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Horm Metab Res 2010; 42(10): 746-753
DOI: 10.1055/s-0030-1261924
Humans, Clinical

© Georg Thieme Verlag KG Stuttgart · New York

Effects of Acute Psychological Stress on Glucose Metabolism and Subclinical Inflammation in Patients with Post-traumatic Stress Disorder

B. Nowotny1 , M. Cavka2 , C. Herder1 , H. Löffler1 , U. Poschen1 , L. Joksimovic2 , K. Kempf1 , A. W. Krug3 , W. Koenig4 , S. Martin1 , J. Kruse5
  • 1Institute for Clinical Diabetology, German Diabetes Center, Leibniz Center for Diabetes Research at Heinrich-Heine-University, Düsseldorf, Germany
  • 2Clinic for Psychosomatic Medicine and Psychotherapy, Heinrich-Heine University, Düsseldorf, Germany
  • 3Carl Gustav Carus University Hospital, Medical Clinic III, University of Dresden, Dresden, Germany
  • 4Department of Internal Medicine II-Cardiology, University of Ulm Medical Center, Ulm, Germany
  • 5Department for Psychosomatic Medicine and Psychotherapy, Justus-Liebig-University, Giessen, Germany
Further Information

Publication History

received 18.11.2009

accepted 15.06.2010

Publication Date:
27 July 2010 (online)

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Abstract

During acute psychological stress, the hypothalamic-pituitary-adrenal axis and the sympathetic nervous system are activated. The released stress hormones influence glucose metabolism, can activate immune cells, and modulate subclinical inflammation. The aim of our study was to analyze the effect of acute psychological stress on glucose metabolism and the inflammatory status in patients with post-traumatic stress disorder (PTSD). We included 15 overweight male Bosnian war refugees with PTSD into the study (mean age 44±11 years, BMI 29.3±4.3 kg/m2). All subjects underwent an oral glucose tolerance test (OGTT) with either acute stress (trauma script exposure) or a resting period in a cross-over design. Blood was drawn over 2.5 h and metabolic markers were measured. Systemic levels of immune markers were determined using high-sensitive ELISA or bead-based multiplex assay. Immune gene expression was quantified by RT-PCR. After being exposed to acute stress, cortisol levels and heart frequency tended to be increased. Higher blood glucose and insulin levels after stress exposure were observed (p<0.05). Systemic levels of the chemokines interferon-γ-inducible protein-10 and macrophage chemoattractant protein-1 were decreased compared to the control day (both p<0.05) and the expression of the proinflammatory regulator IKKβ was significantly reduced after stress exposure (p<0.001). In conclusion, acute stress induces postprandial blood glucose peaks and elevated insulin levels and a selective decrease of systemic immune markers and the proinflammatory regulator of the NFκB cascade, which are associated with type 2 diabetes. This points towards an independent effect of acute psychological stress on glucose metabolism and inflammation.

