Rol Modulador de la Oxitocina en la Interacción Social y el Estrés Social
Publicado
may 18, 2017
Almetrics
Dimensions
Google Scholar
##plugins.themes.bootstrap3.article.details##
Resumen
La Oxitocina es un neuropéptido conocido por facilitar funciones del sistema nervioso periférico, relacionadas específicamente con el sistema reproductivo. Sin embargo, en las últimas décadas se ha reconocido la función moduladora de la Oxitocina en el comportamiento social, a través de su liberación en el sistema nervioso central. Así mismo, estudios han mencionado que la Oxitocina es un potencial ansiolítico cuando un individuo ha sido sometido a estrés social. Por lo tanto, el objetivo de esta revisión es presentar una caracterización de la Oxitocina y su relación con distintas formas de interacción social y el estrés social; a través de los resultados presentados en distintos estudios, tanto en modelos animales como en humanos. Además, se intenta mostrar la importancia de continuar con el estudio de la Oxitocina, dados los posibles vacíos teóricos y experimentales existentes, teniendo en cuenta las potenciales cualidades ansiolíticas de esta hormona.
Keywords
Oxytocin, Social Interaction, Social Stress, AnxietyOxitocina, Interacción social, Estrés social, Ansiedad
References
Amico, J. A., Mantella, R. C., Vollmer, R. R., & Li, X. (2004). Anxiety and stress responses in female oxytocin deficient mice. J.Neuroendocrinol., 16 (4), 319-324.10.1111/j.0953-8194.2004.01161.x [doi];JNE1161 [pii]
Arletti, R. & Bertolini, A. (1985). Oxytocin stimulates lordosis behavior in female rats. Neuropeptides, 6 (3), 247-253.
Bales, K. L. & Perkeybile, A. M. (2012). Developmental experiences and the oxytocin receptor system. Horm.Behav., 61 (3), 313-319. S0018-506X(11)00290-X [pii];10.1016/j.yhbeh.2011.12.013 [doi]
Baumgartner, T., Heinrichs, M., Vonlanthen, A., Fischbacher, U., & Fehr, E. (2008). Oxytocin Shapes the Neural Circuitry of Trust and Trust Adaptation in Humans. Neuron, 58 (4), 639-650.
Bethlehem, R. A. I., van Honk, J., Auyeung, B., & Baron-Cohen, S. (2013). Oxytocin, brain physiology, and functional connectivity: A review of intranasal oxytocin fMRI studies. Psychoneuroendocrinology, 38 (7), 962-974.
Bielsky, I. F. & Young, L. J. (2004). Oxytocin, vasopressin, and social recognition in mammals. Peptides, 25 (9), 1565-1574.
Blanchard, D. C. & Blanchard, R. J. (2010). Offensive and Defensive Aggression. In F.K.Editors-in-Chief:-á-áGeorge, Michel Le Moal and Richard, & F. T. Richard (Eds.), Encyclopedia of Behavioral Neuroscience (pp. 484-489). Oxford: Academic Press.
Blanchard, D. C., Fukunaga-Stinson, C., Takahashi, L. K., Flannelly, K. J., & Blanchard, R. J. (1984). Dominance and aggression in social groups of male and female rats. Behavioural Processes, 9 (1), 31-48.
Blanchard, R. J., Blanchard, D. C., Rodgers, J., & Weiss, S. M. (1990). The characterization and modelling of antipredator defensive behavior. Neuroscience & Biobehavioral Reviews, 14 (4), 463-472.
Bosch, O. J., Meddle, S. L., Beiderbeck, D. I., Douglas, A. J., & Neumann, I. D. (2005). Brain oxytocin correlates with maternal aggression: link to anxiety. J.Neurosci., 25 (29), 6807-6815.25/29/6807 [pii];10.1523/JNEUROSCI.1342-05.2005 [doi]
Burri, A., Heinrichs, M., Schedlowski, M., & Kruger, T. H. C. (2008). The acute effects of intranasal oxytocin administration on endocrine and sexual function in males. Psychoneuroendocrinology, 33 (5), 591-600.
Caldwell, J. D., Walker, C. H., Pedersen, C. A., & Mason, G. A. (1993). Sexual activity decreases oxytocin receptor densities in the thymus. Life Sci., 52 (22), 1781-1786.
Carter, C. S., DeVries, A. C., & Getz, L. L. (1995). Physiological substrates of mammalian monogamy: the prairie vole model. Neurosci.Biobehav.Rev., 19 (2), 303-314.014976349400070H [pii]
Carter, C. S. & Keverne, E. B. (2009). 4 - The Neurobiology of Social Affiliation and Pair Bonding. In W.P.Editors-in-Chief: Donald, P. A. Arthur, Susan E.Fahrbach, M. E. a. R. Anne, & T. R. Robert (Eds.), Hormones, Brain and Behavior (Second Edition) (pp. 137-166). San Diego: Academic Press.
