Sodium dichloroacetate stimulates cardiac mitochondrial metabolism and improves cardiac conduction in the ovine fetus during labor (part I)
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ABSTRACT: Previous studies in our laboratory have suggested that the increase in stillbirth in pregnancies complicated by chronic maternal stress or hypercortisolemia is associated with cardiac dysfunction in late stages of labor and delivery. Transcriptomics analysis of the overly represented differentially expressed genes in the fetal heart of hypercortisolemic ewes indicated involvement of mitochondrial function. Sodium dichloroacetate (DCA) has been used to improve mitochondrial function in several disease states. We hypothesized that administration of DCA to laboring ewes would improve both cardiac mitochondrial activity and cardiac function in their fetuses. Four groups of ewes and their fetuses were studied: control, cortisol-infused (1 g/kg/d from 115 to term; CORT), DCA-treated (over 24h) or DCA+CORT-treated; oxytocin was delivered starting 48h before the DCA treatment. DCA significantly decreased cardiac lactate, alanine and glucose/glucose-6-phosphate and increased acylcarnitine/isobutyryl-carnitine. DCA increased mitochondrial activity, increasing oxidative phosphorylation (PCI, PCI+II)) per tissue weight or per unit of citrate synthase. DCA also decreased the duration of the QRS, attenuating the prolongation of the QRS observed in CORT fetuses. The effect to reduce QRS duration with DCA treatment correlated with increased glycerophosphocholine and serine and decreased phophocholine after DCA treatment. There were negative correlations of acylcarnitine/isobutyryl-carnitine to both HR and MAP. These results suggest that improvements in mitochondrial respiration with DCA produced changes in the cardiac lipid metabolism that favor improved conduction in the heart. DCA may therefore be an effective treatment of fetal cardiac metabolic disturbances in labor that can contribute to impairments of fetal cardiac conduction.
ORGANISM(S): Ovis Aries Sheep
TISSUE(S): Heart
SUBMITTER: Sicong Zhang
PROVIDER: ST001867 | MetabolomicsWorkbench | Thu Jul 01 00:00:00 BST 2021
REPOSITORIES: MetabolomicsWorkbench
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