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. 2024 Feb;80(2):366-375.
doi: 10.1002/ps.7766. Epub 2023 Sep 21.

Tetracycline inhibits tick host reproduction by modulating bacterial microbiota, gene expression and metabolism levels

Yan-Kai Zhang  1 Si-Si Li  1   2 Chen Yang  1 Yu-Fan Zhang  1 Xiao-Yu Zhang  1 Jing-Ze Liu  1
Affiliations

Tetracycline inhibits tick host reproduction by modulating bacterial microbiota, gene expression and metabolism levels

Yan-Kai Zhang et al. Pest Manag Sci. 2024 Feb.

Abstract

Background: Ticks are disease vectors that are a matter of worldwide concern. Antibiotic treatments have been used to explore the interactions between ticks and their symbiotic microorganisms. In addition to altering the host microbial community, antibiotics can have toxic effects on the host.

Results: In the tick Haemaphysalis longicornis, engorged females showed reproductive disruption after microinjection of tetracycline. Multi-omics approaches were implemented to unravel the mechanisms of tick reproductive inhibition in this study. There were no significant changes in bacterial density in the whole ticks on Day (D)2 or D4 after tetracycline treatment, whereas the bacterial microbial community was significantly altered, especially on D4. The relative abundances of the bacteria Staphylococcus, Bacillus and Pseudomonas decreased after tetracycline treatment, whereas the relative abundances of Coxiella and Rhodococcus increased. Ovarian transcriptional analysis revealed a cumulative effect of tetracycline treatment, as there was a significant increase in the number of differentially expressed genes with treatment time and a higher number of downregulated genes. The tick physiological pathways including lysosome, extracellular matrix (ECM)-receptor interaction, biosynthesis of ubiquinone and other terpenoids-quinones, insect hormone biosynthesis, and focal adhesion were significantly inhibited after 4 days of tetracycline treatment. Metabolite levels were altered after tetracycline treatment and the differences increased with treatment time. The differential metabolites were involved in a variety of physiological pathways; the downregulated metabolites were significantly enriched in the nicotinate and nicotinamide metabolism, galactose metabolism, and ether lipid metabolism pathways.

Conclusions: These findings indicate that tetracycline inhibits tick reproduction through the regulation of tick bacterial communities, gene expression and metabolic levels. The results may provide new strategies for tick control. © 2023 Society of Chemical Industry.

Keywords: bacterial microbiota; metabolomics; reproductive anomalies; tetracycline; ticks; transcriptome.

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References

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