Connor, R. C. & Heithaus, M. R. (1996). Approach by great white shark elicits flight response in bottlenose dolphins. Marine Mammal Science, 12 602-606.
Consiglio, A. R., Borsoi, A., Pereira, G. A. M., & Lucion, A. B. (2005). Effects of oxytocin microinjected into the central amygdaloid nucleus and bed nucleus of stria terminalis on maternal aggressive behavior in rats. Physiology & Behavior, 85 (3), 354-362.
de Boer, A., van Buel, E. M., & Ter Horst, G. J. (2012). Love is more than just a kiss: a neurobiological perspective on love and affection. Neuroscience, 201 (0), 114-124.
DeFrance, J. F. & Hutchinson, R. R. (1972). Electrographic changes in the amygdala and hippocampus associated with biting attack. Physiology & Behavior, 9 (1), 83-88.
DeVries, A. C., Young, W. S., & Nelson, R. J. (1997). Reduced aggressive behaviour in mice with targeted disruption of the oxytocin gene. J.Neuroendocrinol., 9 (5), 363-368.
Domes, G., Heinrichs, M., Gl+ñscher, J., B++chel, C., Braus, D. F., & Herpertz, S. C. (2007). Oxytocin Attenuates Amygdala Responses to Emotional Faces Regardless of Valence. Biological Psychiatry, 62 (10), 1187-1190.
Engelmann, M., Ebner, K., Landgraf, R., Holsboer, F., & Wotjak1 CT (1999). Emotional stress triggers intrahypothalamic but not peripheral release of oxytocin in male rats. J.Neuroendocrinol., 11 (11), 867-872.jne403 [pii]
Ferguson, J. N., Aldag, J. M., Insel, T. R., & Young, L. J. (2001). Oxytocin in the medial amygdala is essential for social recognition in the mouse. J.Neurosci., 21 (20), 8278-8285.21/20/8278 [pii]
Ferris, C. F., Foote, K. B., Meltser, H. M., Plenby, M. G., Smith, K. L., & Insel, T. R. (1992). Oxytocin in the amygdala facilitates maternal aggression. Ann.N.Y.Acad.Sci., 652 456-457.
Gamer, M., Zurowski, B., & Buchel, C. (2010). Different amygdala subregions mediate valence-related and attentional effects of oxytocin in humans. Proc.Natl.Acad.Sci.U.S.A, 107 (20), 9400-9405.1000985107 [pii];10.1073/pnas.1000985107 [doi]
Gibbs, D. M. (1985). Immunoneutralization of oxytocin attenuates stress-induced corticotropin secretion in the rat. Regulatory Peptides, 12 (4), 273-277.
Gil, M., Bhatt, R., Picotte, K. B., & Hull, E. M. (2011). Oxytocin in the medial preoptic area facilitates male sexual behavior in the rat. Hormones and Behavior, 59 (4), 435-443.
Gimpl, G. & Fahrenholz, F. (2001). The oxytocin receptor system: structure, function, and regulation. Physiol Rev., 81 (2), 629-683.
Grewen, K. M., Girdler, S. S., Amico, J., & Light, K. C. (2005). Effects of partner support on resting oxytocin, cortisol, norepinephrine, and blood pressure before and after warm partner contact. Psychosom.Med., 67 (4), 531-538.67/4/531 [pii];10.1097/01.psy.0000170341.88395.47 [doi]
Huber, D., Veinante, P., & Stoop, R. (2005). Vasopressin and oxytocin excite distinct neuronal populations in the central amygdala. Science, 308 (5719), 245-248.308/5719/245 [pii];10.1126/science.1105636 [doi]
Hurlemann, R., Patin, A., Onur, O. A., Cohen, M. X., Baumgartner, T., Metzler, S. et al. (2010). Oxytocin enhances amygdala-dependent, socially reinforced learning and emotional empathy in humans. J.Neurosci., 30 (14), 4999-5007.30/14/4999 [pii];10.1523/JNEUROSCI.5538-09.2010 [doi]
Insel, T. R. & Shapiro, L. E. (1992). Oxytocin receptor distribution reflects social organization in monogamous and polygamous voles. Proc.Natl.Acad.Sci.U.S.A, 89 (13), 5981-5985.
