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pulsatile activity of the HPA axis for continuous dynamic equilibration (2010) Nat Rev Neurosci, 11, pp. 710-718; \n\nAguilera, G., Kiss, A., Liu, Y., Kamitakahara, A., Negative regulation of corticotropin releasing factor expression and limitation of stress response (2007) Stress, 10, pp. 153-161; \n\nWatts, A.G., Glucocorticoid regulation of peptide genes in neuroendocrine CRH neurons: a complexity beyond negative feedback (2010) Front Neuroendocrinol, 26, pp. 109-130; \n\nUlrich-Lai, Y.M., Herman, J.P., Neural regulation of endocrine and autonomic stress responses (2009) Nat Rev Neurosci, 10, pp. 397-409; \n\nAguilera, G., Regulation of pituitary ACTH secretion during chronic stress (1994) Front Neuroendocrinol, 15, pp. 321-350; \n\nMcEwen, B.S., Protective and damaging effects of stress mediators (1998) N Engl J Med, 338, pp. 171-179; \n\nBale, T.L., Vale, W.W., CRF and CRF receptors: role in stress responsivity and other behaviors (2004) Annu Rev Pharmacol Toxicol, 44, pp. 525-557; \n\nVale, W., Rivier, C., Brown, M.R., Spiess, J., Koob, G., Swanson, L., Bilezikjian, L., River, J., Chemical and biological characterization of corticotropin releasing factor (1983) Recent Prog Horm Res, 39, pp. 245-270; \n\nAntoni, F.A., Hypothalamic control of adrenocorticotropin secretion: advances since the discovery of 41-residue corticotropin-releasing factor (1986) Endocr Rev, 7, pp. 351-378; \n\nBale, T., Hoshijima, M., Gu, Y., Dalton, N., Anderson, K.R., Lee, K.F., Rivier, J., Peterson, K.L., The cardiovascular physiologic actions of urocortin II: acute effects in murine heart failure (2004) Proc Natl Acad Sci USA, 101, pp. 3697-3702; \n\nKuperman, Y., Chen, A., Urocortins: emerging metabolic and energy homeostasis perspectives (2005) Trends Endocrinol Metab, 19, pp. 122-129; \n\nWatts, A.G., Tanimura, S., Sanchez-Watts, G., Corticotropin-releasing hormone and arginine vasopressin gene transcription in the hypothalamic paraventricular nucleus of unstressed rats: daily rhythms and their interactions with corticosterone (2004) Endocrinology, 145, pp. 529-540; \n\nChung, S., Son, G.H., Kim, K., Circadian rhythm of adrenal glucocor-ticoid: its regulation and clinical implications (2011) Biochim Biophys Acta Mol Basis Dis, 1812, pp. 581-591; \n\nNicholson, S., Lin, J.H., Mahmoud, S., Campbell, E., Gillham, B., Jones, M., Diurnal variations in responsiveness of the hypothala-mo-pituitary-adrenocortical axis of the rat (1985) Neuroendocrinology, 40, pp. 217-224; \n\nAntoni, F.A., Vasopressinergic control of pituitary adrenocorti-cotropin secretion comes of age (1993) Front Neuroendocrinol, 14, pp. 76-122; \n\nWhitnall, M.H., Stress selectively activates the vasopressin-containing subset of corticotropin-releasing hormone neurons (1989) Neuroendocrinology, 50, pp. 702-707; \n\nAlexander, S.L., Irvine, C.H., Donald, R.A., Short-term secretion_ patterns of corticotropin-releasing hormone., arginine vasopressin and ACTH as shown by intensive sampling of pituitary venous blood from horses (1994) Neuroendocrinology, 60, pp. 225-236; \n\nPlotsky, P.M., Hypophysiotropic regulation of stress-induced ACTH secretion (1988) Adv Exp Med Biol, 245, pp. 65-81; \n\nRivier, C.L., Plotsky, P.M., Mediation by corticotropin releasing factor (CRF) of adenohypophysial hormone secretion (1986) Annu Rev Physiol, 48, pp. 475-494; \n\nRivier, J., Gulyas, J., Corrigan, A., Martinez, V., Craig, A.G., TachéY, W., Rivier, C., Astressin analogues (corticotropin-releasing factor antagonists) with extended duration of action in the rat (1998) J Med Chem, 41, pp. 