# High toxinogenic potential of Staphylococcus aureus from wild ungulates in Brandenburg, Germany with a low level of antibiotic resistance

**Authors:** Tobias Lienen, Rafael Hernán Mateus-Vargas, Julia Steinhoff-Wagner, Martin H. Richter, Sven Maurischat

PMC · DOI: 10.3389/fvets.2024.1445413 · Frontiers in Veterinary Science · 2024-07-23

## TL;DR

Wild ungulates in Germany carry S. aureus strains with high toxin potential, though antibiotic resistance is low, posing a food safety risk if hygiene is not followed.

## Contribution

Identification of S. aureus strains from wild ungulates with high toxinogenic potential and low antibiotic resistance in Brandenburg, Germany.

## Key findings

- S. aureus was found in 8% of nasal swabs from wild ruminants.
- Most isolates contained genes for staphylococcal enterotoxins and one isolate had the toxic shock syndrome toxin gene.
- Isolates showed low antibiotic resistance and belonged to multiple sequence types.

## Abstract

Data regarding the occurrence and virulence of Staphylococcus (S.) aureus in wild living animals is rare. However, S. aureus may carry a multitude of virulence factors and express resistance to several antimicrobial substances. Handling game meat may thus lead to serious infections or food poisoning. The aim of this study was to provide insights into the occurrence and characteristics of S. aureus in wild ungulates from Brandenburg, Germany.

Nasal swabs of externally healthy-looking wild boars, roe, fallow and red deer were collected in hunts during season 2021/2022 and analyzed for S. aureus by selective enrichment. Species were determined using matrix assisted laser desorption ionization mass spectrometry and tested for phenotypic antimicrobial resistance. Whole-genome sequencing was conducted for genotyping, determination of virulence associated genes and analysis of phylogenetic relationships.

S. aureus were recovered from approximately 8% of nasal swabs. However, the strains were only obtained from the sampled wild ruminants. S. aureus isolates were associated with sequence types (ST) 1, ST30, ST133, ST425, ST582 and ST6238. Isolates of ST1 clustered closely together in the phylogenetic analysis. Genes encoding staphylococcal enterotoxin (SE) or SE-like (SEl) were found in 14/17 isolates. In particular, a seh gene was present in 12/17 isolates. Moreover, two isolates harbored a multiplicity of genes encoding SE or SEl. In addition, the toxic shock syndrome toxin encoding tst gene was detected in one isolate. This isolate was resistant to penicillin and cefoxitin and accordingly harbored the blaZ gene.

Wild ungulates intended for human consumption may carry potentially virulent S. aureus. In one case, the close phylogenetic relationship of S. aureus isolates indicates a possible intraspecific spread within a common territory. However, for others, the origin or the spread pattern can only be inferred. Handling of animals or their carcasses might contribute to staphylococcal infections in humans. Moreover, food poisoning due to SE producing strains may occur, if recommended hygiene practices are not applied during processing of game meat.

## Linked entities

- **Genes:** FUT2 (fucosyltransferase 2 (H blood group)) [NCBI Gene 2524], sel (seele) [NCBI Gene 36046], EPHX2 (epoxide hydrolase 2) [NCBI Gene 2053], TST (thiosulfate sulfurtransferase) [NCBI Gene 7263], blaZ (penicillin-hydrolyzing class A beta-lactamase BlaZ) [NCBI Gene 48886948]
- **Species:** Staphylococcus aureus (taxon 1280)

## Full-text entities

- **Genes:** TST (thiosulfate sulfurtransferase) [NCBI Gene 7263] {aka RDS}, blaZ [NCBI Gene 13874473]
- **Diseases:** toxic shock syndrome toxin (MESH:D012772), infections (MESH:D007239), staphylococcal infections (MESH:D013203), food poisoning (MESH:D005517)
- **Chemicals:** cefoxitin (MESH:D002440), penicillin (MESH:D010406)
- **Species:** Staphylococcus aureus (species) [taxon 1280], Suidae (boars, family) [taxon 9821], Cervus elaphus (red deer, species) [taxon 9860], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

65 references — full list in the complete paper: https://tomesphere.com/paper/PMC11300323/full.md

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Source: https://tomesphere.com/paper/PMC11300323