Embryonic exposures can increase the risk of congenital cardiac birth defects and adult disease. The present study identifies the predominant pathways modulated by an acute embryonic mouse exposure during gastrulation to lithium or homocysteine that induces cardiac defects. High dose periconceptional folate supplementation normalized development. Microarray bioinformatic analysis of gene expression demonstrated that primarily lipid metabolism is altered after the acute exposures. The lipid-related modulation demonstrated a gender bias with male embryos showing greater number of lipid-related Gene Ontology biological processes altered than in female embryos. RT-PCR analysis demonstrated significant change of the fatty acid oxidation gene Acadm with homocysteine exposure primarily in male embryos than in female. The perturbations resulting from the exposures resulted in growth-restricted placentas with disorganized cellular lipid droplet distribution indicating lipids have a critical role in cardiac-placental abnormal development. High folate supplementation protected normal heart-placental function, gene expression and lipid localization.
Pubmed ID: 26993217 RIS Download
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THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 11, 2023. Web tool for an organized view of the transcriptome. Collection of the computationally identified transcripts from the same locus. Information on protein similarities, gene expression, cDNA clones, and genomic location. System for automatically partitioning GenBank sequences into a non redundant set of gene oriented clusters.
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