5012-5019; \n\nKovacs, K.J., Sawchenko, P.E., Sequence of stress-induced alterations in indices of synaptic and transcriptional activation in par-vocellular neurosecretory neurons (1996) J Neurosci, 16, pp. 262-273; \n\nMa, X.M., Levy, A., Lightman, S.L., Rapid changes in heteronuclear RNA for corticotrophin-releasing hormone and arginine vaso-pressin in response to acute stress (1997) J Endocrinol, 152, pp. 81-89; \n\nMa, X.M., Aguilera, G., Transcriptional responses of the vasopressin and corticotropin- releasing hormone genes to acute and repeated intraperitoneal hypertonic saline injection in rats (1999) Brain Res Mol Brain Res, 68, pp. 129-140; \n\nMa, X.M., Lightman, S.L., Aguilera, G., Vasopressin and corticotro-pin-releasing hormone gene responses to novel stress in rats adapted to repeated restraint (1999) Endocrinology, 140, pp. 3623-3632; \n\nPacak, K., Palkovits, M., Stressor specificity of central neuroendo-crine responses: implications for stress-related disorders (2001) Endocr Rev, 22, pp. 502-548; \n\nSawchenko, P.E., Li, H.Y., Ericsson, A., Circuits and mechanisms governing hypothalamic responses to stress: a tale of two paradigms (1999) Prog Brain Res, 122, pp. 61-78; \n\nDallman, M.F., Makara, G.B., Roberts, J.L., Levin, N., Blum, M., Corticotrope response to removal of releasing factors and corti-costeroids in vivo (1985) Endocrinology, 117, pp. 2190-2197; \n\nLundblad, J.R., Roberts, J.L., Regulation of proopiomelanocortin gene expression in pituitary (1988) Endocr Rev, 9, pp. 135-158; \n\nRabadan-Diehl, C., Makara, G., Kiss, A., Zelena, D., Aguilera, G., Regulation of pituitary corticotropin releasing hormone (CRH) receptor mRNA and CRH binding during adrenalectomy: role of glucocorticoids and hypothalamic factors (1997) J Neuroendocrinol, 9, pp. 689-697; \n\nMuglia, L.J., Bethin, K.E., Jacobson, L., Vogt, S.K., Majzoub, J.A., Pituitary-adrenal axis regulation in CRH-deficient mice (2000) Endocr Res, 26, pp. 1057-1066; \n\nTurnbull, A.V., Lee, S., Rivier, C., Mechanisms of hypothalamic-pituitary-adrenal axis stimulation by immune signals in the adult rat (1998) Ann N Y Acad Sci, 840, pp. 434-443; \n\nAbou-Samra, A., Harwood, J.P., Catt, K.J., Aguilera, G., Mechanisms of action of CRF and other regulators of ACTH release in pituitary corticotrophs (1987) Ann N Y Acad Sci, 512, pp. 67-84; \n\nAguilera, G., Nikodemova, M., Wynn, P.C., Catt, K.J., Corticotropin releasing hormone receptors: two decades later (2004) Peptides, 25, pp. 319-329; \n\nPerrin, M.H., Vale, W.W., Corticotropin releasing factor receptors and their ligand family (1999) Ann N Y Acad Sci, 885, pp. 312-328; \n\nAutelitano, D.J., Lundblud, J.R., Blum, M., Roberts, J.L., Hormonal regulation of POMC gene expression (1989) Annu Rev Physiol, 51, pp. 715-726; \n\nChilds, G.V., Morell, J.L., Niendorf, A., Aguilera, G., Cytochemical studies of corticotropin-releasing factor (CRF) receptors in anterior lobe corticotropes: binding., glucocorticoid regulation., and endo-cytosis of [biotinyl-Ser1]CRF (1986) Endocrinology, 119, pp. 2129-2142; \n\nAbou-Samra, A.B., Catt, K.J., Aguilera, G., Calcium-dependent control of corticotropin release in rat anterior pituitary cell cultures (1987) Endocrinology, 121, pp. 965-971; \n\nDave, J.R., Eiden, L.E., Lozovsky, D., Waschek, J.A., Eskay, R.L., Calcium-independent and calcium-dependent mechanisms: regulate corticotropin-releasing factor-stimulated proopiomelanocortin peptide secretion and messenger ribonucleic acid production (1987) Endocrinology, 120, pp. 305-310; \n\nKuryshev, Y.A., Childs, G.V., Ritchie, A.K., Corticotropin-releasing hormone stimulation of Ca2+ entry in corticotropes is partially dependent on protein kinase A (1995) Endocrinology, 136, pp. 3925-3935; \n\nUlisse, S., Fabbri, A., Dufau, M.L., Corticotropin-releasing factor receptors and actions in rat Leydig cells (1989) J Biol Chem, 264, pp. 2156-2163; \n\nAguilera, G., Corticotropin releasing hormone., receptor regulation and the stress response (1998) Trends Endocrinol Metab, 9, pp. 329-336; \n\nWynn, P.C., Harwood, J.P., Catt, K.J., Aguilera, G., Regulation of corticotropin-releasing factor (CRF) receptors in the rat pituitary gland: effects of adrenalectomy on CRF receptors and corti-cotroph responses (1985) Endocrinology, 116, pp. 1653-1659; \n\nHauger, R.L., Aguilera, G., Regulation of pituitary corticotropin releasing hormone (CRH) receptors by CRH: interaction with vasopressin (1993) Endocrinology, 133, pp. 1708-1714; \n\nHolmes, M.C., Catt, K.J., Aguilera, G., Involvement of vasopressin in the down-regulation of pituitary corticotropin-releasing factor receptors after adrenalectomy (1987) Endocrinology, 121, pp. 2093-2098; \n\nAguilera, G., Pham, Q., Rabadan-Diehl, C., Regulation of pituitary vasopressin receptors during chronic stress: relationship to corti-cotroph responsiveness (1994) J Neuroendocrinol, 6, pp. 299-304; \n\nLuo, X., Kiss, A., Makara, G., Lolait, S.J., Aguilera, G., Stress-specific regulation of corticotropin releasing hormone receptor expression in the paraventricular and supraoptic nuclei of the hypothal-amus in the rat (1994) J Neuroendocrinol, 6, pp. 689-696; \n\nMansi, J.A., Rivest, S., Drolet, G., Regulation of corticotropin-releas-ing factor type 1 (CRF1) receptor messenger ribonucleic acid in the paraventricular nucleus of rat hypothalamus by exogenous CRF (1996) Endocrinology, 137, pp. 4619-4629; \n\nPetraglia, F., Potter, E., Cameron, V.A., Sutton, S., Behan, D.P., Woods, R.J., Sawchenko, P.E., Vale, W., Corticotropin-releasing factor-binding protein is produced by human placenta and intra-uterine tissues (1993) J Clin Endocrinol Metab, 77, pp. 919-924; \n\nKarolyi, I.J., Burrows, H.L., Ramesh, T.M., Nakajima, M., Lesh, J.S., Seong, E., Camper, S.A., Seasholtz, A.F., Altered anxiety and weight gain in corticotropin-releasing hormone-binding protein-deficient mice (1999) Proc Natl Acad Sci USA, 96, pp. 11595-11600; \n\nSawchenko, P.E., Swanson, L.W., The organization and biochemical specificity of afferent projections to the paraventricular and supraoptic nuclei (1983) Prog Brain Res, 60, pp. 19-29; \n\nZimmerman, E.A., Robinson, A.G., Hypothalamic neurons secreting vasopressin and neurophysin (1976) Kidney Int, 10, pp. 12-24; \n\nAguilera, G., Subburaju, S., Young, S., Chen, J., The parvocellular vasopressinergic system and responsiveness of the hypothalamic pituitary adrenal axis during chronic stress (2008) Prog Brain Res, 170, pp. 29-39; \n\nde Goeij, D.C., Kvetnansky, R., Whitnall, M.H., Jezova, D., Berkenbosch, F., Tilders, F.J., Repeated stress-induced activation of corticotropin-releasing factor neurons enhances vasopressin stores and colocalization with corticotropin-releasing factor in the median eminence of rats (1991) Neuroendocrinology, 53, pp. 150-159; \n\nMa, X.M., Levy, A., Lightman, S.L., Emergence of an isolated argin-ine vasopressin (AVP) response to stress after repeated restraint: a study of both AVP and corticotropin-releasing hormone messenger ribonucleic acid (RNA) and heteronuclear RNA (1997) Endocrinology, 138, pp. 4351-4357; \n\nJard, S., Barberis, C., Audigier, S., Tribollet, E., Neurohypophyseal hormone receptor systems in brain and periphery (1987) Prog Brain Res, 72, pp. 