The amphibian Proteus anguinus, also known as the olm, is considered the largest obligate cave animal and the only cave-dwelling vertebrate in Europe. Its existence is threatened by the direct impact on its habitat caused by environmental pollution due to human activities. Microbiome studies of its skin and aquatic enviroment led to the discovery of potentially dangerous and red-leg syndrome causing bacteria of the genus Aeromonas. We determined the virulence potential and assessed the threat Aeromonas spp. pose to the olm. We identified the isolated strains of Aeromonas spp. to species by phylogenetic analyzes based on the concatenated sequences of the housekeeping genes dnaJ, dnaX, gyrB, recA and rpoD and the 16S rRNA gene using the MEGA-X program. We were able to identify strains previously recognized as A. hydrophila as A. media and confirm the presence of the potential fish pathogen species A. salmonicida and A. veronii. The results indicated a greater diversity of Aeromonas species isolated from the skin microbiome of healthy olms compared to unhealthy animals, and confirmed the fact that the skin microbiome promotes the growth of the less represented Aeromonas species from the aquatic enviroment. Using the PCR method, we determined the presence of the virulence factor genes act, alt, ast, aerA, ahpA, epr, hlyA and GCAT and confirmed an average of 2.13 genes per Aeromonas spp. strain, indicating a low virulence potential of the isolated strains. However, we succeeded in detecting 2 potentially cytotoxic act+/alt+/aerA+/hlyA+ strains, 19 potentially cytotoxic act+/alt+/aerA+ strains, and 4 potentially highly virulent alt+/aerA+/hlyA+ strains. No less than 93 % of the strains were resistant to at least one of the antibiotics tested: Gentamicin (93.49 % of all strains), Imipenem (49.11 % of all strains), Erythromycin (34.91 % of all strains), Ceftriaxone (34.32 % of all strains), Aztreonam (2.96 % of all strains), and Enrofloxacin (2.96 % of all strains), which are used in veterinary or human medical practice, raising concern. The strains with the highest average number of antibiotics to which they were resistant were isolated from a site with a history of heavy metal contamination, consistent with the concept of cross-resistance in bacteria. The results of this study suggest that karst waters are likely contaminated by sewage, livestock and human faeces, leading to the spread of resistance and virulence mechanisms among environmental bacteria.