Stress, stress syndrome = neurohumoral defense reaction

1. Stress • Stress, stress syndrome • = neurohumoral defense reaction • = universal response to different external or internal changes – stressors Definition: The state of threatened homeostasis or dysharmony, that is counteracted by a complex of physiologic and behavioral responses that reestablish homeostasis

2. Stress • Stressor • = factor, any adverse change of outer or inner conditions • physical • chemical • biological • psychosocial • (trauma, surgery, infection, intox., pain, working overload, emotion ...)

3. Stress • ”Common adaptive syndrome” • = Neurohumoral reaction, response to stressor • mechanisms of stress activation

4. Stress and Inflammation • Stress reaction • Generalized reaction • Activation and coordination from CNS (hypothalamus) • Universal (non-specific) character • Inflammation • Primarily local reaction ( generalization) • Reaction of vascularized tissues • Specific response – targeting against initial stimulus

5. Stress and Inflammation

6. Stress reaction - phases • (H. Selye) • Phase Mediators Dominant changes • Alarm catecholamines CNS activation • (GCC, GH, MCC) hypothalamus • cardiovascular effects • glycogenosysis • proteocatabolism • Resistance GCC gluconeogenesis • proteocatabolism • anti-inflammat. effects •  Ly • Na + water retention • Exhaustion GCC energetic depletion • Glc • metabolic acidosis

7. Stress system Neuroendocrine effectors of the stress response

8. hormonal regulation neural regulation PVN CRH Locus coeruleus NE Sympathetic nervous system Pituitary ACTH epinephrine cortisol Preganglional cholinergic fibers stimulation inhibition Stress axes

9. Stress system • Mechanisms of stress activation: • 1. Activation of cerebral cortex • 2. Activation of hypothalamus ( E,  NE) • 3. Neurohumoral response • (sympatho - adrenal axis, pituitary - adrenal axis) • 4. Peripheral actions • (metabolic, cardiovascular, immunological...)

10. Hypothalamus •  epinephrine •  norepinephrine • ( ratio E / NE) •  CRH production in mediobasal centers •  ADH production in preoptical part of hypothalamus •  inhibition of TRH release • activation of sympathetic - adrenal axis

11. Pituitary gland Hypothalamo - hypophyseal axis

12. Pituitary gland •  CRH +  ADH   POMC •  GH •  TRH   TSH T4, T3 •  GnRH   LH • ACTH

13. Pituitary - adrenal axis • CRH  stimulator of POMC in adenohypophysis • ACTH  activation of adrenal cortex • (cortisol,  aldost.) •  role of negative feedback of corticoids

14. Pituitary - adrenal axis

15. Pituitary - adrenal axis POMC and ACTH

16. Fat tissue CNS Adrenal gl. Melanocytes Pituitary - adrenal axis POMC b-lipotropin b-endorphin ACTH a-MSH

17. Pituitary - adrenal axis • Secretion • Ultradian rhythm (short periods, episodic, pulsatile) • Circadian rhythm (24 h periods) • maximal secretion at 8-10 a.m. • minimal secretion at 11 p.m.

18. Adrenal gland • weight 4 - 5 g • Cortex - 80%: steroid hormones • zona glomerulosa - mineralocorticoids • zona fasciculata – glucocorticoids • zona reticularis – adrenal androgens • Perfused centri-petally – gradient of steroidhormones • Medulla - 20% : norepinephrin, epinephrin • Part of the autonomous nervous system

19. Production (mg/d) Basal conc. (ng/ml) MCC activity GCC activity aldosteron 0.05-0.15 0.15 90% deoxycorti-costeron 0.6 0.15 1/15 corticosteron 1-4 2-4 1/50 4% cortizol 8-25 40-180 1/400 95% DHEA 7-15 5 Hormons of adrenal cortex

20. Cortisol secretion control Negative feedback regulation

21. Adrenal glands • Glucocorticoids • - essential for an adequate course of stress reaction • - permissive effect on catecholamine action • - domination in 2nd phase of stress response (st. of resistance) • Effects: • glycids ... gluconeogenesis • proteins ... proteocatabolism (neg. N balance) • lipids • hematopoiesis (Neu, Eos, Ly, Plt) • anti-inflammatory effects ... cytokines, APP • circulatory changes (BP, Na and water retention)

22. Adrenal glands • Glucocorticoids Glucose 1. Gluconeogenesis stimulation in liver (6-10x) 2. Activity of enzymes for AA conversion to Glc 3. Mobilization of AA from tissues (x liver) 4. Elevation of hepatic glycogen 5. Decrease of Glc utilization in cells

23. Adrenal glands • Glucocorticoids Proteins 1. Proteocatabolic effect in all tisues excepting liver 2. Low protein synthesis 3. Low AA transport into cells (muscles, lymphoid t.) 4. Proteoanabolic effect in liver (APP)

24. Adrenal glands • Glucocorticoids Lipids 1. Mobilization of fatty acids from adipose t. 2. High oxidation of fatty acids (low utilization of Glc - energy from fatty acids)

25. Adrenal glands • Glucocorticoids • Anti / inflammatory effects • 1. The release of proteolytic enzymes, histamin, bradykinin • x cortisol - stabilisation lysosomal membrane • 2. Vasodilation in inflammatory tissue • x cortisol - vasoconstrictory effect • 3. High permeability • x cortisol - decreased capillary permeability • 4. Leucocyte infiltration • x cortisol - inhibition of Leu migration • 5. Cortisol - immunosuppresive effect (decrease of T Ly) • 6. APP synthesis

26. Sympathetic - adrenal axis • Hypothalamus •  Medulla oblongata •  Medulla spinalis •  Adrenal medulla + sympathetic ganglia • Metabolic and cardiovascular responses

