Prenatal maternal glucocorticoid exposure modifies sperm miRNA profiles across multiple generations in the guinea‐pig

Maternal stress and glucocorticoid exposure during pregnancy have multigenerational effects on neuroendocrine function and behaviours in offspring. Importantly, effects are transmitted through the paternal lineage. Altered phenotypes are associated with profound differences in transcription and DNA...

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Published in:The Journal of physiology Vol. 602; no. 9; pp. 2127 - 2139
Main Authors: Hamada, Hirotaka, Casciaro, Christopher, Moisiadis, Vasilis G., Constantinof, Andrea, Kostaki, Alisa, Matthews, Stephen G.
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-05-2024
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Summary:Maternal stress and glucocorticoid exposure during pregnancy have multigenerational effects on neuroendocrine function and behaviours in offspring. Importantly, effects are transmitted through the paternal lineage. Altered phenotypes are associated with profound differences in transcription and DNA methylation in the brain. In the present study, we hypothesized that maternal prenatal synthetic glucocorticoid (sGC) exposure in the F0 pregnancy will result in differences in miRNA levels in testes germ cells and sperm across multiple generations, and that these changes will associate with modified microRNA (miRNA) profiles and gene expression in the prefrontal cortex (PFC) of subsequent generations. Pregnant guinea‐pigs (F0) were treated with multiple courses of the sGC betamethasone (Beta) (1 mg kg–1; gestational days 40, 41, 50, 51, 60 and 61) in late gestation. miRNA levels were assessed in testes germ cells and in F2 PFC using the GeneChip miRNA 4.0 Array and candidate miRNA measured in epididymal sperm by quantitative real‐time PCR. Maternal Beta exposure did not alter miRNA levels in germ cells derived from the testes of adult male offspring. However, there were significant differences in the levels of four candidate miRNAs in the sperm of F1 and F2 adult males. There were no changes in miRNA levels in the PFC of juvenile F2 female offspring. The present study has identified that maternal Beta exposure leads to altered miRNA levels in sperm that are apparent for at least two generations. The fact that differences were confined to epididymal sperm suggests that the intergenerational effects of Beta may target the epididymis. Key points Paternal glucocorticoid exposure prior to conception leads to profound epigenetic changes in the brain and somatic tissues in offspring, and microRNAs (miRNAs) in sperm may mediate these changes. We show that there were significant differences in the miRNA profile of epididymal sperm in two generations following prenatal glucocorticoid exposure that were not observed in germ cells derived from the testes. The epididymis is a probable target for intergenerational programming. The effects of prenatal glucocorticoid treatment may span multiple generations. figure legend Pregnant guinea‐pigs were treated with three courses of Betamethasone (Beta) or saline on gestational day 40 and 41, 50 and 51, and 60 and 61. MicroRNA (miRNA) from F1–F3 male offspring were evaluated in sperm and germ cells. We observed significant changes to F1 and F2 sperm miRNA but not germ cell miRNA following prenatal exposure to Beta. This suggests that the intergenerational effects of Beta may be a result of changes confined to the epididymis.
Bibliography:https://doi.org/10.1113/JP284942#support‐information‐section
The peer review history is available in the Supporting Information section of this article
Handling Editors: Laura Bennet & Janna Morrison
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ISSN:0022-3751
1469-7793
DOI:10.1113/JP284942