Modulation of stress by imidazoline binding sites: Implications for psychiatric disorders

In this review, we present evidence for the involvement of imidazoline binding sites (IBS) in modulating responses to stress, through central control of monoaminergic and hypothalamo–pituitary–adrenal (HPA) axis activity. Pharmacological and physiological evidence is presented for differential effects of different IBS subtypes on serotoninergic and catecholaminergic pathways involved in control of basal and stress-stimulated HPA axis activity. IBS ligands can modulate behavioural and neuroendocrine responses in animal models of stress, depression and anxiety, and a body of evidence exists for alterations in central IBS expression in psychiatric patients, which can be normalised partially or fully by treatment with antidepressants. Dysfunction in monoaminergic systems and the HPA axis under basal and stress-induced activation has been extensively reported in psychiatric illnesses. On the basis of the literature, we suggest a potential therapeutic role for selective IBS ligands in the treatment of depression and anxiety disorders.

[1]  B. McEwen 213. Protective and damaging effects of mediators of stress and adaptation: Central role of the brain , 2011, Brain, Behavior, and Immunity.

[2]  J. Herman,et al.  Dissociation of ACTH and glucocorticoids , 2008, Trends in Endocrinology & Metabolism.

[3]  F. Thomson,et al.  Innovative Approaches for the Treatment of Depression: Targeting the HPA Axis , 2008, Neurochemical Research.

[4]  Lin He,et al.  Meta‐study on association between the monoamine oxidase A gene (MAOA) and schizophrenia , 2008, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[5]  L. Callado,et al.  Specific binding of [3H]Ro 19-6327 (lazabemide) to monoamine oxidase B is increased in frontal cortex of suicide victims after controlling for age at death , 2008, European Neuropsychopharmacology.

[6]  F. Holsboer,et al.  CRH-sub-1 receptor antagonists for the treatment of depression and anxiety. , 2007, Experimental and clinical psychopharmacology.

[7]  Lie Gao,et al.  Sympathoexcitation of moxonidine in the caudal ventrolateral medulla is dependent on I1-imidazoline receptors in anesthetized rats , 2007, Neuroscience Letters.

[8]  D. Nutt,et al.  The effect of 1-(4,5-dihydro-1H-imidazol-2-yl) isoquinoline on monoamine release and turnover in the rat frontal cortex , 2007, Neuroscience Letters.

[9]  B. McEwen Physiology and neurobiology of stress and adaptation: central role of the brain. , 2007, Physiological reviews.

[10]  H. Engeland,et al.  The Diurnal Cortisol Cycle in Delinquent Male Adolescents and Normal Controls , 2007, Neuropsychopharmacology.

[11]  A. Rodrigues,et al.  Evidence for imidazoline receptors involvement in the agmatine antidepressant-like effect in the forced swimming test. , 2007, European journal of pharmacology.

[12]  L. Grassi,et al.  Mental adaptation to cancer: depression and blood platelet monoamine oxidase activity in breast cancer patients. , 2007, Anticancer research.

[13]  H. Westenberg,et al.  Enhanced cortisol suppression in response to dexamethasone administration in traumatized veterans with and without posttraumatic stress disorder , 2007, Psychoneuroendocrinology.

[14]  P. Ernsberger,et al.  Identification of IRAS/Nischarin as an I1‐imidazoline receptor in PC12 rat pheochromocytoma cells , 2007, Journal of neurochemistry.

[15]  E. Robinson,et al.  In vitro and in vivo effect of BU99006 (5-isothiocyanato-2-benzofuranyl-2-imidazoline) on I2 binding in relation to MAO: Evidence for two distinct I2 binding sites , 2007, Neuropharmacology.

[16]  G. Holstein,et al.  Distribution and cellular localization of imidazoleacetic acid-ribotide, an endogenous ligand at imidazol(in)e and adrenergic receptors, in rat brain , 2007, Journal of Chemical Neuroanatomy.

[17]  L. Christiansen,et al.  Candidate Gene Polymorphisms in the Serotonergic Pathway: Influence on Depression Symptomatology in an Elderly Population , 2007, Biological Psychiatry.

[18]  F. Guimarães,et al.  Modulation of stress consequences by hippocampal monoaminergic, glutamatergic and nitrergic neurotransmitter systems , 2007, Stress.

[19]  R. Su,et al.  Anxiolytic effect of agmatine in rats and mice. , 2006, European journal of pharmacology.

[20]  N. Goncharenko,et al.  Neurochemical mechanisms of the dorsal pallidum in the antiaversive effects of anxiolytics in various models of anxiety , 2006, Neuroscience and Behavioral Physiology.

[21]  M. A. Haleem,et al.  Inhibition of restraint-induced neuroendocrine and serotonergic responses by buspirone in rats. , 2006, Pharmacological reports : PR.

[22]  J. Zohar,et al.  Blunted HPA Axis Response to Stress Influences Susceptibility to Posttraumatic Stress Response in Rats , 2006, Biological Psychiatry.

[23]  A. Abdel‐Rahman,et al.  Nischarin as a functional imidazoline (I1) receptor , 2006, FEBS letters.

[24]  K. Lu,et al.  Systemic and Intra-Amygdala Administration of Glucocorticoid Agonist and Antagonist Modulate Extinction of Conditioned Fear , 2006, Neuropsychopharmacology.