173-187; \n\nPeter, J., Burbach, H., Adan, R.A., Lolait, S.J., van Leeuwen, F.W., Mezey, E., Palkovits, M., Barberis, C., Molecular neurobiology and pharmacology of the vasopressin/oxytocin receptor family (1995) Cell Mol Neurobiol, 15, pp. 573-595; \n\nSeibold, A., Brabet, P., Rosenthal, W., Birnbaumer, M., Structure and chromosomal localization of the human antidiuretic hormone receptor gene (1992) Am J Hum Genet, 51, pp. 1078-1083; \n\nThibonnier, M., Preston, J.A., Dulin, N., Wilkins, P.L., Berti-Mattera, L.N., Mattera, R., The human V3 pituitary vasopressin receptor: ligand binding profile and density-dependent signaling pathways (1997) Endocrinology, 138, pp. 4109-4122; \n\nLolait, S.J., O'Carroll, A.M., Brownstein, M.J., Molecular biology of vasopressin receptors (1995) Ann N Y Acad Sci, 771, pp. 273-292; \n\nAbou-Samra, A.B., Harwood, J.P., Manganiello, V.C., Catt, K.J., Aguilera, G., Phorbol 12-myristate 13-acetate and vasopressin potentiate the effect of corticotropin-releasing factor on cyclic AMP production in rat anterior pituitary cells (1987) Mechanisms of action. J Biol Chem, 262, pp. 1129-1136; \n\nBuckingham, J.C., Potentiation of hypothalamic corticotropin releasing activity by vasopressin: studies in the Brattleboro rat (1982) Ann N Y Acad Sci, 394, pp. 580-586; \n\nGillies, G.E., Linton, E.A., Lowry, P.J., Corticotropin releasing activity of the new CRF is potentiated several times by vasopressin (1982) Nature, 299, pp. 355-357; \n\nBilezikjian, L.M., Woodgett, J.R., Hunter, T., Vale, W.W., Phorbol ester-induced down-regulation of protein kinase C abolishes vasopressin-mediated responses in rat anterior pituitary cells (1987) Mol Endocrinol, 1, pp. 555-560; \n\nCarvallo, P., Aguilera, G., Protein kinase C mediates the effect of vasopressin in pituitary corticotrophs (1989) Mol Endocrinol, 3, pp. 1935-1943; \n\nLevin, N., Blum, M., Roberts, J.L., Modulation of basal and corti-cotropin-releasing factor- stimulated proopiomelanocortin gene expression by vasopressin in rat anterior pituitary (1989) Endocrinology, 125, pp. 2957-2966; \n\nJia, L.G., Canny, B.J., Orth, D.N., Leong, D.A., Distinct classes of corticotropes mediate corticotropin-releasing hormone- and arginine vasopressin-stimulated adrenocorticotropin release (1991) Endocrinology, 128, pp. 197-203; \n\nWebster, J.C., Cidlowski, J.A., Mechanisms of glucocorticoid-recep-tor-mediated repression of gene expression (1999) Trends Endocrinol Metab, 10, pp. 396-402; \n\nChowdrey, H.S., Larsen, P.J., Harbuz, M.S., Jessop, D.S., Aguilera, G., Eckland, D.J., Lightman, S.L., Evidence for arginine vasopressin as the primary activator of the HPA axis during adjuvant-induced arthritis (1995) Br J Pharmacol, 116, pp. 2417-2424; \n\nChen, J., Young, S., Subburaju, S., Shepard, J., Kiss, A., Atkinson, H., Wood, S., Aguilera, G., Vasopressin does not mediate hypersensitivity of the hypotha-lamic pituitary adrenal axis during chronic stress (2008) Ann N Y Acad Sci, 1148, pp. 349-359; \n\nMakara, G.B., Mergl, Z., Zelena, D., The role of vasopressin in hypothalamo-pituitary-adrenal axis activation during stress: an assessment of the evidence (2004) Ann N Y Acad Sci, 1018, pp. 151-161; \n\nRoper, J.A., O'Carroll, A.M., Young, W.S., Lolait, S.J., The vasopressin Avpr1b receptor: molecular and pharmacological studies (2011) Stress, 14, pp. 98-115; \n\nSubburaju, S., Aguilera, G., Vasopressin mediates mitogenic responses to adrenalectomy in the rat anterior pituitary (2007) Endocrinology, 148, pp. 3102-3110; \n\nHou Yu, A., Lamme, A.T., Zimmerman, E.A., Silverman, A.J., Comparative distribution of vasopressin and oxytocin neurons in the rat brain using a