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. 2023 Jun;618(7964):365-373.
doi: 10.1038/s41586-023-06068-7. Epub 2023 May 24.

γ-Linolenic acid in maternal milk drives cardiac metabolic maturation

Ana Paredes  1 Raquel Justo-Méndez  1 Daniel Jiménez-Blasco  2   3   4 Vanessa Núñez  1 Irene Calero  1 María Villalba-Orero  1   5 Andrea Alegre-Martí  6 Thierry Fischer  7 Ana Gradillas  8 Viviane Aparecida Rodrigues Sant'Anna  8 Felipe Were  9 Zhiqiang Huang  10 Pablo Hernansanz-Agustín  1 Carmen Contreras  1 Fernando Martínez  9   11 Emilio Camafeita  11   12 Jesús Vázquez  11   12 Jesús Ruiz-Cabello  13   14   15   16 Estela Area-Gómez  17   18 Fátima Sánchez-Cabo  9 Eckardt Treuter  10 Juan Pedro Bolaños  2   3   4 Eva Estébanez-Perpiñá  6 Francisco Javier Rupérez  8 Coral Barbas  8 José Antonio Enríquez  1   4 Mercedes Ricote  19
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γ-Linolenic acid in maternal milk drives cardiac metabolic maturation

Ana Paredes et al. Nature. 2023 Jun.

Erratum in

  • Author Correction: γ-Linolenic acid in maternal milk drives cardiac metabolic maturation.
    Paredes A, Justo-Méndez R, Jiménez-Blasco D, Núñez V, Calero I, Villalba-Orero M, Alegre-Martí A, Fischer T, Gradillas A, Sant'Anna VAR, Were F, Huang Z, Hernansanz-Agustín P, Contreras C, Martínez F, Camafeita E, Vázquez J, Ruiz-Cabello J, Area-Gómez E, Sánchez-Cabo F, Treuter E, Bolaños JP, Estébanez-Perpiñá E, Rupérez FJ, Barbas C, Enríquez JA, Ricote M. Paredes A, et al. Nature. 2023 Jul;619(7968):E24. doi: 10.1038/s41586-023-06316-w. Nature. 2023. PMID: 37322272 No abstract available.

Abstract

Birth presents a metabolic challenge to cardiomyocytes as they reshape fuel preference from glucose to fatty acids for postnatal energy production1,2. This adaptation is triggered in part by post-partum environmental changes3, but the molecules orchestrating cardiomyocyte maturation remain unknown. Here we show that this transition is coordinated by maternally supplied γ-linolenic acid (GLA), an 18:3 omega-6 fatty acid enriched in the maternal milk. GLA binds and activates retinoid X receptors4 (RXRs), ligand-regulated transcription factors that are expressed in cardiomyocytes from embryonic stages. Multifaceted genome-wide analysis revealed that the lack of RXR in embryonic cardiomyocytes caused an aberrant chromatin landscape that prevented the induction of an RXR-dependent gene expression signature controlling mitochondrial fatty acid homeostasis. The ensuing defective metabolic transition featured blunted mitochondrial lipid-derived energy production and enhanced glucose consumption, leading to perinatal cardiac dysfunction and death. Finally, GLA supplementation induced RXR-dependent expression of the mitochondrial fatty acid homeostasis signature in cardiomyocytes, both in vitro and in vivo. Thus, our study identifies the GLA-RXR axis as a key transcriptional regulatory mechanism underlying the maternal control of perinatal cardiac metabolism.

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References

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