[25]  M. Buchsbaum,et al.  Alterations in cortisol negative feedback inhibition as examined using the ACTH response to cortisol administration in PTSD , 2006, Psychoneuroendocrinology.

[26]  A. Nóbrega,et al.  Reduced Hemodynamic Responses to Physical and Mental Stress Under Low-Dose Rilmenidine in Healthy Subjects , 2006, Cardiovascular Drugs and Therapy.

[27]  D. D. de Quervain,et al.  Glucocorticoids reduce phobic fear in humans. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[28]  E. Robinson,et al.  Autoradiographical distribution of imidazoline binding sites in monoamine oxidase A deficient mice , 2006, Journal of neurochemistry.

[29]  J. Gollan,et al.  Developmental psychopathology and neurobiology of aggression , 2005, Development and Psychopathology.

[30]  Dong Xu,et al.  Regulation of p21-activated Kinase-independent Rac1 Signal Transduction by Nischarin* , 2005, Journal of Biological Chemistry.

[31]  S. Tsai,et al.  Association Study of a Monoamine Oxidase A Gene Promoter Polymorphism with Major Depressive Disorder and Antidepressant Response , 2005, Neuropsychopharmacology.

[32]  A. Abdel‐Rahman,et al.  Mitogen-Activated Protein Kinase Phosphorylation in the Rostral Ventrolateral Medulla Plays a Key Role in Imidazoline (I1)-Receptor-Mediated Hypotension , 2005, Journal of Pharmacology and Experimental Therapeutics.

[33]  A. Chait,et al.  Harmane inhibits serotonergic dorsal raphe neurons in the rat , 2005, Psychopharmacology.

[34]  D. Grigoriadis The corticotropin-releasing factor receptor: a novel target for the treatment of depression and anxiety-related disorders , 2005, Expert opinion on therapeutic targets.

[35]  Jerome Kagan,et al.  The Corticotropin-Releasing Hormone Gene and Behavioral Inhibition in Children at Risk for Panic Disorder , 2005, Biological Psychiatry.

[36]  S. Handley,et al.  Autoradiographic localisation of [3H]2-BFI imidazoline I2 binding sites in mouse brain. , 2005, European journal of pharmacology.

[37]  C. Zeni,et al.  Behaviorial inhibition and history of childhood anxiety disorders in Brazilian adult patients with panic disorder and social anxiety disorder , 2005 .

[38]  K. Sugden,et al.  Association analysis of monoamine genes with measures of depression and anxiety in a selected community sample of siblings , 2005, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[39]  C. Broeckhoven,et al.  Corticotropin-releasing factor-binding protein, stress and major depression , 2005, Ageing Research Reviews.

[40]  A. Ghadirian,et al.  A case of seasonal bipolar disorder exacerbated by Cushing's disease. , 2005, Comprehensive psychiatry.

[41]  T. Herraiz,et al.  Human monoamine oxidase is inhibited by tobacco smoke: beta-carboline alkaloids act as potent and reversible inhibitors. , 2005, Biochemical and biophysical research communications.

[42]  E. Robinson,et al.  Harmane and harmalan are bioactive components of classical clonidine-displacing substance. , 2004, Biochemistry.

[43]  I. Rustenbeck,et al.  Glucose dependence of imidazoline-induced insulin secretion: different characteristics of two ATP-Sensitive K+ channel-blocking compounds. , 2004, Diabetes.

[44]  S. E. Gartside,et al.  Moderate differences in circulating corticosterone alter receptor-mediated regulation of 5-hydroxytryptamine neuronal activity , 2004, Journal of psychopharmacology.

[45]  N. Morgan,et al.  The putative imidazoline receptor agonist, harmane, promotes intracellular calcium mobilisation in pancreatic beta-cells. , 2004, European journal of pharmacology.

[46]  G. Baker,et al.  Allosteric modulation of semicarbazide‐sensitive amine oxidase activities in vitro by imidazoline receptor ligands , 2004, British journal of pharmacology.

[47]  P. Ernsberger,et al.  Imidazoleacetic acid-ribotide: an endogenous ligand that stimulates imidazol(in)e receptors. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[48]  C. Dardonville,et al.  Imidazoline binding sites and their ligands: An overview of the different chemical structures , 2004, Medicinal research reviews.

[49]  R. Kerwin,et al.  Four days of citalopram increase suppression of cortisol secretion by prednisolone in healthy volunteers , 2004, Psychopharmacology.

[50]  A. Mitchell,et al.  The I1-imidazoline agonist moxonidine decreases sympathetic tone under physical and mental stress. , 2004, British journal of clinical pharmacology.

[51]  C. Nemeroff,et al.  Importance of Studying the Contributions of Early Adverse Experience to Neurobiological Findings in Depression , 2004, Neuropsychopharmacology.

[52]  B. Roozendaal,et al.  Stress doses of hydrocortisone, traumatic memories, and symptoms of posttraumatic stress disorder in patients after cardiac surgery: a randomized study , 2004, Biological Psychiatry.

[53]  D. Nutt,et al.  Imidazoline2 (I2) Receptor- and α2- Adrenoceptor-Mediated Modulation of Hypothalamic-Pituitary-Adrenal Axis Activity in Control and Acute Restraint Stressed Rats , 2004, Journal of psychopharmacology.

[54]  G. Head,et al.  Sympathetic Responses to Stress and Rilmenidine in 2K1C Rabbits: Evidence of Enhanced Nonvascular Effector Mechanism , 2004, Hypertension.

