Abstract
Growing evidence suggests that environmental disruptors of maternal microbes may have significant detrimental consequences for the developing fetus. Antibiotic exposure during early life can have long-term effects on neurodevelopment in mice and humans. Here we explore whether exposure to low-dose penicillin during only the last week of gestation in mice has long-term effects on offspring behaviour, brain, immune function, and gut microbiota. We found that this treatment had sex-specific effects in the adult mouse offspring. Female, but not male, mice demonstrated decreased anxiety-like behaviours, while male, but not female, mice had abnormal social behaviours which correlated with altered brain expression of AVPR1A, AVPR1B, and OXTR, and decreases in the balance of splenic FOXP3+ regulatory T cells. Prenatal penicillin exposure also led to distinct microbiota compositions that clustered differently by sex. These data suggest that exposure of pregnant mice to even a low dose of penicillin through only the last week before birth is nonetheless sufficient to induce long-term sex-specific developmental changes in both male and female offspring.
Original language | English |
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Pages (from-to) | 154-163 |
Number of pages | 10 |
Journal | Brain, Behavior, and Immunity |
Volume | 84 |
DOIs | |
State | Published - Feb 2020 |
Bibliographical note
Publisher Copyright:© 2019 Elsevier Inc.
Funding
We gratefully acknowledge grant support from the US Office for Naval Research ( ONR ; N00014-14-1-0787 ), an NSERC CGS-M Scholarship (KCJ), and a joint CIHR /CAG Postdoctoral Fellowship (KAMN). Appendix A We gratefully acknowledge grant support from the US Office for Naval Research (ONR; N00014-14-1-0787), an NSERC CGS-M Scholarship (KCJ), and a joint CIHR/CAG Postdoctoral Fellowship (KAMN).
Funders | Funder number |
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CIHR/CAG | |
NSERC CGS-M Scholarship | |
US Office for Naval Research | |
Office of Naval Research | N00014-14-1-0787 |
Canadian Institutes of Health Research | |
Natural Sciences and Engineering Research Council of Canada | |
Canadian Association of Gastroenterology |
Keywords
- Antibiotics
- Behaviour
- Brain
- Dysbiosis
- Immune regulation
- Microbiota
- Microbiota-gut-brain axis
- Nervous system
- Neurodevelopment
- Neurotoxicity