Article Dans Une Revue Animal Année : 2025

Transmissibility model to evaluate transgenerational transmission of environmental effects in quails

Résumé

Both genetic and non-genetic information, which contribute to the development of phenotypes, can be transmitted across generations. Non-genetic information can be modified by the environment, allowing environmental effects to be transmitted to the next generation. The objective of the present study is to use an experimental design in quail combined with the transmissibility models, to demonstrate the vertical transmission of environmental effects. The study involved creating two lines: a control line and a treatment line, where female quails were fed a genistein-supplemented diet. Genistein is an endocrine disruptor that affects methylation patterns. Then reproduction of these lines was conducted in a mirrored mating design over three generations, with a total of 1,566 animals studied. Quails underwent behavioral tests measuring locomotor activity and were weighed at one, four, and seven weeks of age. At slaughter, body and abdominal adipose weights were recorded. The transmissibility model was a mixed model with fixed effects of rearing condition, sex, generation, age at time of measurement and direct effect of the genistein (on the animal, embryo and germ cells) and the random effect of the transmissible potential of the animal which transmissibility matrix contains sire and dam path coefficients of transmission that have to be estimated conversely to the genetic model where they are fixed to 0.5. The transmissibility model with environment included additional covariance for offspring of genistein-fed dams which is then transmitted to next generations via sires and dams. Models were chosen according to likelihood ratio test. The proportion of transmitted variance varied from 0.34 (at 1 week) to 0.72 (at 7 weeks) for body weight, 0.20 for the behavioral trait and 0.22 for adiposity. The estimated sire and dam path coefficients ranged from 0.42 to 0.52, but were not significantly different from 0.50. With the transmissibility model with environment, the additional covariance was significantly different from zero for body weight traits, indicating transgenerational transmission of genistein’s effects. This value corresponded to a high correlation at one week (0.44) but low for other body weight traits. The transmissibility model with environment demonstrated the transgenerational transmission of genistein-induced environmental effects on body weight traits in quail, putatively mediated by epigenetic inheritance. The findings suggest that beneficial environmental factors can positively impact multiple generations, and combining this with genetic selection could accelerate adaptation to new environmental challenges.

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hal-05240726 , version 1 (17-10-2025)

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Keyvan Karami, Stacy Rousse, Frederique Pitel, Sonia Eynard, David Gourichon, et al.. Transmissibility model to evaluate transgenerational transmission of environmental effects in quails. Animal, In press, pp.101636. ⟨10.1016/j.animal.2025.101636⟩. ⟨hal-05240726⟩
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