[55]  H. Anisman,et al.  Dysregulation in the Suicide Brain: mRNA Expression of Corticotropin-Releasing Hormone Receptors and GABAA Receptor Subunits in Frontal Cortical Brain Region , 2004, The Journal of Neuroscience.

[56]  N. Morgan,et al.  Effects of the beta-carbolines, harmane and pinoline, on insulin secretion from isolated human islets of Langerhans. , 2003, European journal of pharmacology.

[57]  D. Malaspina,et al.  Corticotropin-releasing factor in posttraumatic stress disorder (PTSD) with secondary psychotic symptoms, nonpsychotic PTSD, and healthy control subjects , 2003, Biological Psychiatry.

[58]  F. Aricioglu,et al.  Harmane Induces Anxiolysis and Antidepressant‐Like Effects in Rats , 2003, Annals of the New York Academy of Sciences.

[59]  A. Halaris,et al.  Relevance of Imidazoline Receptors and Agmatine to Psychiatry: A Decade of Progress , 2003, Annals of the New York Academy of Sciences.

[60]  M. Chen,et al.  Relationship between Platelet Imidazoline Receptor‐Binding Peptides and Candidate Imidazoline‐1 Receptor, IRAS , 2003, Annals of the New York Academy of Sciences.

[61]  L. Monassier,et al.  I1 Imidazoline Receptors Involved in Cardiovascular Regulation: Where Are We and Where Are We Going? , 2003 .

[62]  S. Alahari Nischarin inhibits Rac induced migration and invasion of epithelial cells by affecting signaling cascades involving PAK. , 2003, Experimental cell research.

[63]  Jiangbei Cao,et al.  Antidepressant-like effect of agmatine and its possible mechanism. , 2003, European journal of pharmacology.

[64]  V. Klimek,et al.  Elevated Concentrations of CRF in the Locus Coeruleus of Depressed Subjects , 2003, Neuropsychopharmacology.

[65]  D. Lavinsky,et al.  Agmatine induces anxiolysis in the elevated plus maze task in adult rats , 2003, Behavioural Brain Research.

[66]  D. Nutt,et al.  Behavioral, neuroendocrine and neurochemical effects of the imidazoline I2 receptor selective ligand BU224 in naive rats and rats exposed to the stress of the forced swim test , 2003, Psychopharmacology.

[67]  G. Jennings,et al.  [Rilmenidine sympatholytic activity preserves mental and orthostatic sympathetic response and epinephrine secretion]. , 2003, Archives des maladies du coeur et des vaisseaux.

[68]  K. J. Parker,et al.  Neuroendocrine aspects of hypercortisolism in major depression , 2003, Hormones and Behavior.

[69]  E. Robinson,et al.  Distribution of [(3)H]BU224, a selective imidazoline I(2) binding site ligand, in rat brain. , 2002, European journal of pharmacology.

[70]  E. Robinson,et al.  5-Isothiocyanato-2-benzofuranyl-2-imidazoline (BU99006) an irreversible imidazoline2 binding site ligand: in vitro and in vivo characterisation in rat brain , 2002, Neuropharmacology.

[71]  D. Nutt,et al.  Imidazoline2 (I2) binding site- and α2-adrenoceptor-mediated modulation of central noradrenergic and HPA axis function in control rats and chronically stressed rats with adjuvant-induced arthritis , 2002, Neuropharmacology.

[72]  G. Lienhard,et al.  Insulin Receptor Substrate 4 Associates with the Protein IRAS* , 2002, The Journal of Biological Chemistry.

[73]  A. Rodrigues,et al.  Agmatine produces antidepressant-like effects in two models of depression in mice , 2002, Neuroreport.

[74]  A. Nasrallah,et al.  Down-regulation of platelet imidazoline-1-binding sites after bupropion treatment. , 2002, The international journal of neuropsychopharmacology.

[75]  P. Ernsberger,et al.  The I1‐imidazoline receptor in PC12 pheochromocytoma cells activates protein kinases C, extracellular signal‐regulated kinase (ERK) and c‐jun N‐terminal kinase (JNK) , 2001, Journal of neurochemistry.

[76]  N. Morgan,et al.  Imidazoline binding sites in the endocrine pancreas: can they fulfil their potential as targets for the development of new insulin secretagogues? , 2001, Current pharmaceutical design.

[77]  J. Pineda,et al.  Stimulatory effect of harmane and other β-carbolines on locus coeruleus neurons in anaesthetized rats , 2001, Neuroscience Letters.

[78]  M. Palkovits,et al.  Stressor specificity of central neuroendocrine responses: implications for stress-related disorders. , 2001, Endocrine reviews.

[79]  V. Koivisto,et al.  Glucose-induced insulin secretion is potentiated by a new imidazoline compound , 2001, Naunyn-Schmiedeberg's Archives of Pharmacology.

[80]  S. Esteban,et al.  The imidazoline receptor ligand 2-(2-benzofuranyl)-2-imidazoline is a dopamine-releasing agent in the rat striatum in vivo , 2001, Neuroscience Letters.

[81]  F. Holsboer,et al.  Cortisol response in the combined dexamethasone/CRH test as predictor of relapse in patients with remitted depression. a prospective study. , 2001, Journal of psychiatric research.

