Abstract
Maternal thyroid hormones (THs) are known to be crucial in embryonic development in humans, but their influence on other, especially wild, animals remains poorly understood. So far, the studies that experimentally investigated the consequences of maternal THs focused on short-term effects, while early organisational effects with long-term consequences, as shown for other prenatal hormones, could also be expected. In this study, we aimed at investigating both the short- and long-term effects of prenatal THs in a bird species, the Japanese quail Coturnix japonica. We experimentally elevated yolk TH content (the prohormone T4, and its active metabolite T3, as well as a combination of both hormones). We analysed hatching success, embryonic development, offspring growth and oxidative stress as well as their potential organisational effects on reproduction, moult and oxidative stress in adulthood. We found that eggs injected with T4 had a higher hatching success compared with control eggs, suggesting conversion of T4 into T3 by the embryo. We detected no evidence for other short-term or long-term effects of yolk THs. These results suggest that yolk THs are important in the embryonic stage of precocial birds, but other short- and long-term consequences remain unclear. Research on maternal THs will greatly benefit from studies investigating how embryos use and respond to this maternal signalling. Long-term studies on prenatal THs in other taxa in the wild are needed for a better understanding of this hormone-mediated maternal pathway.
Highlights
Maternal effects represent all the non-genetic influences of a mother on her offspring and have received increasing attention in evolutionary and behavioural ecology
Effects of prenatal thyroid hormones (THs) on hatching success and age of embryo mortality There was a clear effect of elevated prenatal THs on hatching success (GLMM, p = 0.03, Fig. 1)
Given that mostly T3 binds to receptors, these results suggest that embryos likely express deiodinase enzymes to convert T4 to T3, and/or yolk may contain maternally derived deiodinase mRNA, as injection with T3 only did not differ from control
Summary
Maternal effects represent all the non-genetic influences of a mother on her offspring and have received increasing attention in evolutionary and behavioural ecology. Mothers can influence the fitness of their progeny by adapting their phenotype to expected environmental conditions (“adaptive maternal effects” in Marshall & Uller (2007) and Mousseau & Fox (1998)), and this view is incorporated in the human disease literature (Gluckman, Hanson & Spencer, 2005). Maternal hormones transferred to the offspring can mediate important maternal effects. While research on maternal thyroid hormones (THs) has emerged between the 80s and the 90s in several taxa (mammals, De Escobar et al, 1985; fish, Brown et al, 1988; birds, Wilson & McNabb, 1997), these hormones are still underrepresented in the literature on hormone-mediated maternal effects (reviewed in Ruuskanen & Hsu (2018))
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