[en] Effects of different psychological stimuli on oxytocin (OT) and vasopressin (AVP) secretion are reviewed in animals and in humans. The secretion of neuropituitary hormones is also discussed in various psychiatric diseases such an anorexia nervosa, bipolar disorder, schizophrenia and obsessive-compulsive disorder. AVP and OT are secreted into the hypophyseal portal circulation by neurons which project from the paraventricular nucleus to the external zone of the median eminence. AVP and OT-containing neurons in the suprachiasmatic and paraventricular nuclei project to limbic areas, including the hippocampus, the subiculum, the ventral nucleus of the amygdala and the nucleus of the diagonal band. Specific AVP receptors which are pharmacologically different from the pressor and antidiuretic AVP receptors have been found in the anterior pituitary. OT receptors have been identified in a variety of forebrain sites. The neurohypophyseal secretion is regulated by the cholinergic muscarinic, histaminergic and beta-adrenergic systems. Stress alters the secretion of one or more of the hypothalamic factors which interact at the pituitary to increase the secretion of ACTH. AVP and OT have been shown to modulate the effect of Corticotropin-Releasing Factor (CRF) on ACTH secretion and appear to play a key role in mediating the ACTH response to stress. Although AVP is a relatively weak secretagogue for ACTH, it markedly potentiates the activity of CRF both in vitro and in vivo. The role of OT is more complex. In vitro, OT stimulates ACTH release at high doses whereas in human it inhibits ACTH secretion at low doses. The type of stressor appear to determine the relative importance of these secretatogues in ACTH response. Several recent studies indicate that psychological stressors display a similar degree of variety of secretagogue release patterns as was found earlier for physical stressors. A bewildering array of technique produces a bewildering array of conclusions. In rats, OT may be an important secretagogue during a novel stimulus, whereas the role for AVP is less clear. Indeed two studies out of ten suggest a stimulating role for AVP. In response to frustration and submission, OT and AVP are secreted. Regarding social isolation, results are difficult to interpret and the role of AVP could be species-dependent. In contrast plasma OT levels do not change. After restraint, ACTH release is primarily mediated by the active increase of OT and AVP does not appear to play a role. When restraint is associated with moderate levels of physical components and during immobilisation, all two secretagogs are involved in the ACTH response. With fear, ACTH response appears to be driven by OT. In humans, one study indicates that high emotionality women increase plasma OT in response to uncontrollable noise. Various neuroendocrine dysregulations have been observed in psychiatric disease. Either an increase or a decrease of the hypothalamic-pituitary-adrenal (HPA) function have been described in several illnesses. Effects of OT appear to be reciprocal to the effects of AVP. OT has been called the "amnestic" neuropeptide due to its capacity to attenuate memory consolidation and retrieval. AVP exhibits a central activating action on mood, memory and selective attention. Underweight patients with anorexia nervosa have abnormally high levels of centrally directed AVP and reduced OT levels. These modifications could enhance the retention of cognitive distortions of aversive consequences of eating. Patients with bipolar disorder show a biphasic secretion of AVP. Depressive episodes are associated with decreased vasopressinergic activity whereas manic episodes involve an increased release. AVP might be responsible for an increased catecholamine activity. In addition, lithium could act as an antagonist to AVP. In schizophrenic patients, studies using the apomorphine stimulation suggest increased oxytoninergic and decreased vasopressinergic functions. These findings are consistent with the beneficial role of AVP on schizophrenic symptoms noted in several trials. The increased OT could be responsible for "positive" symptomatology such as delusions and hallucinations. Obsessive compulsive disorder (OCD) includes a range of cognitive and behavioral disturbances that could be influenced by OT. In animals, several studies have emphasized the role of AVP in promoting repetitive grooming behaviors and maintaining conditioned response to aversive stimuli. In OCD patients, one study have reported that AVP/OT ratio was negatively correlated with symptom severity. However, an independent report found similar AVP concentrations in OC patients without a personal or family history of tic disorder and in normal subjects. Whether these modifications are only a consequence of the central disturbances or whether those peptides could participate in the pathogenesis of these affections remains to be elucidated.