[82]  D. J. Osborne,et al.  Selective imidazoline I2 ligands do not show antidepressant-like activity in the forced swim test in mice , 2001, Journal of psychopharmacology.

[83]  J. Piletz,et al.  Imidazoline receptors: possible involvement in the pathophysiology and treatment of depression , 2001, Human psychopharmacology.

[84]  Jung Weon Lee,et al.  Nischarin, a Novel Protein That Interacts with the Integrin α5 Subunit and Inhibits Cell Migration , 2000, The Journal of cell biology.

[85]  M. P. Dillon,et al.  Isolation of RP-HPLC pure clonidine-displacing substance from NG108-15 cells. , 2000, European journal of pharmacology.

[86]  Florian Holsboer,et al.  The Corticosteroid Receptor Hypothesis of Depression , 2000, Neuropsychopharmacology.

[87]  S. Alexander,et al.  The Effect of the Alpha‐2‐Adrenergic Agonist, Clonidine, on Secretion Patterns and Rates of Adrenocorticotropic Hormone and its Secretagogues in the Horse , 2000, Journal of neuroendocrinology.

[88]  D. Acuña-Castroviejo,et al.  Effect of clonidine on plasma ACTH, cortisol and melatonin in children , 2000, Journal of pineal research.

[89]  R. Glennon,et al.  Binding of β-carbolines and related agents at serotonin (5-HT2 and 5-HT1A), dopamine (D2) and benzodiazepine receptors , 2000 .

[90]  B. Roth,et al.  Imidazoline receptor antisera-selected (IRAS) cDNA: cloning and characterization. , 2000, DNA and cell biology.

[91]  F. Holsboer,et al.  Effects of the high-affinity corticotropin-releasing hormone receptor 1 antagonist R121919 in major depression: the first 20 patients treated. , 2000, Journal of psychiatric research.

[92]  G. Olmos,et al.  Activation of I2‐imidazoline receptors enhances supraspinal morphine analgesia in mice: a model to detect agonist and antagonist activities at these receptors , 2000, British journal of pharmacology.

[93]  D. Reis,et al.  Is agmatine a novel neurotransmitter in brain? , 2000, Trends in pharmacological sciences.

[94]  B. Dubrovsky The specificity of stress responses to different nocuous stimuli: neurosteroids and depression , 2000, Brain Research Bulletin.

[95]  I. Musgrave,et al.  Harmane produces hypotension following microinjection into the RVLM: possible role of I1‐imidazoline receptors , 2000, British journal of pharmacology.

[96]  R. Sapolsky,et al.  How do glucocorticoids influence stress responses? Integrating permissive, suppressive, stimulatory, and preparative actions. , 2000, Endocrine reviews.

[97]  M. Laville,et al.  Effects of rilmenidine on stress-induced peak blood pressure and renal function. , 1999, Journal of cardiovascular pharmacology.

[98]  D. Reis,et al.  Effect of bupropion on immunodensity of putative imidazoline receptors on platelets of depressed patients. , 1999, Journal of psychiatric research.

[99]  D. Nutt,et al.  Novel Selective Compounds for the Investigation of Imidazoline Receptors a , 1999, Annals of the New York Academy of Sciences.

[100]  J. Guimón,et al.  Imidazoline Receptors and Human Brain Disorders a , 1999, Annals of the New York Academy of Sciences.

[101]  F. Artigas,et al.  Imidazoline‐Induced Inhibition of Firing Rate of 5‐HT Neurons in Rat Dorsal Raphe by Modulation of Extracellular 5‐HT Levels a , 1999, Annals of the New York Academy of Sciences.

[102]  G. Olmos,et al.  Pharmacologic and Molecular Discrimination of I2‐Imidazoline Receptor Subtypes a , 1999, Annals of the New York Academy of Sciences.

[103]  C. A. Ramsden,et al.  Imidazolines and Pancreatic Hormone Secretion a , 1999, Annals of the New York Academy of Sciences.

[104]  K. Kendler,et al.  Causal relationship between stressful life events and the onset of major depression. , 1999, The American journal of psychiatry.

[105]  E. Golanov,et al.  A role for KATP +-channels in mediating the elevations of cerebral blood flow and arterial pressure by hypoxic stimulation of oxygen-sensitive neurons of rostral ventrolateral medulla , 1999, Brain Research.

[106]  O. Wolkowitz,et al.  Antiglucocorticoid treatment of depression: double-blind ketoconazole , 1999, Biological Psychiatry.

[107]  S. West,et al.  Serial CSF corticotropin-releasing hormone levels and adrenocortical activity in combat veterans with posttraumatic stress disorder. , 1999, The American journal of psychiatry.

[108]  R. Martı́n-Ruiz,et al.  Stimulation of locus coeruleus neurons by non‐I1/I2‐type imidazoline receptors: an in vivo and in vitro electrophysiological study , 1998, British journal of pharmacology.

[109]  P. Ernsberger Arachidonic acid release from PC12 pheochromocytoma cells is regulated by I1-imidazoline receptors. , 1998, Journal of the autonomic nervous system.

[110]  S. Burke,et al.  Effect of rilmenidine on the cadiovascular responses to stress in the conscious rabbit. , 1998, Journal of the autonomic nervous system.

[111]  G. Tunnicliff,et al.  Pharmacology and function of imidazole 4-acetic acid in brain. , 1998, General pharmacology.

