Molecular Detection of <i>bla</i><sub>TEM</sub> and <i>bla</i><sub>SHV</sub> Genes in ESBL-Producing <i>Acinetobacter baumannii</i> Isolated from Antarctic Soil

Molecular Detection of <i>bla</i><sub>TEM</sub> and <i>bla</i><sub>SHV</sub> Genes in ESBL-Producing <i>Acinetobacter baumannii</i> Isolated from Antarctic Soil

The phenomenon of antimicrobial resistance (AMR) in cold environments, exemplified by the Antarctic, calls into question the assumption that pristine ecosystems lack clinically significant resistance genes. This study examines the molecular basis of AMR in <i>Acinetobacter</i> spp. Isola...

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Bibliographic Details
Main Authors: Clara Pazos, Miguel Gualoto, Tania Oña, Elizabeth Velarde, Karen Portilla, Santiago Cabrera-García, Carlos Banchón, Gabriela Dávila, Fernanda Hernández-Alomia, Carlos Bastidas-Caldes
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Microorganisms
Subjects:
antibiotic resistance genes
cold environment
human-impacted environment
Online Access:https://www.mdpi.com/2076-2607/13/3/482
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Summary:The phenomenon of antimicrobial resistance (AMR) in cold environments, exemplified by the Antarctic, calls into question the assumption that pristine ecosystems lack clinically significant resistance genes. This study examines the molecular basis of AMR in <i>Acinetobacter</i> spp. Isolated from Antarctic soil, focusing on the <i>bla</i><sub>TEM</sub> and <i>bla</i><sub>SHV</sub> genes associated with extended-spectrum beta-lactamase (ESBL) production; Soil samples were collected and processed to isolate Antarctic soil bacteria. Molecular detection was then conducted using polymerase chain reaction (PCR) to identify the bacteria species by 16S rRNA/<i>rpoB</i> and 10 different beta-lactamase-producing genes. PCR amplicons were sequenced to confirm gene identity and analyze genetic variability. <i>Acinetobacter baumannii</i> were identified by both microbiological and molecular tests. Notably, both the <i>bla</i><sub>TEM</sub> and <i>bla</i><sub>SHV</sub> genes encoding the enzymes responsible for resistance to penicillins and cephalosporins were identified, indicating the presence of resistance determinants in bacteria from extreme cold ecosystems. The nucleotide sequence analysis indicated the presence of conserved ARGs, which suggest stability and the potential for horizontal gene transfer within microbial communities. These findings emphasize that AMR is not confined to human-impacted environments but can emerge and persist in remote, cold habitats, potentially facilitated by natural reservoirs and global microbial dispersal. Understanding the presence and role of AMR in extreme environments provides insights into its global dissemination and supports the development of strategies to mitigate the spread of resistance genes in both environmental and clinical contexts.
ISSN:2076-2607

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