Disciplines :
Psychiatry
Author, co-author :
Scantamburlo, Gabrielle ; Université de Liège - ULiège > Département des sciences cliniques > Département des sciences cliniques
Ansseau, Marc ; Université de Liège - ULiège > Département des sciences cliniques > Psychiatrie et psychologie médicale
Legros, Jean-Jacques ; Université de Liège - ULiège > Département des sciences cliniques > Département des sciences cliniques
Language :
French
Title :
Implication de la neurohypophyse dans le stress psychique
Alternative titles :
[en] Role of the Neurohypophysis in Psychological Stress
Alexander S.L., Irvine C.H.G., Livesey J.H. (1998) Effect of isolation stress on concentrations arginine vasopressin, alpha-melanocyte-stimulating hormone and ACTH in the pituitary venous effluent of the normal horse. J Endocr 116:325-334.
Altemus M., Pigott T., Kalogeras K. (1992) Abnormalities in the regulation of vasopressin and corticotropin releasing factor secretion in obsessive-compulsive disorder. Arch Gen Psychiatry 49:9-20.
Ansseau M., Legros J.J., Cerfontaine J.L. (1987) Intranasal oxytocin in obsessive-compulsive disorder. Psychoneuroendocrinology 12:231-236.
Antoni F.A., Holmes M.C., Jones M.T. (1983) Oxytocin as well as vasopressin potentiate ovine CRF in vitro. Peptides 4:411-415.
Antoni F.A. (1984) Novel ligand specificity of pituitary vasopressin receptors in the rat. Neuroendocrinology 30:186-188.
Antoni F.A. (1986) Oxytocin receptors in rat adenohypophysis: Evidence from radioligand binding studies. Endocrinology 119:2393-2395.
Antoni F.A. (1987) Receptors mediating the CRH effects of vasopressin and oxytocin. Ann NY Acad Sci 512:195-204.
Arletti R., Benelli A., Bertolini A. (1992) Oxytocin involvement in male and female sexual behaviors. Oxytocin in Maternal, Sexual, and Social Behavior , Pedersen CA, Cadwell JD, Jirikowski GF, Insel TR, eds. New York: Annals of the New York Academy of Sciences; 150-193.
Baratti C.M., Faiman C.P., De Erausquin G.A. (1989) Facilitation of inhibitory avoidance by hypertonic saline is reversed by a vasopressin and nicotinic antagonist. Behav Neur Biol 51:424-435.
Bartanusz V., Augry J.M., Steimer T. (1994) Stressor-specific increase of vasopressin mRNA in paraventricular hypophysiotrophic neurons. Neurosci Let 170:35-38.
Barton R. (1965) Diabetes insipidus and obsessional neurosis. A syndrome. Lancet 1:133-135.
Barton R. (1987) Diabetes insipidus and obsessional neurosis. Adv Biochem Psychopharmacol 43:347-349.
Beckmann H., Lang R.E., Gattaz W.F. (1985) Vasopressin and oxytocin in cerebrospinal fluid of schizophrenic patients and normal controls. Psychoneuroendocrinology 10:187-191.
Bergland R.M., Page R.B. (1978) Can the pituitary secrete directly to the brain?. Endocrinology 102:1332-1338.
Berkenbosch F., De Goeij D.C.E., Tilders F.J. (1989) Hypoglycemia enhances turnover of corticotropin-releasing factor and of vasopressin in the zona externa of the rat median eminence. Endocrinology 125:28-34.
Bernardin R., Chiarenza A., Kamilaris T.C. (1994) In vivo and in vitro effects of arginine-vasopressin receptor antagonists on the hypothalamic-pituitary-adrenal axis in the rat. Neuroendocrinology 60:503-508.
Berrettini W., Nurnberger J., Zerbe R. (1987) CSF neuropeptides in euthymic bipolar patients and controls. Br J Psychiatry 150:208-212.
Bohus B., Kovacks G.L., De Weid (1978) Oxytocin, vasopressin and memory: Opposite effects on consolidation and retrieval processes. Brain Res 157:414-417.
