, Subbarayalu, R, Elangovan, MP, Prabhu, B, Veerappan, V, Nandheeswaran, A, Paramasivam, S and Muthupandian, S (2023). Is AMR in dairy products a threat to human health? An updated review on the origin, prevention, treatment and economic impacts of subclinical mastitis. Infection and Drug Resistance 16, 155178.CrossRefGoogle ScholarPubMed
Rajamanickam, K, Yang, J, Chidambaram, SB and Sakharkar, MK (2020) Enhancing drug efficacy against mastitis pathogens: an in vitro pilot study in Staphylococcus aureus and Staphylococcus epidermidis. Animals 10, 2117.10.3390/ani10112117CrossRefGoogle Scholar