Key words

immune marker - psychic stress - metabolism

References

  • 1 Romans S, Belaise C, Martin J, Morris E, Raffi A. Childhood abuse and later medical disorders in women. An epidemiological study.  Psychother Psychosom. 2002;  71 141-150
    Search in Google Scholar
  • 2 Thomas C, Hypponen E, Power C. Obesity and type 2 diabetes risk in midadult life: the role of childhood adversity.  Pediatrics. 2008;  121 e1240-e1249
    Search in Google Scholar
  • 3 O’Toole BI, Catts SV. Trauma, PTSD, and physical health: an epidemiological study of Australian Vietnam veterans.  J Psychosom Res. 2008;  64 33-40
    Search in Google Scholar
  • 4 Boscarino JA. Posttraumatic stress disorder and mortality among U.S. Army veterans 30 years after military service.  Ann Epidemiol. 2006;  16 248-256
    Search in Google Scholar
  • 5 Norberg M, Stenlund H, Lindahl B, Andersson C, Eriksson JW, Weinehall L. Work stress and low emotional support is associated with increased risk of future type 2 diabetes in women.  Diabetes Res Clin Pract. 2007;  76 368-377
    Search in Google Scholar
  • 6 Chida Y, Hamer M. An association of adverse psychosocial factors with diabetes mellitus: a meta-analytic review of longitudinal cohort studies.  Diabetologia. 2008;  51 2168-2178
    Search in Google Scholar
  • 7 Rozanski A, Blumenthal JA, Kaplan J. Impact of psychological factors on the pathogenesis of cardiovascular disease and implications for therapy.  Circulation. 1999;  99 2192-2217
    Search in Google Scholar
  • 8 Rosengren A, Hawken S, Ounpuu S, Sliwa K, Zubaid M, Almahmeed WA, Blackett KN, Sitthi-amorn C, Sato H, Yusuf S. Association of psychosocial risk factors with risk of acute myocardial infarction in 11119 cases and 13648 controls from 52 countries (the INTERHEART study): case-control study.  Lancet. 2004;  364 953-962
    Search in Google Scholar
  • 9 Black PH. Stress and the inflammatory response: a review of neurogenic inflammation.  Brain Behav Immun. 2002;  16 622-653
    Search in Google Scholar
  • 10 Wiesli P, Schmid C, Kerwer O, Nigg-Koch C, Klaghofer R, Seifert B, Spinas GA, Schwegler K. Acute psychological stress affects glucose concentrations in patients with type 1 diabetes following food intake but not in the fasting state.  Diabetes Care. 2005;  28 1910-1915
    Search in Google Scholar
  • 11 Kirschbaum C, Gonzalez BE, Rohleder N, Gessner C, Pirke KM, Salvador A, Hellhammer DH. Effects of fasting and glucose load on free cortisol responses to stress and nicotine.  J Clin Endocrinol Metab. 1997;  82 1101-1105
    Search in Google Scholar
  • 12 Calcagni E, Elenkov I. Stress system activity, innate and T helper cytokines, and susceptibility to immune-related diseases.  Ann N Y Acad Sci. 2006;  1069 62-76
    Search in Google Scholar
  • 13 Hamer M, Stamatakis E. Inflammation as an intermediate pathway in the association between psychosocial stress and obesity.  Physiol Behav. 2008;  94 536-539
    Search in Google Scholar
  • 14 McDade TW, Hawkley LC, Cacioppo JT. Psychosocial and behavioral predictors of inflammation in middle-aged and older adults: the Chicago health, aging, and social relations study.  Psychosom Med. 2006;  68 376-381
    Search in Google Scholar
  • 15 Kiecolt-Glaser JK, Preacher KJ, MacCallum RC, Atkinson C, Malarkey WB, Glaser R. Chronic stress and age-related increases in the proinflammatory cytokine IL-6.  Proc Natl Acad Sci U S A. 2003;  100 9090-9095
    Search in Google Scholar
  • 16 Goebel MU, Mills PJ. Acute psychological stress and exercise and changes in peripheral leukocyte adhesion molecule expression and density.  Psychosom Med. 2000;  62 664-670
    Search in Google Scholar
  • 17 Goebel MU, Mills PJ, Irwin MR, Ziegler MG. Interleukin-6 and tumor necrosis factor-alpha production after acute psychological stress, exercise, and infused isoproterenol: differential effects and pathways.  Psychosom Med. 2000;  62 591-598
    Search in Google Scholar
  • 18 Bierhaus A, Wolf J, Andrassy M, Rohleder N, Humpert PM, Petrov D, Ferstl R, von Eynatten M, Wendt T, Rudofsky G, Joswig M, Morcos M, Schwaninger M, McEwen B, Kirschbaum C, Nawroth PP. A mechanism converting psychosocial stress into mononuclear cell activation.  Proc Natl Acad Sci U S A. 2003;  100 1920-1925
    Search in Google Scholar
  • 19 Barnes PJ, Karin M. Nuclear factor-kappaB: a pivotal transcription factor in chronic inflammatory diseases.  N Engl J Med. 1997;  336 1066-1071
    Search in Google Scholar
  • 20 Kolb H, Mandrup-Poulsen T. An immune origin of type 2 diabetes?.  Diabetologia. 2005;  48 1038-1050
    Search in Google Scholar
  • 21 Arkan MC, Hevener AL, Greten FR, Maeda S, Li ZW, Long JM, Wynshaw-Boris A, Poli G, Olefsky J, Karin M. IKK-beta links inflammation to obesity-induced insulin resistance.  Nat Med. 2005;  11 191-198
    Search in Google Scholar
  • 22 Muller S, Martin S, Koenig W, Hanifi-Moghaddam P, Rathmann W, Haastert B, Giani G, Illig T, Thorand B, Kolb H. Impaired glucose tolerance is associated with increased serum concentrations of interleukin 6 and co-regulated acute-phase proteins but not TNF-alpha or its receptors.  Diabetologia. 2002;  45 805-812
    Search in Google Scholar