Boudarene M., Timsit-Berthier M., Legros J.J. (1997) What is stress?. Rev Med Liège 52:541-549.
Bridges T.E., Hillhouse E.W., Jones M.T. (1976) The effects of dopamine on neurohypophysial hormone release in vivo and from the rat neural lobe and hypothalamus in vitro. J Physiol 260:647-666.
Brown W.A., Ktrieger D.T., Van Woert M.H. (1974) Dissociation of growth hormone and cortisol release following apomorphine. J Clin Endocrinol Metab 38:1127-1129.
Buijs R.M. (1983) Vasopressin and oxytocin: Their contrôle in neurotransmission. Pharmcol Ther 22:127-141.
Burbach J.P.H., Bohus B., Kovacs G.L. (1983) Oxytocin is a precursor of potent behaviorally active neuropeptides. Euro J Pharmacol 94:125-131.
Buttolph M.L., Holland A.D. (1990) Obsessive-complusive disorders in pregnancy and childbirth., Jenike MA, Baer L, Minichiello WE, eds. Obsessive-complusive Disorders. Theory and Management. Littleton, MA: Year Book Medical; 2:89-91.
Carmichael M., Humbert R., Dixon J. (1987) Plasma oxytocin increases in the human sexual response. J Clin Endocrinol Metab 64:27-31.
Carter C.S. (1992) Oxytocin and sexual behavior. Neurosci Beav Rev 16:131-144.
Carter D.A., Lightman S.L. (1987) Modulation of oxytocin secretion by ascending noradrenergic pathways: Sexual dimorphism in rats. Brain Res 406:313-316.
Carter D.A., Lightman S.L. (1986) Diurnal pattern of stress-evoked neurohypophyseal hormone secretion: Sexual dimorphism in rats. Neurosci Let 71:252-255.
Carter D.A., Lightman S.L. (1987) Oxytocin responses to stress in lacting and hyperprolactinaemic rats. Neuroendrocrinology 46:532-537.
Carter D.A., Lightman S.L. (1987) Oxytocin stress responses are dependent upon emotionality. Psychoendocrinology 12:219-223.
Carter D.A., Williams T.D.M., Lightman S.L. (1986) A sex difference in endogenous opioid regulation of the posterior pituitary response to stress in the rat. J Endocr 111:239-244.
Carter C., Altemus M. (1998) Integrative functions of lactational hormones in social behavior and stress management. Ann NY Acad Sci 541:164-174.
Ceccatelli S., Orazzo C. (1993) Effects of different types of stressors on peptide messenger ribonucleic acids in the hypothalamic paraventricular nucleus. Acta Endocrinol 128:485-492.
Charles G., Guillaume R., Schittecatte M. (1989) Oxytocin in the treatment of obsessive-compulsive disorder: A report on two cases. Psychiatr Psychobiol 4:111-115.
Coiro V., Chiodera P., Rossi G. (1985) Effects of naloxone on oxytocin-induced cortisol decrease in normal men. Acta Endocrinol 108:261-265.
De Goeij D.C., Kvetnansky, Whitnall (1991) Repeated stress induced activation of corticotropin releasing factor (CRF) neurons enhances vasopressin stores and colocalization with CRF in the median eminence of rats. Neuroendocrinology 42:456-458.
De Goeij D.C.E., Dijkstra H., Tilders F.J.H. (1992) Chronic psychosocial stress enhances vasopressin, but not corticotropin-releasing factor, in the external zone of the median eminence of male rats: Relationship to subordonate status. Endocrinolology 131:847-853.
De Weid D. (1965) The influence of the posterior and intermediate lobe of the pituitary and pituitary peptides on the maintenance of a conditionned avoidance response in rats. Int J Neuropharmacol 4:157-167.
De Weid D. (1971) Long term effect of vasopressin on the maintenance of a conditionned avoidance response in rats. Nature 232:58-60.
De Weid D. (1977) Behavioral effects of neuropeptides related to ACTH, MSH, and beta LPH. Ann NY Acad Sci 297:263-274.
Delanoy R.L., Dunn A.J., Tintner R. (1978) Behavioral responses to intracerebroventricularly administered neurohypophyseal peptides in mince. Horm Behav 11:348-362.