[112]  M. P. Dillon,et al.  'Seeing through a glass darkly': casting light on imidazoline 'I' sites. , 1998, Trends in pharmacological sciences.

[113]  D. Nutt,et al.  Characterisation and localisation of [3H]2-(2-benzofuranyl)-2-imidazoline binding in rat brain: a selective ligand for imidazoline I2 receptors. , 1998, European journal of pharmacology.

[114]  A. Armario,et al.  Anterior pituitary response to stress : time-related changes and adaptation , 1998, International Journal of Developmental Neuroscience.

[115]  T. Dinan,et al.  Vasopressin and the regulation of hypothalamic-pituitary-adrenal axis function: implications for the pathophysiology of depression. , 1998, Life sciences.

[116]  D. Reis,et al.  Co-detection by two imidazoline receptor protein antisera of a novel 85 kilodalton protein. , 1998, Biochemical pharmacology.

[117]  T. Suda,et al.  Serotonin stimulates corticotropin-releasing factor gene expression in the hypothalamic paraventricular nucleus of conscious rats , 1998, Neuroscience Letters.

[118]  J. Kelly,et al.  Forced Swim Test-Induced Neurochemical, Endocrine, and Immune Changes in the Rat , 1997, Pharmacology Biochemistry and Behavior.

[119]  P. Ernsberger,et al.  The I1-imidazoline-binding site is a functional receptor mediating vasodepression via the ventral medulla. , 1997, American journal of physiology. Regulatory, integrative and comparative physiology.

[120]  D. Reis,et al.  The imidazoline receptor in control of blood pressure by clonidine and allied drugs. , 1997, American journal of physiology. Regulatory, integrative and comparative physiology.

[121]  J. Piletz,et al.  Chronic imipramine treatment downregulates IR1-imidazoline receptors in rat brainstem. , 1997, Life sciences.

[122]  G. Molderings,et al.  Presynaptic imidazoline receptors and non‐adrenoceptor[3H]‐idazoxan binding sites in human cardiovascular tissues , 1997, British journal of pharmacology.

[123]  Á. Díaz,et al.  BU-224 produces spinal antinociception as an agonist at imidazoline I2 receptors. , 1997, European journal of pharmacology.

[124]  G. Chrousos,et al.  Chronic imipramine is associated with diminished hypothalamic-pituitary-adrenal axis responsivity in healthy humans. , 1997, The Journal of clinical endocrinology and metabolism.

[125]  N. Morgan,et al.  Insulin Secretagogues with an Imidazoline Structure Inhibit Arginine-Induced Glucagon Secretion from Isolated Rat Islets of Langerhans , 1997 .

[126]  K. Kendler,et al.  Stressful life events and genetic liability to major depression: genetic control of exposure to the environment? , 1997, Psychological Medicine.

[127]  S. Southwick,et al.  Elevated CSF corticotropin-releasing factor concentrations in posttraumatic stress disorder. , 1997, The American journal of psychiatry.

[128]  T. Mammoto,et al.  The involvement of pertussis toxin‐sensitive G proteins in the post receptor mechanism of central I1‐imidazoline receptors , 1997, British journal of pharmacology.

[129]  F. Holsboer,et al.  Corticosteroid receptor function is decreased in depressed patients. , 1997, Neuroendocrinology.

[130]  A. Hudson,et al.  Noradrenergic mechanisms in the prefrontal cortex , 1997, Journal of psychopharmacology.

[131]  P. Ernsberger,et al.  Activation of phosphatidylcholine-selective phospholipase C by I1-imidazoline receptors in PC12 cells and rostral ventrolateral medulla , 1997, Brain Research.

[132]  D. Nutt,et al.  Identification of ligands selective for central I2-imidazoline binding sites , 1997, Neurochemistry International.

[133]  G. Nowak,et al.  Chronic imipramine treatment upregulates IR2-imidazoline receptive sites in rat brain , 1997, Neurochemistry International.

[134]  M. Goiny,et al.  Modulation of catecholamine release by α 2-adrenoceptors and I1-imidazoline receptors in rat brain , 1997, Brain Research.

[135]  L. Ugedo,et al.  The stimulatory effect of clonidine on locus coeruleus neurons of rats with inactivated α2-adrenoceptors: involvement of imidazoline receptors located in the nucleus paragigantocellularis , 1997, Naunyn-Schmiedeberg's Archives of Pharmacology.

[136]  R. D. Myers,et al.  Action of harman (1-methyl-β-carboline) on the brain: Body temperature and in vivo efflux of 5-HT from hippocampus of the rat , 1996, Neuropharmacology.

[137]  D. Reis,et al.  Immunodetection and quantitation of imidazoline receptor proteins in platelets of patients with major depression and in brains of suicide victims. , 1996, Archives of general psychiatry.

[138]  R. Rubin,et al.  Adrenal gland volume in major depression: Relationship to basal and stimulated pituitary-adrenal cortical axis function , 1996, Biological Psychiatry.

[139]  H. Meltzer,et al.  Alterations in phosphoinositide signaling and G-protein levels in depressed suicide brain , 1996, Brain Research.

[140]  J. Piletz,et al.  Platelet I1-imidazoline binding sites are decreased by two dissimilar antidepressant agents in depressed patients. , 1996, Journal of psychiatric research.

