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Poster De Conférence Année : 2012

Transcriptionnal and epigenetic signatures of adaptive increased resistance to diet-induced obesity by dietary alleviation of malprogramming by maternal obesity during gestation

Résumé

Maternal obesity and type 2 diabetes (T2D) at conception and during gestation promote the development of obesity and diabetes in adulthood.1 However, very few studies have considered whether and how appropriate nutrition could alleviate this malprogramming. An important proportion of inbred animals develop resistance to the obesogenic effects of a high-fat diet (HFD), regardless of the species, the window and mechanisms at stake.2 In a previous study, we showed that despite maternal obesity and T2D, a control diet (CD) during the periconceptional/gestation/lactation period led to a pronounced sex-specific shift from susceptibility to resistance to a HFD in the female offspring.3 The aim of this study was to determine the molecular mechanisms of resistance and susceptibility, and how a CD could alleviate the effects of maternal obesity and T2D on the fetus and increase resistance. Despite being similarly lean (resistant) or obese (sensitive), F2 and F1 mice clearly differed in several aspects of their metabolism, with F2 mice presenting obvious features of ‘adaptation’ on the HFD. Expression data using a custom-built mouse microchip for the liver and quantitative RT-PCR for muscle and adipose tissue highlighted that adaptative processes in F2 mice were associated in the liver with an enhancement of pathways protecting against steatosis, the recruitment of unexpected neurotransmission-related genes and the modulation of a vast imprinted gene network. In the adipose tissue, adipogenesis and lipid storage were also modified in F2 mice. Global DNA methylation and several histone marks assessed using LUMA technique and western blot analysis, as well as the expression of 15 genes encoding chromatin-modifying enzymes, supported the response and adaptation to HFD, in a generation- and tissue-specific manner.4 Thus, improvements in the nutrition of obese and diabetic women during pregnancy would be an efficient management strategy, with lower risks than current strategies on the basis of weight loss or nutrient supplementation, which may have a negative impact on fetal programming.
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hal-02749244 , version 1 (03-06-2020)

Identifiants

  • HAL Id : hal-02749244 , version 1
  • PRODINRA : 225772

Citer

Linda L. Attig, A. Vigé, M. Karmimi, Aurore A. Beauger, M.S. Gross, et al.. Transcriptionnal and epigenetic signatures of adaptive increased resistance to diet-induced obesity by dietary alleviation of malprogramming by maternal obesity during gestation. Colloque SF-DOHaD, Nov 2012, Paris, France. Cambridge University Press, Journal of Developmental Origins of Health and Disease, 4 (Supplement 1), 2013, Founding meeting of SF-DOHaD. ⟨hal-02749244⟩
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