double-label procedure (1986) Neuroendocrinology, 44, pp. 235-246; \n\nPanayotacopoulou, M.T., Raadsheer, F.C., Swaab, D.F., Colocalization of tyrosine hydroxylase with oxytocin or vasopressin in neurons of the human paraventricular and supraoptic nucleus (1994) Dev Brain Res, 83, pp. 59-66; \n\nPetraglia, F., Imperatore, A., Challis, J.R., Neuroendocrine mechanisms in pregnancy and parturition (2010) Endocr Rev, 31, pp. 783-816; \n\nNishimori, K., Young, L.J., Guo, Q., Wang, Z., Insel, T.R., Matzuk, M.M., Oxytocin is required for nursing but is not essential for parturition or reproductive behavior (1996) Proc Natl Acad Sci USA, 93, pp. 11699-11704; \n\nYoung, I.W., Shepard, E., Amico, J., Hennighausen, L., Wagner, K.U., LaMarca, M.E., McKinney, C., Ginns, E.I., Deficiency in mouse oxytocin prevents milk ejection., but not fertility or parturition (1996) J Neuroendocrinol, 8, pp. 847-853; \n\nFerguson, J.N., Young, L.J., Insel, T.R., The neuroendocrine basis of social recognition (2002) Front Neuroendocrinol, 23, pp. 200-224; \n\nLukas, M., Toth, I., Reber, S.O., Slattery, D.A., Veenema, A.H., Neumann, I.D., The neuropeptide oxytocin facilitates pro-social behavior and prevents social avoidance in rats and mice (2011) Neuropsychopharmacology, 36, pp. 2159-2168; \n\nTodeschin, A.S., Winkelmann-Duarte, E.C., Jacob, M.H., Aranda, B.C., Jacobs, S., Fernandes, M.C., Ribeiro, M.F., Lucion, A.B., Effects of neonatal handling on social memory., social interaction., and number of oxytocin and vasopressin neurons in rats (2009) Horm Behav, 56, pp. 93-100; \n\nNeumann, I.D., Brain mechanisms underlying emotional alterations in the peripartum period in rats (2003) Depress Anxiety, 17, pp. 111-121; \n\nWindle, R.J., Shanks, N., Lightman, S.L., Ingram, C.D., Central oxyto-cin administration reduces stress-induced corticosterone release and anxiety behavior in rats (1997) Endocrinology, 138, pp. 2829-2834; \n\nDouglas, A.J., Meeren, H.K., Johnstone, L.E., Pfaff, D.W., Russell, J.A., Brooks, P.J., Stimulation of expression of the oxytocin gene in rat supraoptic neurons at parturition (1998) Brain Res, 782, pp. 167-174; \n\nNeumann, I.D., Wigger, A., Torner, L., Holsboer, F., Landgraf, R., Brain oxytocin inhibits basal and stress-induced activity of the hypothalamo-pituitary-adrenal axis in male and female rats: partial action within the paraventricular nucleus (2000) J Neuroendocrinol, 12, pp. 235-243; \n\nNakashima, T., Noguchi, T., Furukawa, T., Yamasaki, M., Makino, S., Miyata, S., Kiyohara, T., Brain oxytocin augments stress-induced long-lasting plasma adrenocorticotropic hormone elevation in rats (2001) Neurosci Lett, 321, pp. 161-164; \n\nOchedalski, T., Subburaju, S., Wynn, P.C., Aguilera, G., Interaction between oestrogen and oxytocin on hypothalamic-pituitary-adre-nal axis activity (2007) J Neuroendocrinol, 19, pp. 189-197; \n\nAguilera, G., Kiss, A., Luo, X., Akbasak, B.S., The renin angiotensin system and the stress response (1995) Ann N Y Acad Sci, 771, pp. 173-186; \n\nJezova, D., Ochedalski, T., Kiss, A., Aguilera, G., Brain angiotensin II modulates sympathoadrenal and hypothalamic pituitary adrenocortical activation during stress (1998) J Neuroendocrinol, 10, pp. 67-72; \n\nStadler, T., Veltmar, A., Qadri, F., Unger, T., Angiotensin II evokes noradrenaline release from the paraventricular nucleus in conscious rats (1992) Brain Res, 569, pp. 117-122; \n\nWeekley, L.B., Angiotensin-II acts centrally to alter renal sympathetic nerve activity and the intrarenal renin-angiotensin system (1991) Cardiovasc Res, 25, pp. 353-363; \n\nGolin, R.M., Gotoh, E., Said, S.I., Ganong, W.F., Pharmacological