Increased hepatic glucose production with lower oxidative metabolism in the growth-restricted fetus
Laura D. Brown, Paul J. Rozance, Dong Wang, Evren C. Eroglu, Randall B. Wilkening, Ashley Solmonson, Stephanie R. Wesolowski
Laura D. Brown, Paul J. Rozance, Dong Wang, Evren C. Eroglu, Randall B. Wilkening, Ashley Solmonson, Stephanie R. Wesolowski
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Research Article Reproductive biology

Increased hepatic glucose production with lower oxidative metabolism in the growth-restricted fetus

Abstract

Fetal growth restriction (FGR) is accompanied by early activation of hepatic glucose production (HGP), a hallmark of type 2 diabetes (T2D). Here, we used fetal hepatic catheterization to directly measure HGP and substrate flux in a sheep FGR model. We hypothesized that FGR fetuses would have increased hepatic lactate and amino acid uptake to support increased HGP. Indeed, FGR fetuses compared with normal (CON) fetuses had increased HGP and activation of gluconeogenic genes. Unexpectedly, hepatic pyruvate output was increased, while hepatic lactate and gluconeogenic amino acid uptake rates were decreased in FGR liver. Hepatic oxygen consumption and total substrate uptake rates were lower. In FGR liver tissue, metabolite abundance, 13C-metabolite labeling, enzymatic activity, and gene expression supported decreased pyruvate oxidation and increased lactate production. Isolated hepatocytes from FGR fetuses had greater intrinsic capacity for lactate-fueled glucose production. FGR livers also had lower energy (ATP) and redox state (NADH/NAD+ ratio). Thus, reduced hepatic oxidative metabolism may make carbons available for increased HGP, but also produces nutrient and energetic stress in FGR liver. Intrinsic programming of these pathways regulating HGP in the FGR fetus may underlie increased HGP and T2D risk postnatally.

Authors

Laura D. Brown, Paul J. Rozance, Dong Wang, Evren C. Eroglu, Randall B. Wilkening, Ashley Solmonson, Stephanie R. Wesolowski

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Figure 2

Lower hepatic uptake of carbon substrates and oxygen consumption in FGR fetus.

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Lower hepatic uptake of carbon substrates and oxygen consumption in FGR ...
(A) Net hepatic lactate, pyruvate, and sum of all individual amino acid uptake rates measured in CON and FGR fetuses. Individual amino acids uptake rates are grouped as those that are (B) considered gluconeogenic, (C) normally released by the fetal liver, and (D) all other amino acids. (E) Net hepatic free fatty acid uptake. (F) Hepatic oxygen consumption rates. (G) Hepatic nutrient/oxygen metabolic quotients. (H) Cumulative sums of metabolic quotients. (I) The net carbon uptake of substrates (defined as sum of lactate, pyruvate, and all amino acids), glucose, and the sum of substrates plus glucose. (I) Means ± SEM are shown (n = 5 CON, 10 FGR). Results comparing CON (white bar) versus FGR (gray bar) groups were analyzed by 2-tailed Student’s t test. Weight-threshold differences comparing moderate (light pink) versus severe (dark red) FGR were analyzed by 2-tailed Student’s t test and are indicated by a vertical line. *P < 0.05; **P < 0.01, ***P < 0.001, #P < 0.15.