Skip to main content
Hauptrubriken
CME Facharzt-Training Webinare Zeitschriften Bücher e.Medpedia Podcast
Service
Jobbörse Info & Hilfe
Fachgebiete
Anästhesiologie Allgemeinmedizin Arbeitsmedizin Augenheilkunde Chirurgie Dermatologie Gynäkologie und Geburtshilfe HNO Innere Medizin Kardiologie Neurologie Onkologie und Hämatologie Orthopädie und Unfallchirurgie Pädiatrie Pathologie Psychiatrie Radiologie Rechtsmedizin Urologie Zahnmedizin
Themen
Klimawandel und Gesundheit Neues aus dem Markt COVID-19 Praxis und Beruf Seltene Erkrankungen GOÄ & EBM Panorama
Sammlungen
Kasuistiken Algorithmen & Infografiken Blickdiagnosen Arthropedia FlapFinder (für Dermatochirurgen) Videos Kongressberichterstattung Medizin für Apothekerinnen und Apotheker Für Ärztinnen und Ärzte in Weiterbildung Für Medizinstudierende
Erweiterte Suche
Anmelden
nach oben
Journal of Inherited Metabolic Disease
Erschienen in: Journal of Inherited Metabolic Disease 1/2016

01.01.2016 | Original Article

Myocardial glucose uptake in patients with the m.3243A > G mutation in mitochondrial DNA

verfasst von: Markus M. Lindroos, Jussi P. Pärkkä, Markku T. Taittonen, Patricia Iozzo, Mikko Kärppä, Ilmo E. Hassinen, Juhani Knuuti, Pirjo Nuutila, Kari Majamaa