evidence that the sympathetic nervous system mediates the increase in renin secretion produced by immobilization and head-up tilt in rats (1988) Neuropharmacology, 27, pp. 1209-1213; \n\nSwanson, L., Sawchenko, P., Lind, R., Rho, J.H., The CRH motoneu-ron: differential peptide regulation in neurons with possible synaptic., paracrine, and endocrine outputs (1987) Ann N Y Acad Sci, 512, pp. 12-23; \n\nAguilera, G., Direct regulation of hypothalamic corticotropin-re-leasing-hormone neurons by angiotensin II (1995) Neuroendocrinology, 61, pp. 437-444; \n\nLenkei, Z., Corvol, P., Llorens-Cortes, C., Comparative expression of vasopressin and angiotensin type-1 receptor mRNA in rat hypothalamic nuclei: a double in situ hybridization study (1995) Mol Brain Res, 34, pp. 135-142; \n\nAguilera, G., Kiss, A., Luo, X., Increased expression of type 1 angiotensin II receptors in the hypothalamic paraventricular nucleus following stress and glucocorticoid administration (1995) J Neuroendocrinol, 7, pp. 775-783; \n\nMendelsohn, F.A., Quirion, R., Saavedra, J., Aguilera, G., Catt, K.J., Autoradiographic localization of angiotensin II receptors in rat brain (1984) Proc Natl Acad Sci USA, 81, pp. 1575-1579; \n\nTsutsumi, K., Saavedra, J.M., Characterization and development of angiotensin II receptor subtypes (AT1 and AT2) in rat brain (1991) Am J Physiol Reg Integr Comp Physiol, 261, pp. R209-16; \n\nJezova, D., Ochedalski, T., Glickman, M., Kiss, A., Aguilera, G., Central corticotropin-releasing hormone receptors modulate hypothalamic-pituitary-adrenocortical and sympathoadrenal activity during stress (1999) Neuroscience, 94, pp. 797-802; \n\nArmando, I., Carranza, A., Nishimura, Y., Hoe, K.L., Barontini, M., Terron, J.A., Falcón-Neri, A., Saavedra, J.M., Peripheral administration of an angiotensin II AT1 receptor antagonist decreases the hypothalamic-pituitary-adrenal response to isolation stress (2001) Endocrinology, 142, pp. 3880-3889; \n\nArmando, I., Volpi, S., Aguilera, G., Saavedra, J.M., Angiotensin II AT1 receptor blockade prevents the hypothalamic corticotro-pin-releasing factor response to isolation stress (2007) Brain Res, 1142, pp. 92-99; \n\nFunao, K., Matsuyama, M., Kawahito, Y., Sano, H., Chargui, J., Touraine, J.L., Nakatani, T., Yoshimura, R., Telmisartan as a peroxisome proliferator-activated receptor-y ligand is a new target in the treatment of human renal cell carcinoma (2009) Mol Med Reports, 2, pp. 193-198; \n\nHauger, R.L., Aguilera, G., Baukal, A.J., Catt, K.J., Characterization of angiotensin II receptors in the anterior pituitary gland (1982) Mol Cell Endocrinol, 25, pp. 203-212; \n\nSpinedi, E., Angiotensin II and ACTH release: site of action and potency relative to corticotropin releasing factor and vasopressin (1983) Neuroendocrinology, 37, pp. 446-453; \n\nMillan, M.A., Abou Samra, A.B., Wynn, P.C., Catt, K.J., Aguilera, G., Receptors and actions of corticotropin-releasing hormone in the primate pituitary gland (1987) J Clin Endocrinol Metab, 64, pp. 1036-1041; \n\nAguilera, G., Wynn, P.C., Harwood, J.P., Hauger, R.L., Millan, M.A., Grewe, C., Catt, K.J., Receptor-mediated actions of corticotro-pin-releasing factor in pituitary gland and nervous system (1986) Neuroendocrinology, 43, pp. 79-88; \n\nBelloni, A.S., Andreis, P.G., Macchi, V., Gottardo, G., Malendowicz, L.K., Nussdorfer, G.G., Distribution and functional significance of angiotensin-II AT1- and AT2-receptor subtypes in the rat adrenal gland (1998) Endocr Res, 24, pp. 1-15; \n\nOuali, R., Poulette, S., Penhoat, A., Saez, J.M., Characterization and coupling of angiotensin-II receptor subtypes