Environmental Selection Shapes Resistance, Metabolic, and Adaptive Capabilities in Exiguobacterium

The genus Exiguobacterium comprises Gram-positive, non-spore-forming, facultative anaerobic bacteria known for their remarkable adaptability to extreme environments, including soils, hot springs, glaciers, and the gastrointestinal tracts of certain organisms. Despite their unique adaptations for surviving in extreme environments, their pathogenicity is well documented. Here, we analyzed the phenotypical traits of two Mexican strains of Exiguobacterium--JVH47, isolated from contaminated urban sediments in Mexico City, and P4526, from the less human-impacted Cuatro Cienegas Basin. Furthermore, strains were related via comparative genomics using publicly available genomes. Phenotypic characterization demonstrated that both strains thrive across a wide range of temperatures (20-50 {degrees}C), pH (7-11), and salinity (up to 7% NaCl). Although sensitive to erythromycin, the JVH47 strain exhibited higher erythromycin resistance and harbored antibiotic resistance genes. This study underscores the ecological versatility of Exiguobacterium and its potential role as a reservoir for antibiotic resistance genes. While rarely associated with human infections, its ability to survive in extreme conditions and form biofilms raises concerns for immunocompromised individuals. These findings highlight the need for careful consideration of Exiguobacterium in biotechnological applications and its implications under the One Health framework.