Erschienen in: Journal of Inherited Metabolic Disease | Ausgabe 1/2016

Einloggen, um Zugang zu erhalten

Abstract

Mitochondrial mutations impair glucose oxidation and increase glucose uptake in cell cultures and lead to cardiomyopathy in patients. Here we characterize cardiac glucose uptake in 14 patients with the m.3243A > G mutation in mitochondrial DNA. The 14 patients with m.3243A > G and 13 controls were similar in age, physical activity and body mass index. Ten patients had diabetes. Left ventricular glucose uptake per tissue mass (LVGU) was measured with 2-[18 F]fluoro-2-deoxyglucose positron emission tomography during euglycemic hyperinsulinemia. Cardiac morphology and function were assessed with magnetic resonance imaging. We found that the LVGU was 25 % lower in the patients than that in the controls (P = 0.029). LVGU was inversely correlated with mutation heteroplasmy, glycated haemoglobin and fasting lactate in patients. The seven patients with mutation heteroplasmy ≥ 49 % had 44 % lower LVGU than the seven patients with heteroplasmy < 49 %. This difference remained significant after adjustment for concurrent free fatty acid concentration or glycated haemoglobin or glucose uptake in skeletal muscle or all (p < 0.048 [All]). Patients with m.3243A > G had a lower stroke volume and a higher heart rate than the controls, whereas cardiac output and work were similar. Myocardial glucose uptake is not increased but decreased with a threshold effect pattern in patients with the m.3243A > G mutation. The glucose hypometabolism adds to the impaired cardiac energetics and likely contributes to the progression of the mitochondrial cardiomyopathy.
Literatur
Ahola-Erkkilä S, Carroll CJ, Peltola-Mjösund K et al (2010) Ketogenic diet slows down mitochondrial myopathy progression in mice. Hum Mol Genet 19:1974–1984PubMedCrossRef
Ala-Rämi A, Ylihautala M, Ingman P, Hassinen IE (2005) Influence of calcium-induced workload transitions and fatty acid supply on myocardial substrate selection. Metabolism 54:410–420PubMedCrossRef
Arakawa K, Kudo T, Ikawa M et al (2010) Abnormal myocardial energy-production state in mitochondrial cardiomyopathy and acute response to L-arginine infusion. C-11 acetate kinetics revealed by positron emission tomography. Circ J 74:2702–2711PubMedCrossRef
de Andrade PB, Rubi B, Frigerio F, van den Ouweland JM, Maassen JA, Maechler P (2006) Diabetes-associated mitochondrial DNA mutation A3243G impairs cellular metabolic pathways necessary for beta cell function. Diabetologia 49:1816–1826PubMedCrossRef
Ferrannini E, Santoro D, Bonadonna R, Natali A, Parodi O, Camici PG (1993) Metabolic and hemodynamic effects of insulin on human hearts. Am J Physiol 264:E308–315PubMed
Ferrannini E, Gastaldelli A, Miyazaki Y, Matsuda M, Mari A, DeFronzo RA (2005) Beta-cell function in subjects spanning the range from normal glucose tolerance to overt diabetes: a new analysis. J Clin Endocrinol Metab 90:493–500PubMedCrossRef
Frederiksen AL, Jeppesen TD, Vissing J et al (2009) High prevalence of impaired glucose homeostasis and myopathy in asymptomatic and oligosymptomatic 3243A > G mitochondrial DNA mutation-positive subjects. J Clin Endocrinol Metab 94:2872–2879PubMedCrossRef
Hällsten K, Virtanen KA, Lönnqvist F et al (2004) Enhancement of insulin-stimulated myocardial glucose uptake in patients with type 2 diabetes treated with rosiglitazone. Diabet Med 21:1280–1287PubMedCrossRef
Iozzo P, Chareonthaitawee P, Di Terlizzi M, Betteridge DJ, Ferrannini E, Camici PG (2002) Regional myocardial blood flow and glucose utilization during fasting and physiological hyperinsulinemia in humans. Am J Physiol Endocrinol Metab 282:E1163–1171PubMedCrossRef
Jeppesen TD, Schwartz M, Frederiksen AL, Wibrand F, Olsen DB, Vissing J (2006) Muscle phenotype and mutation load in 51 persons with the 3243A > G mitochondrial DNA mutation. Arch Neurol 63:1701–1706PubMedCrossRef
Kirino Y, Yasukawa T, Ohta S et al (2004) Codon-specific translational defect caused by a wobble modification deficiency in mutant tRNA from a human mitochondrial disease. Proc Natl Acad Sci U S A 101:15070–15075PubMedPubMedCentralCrossRef
Knuuti MJ, Mäki M, Yki-Järvinen H et al (1995) The effect of insulin and FFA on myocardial glucose uptake 1 463. J Mol Cell Cardiol 27:1359–1367PubMedCrossRef
Koskenvuo JW, Karra H, Lehtinen J et al (2007) Cardiac MRI: accuracy of simultaneous measurement of left and right ventricular parameters using three different sequences. Clin Physiol Funct Imaging 27:385–393PubMedCrossRef
Lindroos MM, Majamaa K, Tura A et al (2009) The m.3243A > G mutation in mitochondrial DNA leads to decreased insulin sensitivity in skeletal muscle and to progressive beta-cell dysfunction. Diabetes 58:543–549PubMedPubMedCentralCrossRef
Lodi R, Rajagopalan B, Blamire AM, Crilley JG, Styles P, Chinnery PF (2004) Abnormal cardiac energetics in patients carrying the A3243G mtDNA mutation measured in vivo using phosphorus MR spectroscopy. Biochim Biophys Acta 1657:146–150PubMedCrossRef
Luiken JJ, Coort SL, Koonen DP et al (2004) Regulation of cardiac long-chain fatty acid and glucose uptake by translocation of substrate transporters. Pflugers Arch 448:1–15PubMedCrossRef
Maddison R, Mhurchu CN, Jiang Y et al (2007) International physical activity questionnaire (IPAQ) and New Zealand physical activity questionnaire (NZPAQ): a doubly labelled water validation. Int J Behav Nutr Phys Act 4:62PubMedPubMedCentralCrossRef
Majamaa-Voltti K, Peuhkurinen K, Kortelainen ML, Hassinen IE, Majamaa K (2002) Cardiac abnormalities in patients with mitochondrial DNA mutation 3243A > G. BMC Cardiovasc Disord 2:12PubMedPubMedCentralCrossRef
Majamaa-Voltti K, Turkka J, Kortelainen ML, Huikuri H, Majamaa K (2008) Causes of death in pedigrees with the 3243A > G mutation in mitochondrial DNA. J Neurol Neurosurg Psychiatry 79:209–211PubMedCrossRef
Montessuit C, Lerch R (2013) Regulation and dysregulation of glucose transport in cardiomyocytes. Biochim Biophys Acta 1833:848–856PubMedCrossRef
Ng CK, Soufer R, McNulty PH (1998) Effect of hyperinsulinemia on myocardial fluorine-18-FDG uptake. J Nucl Med 39:379–383PubMed
Nuutila P, Koivisto VA, Knuuti J et al (1992) Glucose-free fatty acid cycle operates in human heart and skeletal muscle in vivo. J Clin Invest 89:1767–1774PubMedPubMedCentralCrossRef
Nuutila P, Mäki M, Laine H (1995) Insulin action on heart and skeletal muscle glucose uptake in essential hypertension. J Clin Invest 96:1003–1009PubMedPubMedCentralCrossRef
Peltoniemi P, Lönnroth P, Laine H (2000) Lumped constant for [(18)F]fluorodeoxyglucose in skeletal muscles of obese and nonobese humans. Am J Physiol Endocrinol Metab 279:E1122–1130PubMed
Randle PJ, Garland PB, Hales CN, Newsholme EA (1963) The glucose fatty-acid cycle. Its role in insulin sensitivity and the metabolic disturbances of diabetes mellitus. Lancet 1:785–789PubMedCrossRef
Rijzewijk LJ, van der Meer RW, Lamb HJ et al (2009) Altered myocardial substrate metabolism and decreased diastolic function in nonischemic human diabetic cardiomyopathy: studies with cardiac positron emission tomography and magnetic resonance imaging. J Am Coll Cardiol 54:1524–1532PubMedCrossRef
Stanley WC, Recchia FA, Lopaschuk GD (2005) Myocardial substrate metabolism in the normal and failing heart. Physiol Rev 85:1093–1129PubMedCrossRef
Sutinen J, Yki-Järvinen H (2007) Increased resting energy expenditure, fat oxidation, and food intake in patients with highly active antiretroviral therapy-associated lipodystrophy. Am J Physiol Endocrinol Metab 292:E687–692PubMedCrossRef
Takala TO, Nuutila P, Knuuti J, Luotolahti M, Yki-Järvinen H (1999) Insulin action on heart and skeletal muscle glucose uptake in weight lifters and endurance athletes. Am J Physiol 276:E706–711PubMed
Uusimaa J, Moilanen JS, Vainionpää L et al (2007) Prevalence, segregation, and phenotype of the mitochondrial DNA 3243A > G mutation in children. Ann Neurol 62:278–287PubMedCrossRef
Veech RL (2004) The therapeutic implications of ketone bodies: the effects of ketone bodies in pathological conditions: ketosis, ketogenic diet, redox states, insulin resistance, and mitochondrial metabolism. Prostaglandins Leukot Essent Fat Acids 70:309–319CrossRef
Zorzano A, Balon TW, Brady LJ et al (1985) Effects of starvation and exercise on concentrations of citrate, hexose phosphates and glycogen in skeletal muscle and heart. Evidence for selective operation of the glucose-fatty acid cycle. Biochem J 232:585–591PubMedPubMedCentralCrossRef
Metadaten
Titel
Myocardial glucose uptake in patients with the m.3243A > G mutation in mitochondrial DNA
verfasst von
Markus M. Lindroos
Jussi P. Pärkkä
Markku T. Taittonen
Patricia Iozzo
Mikko Kärppä
Ilmo E. Hassinen
Juhani Knuuti
Pirjo Nuutila
Kari Majamaa
Publikationsdatum
01.01.2016
Verlag
Springer Netherlands
Erschienen in
Journal of Inherited Metabolic Disease / Ausgabe 1/2016
Print ISSN: 0141-8955
Elektronische ISSN: 1573-2665
DOI
https://doi.org/10.1007/s10545-015-9865-1