Kennett, J. E. & McKee, D. T. (2012). Oxytocin: an emerging regulator of prolactin secretion in the female rat. J.Neuroendocrinol., 24 (3), 403-412.10.1111/j.1365-2826.2011.02263.x [doi]
Kiss, A. & Mikkelsen, J. D. (2005). Oxytocin--anatomy and functional assignments: a minireview. Endocr.Regul., 39 (3), 97-105.
Knobloch, H., Charlet, A., Hoffmann, L., Eliava, M., Khrulev, S., Cetin, A. et al. (2012). Evoked Axonal Oxytocin Release in the Central Amygdala Attenuates Fear Response. Neuron, 73 (3), 553-566.
Knutson, J. F. & Hynan, M. T. (1973). Predatory aggression and irritable aggression: Shock-induced fighting in mouse-killing rats. Physiology & Behavior, 11 (1), 113-115.
Lee, H. J., Macbeth, A. H., Pagani, J. H., & Scott, Y. I. (2009). Oxytocin: The great facilitator of life. Progress in Neurobiology, 88 (2), 127-151.
Leng, G., Meddle, S. L., & Douglas, A. J. (2008). Oxytocin and the maternal brain. Current Opinion in Pharmacology, 8 (6), 731-734.
Litvin, Y., Murakami, G., & Pfaff, D. W. (2011). Effects of chronic social defeat on behavioral and neural correlates of sociality: Vasopressin, oxytocin and the vasopressinergic V1b receptor. Physiology & Behavior, 103 (3GÇô4), 393-403.
Loup, F., Tribollet, E., Dubois-Dauphin, M., & Dreifuss, J. J. (1991). Localization of high-affinity binding sites for oxytocin and vasopressin in the human brain. An autoradiographic study. Brain Res., 555 (2), 220-232.0006-8993(91)90345-V [pii]
Loup, F., Tribollet, E., Dubois-Dauphin, M., Pizzolato, G., & Dreifuss, J. J. (1989). Localization of oxytocin binding sites in the human brainstem and upper spinal cord: an autoradiographic study. Brain Res., 500 (1-2), 223-230.0006-8993(89)90317-X [pii]
Lowbridge, J., Manning, M., Haldar, J., & Sawyer, W. H. (1977). Synthesis and some pharmacological properties of [4-threonine, 7-glycine]oxytocin, [1-(L-2-hydroxy-3-mercaptopropanoic acid), 4-threonine, 7-glycine]oxytocin (hydroxy[Thr4, Gly7]oxytocin), and [7-Glycine]oxytocin, peptides with high oxytocic-antidiuretic selectivity. J.Med.Chem., 20 (1), 120-123.
Ludwig, M. & Leng, G. (2006). Dendritic peptide release and peptide-dependent behaviours. Nat.Rev.Neurosci., 7 (2), 126-136.nrn1845 [pii];10.1038/nrn1845 [doi]
Lukas, M., Toth, I., Reber, S. O., Slattery, D. A., Veenema, A. H., & Neumann, I. D. (2011). The neuropeptide oxytocin facilitates pro-social behavior and prevents social avoidance in rats and mice. Neuropsychopharmacology, 36 (11), 2159-2168.npp201195 [pii];10.1038/npp.2011.95 [doi]
Manning, M., Lowbridge, J., Sawyer, W. H., & Haldar, J. (1976). Synthesis and some pharmacological properties of [1-(L-2-hydroxy-3-mercaptopropanoic acid), 4-threonine]oxytocin (hydroxy [4-thr]oxytocin), a peptide with strikingly high oxytocic potency and of [1-(L-2-hydroxy-3-mercaptopropanoic acid)]oxytocin (hydroxy-oxytocin). J.Med.Chem., 19 (3), 376-380.
Manning, M., Misicka, A., Olma, A., Bankowski, K., Stoev, S., Chini, B. et al. (2012). Oxytocin and vasopressin agonists and antagonists as research tools and potential therapeutics. J.Neuroendocrinol., 24 (4), 609-628.10.1111/j.1365-2826.2012.02303.x [doi]
Manning, M., Stoev, S., Chini, B., Durroux, T., Mouillac, B., & Guillon, G. (2008). Peptide and non-peptide agonists and antagonists for the vasopressin and oxytocin V1a, V1b, V2 and OT receptors: research tools and potential therapeutic agents. Prog.Brain Res., 170 473-512.S0079-6123(08)00437-8 [pii];10.1016/S0079-6123(08)00437-8 [doi]
Martinez, L. A., Albers, H. E., & Petrulis, A. (2010). Blocking oxytocin receptors inhibits vaginal marking to male odors in female Syrian hamsters. Physiol Behav., 101 (5), 685-692.S0031-9384(10)00292-1 [pii];10.1016/j.physbeh.2010.08.007 [doi]
Melis, M. R., Melis, T., Cocco, C., Succu, S., Sanna, F., Pillolla, G. et al. (2007). Oxytocin injected into the ventral tegmental area induces penile erection and increases extracellular dopamine in the nucleus accumbens and paraventricular nucleus of the hypothalamus of male rats. Eur.J.Neurosci., 26 (4), 1026-1035.EJN5721 [pii];10.1111/j.1460-9568.2007.05721.x [doi]
Melis, M. R., Succu, S., Cocco, C., Caboni, E., Sanna, F., Boi, A. et al. (2010). Oxytocin induces penile erection when injected into the ventral subiculum: role of nitric oxide and glutamic acid. Neuropharmacology, 58 (7), 1153-1160.S0028-3908(10)00041-9 [pii];10.1016/j.neuropharm.2010.02.008 [doi]
Motelica-Heino, I., Edwards, D. A., & Roffi, J. (1993). Intermale aggression in mice: Does hour of castration after birth influence adult behavior? Physiology & Behavior, 53 (5), 1017-1019.