  • 23 Herder C, Baumert J, Thorand B, Koenig W, de Jager W, Meisinger C, Illig T, Martin S, Kolb H. Chemokines as risk factors for type 2 diabetes: results from the MONICA/KORA Augsburg study, 1984–2002.  Diabetologia. 2006;  49 921-929
    Search in Google Scholar
  • 24 Levy JC, Matthews DR, Hermans MP. Correct homeostasis model assessment (HOMA) evaluation uses the computer program.  Diabetes Care. 1998;  21 2191-2192
    Search in Google Scholar
  • 25 Herder C, Baumert J, Thorand B, Martin S, Lowel H, Kolb H, Koenig W. Chemokines and incident coronary heart disease: results from the MONICA/KORA Augsburg case-cohort study, 1984–2002.  Arterioscler Thromb Vasc Biol. 2006;  26 2147-2152
    Search in Google Scholar
  • 26 Herder C, Haastert B, Muller-Scholze S, Koenig W, Thorand B, Holle R, Wichmann HE, Scherbaum WA, Martin S, Kolb H. Association of systemic chemokine concentrations with impaired glucose tolerance and type 2 diabetes: results from the Cooperative Health Research in the Region of Augsburg Survey S4 (KORA S4).  Diabetes. 2005;  54 (Suppl2) S11-S17
    Search in Google Scholar
  • 27 Kempf K, Haltern G, Futh R, Herder C, Muller-Scholze S, Gulker H, Martin S. Increased TNF-alpha and decreased TGF-beta expression in peripheral blood leukocytes after acute myocardial infarction.  Horm Metab Res. 2006;  38 346-351
    Search in Google Scholar
  • 28 Moberg E, Kollind M, Lins PE, Adamson U. Acute mental stress impairs insulin sensitivity in IDDM patients.  Diabetologia. 1994;  37 247-251
    Search in Google Scholar
  • 29 Jern S. Effects of acute carbohydrate administration on central and peripheral hemodynamic responses to mental stress.  Hypertension. 1991;  18 790-797
    Search in Google Scholar
  • 30 Wilson SN, van der KB, Burbridge J, Fisler R, Kradin R. Phenotype of blood lymphocytes in PTSD suggests chronic immune activation.  Psychosomatics. 1999;  40 222-225
    Search in Google Scholar
  • 31 Heinz A, Hermann D, Smolka MN, Rieks M, Graf KJ, Pohlau D, Kuhn W, Bauer M. Effects of acute psychological stress on adhesion molecules, interleukins and sex hormones: implications for coronary heart disease.  Psychopharmacology (Berl). 2003;  165 111-117
    Search in Google Scholar
  • 32 Steptoe A, Willemsen G, Owen N, Flower L, Mohamed-Ali V. Acute mental stress elicits delayed increases in circulating inflammatory cytokine levels.  Clin Sci (Lond). 2001;  101 185-192
    Search in Google Scholar
  • 33 Esposito K, Nappo F, Marfella R, Giugliano G, Giugliano F, Ciotola M, Quagliaro L, Ceriello A, Giugliano D. Inflammatory cytokine concentrations are acutely increased by hyperglycemia in humans: role of oxidative stress.  Circulation. 2002;  106 2067-2072
    Search in Google Scholar
  • 34 Stirban A, Negrean M, Gotting C, Stratmann B, Gawlowski T, Mueller-Roesel M, Kleesiek K, Koschinsky T, Tschoepe D. Leptin decreases postprandially in people with type 2 diabetes, an effect reduced by the cooking method.  Horm Metab Res. 2008;  40 896-900
    Search in Google Scholar
  • 35 Kempf K, Rose B, Herder C, Kleophas U, Martin S, Kolb H. Inflammation in metabolic syndrome and type 2 diabetes: Impact of dietary glucose.  Ann N Y Acad Sci. 2006;  1084 30-48
    Search in Google Scholar
  • 36 Haack M, Kraus T, Schuld A, Dalal M, Koethe D, Pollmacher T. Diurnal variations of interleukin-6 plasma levels are confounded by blood drawing procedures.  Psychoneuroendocrinology. 2002;  27 921-931
    Search in Google Scholar
  • 37 Yehuda R. Biology of posttraumatic stress disorder.  J Clin Psychiatry. 2001;  62 (S 17) 41-46
    Search in Google Scholar
  • 38 Rohleder N, Joksimovic L, Wolf JM, Kirschbaum C. Hypocortisolism and increased glucocorticoid sensitivity of pro-Inflammatory cytokine production in Bosnian war refugees with posttraumatic stress disorder.  Biol Psychiatry. 2004;  55 745-751
    Search in Google Scholar
  • 39 Kunz-Ebrecht SR, Mohamed-Ali V, Feldman PJ, Kirschbaum C, Steptoe A. Cortisol responses to mild psychological stress are inversely associated with proinflammatory cytokines.  Brain Behav Immun. 2003;  17 373-383
    Search in Google Scholar
  • 40 Miller AH, Spencer RL, Pearce BD, Pisell TL, Azrieli Y, Tanapat P, Moday H, Rhee R, McEwen BS. Glucocorticoid receptors are differentially expressed in the cells and tissues of the immune system.  Cell Immunol. 1998;  186 45-54
    Search in Google Scholar
  • 41 Elenkov IJ, Chrousos GP. Stress hormones, proinflammatory and antiinflammatory cytokines, and autoimmunity.  Ann N Y Acad Sci. 2002;  966 290-303
    Search in Google Scholar
  • 42 Kudielka BM, Hellhammer DH, Wust S. Why do we respond so differently? Reviewing determinants of human salivary cortisol responses to challenge.  Psychoneuroendocrinology. 2009;  34 2-18
    Search in Google Scholar
  • 43 Schlotz W, Kumsta R, Layes I, Entringer S, Jones A, Wust S. Covariance between psychological and endocrine responses to pharmacological challenge and psychosocial stress: a question of timing.  Psychosom Med. 2008;  70 787-796
    Search in Google Scholar

Correspondence

B. Nowotny

Institute for Clinical

Diabetology

German Diabetes Center

Leibniz Center at

Heinrich-Heine-University

Auf’m Hennekamp 65

40225 Düsseldorf

Germany

Phone: +49/211/3382 575

Fax: +49/211/3382 592

Email: bettina.nowotny@ddz.uni-duesseldorf.de