Demitrack M., Lesem M., Listwak S. (1990) CSF oxytocin in anorexia nervosa and bulimia nervosa: Clinical and pathophysiologic considerations. Am J Psychiatry 147:882-886.
Den Boer J.A., Westenberg G.M. (1992) Oxytocin in obsessive-compulsive disorder. Peptides 13:1083-1085.
Dohanics J., Hoffman G.E., Verbalis J.G. (1991) Hyponatremia inhibition of magnocellular neurons causes stressor-selective impairment of stimulated adrenocorticotropin secretion in rats. Endocrinology 128:331-340.
Ehlert U., Straub R. (1998) Physiological and emotional response to psychological stressors in psychiatric and psychosomatic disorder. Ann NY Acad Sci 451:477-486.
Elkabir D.R., Wyatt M.E., Velluci S.V. (1990) The effects of separate or combined infusions of corticotropin-releasing factors and vasopressin either intraventricularly or into the amygdala on aggressive and investigative behaviour in the rat. Regulatory Peptides 28:199-214.
Epperson C., Mcdougle C., Price L. (1996) Intranasal oxytocin in obsessive-compulsive disorder. Biol Psychiatry 40:547-549.
Fehm-Wolfsdorf G., Born J., Elbert T. (1985) Vasopressin does not enhance memory processes: A study in human twins. Peptides 6:297-300.
Ferrier B., Kennet D., Devlin M. (1980) Influences of oxytocin on human memory process. Life Sci 27:2311-2317.
Ferris C. (1992) Role of vasopressin in aggressive and dominant/subordinate behaviors. Oxytocin in Maternal, Sexual and Social Behavior Annals of New York Academy of Sciences , Pedersen CA, Caldwell JD, Jirikowski GF, Insel TR, eds. New York: The New York Academy of Sciences; 212-216.
Forizs L. (1952) The use of vasopressin in the treatment of schizophrenia with deterioration. NC Med J 13:76.
Forsling M.I., Iversen L.L., Lightman S.L. (1981) Dopamine and enkephalin directly inhibit vasopressin release from neurohypophysis. J Physiol 319.
Fuxe K., Anderson K., Eneroth P. (1983) Immobilization stress-induced changes in discrete hypothalamic catecholamine levels and turnover, their modulation by nicotine and relationship to neuroendocrine function. Acta Physiol Scand 117:421-426.
Geenen V., Adam F., Baro V. (1988) Inhibitory influence of oxytocin infusion on contingent negative variation and some memory tasks in normal men. Psychoneuroendocrinology 13:179-485.
Gibbs D.M. (1984) Dissociation of oxytocin, vasopressin and corticotropin secretion during different types of stress. Life Sci 35:487-491.
Gibbs D.M. (1986) Vasopressin and oxytocin: Hypothalamic modulators of the stress response: A review. Psychoneuroendocrinology 11:131-140.
Gillies G.E., Linton E.A., Lowry P.J. (1982) Corticotropin-releasing activity of the new CRF is potentiated several times by vasopressin. Life Sci 34:2245-2249.
Gold P.W., Goodwin F.K., Ballenger J.C. (1980) Central vasopressin function in affective illness. Hormones and the Brain , de Wied D, van Keep PA, eds. Lancaster, England: MTP Press; 241-255.
Gold P.W., Robertson G.L., Post R.M. (1983) The effect of lithium on the osmoregulation of arginine vasopressin secretion. J Clin Endocrinol Metab 56:295-299.
Guzek J.W., Olczak S., Stempniak B. (1984) The hypothalamic and neurohypophyseal oxytocic activities in stressed rats: Independence from beta-adrenergic blockade. Exp Clin Endocrinol 84:331-337.
Hashimoto K., Murakami K., Takao T. (1989) Effect of acute either or restraint stress on plasma corticotropin-releasing hormone, vasopressin and oxytocin levels in the rats. Acta Med Okayama 43:161-167.
Herman J.P., Sherman T.G. (1993) Acute stress upregulated vasopressin gene expression in parvocellular neurons of the hypothalamic paraventricular nucleus. Ann NY Acad Sci 689:546-553.