[141]  J. Piletz,et al.  Platelet I1-imidazoline binding sites are elevated in depression but not generalized anxiety disorder. , 1996, Journal of psychiatric research.

[142]  C. Nemeroff,et al.  Cerebrospinal fluid corticotropin-releasing factor concentrations in patients with anxiety disorders and normal comparison subjects , 1996, Biological Psychiatry.

[143]  P. Ernsberger,et al.  Coupling of I1-imidazoline receptors to diacylglyceride accumulation in PC12 rat pheochromocytoma cells. , 1996, Molecular pharmacology.

[144]  D. Saphier,et al.  Differential inhibition of stress-induced adrenocortical responses by 5-HT1A agonists and by 5-HT2 and 5-HT3 antagonists , 1995, Psychoneuroendocrinology.

[145]  A. Parini,et al.  Imidazoline/Guanidinium Binding Domains on Monoamine Oxidases , 1995, The Journal of Biological Chemistry.

[146]  M. Spedding,et al.  RS‐45041‐190: a selective, high‐affinity ligand for I2 imidazoline receptors , 1995, British journal of pharmacology.

[147]  A. MacKinnon,et al.  [3H]‐RS‐45041‐190: a selective high‐affinity radioligand for I2 imidazoline receptors , 1995, British journal of pharmacology.

[148]  G. D. Prell,et al.  Imidazoleacetic Acid, a γ‐Aminobutyric Acid Receptor Agonist, Can Be Formed in Rat Brain by Oxidation of Histamine , 1995, Journal of neurochemistry.

[149]  D. Nutt,et al.  Functional Studies of Specific Imidazoline‐2 Receptor Ligands , 1995, Annals of the New York Academy of Sciences.

[150]  B. Szabo,et al.  Mechanism of Sympathoinhibition by Imidazolines , 1995, Annals of the New York Academy of Sciences.

[151]  K. Fink,et al.  α2‐Adrenoceptor‐Independent Inhibition by Imidazolines and Guanidines of Noradrenaline Release from Peripheral, but Not Central Noradrenergic Neurons , 1995, Annals of the New York Academy of Sciences.

[152]  D. Reis,et al.  Decreased Number and Immunoreactivity of I2‐Imidazoline Receptors in the Frontal Cortex of Suicide Victims fn1 , 1995, Annals of the New York Academy of Sciences.

[153]  Paul Ernsberger,et al.  I1‐Imidazoline Receptors , 1995 .

[154]  F. Tesson,et al.  Localization of I2-Imidazoline Binding Sites on Monoamine Oxidases (*) , 1995, The Journal of Biological Chemistry.

[155]  Andrew L. Gundlach,et al.  Quantitative autoradiographic localization in rat brain of α 2-adrenergic and non-adrenergic I-receptor binding sites labelled by [3H]rilmenidine , 1995, Brain Research.

[156]  D. Filipini,et al.  The psychotropic effects of inhibitors of steroid biosynthesis in depressed patients refractory to treatment , 1995, Biological Psychiatry.

[157]  D. Atlas Identifying clonidine-displacing substance. , 1994, Science.

[158]  W. Young,et al.  Corticotropin-releasing factor mRNA increases in the inferior olivary complex during harmaline-induced tremor , 1994, Brain Research.

[159]  D. Saphier,et al.  Central stimulation of adrenocortical secretion by 5-hydroxytryptamine1A agonists is mediated by sympathomedullary activation. , 1994, The Journal of pharmacology and experimental therapeutics.

[160]  D. Saphier,et al.  Central and peripheral mechanisms in the stimulation of adrenocortical secretion by the 5-hydroxytryptamine2 agonist, (+-)-1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane. , 1994, The Journal of pharmacology and experimental therapeutics.

[161]  D. Reis,et al.  Immunodetection of putative imidazoline receptor proteins in the human and rat brain and other tissues , 1994, Neuroscience Letters.

[162]  R. Jope,et al.  Lithium and brain signal transduction systems. , 1994, Biochemical pharmacology.

[163]  J. García-Sevilla,et al.  Stimulatory effects of clonidine, cirazoline and rilmenidine on locus coeruleus noradrenergic neurones: possible involvement of imidazoline-preferring receptors , 1993, Naunyn-Schmiedeberg's Archives of Pharmacology.

[164]  P. Widdowson,et al.  [3H]‐idazoxan binding to rabbit cerebral cortex recognises multiple imidazoline I2‐type receptors: pharmacological characterization and relationship to monoamine oxidase , 1993, British journal of pharmacology.

[165]  M. D. De Bellis,et al.  Association of fluoxetine treatment with reductions in CSF concentrations of corticotropin-releasing hormone and arginine vasopressin in patients with major depression. , 1993, The American journal of psychiatry.

[166]  E. Schoener,et al.  Effects of harmane (1-methyl-β-carboline) on neurons in the nucleus accumbens of the rat , 1993, Pharmacology Biochemistry and Behavior.

[167]  C. Hudson,et al.  CNS signal transduction in the pathophysiology and pharmacotherapy of affective disorders and schizophrenia , 1993, Synapse.

[168]  P. Escribá,et al.  Chronic treatment with the monoamine oxidase inhibitors clorgyline and pargyline down‐regulates non‐adrenoceptor [3H]‐idazoxan binding sites in the rat brain , 1993, British journal of pharmacology.

[169]  A. Malla,et al.  Stressful Life Events and Schizophrenia , 1993, British Journal of Psychiatry.