27. Adrenal medulla Norepinephrine 20% 1.2 - 3.4 nmol/l 5-6 x elevation ... biological effects Epinephrine 80% 0.1 - 0.8 nmol/l 2 x elevation ... biological effects Catecholamine synthesis

28. Adrenal medulla • Catecholamines (adrenomedular system) • rapid activation (sec...min.), rapid degradation • crucial in an initial (alarm) phase of stress response • Effects • cardiovascular (chrono, ino, bathmo, dromo-tropic) CO, BP • metabolic ... hepatic glycogenolysis •  intestinal resorption of glc. •  insulin production • lipolysis, FFA

29. Adrenal medulla • Chromaffine cells = pheochromocytes • Axons of preganglionic sympathetic nerves • Catecholamines: • Norepinephrine … adrenal medulla + CNS + PNS • Epinephrine … adrenal medulla • Dopamine … precursor of NE, adrenal medulla + noradrenergic neurons • Receptors: •  … vasoconstriction, sweating, GIT •  … vasodilatation, GIT, catabolism, bronchodilatation

30. Psycho - social stress • = Emotional activation of stress response • The role of paleocortical region (limbic cortex, neocortical region) • Activating (stressogenic) pathway • nc. amygdalae  mediobasal hypothalamus • Inhibiting (anti-stressogenic) pathway • fornix, gyrus hippocampi  corpora mamillaria of posterior hypothalamus • ... protracted activation of sympathoadrenal + adrenocortical axis • without psychiological benefit • ... risk factor of psycho-somatic disorders

31. Stress and somatic disorders Alterations of the ability to respond to stressors, as for example inadequate, excessive and/or prolonged reactions, may lead to disease. Moreover, excessive and/or chronically imposed stressors may have adverse impact on a variety of physiologic functions, such as growth, reproduction, metabolism and the immunity, as well as on development and behavior. Prenatal life, infancy, childhood and adolescence are critical periods characterized by increased vulnerability to stressors.

32. Stress and somatic disorders

33. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

34. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic syndrome • (Reaven) (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer • (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

35. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic syndrome • (Reaven) (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer • (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

36. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer • (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

37. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer • (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

38. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer • (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

39. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

40. Stress and somatic disorders • Atherosclerosis • Hemoconcentration • Heart ischemic dis. • Myocardial infarction • Stroke • Metabolic (Reaven) syndrome (insulinoresistance, hyperinsulinaemia, hypertension, hyperlipidaemia, hyperurikaemia...) •  sensitivity to infection • Malignancies ? • Gastric ulcer (Cushing ulcer) • Graves-Basedow disease • Psoriasis • ... Psychosomatic medicine

42. Definition of inflammation = The complex system of defense reactions of vascularized tissues against pathogenic stimulus (insult) of different character • The aim of inflammation is: • elimination of a cause, • removal of an irreversibly damaged tissue, • consecutive tissue regeneration or reparation, restoration of impaired both metabolism and function of organs, the return to dynamic balance status • Including other defense actions: coagulation, regeneration, tissue reparation, neurohumoral responses

43. Inflammation local x systemic • Mechanisms of an inflammatory responses • Endothelium • Blood cells (platelets, leukocytes) • Local humoral factors (plasma coagulation system, complement) • Neuro-endocrine systems

44. Endothelium • Key regulator of local / systemic response, • An essential role in defense reaction against pathogens, in perfusion regulation • Key functions: • Anti-thrombogenic potential of blood vessel wall (thrombomodulin, PG I2) • Local regulation of vessel tone (NO, PG I2 ...  smooth muscle of arterioles and venuls) • Regulation role in inflammation (directly by insult or indirectly via inflamm. mediators)

45. Endothelium • Regulatory role during inflammation: • Vasodilation (NO) • Cytokine activation and production •  permeability ( penetration of proteins, antibodies) • Receptor-coordinated migration of leukocytes to perivascular space • Expression of adhesive molecules • Pro-thrombogenic reaction

46. Endothelium Pathogenetic role of endothelium in septico-toxic shock

47. Endothelium • Vasodilatatory and antithrombotic mediators • NO • prostacycline (PGI2 ) • Vasoconstrictive and prothrombotic mediators • endothelin-1 • thromboxan A2 • Levels of the endothelium dysfunction • Stimulation - fast, reversible process - endothelial contraction • Activation (during inflammation) - through (TNF a IL-1), irreversible changes

48. Endothelium • Vasodilatory mediators • anti-thrombotic function • anti-adhesive, anti-aggregation effect to platelets and leukocytes • „protective“ role in relation to endothelium • Vasoconstrictory mediators • pro-thrombotic function • pro-aggregattion, pro-adhesive effects to platelets and leukocytes • “aggresive” role in endothelial dysfunction

49. Endothelium Nitric oxide Reactive radical NO. Product of NO-synthase: L-arginin  L-citruline + NO Non-receptor activity, short half-life, local effects NO. acts in smooth muscle cells to activate soluble guanylate cyclase Activation of soluble guanylate cyclase  cGMP  cytoplasmic Ca2+ relaxation NO-synthase isoenzymes: Constitutive NO-synthase (endothelium, neurons) Inducible NO-syntáza (endothelium, leukocytes) - after cytokine stimulation (IFN-, IL-1, IL-6, TNF), LPS or PAF

50. Endothelium • Nitric oxide • NO. - strong cytotoxic effect depends on reaction with superoxide radical with production of peroxynitrite ONOO-. End-products are OH- radical and nitric acid: • NO. + superoxide  peroxynitrit ONOO- OH- + HNO3 • Dysregulated systemic inflammation - autoaggressive NO overproduction: • cytotoxic effect • systemic vasoparalysis, life-threatening and often refractory to therapy