Husain M.K., Manger W.M., Rock T.W. (1979) Vasopressin release due to manual restraint in the rat: Role of body compression and comparison with other stressful stimuli. Endocrinology 104:641-644.
Insel T.R. (1992) Oxytocin-a neuropeptide for affiliation: Evidence from behavioral, receptor autoradiographic, and serotonin; is there a connection?. Biol Psychiatry 20:1174-1188.
Ivanij T., Wiegant V.W., De Wied D. (1991) Differential effects of emotional and physical stress on the central and peripheral secretion of neurohypophysial hormones in male rats. Life Sci 48:1309-1316.
Jezova D., Michajlovskij N., Kvatnanasky R. (1993) Paraventricular and supraoptic nuclei of the hypothalamus are not equally important for oxytocin release during stress. Neuroendocrinology 57:776-781.
Kalin N.H., Gibbs D.M., Barksdale C.M. (1985) Behavioral stress decreases plasma oxytocin concentrations in primates. Life Sci 36:1275-1280.
Kasting K. (1988) Simultaneous and independent release of vasopressin and oxytocin in the rat. Can J Physiol Pharm 66:22-26.
Kaye W. (1996) Neuropeptide abnormalities in anorexia nervosa. Psychiatr Res 62:65-74.
Kjaer A., Knigge U., Bach F.W. (1992) Histamine-and stress-induced secretion of ACTH and beta-endorphin response to histamine and restraint stress. Neuroendocrinology 58:588-596.
Kjaer A., Knigge U., Bach F.W. (1993) Permissive, mediating and potentiating effects of vasopressin in the ACTH and beta-endorphin response to histamine and restraint stress. Neuroendocrinology 58:588-596.
Kovacs G.L., Bohus B., Versteeg D.H.G. (1979) Effects of oxytocin and vasopressin on memory consolidation: Sites of action and catecholaminergic correlates after local microinjection into limbicmidbrain structures. Brain Res 175:303-314.
Kovacs G.L., Telegdy G. (1985) Role of oxytocin in memory, amnesia, and reinforcement., Amico J, Robinson AG, eds. Oxytocin: clinical and laboratory studies. New York; Elsevier; 359-371.
Lamberts S., Verleun T., Oosterom R. (1984) Corticotropin-releasing factor (ovine) and vasopressin exert a synergic effect on adrenocorticotropin release in man. J Clin Endocrinol 58:298-303.
Lang R.E., Heil J.W.E., Ganten D. (1983) Oxytocin like vasopressin is a stress hormon in the rat. Neuroendocrinology 37:314-316.
Leckman J.F., North W., Price L.H. (1994) The role of central oxytocin in obsessive compulsive disorder and related behavior. Psychoneuroendocrinology 19:723-749.
Legros J.J., Chiodera P., Demey-Ponsart E. (1982) Inhibitory influence of exogenous oxytocin on adrenocorticotropin secretion in normal human subjects. J Clin Endocrinol Metab 55:1035-1039.
Legros J.J., Louis F., Chiodera P. (1982) Concomitant increase of neurophysin I and ACTH during insulin tolerance test in one out of five normal volunteers: Influence of psychological stress?. Neuroendocrinol Lett 4:367-376.
Legros J.J., Ansseau M. (1986) Vasopressin-neurophysin and bipolar depression. Biol Psychiatry 21:121-126.
Legros J.J., Ansseau M. (1989) Increased basal plasma vasopressinneurophysin in mania. Horm Res 31:55-58.
Legros J.J., Chiodera P., Demy-Ponsart E. (1978) Inhibitory influence of exogenous oxytocin on adrenocorticotropin secretion in normal human subjects. J Clin Endocrin Metab 55:1035-1039.
Legros J.J., Deconinck I., Willems D. (1983) Increase of neurophysin II serum levels in chronic alcoholic patients: Relationship with alcohol consumption and alcoholism blood markers during withdrawal therapy. J Clin Endocrinol Metab 56:871-875.