in cultured bovine adrenal fasciculata cells (1992) J Steroid Biochem Mol Biol, 43, pp. 271-280; \n\nDouglas, J.G., Brown, G.P., White, C., Angiotensin II receptors of human and primate adrenal fasciculata and glomerulosa: correlations of binding and steroidogenesis (1984) Metabolism, 33, pp. 685-688; \n\nCalogero, A.E., Fornito, M.C., Aiiffl, A., Vicari, E., Moncada, M.L., Mantero, F., Polosa, P., D'Agata, R., Role of peripherally infused angiotensin II on the human hypothalamic-pituitary-adrenal axis (1991) Clin Endocrinol, 34, pp. 183-186; \n\nGuardiola-Diaz, H.M., Boswell, C., Seasholtz, A.F., The cAMP-responsive element in the corticotropin-releasing hormone gene mediates transcriptional regulation by depolarization (1994) J Biol Chem, 269, pp. 14784-14791; \n\nLiu, Y., Kamitakahara, A., Kim, A.J., Aguilera, G., Cyclic adenosine 3', 5'-monophosphate responsive element binding protein phosphorylation is required but not sufficient for activation of corticotropin-releasing hormone transcription (2008) Endocrinology, 149, pp. 3512-3520; \n\nGrinevich, V., Fournier, A., Pelletier, G., Effects of pituitary adenylate cyclase-activating polypeptide (PACAP) on corti-cotropin-releasing hormone (CRH) gene expression in the rat hypothalamic paraventricular nucleus (1997) Brain Res, 773, pp. 190-196; \n\nLegradi, G., Hannibal, J., Lechan, R.M., Pituitary adenylate cyclase-activating polypeptide-nerve terminals densely innervate corticotropin-releasing hormone-neurons in the hypo-thalamic paraventricular nucleus of the rat (1998) Neurosci Lett, 246, pp. 145-148; \n\nKageyama, K., Hanada, K., Iwasaki, Y., Sakihara, S., Nigawara, T., Kasckow, J., Suda, T., Pituitary adenylate cyclase-activating poly-peptide stimulates corticotropin-releasing factor., vasopressin and interleukin-6 gene transcription in hypothalamic 4B cells (2007) J Endocrinol, 195, pp. 199-211; \n\nStroth, N., Liu, Y., Aguilera, G., Eiden, L.E., Pituitary adenylate cyclase-activating polypeptide (PACAP) controls stimulus-transcription coupling in the hypothalamic-pituitary-adrenal axis to mediate sustained hormone secretion during stress (2011) J Neuroendocrinol, 23, pp. 944-955; \n\nStroth, N., Eiden, L.E., Stress hormone synthesis in mouse hypo-thalamus and adrenal gland triggered by restraint is dependent on pituitary adenylate cyclase-activating polypeptide signaling (2010) Neuroscience, 165, pp. 1025-1030; \n\nAlexander, L.D., Sander, L.D., Involvement of vasopressin and corticotropin-releasing hormone in VIP- and PHI-induced secretion of ACTH and corticosterone (1995) Neuropeptides, 28, pp. 167-173; \n\nNussdorfer, G.G., Malendowicz, L.K., Role of VIP., PACAP, and related peptides in the regulation of the hypothalamo-pituitary-adrenal axis (1998) Peptides, 19, pp. 1443-1467; \n\nPoplawski, M.M., Boyadjieva, N., Sarkar, D.K., Vasoactive intestinal peptide and corticotropin-releasing hormone increase P-endorphin release and proopiomelanocortin messenger RNA levels in primary cultures of hypothalamic cells: effects of acute and chronic ethanol treatment (2005) Alcohol Clin Exp Res, 29, pp. 648-655; \n\nJaszberenyi, M., Bujdoso, E., Pataki, I., Telegdy, G., Effects of orexins on the hypothalamic-pituitary-adrenal system (2000) J Neuroendocrinol, 12, pp. 1174-1178; \n\nJaszberenyi, M., Bujdoso, E., Telegdy, G., The role of neuropeptide Y in orexin-induced hypothalamic-pituitary-adrenal activation (2001) J Neuroendocrinol, 13, pp. 438-441; \n\nKuru, M., Ueta, Y., Serino, R., Nakazato, M., Yamamoto, Y., Shibuya, I., Yamashita, H., Centrally administered orexin/hypocretin activates HPA axis in rats (2000) NeuroReport, 