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Bisphenol A exposure during gestation and lactation in mice: Sex-specific consequences on oligodendrocytes and myelination
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International audience. Bisphenol A (BPA), a ubiquitous environmental endocrine disruptor, is suspected of disturbing brain development through largely unknown cellular and molecular mechanisms. In the central nervous system, oligodendrocytes are responsible for forming myelin sheaths, which enhance the propagation of action potentials along axons. Disruption of axon myelination can have lifelong consequences, making oligodendrocyte differentiation and myelination critical stages of brain development. In the present study, mice were exposed to BPA during gestation and lactation through drinking water at concentrations of 25 and 250 μg.L -1 . These doses, corresponding to estimated exposures of 4 μg.kg -1 .d -1 and 40 μg.kg -1 .d -1 , respectively, led to disturbances in lipid remodeling associated with myelination in the offspring. Importantly, changes in myelin lipid composition were selectively observed in female mice and were transient, being visible only at post-natal day P15 but not at later stages (P30 and P60). In females exposed to BPA, myelin exhibited a lower proportion of phosphatidylcholines and higher proportions of other glycerophospholipid subclasses, thus resembling more mature myelin. Conversely, male myelin was not affected, likely due to its already more mature lipid composition. Additionally, transcriptomic analysis of female oligodendrocytes at P15 did not reveal any transcriptional changes in genes related to lipid metabolism, further suggesting post-transcriptional effects of BPA via chaperone-mediated protein folding and RNA splicing. In males, the altered genes were mainly associated with synaptic transmission. Finally, alterations in chromatin accessibility were also largely sex dependent and did not correlate with transcription, with the exception of the Cwc22. At this locus, BPA exposure increased chromatin accessibility in half of mice of both sexes, leading to an "unchanged/open" bimodal profile correlated with "unchanged/upregulated" gene expression. Together, these results open new insights into the sex-dependent mechanisms of BPA's effects on brain development.
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