Glucose supply and glycolysis inhibition shape the clinical fate of Staphylococcus epidermidis–infected preterm newborns
Tik Muk, … , Karoline Aasmul-Olsen, Duc Ninh Nguyen
Tik Muk, … , Karoline Aasmul-Olsen, Duc Ninh Nguyen
Published May 3, 2022
Citation Information: JCI Insight. 2022;7(11):e157234. https://doi.org/10.1172/jci.insight.157234.
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Research Article Infectious disease Inflammation

Glucose supply and glycolysis inhibition shape the clinical fate of Staphylococcus epidermidis–infected preterm newborns

Abstract

Preterm infants are susceptible to bloodstream infection by coagulase-negative staphylococci (CONS) that can lead to sepsis. Glucose-rich parenteral nutrition is commonly used to support the infants’ growth and energy expenditure but may exceed endogenous regulation during infection, causing dysregulated immune response and clinical deterioration. Using a preterm piglet model of neonatal CONS sepsis induced by Staphylococcus epidermidis (S. epidermidis) infection, we demonstrate the delicate interplay between immunity and glucose metabolism to regulate the host infection response. Circulating glucose levels, glycolysis, and inflammatory response to infection are closely connected across the states of tolerance, resistance, and immunoparalysis. Furthermore, high parenteral glucose provision during infection induces hyperglycemia, elevated glycolysis, and inflammation, leading to metabolic acidosis and sepsis, whereas glucose-restricted individuals are clinically unaffected with increased gluconeogenesis to maintain moderate hypoglycemia. Finally, standard glucose supply maintaining normoglycemia or pharmacological glycolysis inhibition enhances bacterial clearance and dampens inflammation but fails to prevent sepsis. Our results uncover how blood glucose and glycolysis control circulating immune responses, in turn determining the clinical fate of preterm infants infected with CONS. Our findings suggest further refinements of the current practice of parenteral glucose supply for preterm infants during infection.

Authors

Tik Muk, Anders Brunse, Nicole L. Henriksen, Karoline Aasmul-Olsen, Duc Ninh Nguyen

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Figure 2

In vivo immunometabolic response to S. epidermidis.

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In vivo immunometabolic response to S. epidermidis. (A) Survival rate, (...
(A) Survival rate, (B) blood glucose, (C) lactate, (D) plasma IL-6, and (E) plasma IL-10 levels of preterm newborn piglets 24 hours after infection with S. epidermidis (106 to 5 × 109 CFU/kg) via the intra-arterial catheter. (F) Gene set enrichment analysis (GSEA) of liver transcriptome from control and S. epidermidis–infected preterm pigs (109 CFU/kg, 12 hours after infection) revealing the top enriched pathways activated and suppressed by infection. Data are presented in a cumulative hazard curve (A) or violin dot plots with median (solid line) and IQR (dotted lines, BE), and analyzed by Mantel-Cox test or linear model followed by Tukey post hoc comparisons. Values at a time point not sharing the same letters are significantly different (P < 0.05). ***P < 0.001, compared with the uninfected control. Transcriptomics was performed by DESeq2 with FDR adjusted by BH correction using α = 0.1 as the threshold. GSEAs were based on DEGs between infected and control groups, and pathways with adjusted (adjust.) P < 0.05 are considered significantly regulated pathways. Gene ratio (from 0 to 1) shows the fraction of the number of enriched genes relative to the total number of genes in the gene set. The size of the circle reflects the number of DEGs enriched in each pathway.