Impact of Chronic Multi-Generational Exposure to an Environmentally Relevant Atrazine Concentration on Testicular Development and Function in Mice

A common herbicide, atrazine, is associated with poor health. Atrazine acts as an endocrine disruptor at supra-environmental levels. Little research, however, has been conducted regarding chronic exposure to environmental atrazine concentrations across generations. This study utilized comprehensive...

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Bibliographic Details
Published in:Cells (Basel, Switzerland) Switzerland), 2023-02, Vol.12 (4), p.648
Main Authors: Kolaitis, Nicola D, Finger, Bethany J, Merriner, D Jo, Nguyen, Joseph, Houston, Brendan J, O'Bryan, Moira K, Stringer, Jessica M, Zerafa, Nadeen, Nguyen, Ngoc, Hutt, Karla J, Tarulli, Gerard A, Green, Mark P
Format: Article
Language:English
Subjects:
Animals
Atrazine
Atrazine - pharmacology
Australia
Breastfeeding & lactation
Chronic exposure
Cytochrome
Cytochrome P450
Cytology
DNA helicase
Drinking water
endocrine disruptor
Endocrine disruptors
Endocrine system
Environmental aspects
Enzymes
Fertility
Gene expression
Health aspects
Health risk assessment
Health risks
Herbicides
Herbicides - pharmacology
Male
Males
Medical research
Mice
multi-generational
Puberty
Reptiles & amphibians
Semen
Sperm
Spermatogenesis
Steroidogenic acute regulatory protein
Testes
Testis
Weaning
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Summary:A common herbicide, atrazine, is associated with poor health. Atrazine acts as an endocrine disruptor at supra-environmental levels. Little research, however, has been conducted regarding chronic exposure to environmental atrazine concentrations across generations. This study utilized comprehensive endpoint measures to investigate the effects of chronic exposure to a conservative atrazine concentration (0.02 ng/mL), measured in Australian waterways, on male mice fertility across two generations. Mice were exposed through the maternal line, from the pre-conception period and through the F1 and F2 generations until three or six months of age. Atrazine did not impact sperm function, testicular morphology nor germ cell parameters but did alter the expression of steroidogenic genes in the F1, down-regulating the expression of (Cytochrome P450 family 17, subfamily A member 1; = 0.0008) and (DEAD-box helicase 4; = 0.007), and up-regulating the expression of (Steroidogenic acute regulatory protein; = 0.017). In the F2, atrazine induced up-regulation in the expression of ( = 0.016). The current study demonstrates that chronic exposure to an environmentally relevant atrazine concentration perturbs testicular steroid-associated gene expression that varies across generations. Future studies through the paternal and combined parental lineages should be undertaken to further elucidate the multigenerational effects of atrazine on male fertility.
ISSN:2073-4409
2073-4409
DOI:10.3390/cells12040648