[170]  C. Nemeroff,et al.  CSF corticotropin-releasing factor is not affected in panic disorder , 1993, Biological Psychiatry.

[171]  C. Nemeroff,et al.  CSF corticotropin-releasing hormone and somatostatin in major depression: response to antidepressant treatment and relapse , 1992, European Neuropsychopharmacology.

[172]  H. Manji G proteins: implications for psychiatry. , 1992, The American journal of psychiatry.

[173]  S. Shelton,et al.  Effects of ß-carboline on fear-related behavioral and neurohormonal responses in infant rhesus monkeys , 1992, Biological Psychiatry.

[174]  P. Cowen,et al.  Alpha-2-adrenoceptor control of cortisol and ACTH in normal volunteers: Preliminary open trial of the effects of acute and chronic idazoxan , 1992, Psychoneuroendocrinology.

[175]  G. Chrousos,et al.  The concepts of stress and stress system disorders. Overview of physical and behavioral homeostasis. , 1992, JAMA.

[176]  D. Reis,et al.  Clonidine-displacing substance from bovine brain binds to imidazoline receptors and releases catecholamines in adrenal chromaffin cells. , 1991, Molecular pharmacology.

[177]  M. Marler,et al.  Desipramine lowers tritiated para-aminoclonidine binding in platelets of depressed patients. , 1991, Archives of general psychiatry.

[178]  H. Anisman,et al.  Stressor-induced anhedonia in the mesocorticolimbic system , 1991, Neuroscience & Biobehavioral Reviews.

[179]  J. Chalmers,et al.  Brainstem and bulbospinal neurotransmitter systems in the control of blood pressure. , 1991, Journal of hypertension.

[180]  K. Krishnan,et al.  Pituitary size in depression. , 1991, The Journal of clinical endocrinology and metabolism.

[181]  E. Neafsey,et al.  Mitochondrial respiratory inhibition by N-methylated beta-carboline derivatives structurally resembling N-methyl-4-phenylpyridine. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[182]  G. Chrousos,et al.  Mechanisms of serotonin receptor agonist-induced activation of the hypothalamic-pituitary-adrenal axis in the rat. , 1990, Endocrinology.

[183]  N. Morgan,et al.  Stimulation of insulin secretion by efaroxan may involve interaction with potassium channels. , 1990, European journal of pharmacology.

[184]  D. Saphier,et al.  Catecholaminergic projections to tuberoinfundibular neurones of the paraventricular nucleus: II. Effects of stimulation of the ventral noradrenergic ascending bundle: Evidence for cotransmission , 1989, Brain Research Bulletin.

[185]  W. P. Chen,et al.  Corticotropin-releasing factor synapses within the paraventricular nucleus of the hypothalamus. , 1989, Neuroendocrinology.

[186]  T. V. Nguyen,et al.  Kinetics of intraventricularly injected trace amines and their deuterated isotopomers , 1988, Neurochemical Research.

[187]  C. Nemeroff,et al.  Reduced corticotropin releasing factor binding sites in the frontal cortex of suicide victims. , 1988, Archives of general psychiatry.

[188]  D. Reis,et al.  Clonidine displacing substance is biologically active on smooth muscle. , 1987, European journal of pharmacology.

[189]  R. Harrison,et al.  Ultrastructural localization of glucocorticoid receptor (GR) in hypothalamic paraventricular neurons synthesizing corticotropin releasing factor (CRF) , 1987, Histochemistry.

[190]  P. Plotsky Facilitation of immunoreactive corticotropin-releasing factor secretion into the hypophysial-portal circulation after activation of catecholaminergic pathways or central norepinephrine injection. , 1987, Endocrinology.

[191]  L. Wynne,et al.  Stressful life events preceding the acute onset of schizophrenia: A cross-national study from the World Health Organization , 1987, Culture, medicine and psychiatry.

[192]  D. Atlas,et al.  An endogenous, non-catecholamine clonidine antagonist increases mean arterial blood pressure. , 1986, European journal of pharmacology.

[193]  J. Scuvée-Moreau,et al.  Pharmacological properties of (N-dicyclopropylmethyl) amino-2-oxazoline (S 3341), an alpha-2 adrenoceptor agonist. , 1985, Journal de pharmacologie.

[194]  J. Schwartz,et al.  Central cardiovascular effects of alpha adrenergic drugs: differences between catecholamines and imidazolines. , 1984, The Journal of pharmacology and experimental therapeutics.

[195]  B. Carroll,et al.  Dexamethasone suppression tests in antidepressant treatment of melancholia. The process of normalization and test-retest reproducibility. , 1983, Archives of general psychiatry.

[196]  G. Brown,et al.  Types of stressful life event and the onset of anxiety and depressive disorders , 1981, Psychological Medicine.

[197]  H. Rommelspacher,et al.  On the neuropharmacology of Harmane and other β-carbolines , 1981, Pharmacology Biochemistry and Behavior.

[198]  A. Dyer,et al.  Epidemiologic Findings on the Relationship of Time of Day and Time Since Last Meal to Glucose Tolerance , 1976, Diabetes.

[199]  K. White,et al.  CHANGES IN ENVIRONMENTAL LIFE EVENTS AND THEIR RELATIONSHIP TO PSYCHIATRIC HOSPITAL ADMISSIONS , 1976, The Journal of nervous and mental disease.