Legros J.J., Franchimont P. (1970) Influence de l'œstriol sur le taux de la neurophysine sérique chez l'homme. Comparaison avec la capacité de fixation plasmatique des polypeptides posthypophysaires marqués étudiés in vitro. CR Soc Biol 1:99-113.
Legros J.J., Gazzotti C., Carvelli T. (1992) Apomorphine stimulation of vasopressin-and oxytocin-neurophysins. Evidence for increased oxytocinergic and decreased vasopressinergic function in schizophrenics. Psychoneuroendocrinology 17:611-617.
Legros J.J., Gilot P., Claessens J.J. (1978) Influence of vasopressin on learning and memory. Lancet 1:41-42.
Lewis D., Sherman B. (1985) Oxytocin does not influence adrenocorticotropin secretion in man. J Clin Endocrinol Metab 60:53-56.
Link H., Dayanithi G., Fohr K.J. (1992) Oxytocin at physiological concentrations evokes adrenocorticotropin (ACTH) releases from corticotrophs by increasing intracellular free calcium mobilized mainly from intracellular stores. Oxytocin displays synergistic or additive effects on ACTH secretion, respectively. Endocrinology 130:2183-2191.
Linkowski P., Geenen V., Kerkhofs M. (1984) Cerebrospinal fluid neurophysins in affective illness and schizophrenia. Eur Arch Psychiatr Neurol Sci 234:162-165.
Linton E.A., Tilders F.J.H., Hodgkinson S. (1985) Stress-induced secretion of adrenocorticotropin in rats is inhibited by administration of antisera to ovine corticotropin-releasing factor and vasopressin. Endocrinology 116:966-970.
Liu J., Muse K., Contreras P. (1983) Augmentation of ACTH-releasing activity of synthetic corticotropin releasing factor (CRF) by vasopressin in women. J Clin Endocrinol Metab 57:1087-1089.
Lutz-Bucher B., Kartesi M., Koch B. (1982) Comparative study of the CRF-like activities of vasopressin and oxytocin in the Brattleboro rat., Baertschi AJ, Dreiffus JJ, eds. Neuroendocrinology of vasopressin, corticoliberin, and opiomelanocortins. New York: Academic press; 273-279.
Matthews S.G., Parrot R.F. (1991) Dehydratation, but notvasopressin infusion, enhances the adrenocortical responses of sheep to corticotropin-releasing hormone or restraint. Acta Endocrinol 125:556-562.
Matthews S.G., Parrot R.F., Sirinathsinghij D.J.S. (1993) Isolation and dehydratation-induced changes in neuropeptides gen expression in the sheep hypothalamus. J Mol Endocrinol 11:181-189.
Miaskowski C., Ong G.L., Lukic D. (1988) Immobilization stress affects oxytocin and vasopressin levels in hypothalamic and extrahypothalamic sites. Brain Res 458:137-141.
Michajlovskij B., Lichardus B., Kvetnansky R. (1988) Effect of acute and repeat immobilization stress on food and water intake, urine output and vasopressin changes in rats. Endocrinol Exp 22:143-157.
Moos F., Richard P. (1982) Excitatory effects of dopamine on oxytocin and vasopressin reflex releasea in the rat. Brain Res 241:249-260.
Mormede P. (1983) The vasopressin receptor antagonist dPTyr (Me) AVP does not prevent stress-induced ACTH and corticosterone release. Nature 302:345-346.
Murphy M., Seckel J., Burton S. (1987) Changes in oxytocin and vasopressin secretion during sexual activity in men. J Clin Endocrinol Metab 65:738-741.
Nakane T., Audhya T., Kanie N. (1985) Evidences for a role of endogenous corticotropin-releasing factor in cold, ether, immobilization, and traumatic stress. Proc Natl Acad Sci 82:1247-1251.
Negro-Vilar A., Saavedra J.M. (1980) Changes in brain somatostatin and vasopressin levels after stress in spontaneously hypertensive and Wistar-Kyoto rats. Brain Res Bull 5:353-358.
Neziroglu F., Anemone R., Yaryura-Tobias J.A. (1992) Onset of obsessive complusive disorder in pregnancy. Am J Psychiatry 149:947-950.
