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Maternally derived avian corticosterone affects offspring genome‐wide DNA methylation in a passerine species

Version 3 2024-06-19, 23:34
Version 2 2024-06-07, 00:58
Version 1 2024-02-06, 04:07
journal contribution
posted on 2024-06-19, 23:34 authored by Anna Miltiadous, Damien CallahanDamien Callahan, Antoine DujonAntoine Dujon, Kate BuchananKate Buchanan, Lee A Rollins
AbstractAvian embryos develop in an egg composition which reflects both maternal condition and the recent environment of their mother. In birds, yolk corticosterone (CORT) influences development by impacting pre‐ and postnatal growth, as well as nestling stress responses and development. One possible mechanism through which maternal CORT may affect offspring development is via changes to offspring DNA methylation. We sought to investigate this, for the first time in birds, by quantifying the impact of manipulations to maternal CORT on offspring DNA methylation. We non‐invasively manipulated plasma CORT concentrations of egg‐laying female zebra finches (Taeniopygia castanotis) with an acute dose of CORT administered around the time of ovulation and collected their eggs. We then assessed DNA methylation in the resulting embryonic tissue and in their associated vitelline membrane blood vessels, during early development (5 days after lay), using two established methods – liquid chromatography–mass spectrometry (LC–MS) and methylation‐sensitive amplification fragment length polymorphism (MS‐AFLP). LC–MS analysis showed that global DNA methylation was lower in embryos from CORT‐treated mothers, compared to control embryos. In contrast, blood vessel DNA from eggs from CORT‐treated mothers showed global methylation increases, compared to control samples. There was a higher proportion of global DNA methylation in the embryonic DNA of second clutches, compared to first clutches. Locus‐specific analyses using MS‐AFLP did not reveal a treatment effect. Our results indicate that an acute elevation of maternal CORT around ovulation impacts DNA methylation patterns in their offspring. This could provide a mechanistic understanding of how a mother's experience can affect her offspring's phenotype.

History

Journal

Molecular Ecology

Volume

33

Article number

ARTN e17283

Pagination

1-11

Location

London, Eng.

ISSN

0962-1083

eISSN

1365-294X

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Issue

6

Publisher

Wiley