Comprehensive profiling of antibiotic resistance, virulence genes, and mobile genetic elements in the gut microbiome of Tibetan antelopes

Tibetan antelopes, native to high-altitude plateau regions, play a vital role in the local ecosystem. However, their gut microbiota harbors diverse antibiotic resistance genes (ARGs) and virulence genes (VFGs), raising concerns about the potential spread of antibiotic resistance in wildlife. In this study, in addition to collecting 26,608 metagenome-assembled genomes (MAGs) from public databases, we performed gut metagenomic sequencing on 68 Tibetan antelopes and obtained 7,318 MAGs through binning. A total of 2,968 ARGs were identified, conferring resistance to 23 antibiotic classes, with elfamycin resistance being the most prevalent. Comparative analysis revealed 7 ARGs unique to Tibetan antelopes, suggesting species-specific adaptations. Additionally, during the analysis of shared antibiotic resistance profiles between Tibetan antelopes and humans, two bacterial strains were identified within the Tibetan antelope gut microbiota: Enterococcus gallinarum exhibiting resistance to extended-spectrum class A beta-lactamases and Klebsiella grimontii demonstrating vancomycin resistance. Mobile genetic elements played a key role in ARG dissemination. ARGs were significantly correlated with VFGs, particularly those linked to adherence and effector delivery systems. These findings underscore for the first time the potential ecological and health implications of ARG dissemination in Tibetan antelopes, highlighting the need for further surveillance to assess its impact on wildlife and environmental resistomes.