Olczak S., Guzek J.W., Stempniak B. (1987) The hypothalamic neurohypophysial vasopressor and oxytocic activities in stressed rats treated with haloperidol. Exp Clin Endocrinol 89:147-152.
Onaka T., Hamamura M., Yagi K. (1986) Suppression of vasopressin secretion by classically conditioned stimuli in rats. Jap J Physiol 36:1261-1266.
Onaka T., Torigoe H., Yagi K. (1986) A dopamine D1 receptor antagonist, SCH 23390, selectively blocks vasopressin release after noxious stimuli in the rat. Neurosci Let 136:157-160.
Onaka T., Yagi K. (1990) Differential effects of naloxone on neuroendocrine responses to fear-related emotional stress. Exp Brain Res 81:53-58.
Onaka T., Yagi K. (1990) Interactions between emotional stress due to fear and hypovolemic stimuli in the control of vasopressin secretion in rats. Neurosci Let 120:187-190.
Onaka T., Yagi K. (1992) A histamine H2-receptor antagonist, ranitidine, blocks the suppressive vasopressin response to fear-related emotional stress in the rat. Neurosci Res 15:199-205.
Onaka T., Yagi K. (1993) Effects of novelty stress on vasopressin and oxytocin secretion by the pituitary in the rat. J Neuroendocrinol 5:356-369.
Parrot R.F., Thornton S.N., Robinson J.E. (1988) Endocrine responses to acute stress in castrated rams: No increase in oxytocin but evidence for an inversed relationship between cortisol and vasopressin. Act Endocrinol 117:381-386.
Parrot R.F., Thornton S.N. (1989) Opioid influences on pituitary function in sheep under basal conditions and during psychological stress. Psychoneuroendocrinology 14:451-459.
Pedersen C.A., Prange A.J. (1979) Induction of maternal behavior in virgins rats after intracerebroventricular administration of oxytocin. Proceed Nat Acad Sci USA 76:6661-6665.
Pich E.M., Heinrichs S.C., Rivier C. (1993) Blockade of pituitaryadrenal axis activation induced by peripheral immunoneutralization of corticotropin-releasing factor does not affect the behavioral response to social defeat stress in rats. Psychoneuroendocrinology 18:495-507.
Plotsky P.M., Bruhn T.O., Vale W. (1984) Central modulation of immunoreactive corticotropin-releasing factor secretion by argininevasopressin. Endocrinology 116:633-639.
Plotsky P.M., Bruhn T.O., Vale W. (1985) Evidence for multifactor regulation of the adrenocorticotropin secretion in response to hemodynamic stimuli. Endocrinology 116:633-639.
Plotsky P.M., Otto S., Sapolsky R.M. (1986) Inhibition of immunoreactive corticotropin releasing factor secretion into the hypophysial-portal circulation by delayed glucocorticoid feedback. Endocrinology 119:1126-1130.
Plotsky P.M. (1991) Pathways to the secretion of adrenocorticotropin: A view from the portal. J Neuroendocrinol 3:1-9.
Post R.M. (1980) Biochemical theories of mania., Belmaker RH, Van Praag NM, eds. Mania: An evelving Concept. New York: Spectrum; 217-265.
Priou A., Oliver C., Grino M. (1993) In situ hybridation of arginine vasopressin (AVP) heteronuclear ribonucleic acid reveals AVP gene transcription in the rat hypothalamic paraventricular nucleus in response to emotional stress. Acta Endocrinol 128:466-472.
Rasmussen S.A., Eisen J.L. (1990) Epidemiology and clinical features of obsessive-compulsive disorder. Obsessive-compulsive Disorders, Theory and Management , Jenike MA, Baer L, Minichiello WE, eds. Littleton, MA: Year Book Medical; 2:10-27.
Rasmussen S.A., Tsuang M.T. (1986) Clinical characteristics and family history in DSM III obsessive-compulsive disorder. Am J Psychiatry 143:317-322.
Riddle M., Scahill L., King R. (1990) Obsessive-complusive disorder in children and adolescents: Phenomenology and family history. J Am Acad Child Adol Psychol 29:766-772.
