Endocrine, immune and renal toxicity in male largemouth bass after chronic exposure to glyphosate and Rodeo

Endocrine, immune and renal toxicity in male largemouth bass after chronic exposure to glyphosate and Rodeo

•Glyphosate and Rodeo® affected gene expression related to kidney and immune toxicity.•Concentrations below regulatory limits reduced steroid hormones in males.•Rodeo® was more toxic than glyphosate in the trunk and head kidney. Glyphosate is the most used herbicide worldwide, with no historical com...

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Bibliographic Details
Published in:Aquatic toxicology Vol. 246; p. 106142
Main Authors: De Maria, Maite, Kroll, Kevin J., Yu, Fahong, Nouri, Mohammad-Zaman, Silva-Sanchez, Cecilia, Perez, Juan Guillermo, Moraga Amador, David A., Zhang, Yanping, Walsh, Mike T., Denslow, Nancy D.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-05-2022
Subjects:
Animals
Bass - metabolism
Crops, Agricultural - genetics
Fish
Glycine - analogs & derivatives
Glyphosate
Herbicides - metabolism
Herbicides - toxicity
Hormones - metabolism
Male
Mammals - genetics
Pathway analysis
Plants, Genetically Modified
Steroid hormones
Steroids - metabolism
Tandem Mass Spectrometry
Transcriptomics
UHPLC-MS/MS
Water Pollutants, Chemical - toxicity
Zebrafish - genetics
Pathway analysis
Fish
UHPLC-MS/MS
Transcriptomics
Steroid hormones
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Summary:•Glyphosate and Rodeo® affected gene expression related to kidney and immune toxicity.•Concentrations below regulatory limits reduced steroid hormones in males.•Rodeo® was more toxic than glyphosate in the trunk and head kidney. Glyphosate is the most used herbicide worldwide, with no historical comparison. It is used for genetically modified crops, and particularly in Florida, it is used as a sugar cane ripener. An aquatic formulation (Rodeo®) is used to treat aquatic weeds in waterbodies and drainage canals. Because of its extended use, glyphosate can run off or be sprayed directly into waterbodies, and chronically expose aquatic wildlife. Exposure in animal models has been associated with kidney and liver damage and glyphosate has been suggested as an endocrine disruptor. We exposed adult male largemouth bass for 21 days to two doses of glyphosate and Rodeo® (chemically equivalent concentration of glyphosate) at 0.5 mg L−1 and 10 mg L−1 and to a clean water control (n=4 fish/tank in quadruplicate). Concentrations during the experiment were corroborated with UHPLC-MS/MS. Total RNA was isolated from the trunk kidney and head kidney. RNA-seq was performed for the high doses compared to controls. Transcripts were analyzed with fish and mammalian pathway analyses software. Transcripts mapped to Zebrafish metabolic pathways using PaintOmics showed steroid hormone biosynthesis in the trunk kidney as the most significantly enriched pathway. Steroid hormones were measured in plasma by UHPLC-MS/MS. Total androgens were significantly reduced at 0.5 mg L−1 of glyphosate and at equivalent concentrations in Rodeo® compared to controls. 11-ketotestosterone and estrone concentrations were significantly reduced in all doses. A gene involved in the conversion of testosterone to 11-ketotestosterone was down-regulated by glyphosate. Using the mammalian pathway analysis algorithm, cellular processes associated with T-cell activation/development and intracellular pH were significantly enriched in the trunk kidney by glyphosate and Rodeo® exposure. Endocrine disruption was corroborated at the hormone and gene expression levels. Rodeo® and glyphosate share gene expression pathways, however, Rodeo® had more pronounced effects in largemouth bass. [Display omitted]
ISSN:0166-445X
1879-1514
DOI:10.1016/j.aquatox.2022.106142