Microorganisms (Apr 2024)

Prevalence of Extended-Spectrum β-Lactamases (ESBLs) Producing <i>Aeromonas</i> spp. Isolated from <i>Lamellidens marginalis</i> (Lamark, 1819) of Sewage-Fed Wetland: A Phenotypic and Genotypic Approach

  • Debasmita Mohanty,
  • Basanta Kumar Das,
  • Punam Kumari,
  • Saikat Dey,
  • Asit Kumar Bera,
  • Amiya Kumar Sahoo,
  • Shubhankhi Dasgupta,
  • Shreya Roy

DOI
https://doi.org/10.3390/microorganisms12040723
Journal volume & issue
Vol. 12, no. 4
p. 723

Abstract

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The global rise of zoonotic bacteria resistant to multiple antimicrobial classes and the growing occurrence of infections caused by Aeromonas spp. resistant to β-lactam antibiotics pose a severe threat to animal and human health. However, the contribution of natural environments, particularly aquatic ecosystems, as ideal settings for the development and spread of antimicrobial resistance (AMR) is a key concern. Investigating the phenotypic antibiotic resistance and detection of β-lactamase producing Aeromonas spp. in Lamellidens marginalis, which inhabit all freshwater ecosystems of the Indian subcontinent, is essential for implications in monitoring food safety and drug resistance. In the present investigation, 92 isolates of Aeromonas spp. were recovered from 105 bivalves and screened for their antimicrobial resistance patterns. In vitro antibiotic resistance profiling showed a higher Multiple Antibiotic Resistance (MAR) index of 0.8 with the highest resistance against ampicillin/sulbactam (82%), while 58, 44, 39 and 38% of the isolates were resistant to cephalothin, erythromycin, cefoxitin and imipenem, respectively. PCR results revealed that these isolates carried the blaTEM gene (94%), which was followed by the blaCTX-M gene (51%) and the blaSHV gene (45%). A combination of blaSHV, blaCTX-M, and blaTEM genes was found in 17% of the isolates, indicating the presence of all three resistance genes. This is the first investigation which highlights the importance of multidrug-resistant Aeromonas spp. in L. marginalis. The identification of extended-spectrum-β-lactamases (ESBLs) genes demand the necessity of continuous surveillance and systematic monitoring, considering its potential health risks for both animals and human beings.

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