Liver, but Not Muscle, Has an Entrainable Metabolic Memory

Sheng-Song Chen,Phillip E Williams,Kimberly X Mulligan,Tammy M Lundblad,Yolanda F Otero,Owen P Mcguinness

doi:10.1371/journal.pone.0086164

Sheng-Song Chen, Phillip E Williams + Show 4 more

Open Access

https://doi.org/10.1371/journal.pone.0086164

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Journal: PLoS ONE	Publication Date: Jan 23, 2014
Citations: 2	License type: CC BY 4.0

Affiliation: Vanderbilt University

Abstract

Hyperglycemia in the hospitalized setting is common, especially in patients that receive nutritional support either continuously or intermittently. As the liver and muscle are the major sites of glucose disposal, we hypothesized their metabolic adaptations are sensitive to the pattern of nutrient delivery. Chronically catheterized, well-controlled depancreatized dogs were placed on one of three isocaloric diets: regular chow diet once daily (Chow) or a simple nutrient diet (ND) that was given either once daily (ND-4) or infused continuously (ND-C). Intraportal insulin was infused to maintain euglycemia. After 5 days net hepatic (NHGU) and muscle (MGU) glucose uptake and oxidation were assessed at euglycemia (120 mg/dl) and hyperglycemia (200 mg/dl) in the presence of basal insulin. While hyperglycemia increased both NHGU and MGU in Chow, NHGU was amplified in both groups receiving ND. The increase was associated with enhanced activation of glycogen synthase, glucose oxidation and suppression of pyruvate dehydrogenase kinase-4 (PDK-4). Accelerated glucose-dependent muscle glucose uptake was only evident with ND-C. This was associated with a decrease in PDK-4 expression and an increase in AMP-activated protein kinase (AMPK) phosphorylation. Interestingly, ND-C markedly increased hepatic FGF-21 expression. Thus, augmentation of carbohydrate disposal in the liver, as opposed to the muscle, is not dependent on the pattern of nutrient delivery.

Highlights

In the clinical setting and on the critical care setting, nutrient delivery, administered either via the enteral or parenteral route is commonly used
Hepatic artery (7.462.1, 4.760.7 and 5.260.8 ml?kg21?min21; chow diet once daily (Chow), nutrient diet (ND)-4, ND-C, respectively) and portal vein (23.462.1, 22.662.6 and 21.561.6 ml?kg21?min21) blood flow were not altered by nutrient delivery
Peripheral glucose disposal and muscle uptake were increased in ND-C compared to ND-4 and Chow (Figure 1E, F)

Summary

Introduction

In the clinical setting and on the critical care setting, nutrient delivery, administered either via the enteral or parenteral route is commonly used. This nutritional support often causes hyperglycemia in hospitalized patients even if there is no history of diabetes [1]. We observed the liver adapts to the carbohydrate diet that is infused continuously; it becomes an efficient consumer of glucose, which lowers the overall insulin requirements to sustain whole body glucose disposal, [3,4] This adaptation is independent of the route (enteral or parenteral) of nutrient delivery. Like the liver, the pattern of nutrient availability could alter the muscle’s capacity to metabolize carbohydrate

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