Effects of sulfamethazine and tetracycline at molecular, cellular and tissue levels in Eisenia fetida earthworms

Effects of sulfamethazine and tetracycline at molecular, cellular and tissue levels in Eisenia fetida earthworms

Soil contamination by antibiotics is a global issue of great concern that contributes to the rise of bacterial antibiotic resistance and can have toxic effects on non-target organisms. This study evaluated the variations of molecular, cellular, and histological parameters in Eisenia fetida earthworm...

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Bibliographic Details
Published in:The Science of the total environment Vol. 951; p. 175579
Main Authors: Rutkoski, C.F., Vergara-Luis, I., Urionabarrenetxea, E., García-Velasco, N., Zaldibar, B., Anza, M., Olivares, M., Prieto, A., Epelde, L., Garbisu, C., Almeida, E.A., Soto, M.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-11-2024
Subjects:
Antibiotics
Earthworm
Gut microbiota
Neurotoxicity
Oxidative stress
Earthworm
Gut microbiota
Oxidative stress
Neurotoxicity
Antibiotics
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Summary:Soil contamination by antibiotics is a global issue of great concern that contributes to the rise of bacterial antibiotic resistance and can have toxic effects on non-target organisms. This study evaluated the variations of molecular, cellular, and histological parameters in Eisenia fetida earthworms exposed to sulfamethazine (SMZ) and tetracycline (TC), two antibiotics commonly found in agricultural soils. The earthworms were exposed for 14 days to a series of concentrations (0, 10, 100, and 1000 mg/kg) of both antibiotics. SMZ and TC did not affect the survival of E. fetida, however, other effects at different levels of biological complexity were detected. The two highest concentrations of SMZ reduced the viability of coelomocytes. At the highest TC concentration, there was a noticeable decline in cell viability, acetylcholinesterase activity (neurotoxicity), and the relative presence of mucopolysaccharides in the epidermis (mucous production). Glutathione S-transferase activity decreased in all TC treatments and at the highest SMZ concentration. However, levels of malondialdehyde and protein carbonyls did not change, suggesting an absence of oxidative stress. Tetracycline was neurotoxic to E. fetida and changed the integrity of the epidermis. Both antibiotics altered the intestinal microbiota of E. fetida, leading to a reduction in the relative abundance of bacteria from the phyla Proteobacteria and Bacteroidetes, while causing an increase in the phylum Actinobacteroidota. All observed changes indicate that both SMZ and TC can disrupt the earthworms' immune system and gut microbiome, while fostering the growth of bacteria that harbour antibiotic resistance genes. Finally, both antibiotics exerted additional metabolic and physiological effects that increased the vulnerability of E. fetida to pathogens. [Display omitted] •SMZ was cytotoxic for Eisenia fetida.•TC affected the integrity of the earthworm epidermis and was neurotoxic.•Both antibiotics caused a reduction in the activity of the GST biotransformation enzyme.•Both antibiotics promoted the increase of antibiotic-resistant phyla in the gut microbiota.
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ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.175579