[200]  Carpenter Wt,et al.  Behavioral effects of cortisol in man. , 1971 .

[201]  Crowley Gm THE ENZYMATIC SYNTHESIS OF 5'-PHOSPHORIBOSYLIMIDAZOLEACETIC ACID. , 1964 .

[202]  P. McHugh,et al.  Plasma cortisol in depressive illness. , 1962, Journal of psychiatric research.

[203]  J. F. Fernandes,et al.  Biosynthesis of histamine ribotide and imidazoleacetate ribotide. , 1960, Biochemical and biophysical research communications.

[204]  J. Piletz,et al.  Platelet imidazoline receptors as state marker of depressive symptomatology. , 2008, Journal of psychiatric research.

[205]  H. Westenberg,et al.  Elevated plasma corticotrophin-releasing hormone levels in veterans with posttraumatic stress disorder. , 2008, Progress in brain research.

[206]  C. Zeni,et al.  Behavioral inhibition and history of childhood anxiety disorders in Brazilian adult patients with panic disorder and social anxiety disorder. , 2005, Revista brasileira de psiquiatria.

[207]  L. Monassier,et al.  I(1) imidazoline receptors involved in cardiovascular regulation: where are we and where are we going? , 2003, Annals of the New York Academy of Sciences.

[208]  D. Nutt,et al.  Imidazoline(2) (I(2)) binding site- and alpha(2)-adrenoceptor-mediated modulation of central noradrenergic and HPA axis function in control rats and chronically stressed rats with adjuvant-induced arthritis. , 2002, Neuropharmacology.

[209]  B. Szabo Imidazoline antihypertensive drugs: a critical review on their mechanism of action. , 2002, Pharmacology & therapeutics.

[210]  A. Abdel‐Rahman,et al.  phosphatidylcholine-specific phospholipase C elicits mitogen-activated protein kinase phosphorylation in PC12 cells , 2001 .

[211]  K. Pacak Stressor-specific activation of the hypothalamic-pituitary-adrenocortical axis. , 2000, Physiological research.

[212]  R. Glennon,et al.  Binding of beta-carbolines and related agents at serotonin (5-HT(2) and 5-HT(1A)), dopamine (D(2)) and benzodiazepine receptors. , 2000, Drug and alcohol dependence.

[213]  C. Nemeroff,et al.  The role of corticotropin-releasing factor in depression and anxiety disorders. , 1999, The Journal of endocrinology.

[214]  R. Ramsay,et al.  Inhibition of monoamine oxidase A by beta-carboline derivatives. , 1997, Archives of biochemistry and biophysics.

[215]  R. Ramsay,et al.  Inhibition of Monoamine Oxidase A by β-Carboline Derivatives , 1997 .

[216]  N. Morgan,et al.  Insulin secretagogues with an imidazoline structure inhibit arginine-induced secretion from isolated glucagon secretion from isolated rat islets of Langerhans. , 1997, Biochemical and biophysical research communications.

[217]  A. Parini,et al.  The elusive family of imidazoline binding sites. , 1996, Trends in pharmacological sciences.

[218]  P. Ernsberger,et al.  I1-imidazoline receptors. Definition, characterization, distribution, and transmembrane signaling. , 1995, Annals of the New York Academy of Sciences.

[219]  P. R. King,et al.  Quantitative autoradiographic localization in rat brain of alpha 2-adrenergic and non-adrenergic I-receptor binding sites labelled by [3H]rilmenidine. , 1995, Brain research.

[220]  P. Ernsberger,et al.  Psychopharmacology of imidazoline and alpha 2-adrenergic receptors: implications for depression. , 1994, Critical reviews in neurobiology.

[221]  D. Potter,et al.  Potential role of imidazoline (I1) receptors in modulating aqueous humor dynamics. , 1994, Journal of ocular pharmacology.

[222]  H. Rommelspacher,et al.  Harman (1-methyl-beta-carboline) is a natural inhibitor of monoamine oxidase type A in rats. , 1994, European journal of pharmacology.

[223]  A. Dunn,et al.  Central 5-HT1A receptors inhibit adrenocortical secretion. , 1993, Neuroendocrinology.

[224]  P. Ernsberger,et al.  Moxonidine, a centrally acting antihypertensive agent, is a selective ligand for I1-imidazoline sites. , 1993, The Journal of pharmacology and experimental therapeutics.

[225]  L. Grunhaus,et al.  The DST as a predictor of outcome in depression: a meta-analysis. , 1993, The American journal of psychiatry.

[226]  H. Frerick,et al.  Hypertension : a possible risk in road traffic , 1992 .

[227]  R. Valentino,et al.  Pharmacology of locus coeruleus spontaneous and sensory-evoked activity. , 1991, Progress in brain research.

[228]  M. Baron,et al.  Stressful life events and schizophrenia. Relation to illness onset and family history. , 1984, Neuropsychobiology.

[229]  L. Swanson,et al.  Organization of ovine corticotropin-releasing factor immunoreactive cells and fibers in the rat brain: an immunohistochemical study. , 1983, Neuroendocrinology.

[230]  H. Rommelspacher,et al.  On the neuropharmacology of harmane and other beta-carbolines. , 1981, Pharmacology, biochemistry, and behavior.

[231]  W. Bunney,et al.  Behavioral effects of cortisol in man. , 1971, Seminars in psychiatry.