Weitere Artikel der Ausgabe 1/2016

Journal of Inherited Metabolic Disease 1/2016 Zur Ausgabe

Original Article

Increased mitochondrial ATP production capacity in brain of healthy mice and a mouse model of isolated complex I deficiency after isoflurane anesthesia

Original Article

Clinical pattern, mutations and in vitro residual activity in 33 patients with severe 5, 10 methylenetetrahydrofolate reductase (MTHFR) deficiency

Erratum

Erratum to: Barth syndrome without tetralinoleoyl cardiolipin deficiency: a possible ameliorated phenotype

Editorial

Peer review fraud—it’s not big and it’s not clever

Original Article

Child and family experiences with inborn errors of metabolism: a qualitative interview study with representatives of patient groups

Original Article

Mitochondrial trifunctional protein deficiency in human cultured fibroblasts: effects of bezafibrate

Leitlinien kompakt für die Innere Medizin

Mit medbee Pocketcards sicher entscheiden.

Seit 2022 gehört die medbee GmbH zum Springer Medizin Verlag

Kostenlos registrieren

Neu im Fachgebiet Innere Medizin

25.04.2024 | Nierenkarzinom | Nachrichten

Adjuvante Immuntherapie verlängert Leben bei RCC

25.04.2024 | NSCLC | Nachrichten

Alectinib verbessert krankheitsfreies Überleben bei ALK-positivem NSCLC

24.04.2024 | DGIM 2024 | Kongressbericht | Nachrichten

Metformin rückt in den Hintergrund

24.04.2024 | DGIM 2024 | Kongressbericht | Nachrichten

Myokarditis nach Infekt – richtig schwierig wird es bei Profisportlern
weitere anzeigen

Update Innere Medizin

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen
Bildnachweise