Metabolic profiling indicates impaired pyruvate dehydrogenase function in myalgic encephalopathy/chronic fatigue syndrome
Øystein Fluge, … , Olav Dahl, Karl J. Tronstad
Øystein Fluge, … , Olav Dahl, Karl J. Tronstad
Published December 22, 2016
Citation Information: JCI Insight. 2016;1(21):e89376. https://doi.org/10.1172/jci.insight.89376.
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Research Article Metabolism

Metabolic profiling indicates impaired pyruvate dehydrogenase function in myalgic encephalopathy/chronic fatigue syndrome

Abstract

Myalgic encephalopathy/chronic fatigue syndrome (ME/CFS) is a debilitating disease of unknown etiology, with hallmark symptoms including postexertional malaise and poor recovery. Metabolic dysfunction is a plausible contributing factor. We hypothesized that changes in serum amino acids may disclose specific defects in energy metabolism in ME/CFS. Analysis in 200 ME/CFS patients and 102 healthy individuals showed a specific reduction of amino acids that fuel oxidative metabolism via the TCA cycle, mainly in female ME/CFS patients. Serum 3-methylhistidine, a marker of endogenous protein catabolism, was significantly increased in male patients. The amino acid pattern suggested functional impairment of pyruvate dehydrogenase (PDH), supported by increased mRNA expression of the inhibitory PDH kinases 1, 2, and 4; sirtuin 4; and PPARδ in peripheral blood mononuclear cells from both sexes. Myoblasts grown in presence of serum from patients with severe ME/CFS showed metabolic adaptations, including increased mitochondrial respiration and excessive lactate secretion. The amino acid changes could not be explained by symptom severity, disease duration, age, BMI, or physical activity level among patients. These findings are in agreement with the clinical disease presentation of ME/CFS, with inadequate ATP generation by oxidative phosphorylation and excessive lactate generation upon exertion.

Authors

Øystein Fluge, Olav Mella, Ove Bruland, Kristin Risa, Sissel E. Dyrstad, Kine Alme, Ingrid G. Rekeland, Dipak Sapkota, Gro V. Røsland, Alexander Fosså, Irini Ktoridou-Valen, Sigrid Lunde, Kari Sørland, Katarina Lien, Ingrid Herder, Hanne Thürmer, Merete E. Gotaas, Katarzyna A. Baranowska, Louis M.L.J. Bohnen, Christoph Schäfer, Adrian McCann, Kristian Sommerfelt, Lars Helgeland, Per M. Ueland, Olav Dahl, Karl J. Tronstad

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Figure 3

Quantitative RT-PCR for mRNA expression levels in peripheral blood mononuclear cells (PBMCs) of ME/CFS patients and healthy controls.

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Quantitative RT-PCR for mRNA expression levels in peripheral blood monon...
mRNA expression levels in PBMCs from 75 nonfasting ME/CFS patients and 43 nonfasting healthy controls, normalized according to coamplified internal β-actin (ACTB) in duplex qRT-PCR and calculated relative to the mean of healthy controls. (A) Pyruvate dehydrogenase kinase 1 (PDK1) mRNA in PBMCs from ME/CFS patients and healthy controls. Similar analyses are shown for (B) PDK2, (C) PDK3, (D) PDK4, (E) PPARAα (PPARA), (F) PPARδ (PPARD), (G) pyruvate dehydrogenase E1, subunit α (PDHA), (H) acyl-coenzyme A oxidase 1 (ACOX1), (I) mitochondrial pyruvate carrier 1 (MPC1), (J) MPC2, (K) sirtuin 4 (SIRT4), (L) HIF-1α (HIF1A), (M) PDK1 mRNA in PBMCs of ME/CFS patients versus sex, (N) PDK1 mRNA in PBMCs versus ME/CFS severity, (O) PDK1 mRNA in PBMCs versus ME/CFS duration, and (P) PDK1 mRNA in PBMCs versus steps (mean) per 24 hours in ME/CFS patients. P values were from Mann-Whitney U test for independent samples (AN and P) and from Kruskal-Wallis test (O). Error bars indicate median with 95% CI. All samples in a qRT-PCR assay were run in triplicate on the same plate. Of 75 samples from patients and 43 from healthy controls, two samples for PDK1 and four samples for PDK4 were excluded due to unsuccessful amplification. For SIRT4, due to a low expression level, 11 samples from ME/CFS patients and 5 samples from healthy controls were excluded due to high SD (≥30%) among triplicates (see the Methods). Sensewear bracelet data for physical activity for 7 consecutive days were available from 62 of the 75 patients.