Rivier C., Vale W. (1983) Modulation of stress-induced ACTH release by corticotropin releasing factor, catecholamines and vasopressin. Nature 305:325-327.
Robinson A.G., Roberts M.M., Evron W.A. (1989) Total translation of vasopressin and oxytocin in neurohypophysis of rats. Am J Physiol 257.
Romero L.M., Levine S., Sapolsky R.M. (1995) Patterns of adrenocorticotropin secretagog release in response to social interactions and various degrees of novelty. Psychoneuroendocrinology 20:183-191.
Romero L.M., Sapolsky R.M. (1996) Patterns of ACTH secretagog secretion in response to psychological stimuli. J Neurobiol 8:243-258.
Salzberg A.D., Swedo S.E. (1992) Oxytocin and vasopressin in obsessive-compulsive. Am J Psychiatry 149:713-714.
Sanders G., Freilicher J., Lightman S. (1990) Psychological stress of exposure to uncontrollable noise increases plasma oxytocin in high emotionality women. Psychoneuroendocrinology 15:47-58.
Scaccianoce S., Muscolo L.A.A., Cigliana G. (1991) Evidence for a specific role of vasopressin in sustaining pituitary-adrenocortical stress response in the rat. Endocrinology 128:3138-3143.
Sichel D.A., Cohen L.S., Dimmock J.A. (1993) Postpartum obsessive compulsive disorder: A case series. J Clin Psychiatry 54:156-159.
Sorensen P., Gjerris A., Hammer M. (1985) Cerebrospinal fluid vasopressin in neurological and psychiatric disorders. J Neurol Neurosurg Psychiatry 48:50-57.
Swedo S.E., Leonard H.L., Kruesi M.J. (1992) Cerebrospinal fluid neurochemestry in children and adolescent with obsessive-compulsive disorder. Arch Gen Psychiatry 49:29-31.
Tanaka M., De Kloet E.R., De Wied D. (1979) Arginine vasopressin affects Catecholamine metabolism in specific brain nuclei. Life Sci 20:1799-1808.
Vale W., Vhaugan J., Smith M. (1983) Effects of synthetic ovine corticotropin-releasing factor, glucocorticoides, catecholamines, neurohypophysial peptides, and other substances on releasing corticotropic cells. Endocrinology 113:1121-1131.
Van Wimersma Greianus T.B., Kroodsma J.M., Pot M.L.H. (1990) Neurohypophyseal hormones and excessive grooming behavior. Eur J Pharmacol 187:1-8.
Verbalis J.G., McHale C.M., Gardiner T.W. (1986) Oxytocin and vasopressin secretion in responses to stimuli producing learned taste aversion in rats. Behav Neurosci 100:466-475.
Vranck C., Minne P., Benghezal A. (1979) Vasopressin and schizophrenia. Biological Psychiatry Today , Obiols J, Ballus C, Gonzales Monclus E, Pujol J, eds. Amsterdam: Elsevier/North Holland; 753-758.
Weingartner H., Gold P., Ballenger J.C. (1981) Effects of vasopressin on human memory function. Science 211:601-603.
Whitnall M.H. (1989) Stress selectively activates the vasopressin-containing subset of corticotropin-releasing hormone neurons. Neuroendocrinology 53:150-159.
Williams T.D.M., Carter D.A., Lightman S.L. (1985) Sexual dimorphism in the posterior pituitary response to stress in the rat. Endocrinology 116:738-740.
Winslow J.T., Insel T.R. (1991) Social status in pairs of squirred monkeys determines the behavioural response to central oxytocin administration. J Neurosci 11:2032-2038.
Yates F.E., Russel S.M., Dallman M.F. (1971) Potentiation by vasopressin of corticotropin release induced by corticotropinreleasing factor. Endocrinology 88:3-15.
Yagi K. (1992) Suppressive vasopressin responses to emotional stress. Jap J Physiol 42:681-703.
Yagi K. (1994) Effects of histamine H2-receptor antagonist, ranitidine on the vasopressin and oxytocin responses to novelty stress in the rat. Neurosci Res 19:357-364.