11, pp. 1977-1980; \n\nSamson, W.K., Taylor, M.M., Follwell, M., Ferguson, A.V., Orexin actions in hypothalamic paraventricular nucleus: physiological consequences and cellular correlates (2002) Reg Peptides, 104, pp. 97-103; \n\nLu, X.Y., Bagnol, D., Burke, S., Akil, H., Watson, S.J., Differential distribution and regulation of OX1 and OX2 orexin/hypocretin receptor messenger RNA in the brain upon fasting (2000) Horm Behav, 37, pp. 335-344; \n\nTrivedi, P., Yu, H., MacNeil, D.J., Van der Ploeg, L.H., Guan, X.M., Distribution of orexin receptor mRNA in the rat brain (1998) FEBS Lett, 438, pp. 71-75; \n\nKojima, M., Hosoda, H., Matsuo, H., Kangawa, K., Ghrelin: discovery of the natural endogenous ligand for the growth hormone secretagogue receptor (2001) Trends Endocrinol Metab, 12, pp. 118-122; \n\nKojima, M., Kangawa, K., Ghrelin: from gene to physiological function (2010) Cellular pep-tide hormone synthesis and secretory pathways., 50, pp. 85-96. , Rehfeld JF., Bundgaard JR., editors; \n\nKorbonits, M., Goldstone, A.P., Gueorguiev, M., Grossman, A.B., Ghrelin-a hormone with multiple functions (2004) Front Neuroendocrinol, 25, pp. 27-68; \n\nGiordano, R., Picu, A., Broglio, F., Bonelli, L., Baldi, M., Berardelli, R., Ghigo, E., Arvat, E., Ghrelin, hypothalamus-pituitary-adrenal (HPA) axis and Cushing's syndrome (2004) Pituitary, 7, pp. 243-248; \n\nWren, A., Small, C., Fribbens, C., Neary, N.M., Ward, H.L., Seal, L.J., Ghatei, M.A., Bloom, S.R., The hypothalamic mechanisms of the hypophysiotropic action of ghrelin (2002) Neuroendocrinology, 76, pp. 316-324; \n\nKageyama, K., Kumata, Y., Akimoto, K., Takayasu, S., Tamasawa, N., Suda, T., Ghrelin stimulates corticotropin-releasing factor and vasopressin gene expression in rat hypothalamic 4B cells (2011) Stress, 14, pp. 520-529; \n\nGarcia-Galiano, D., Navarro, V.M., Gaytan, F., Tena-Sempere, M., Expanding roles of NUCB2/nesfatin-1 in neuroendocrine regulation (2010) J Mol Endocrinol, 45, pp. 281-290; \n\nGoebel-Stengel, M., Wang, L., Stengel, A., Tache, Y., Localization of nesfatin-1 neurons in the mouse brain and functional implication (2011) Brain Res, 1396, pp. 20-34; \n\nKonczol, K., Bodnar, I., Zelena, D., Pintér, O., Papp, R.S., Palkovits, M., Nagy, G.M., Tóth, Z.E., Nesfatin-1/NUCB2 may participate in the activation of the hypothalamic-pituitary-adrenal axis in rats (2010) Neurochem Int, 57, pp. 189-197; \n\nYoshida, N., Maejima, Y., Sedbazar, U., Ando, A., Kurita, H., Damdindorj, B., Takano, E., Yada, T., Stressor-responsive central nesfatin-1 activates corticotropin-releasing hormone., noradrenaline and serotonin neurons and evokes hypothalamic-pituitary-adrenal axis (2010) Aging, 2, pp. 775-784; \n\nMerali, Z., Cayer, C., Kent, P., Anisman, H., Nesfatin-1 increases anxiety- and fear-related behaviors in the rat (2008) Psychopharmacology, 201, pp. 115-123; \n\nNoetzel, S., Stengel, A., Inhoff, T., Goebel, M., Wisser, A.S., Bannert, N., Wiedenmann, B., Kobelt, P., CCK-8S activates c-Fos in a dose-dependent manner in nesfa-tin-1 immunoreactive neurons in the paraventricular nucleus of the hypothalamus and in the nucleus of the solitary tract of the brainstem (2009) Reg Peptides, 157, pp. 84-91", "hasCitationDuplums" : false, "userChangeableUntil" : "2019-01-31T22:59:00.000+0000", "publishDate" : "2018-09-18T13:36:11.000+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 15, "ownerInstituteCount" : 46, "directInstituteCount" : 0, "authorCount" : 2, "contributorCount" : 0, "hasQualityFactor" : false, "link" : "/api/publication/27665225", "label" : "Aguilera G et al. 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