Naber, F., van IJzendoorn, M. H., Deschamps, P., van Engeland, H., & Bakermans-Kranenburg, M. J. (2010). Intranasal oxytocin increases fathersGÇÖ observed responsiveness during play with their children: A double-blind within-subject experiment. Psychoneuroendocrinology, 35 (10), 1583-1586.
Neumann, I. D. (2007). Stimuli and consequences of dendritic release of oxytocin within the brain. Biochem.Soc.Trans., 35 (Pt 5), 1252-1257.BST0351252 [pii];10.1042/BST0351252 [doi]
Neumann, I. D. (2008). Brain oxytocin: a key regulator of emotional and social behaviours in both females and males. J.Neuroendocrinol., 20 (6), 858-865.JNE1726 [pii];10.1111/j.1365-2826.2008.01726.x [doi]
Neumann, I. D. & Landgraf, R. (2012). Balance of brain oxytocin and vasopressin: implications for anxiety, depression, and social behaviors. Trends Neurosci., 35 (11), 649-659.S0166-2236(12)00152-X [pii];10.1016/j.tins.2012.08.004 [doi]
Neumann, I. D., Wigger, A., Torner, L., Holsboer, F., & Landgraf, R. (2000). 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. J.Neuroendocrinol., 12 (3), 235-243.jne442 [pii]
Neumann, I. D. (2002). Chapter 12 Involvement of the brain oxytocin system in stress coping: interactions with the hypothalamo-pituitary-adrenal axis. In D.Poulain (Ed.), Progress in Brain Research Vasopressin and Oxytocin: From Genes to Clinical Applications (Volume 139 ed., pp. 147-162). Elsevier.
Neumann, I. D. (2009). The advantage of social living: Brain neuropeptides mediate the beneficial consequences of sex and motherhood. Frontiers in Neuroendocrinology, 30 (4), 483-496.
Ostrowski, N. L. (1998). Oxytocin receptor mRNA expression in rat brain: implications for behavioral integration and reproductive success. Psychoneuroendocrinology, 23 (8), 989-1004.S0306-4530(98)00070-5 [pii]
Parent, A. S., Rasier, G., Matagne, V., Lomniczi, A., Lebrethon, M. C., Gerard, A. et al. (2008). Oxytocin facilitates female sexual maturation through a glia-to-neuron signaling pathway. Endocrinology, 149 (3), 1358-1365.en.2007-1054 [pii];10.1210/en.2007-1054 [doi]
Parker, K. J., Phillips, K. M., Kinney, L. F., & Lee, T. M. (2001). Day length and sociosexual cohabitation alter central oxytocin receptor binding in female meadow voles (Microtus pennsylvanicus). Behav.Neurosci., 115 (6), 1349-1356.
Pedersen, C. A., Ascher, J. A., Monroe, Y. L., & Prange, A. J., Jr. (1982). Oxytocin induces maternal behavior in virgin female rats. Science, 216 (4546), 648-650.
Pedersen, C. A. & Boccia, M. L. (2002). Oxytocin maintains as well as initiates female sexual behavior: effects of a highly selective oxytocin antagonist. Horm.Behav., 41 (2), 170-177.10.1006/hbeh.2001.1736 [doi];S0018506X01917362 [pii]
Pedersen, C. A., Caldwell, J. D., Peterson, G., Walker, C. H., & Mason, G. A. (1992). Oxytocin activation of maternal behavior in the rat. Ann.N.Y.Acad.Sci., 652 58-69.
Pedersen, C. A. & Prange, A. J., Jr. (1979). Induction of maternal behavior in virgin rats after intracerebroventricular administration of oxytocin. Proc.Natl.Acad.Sci.U.S.A, 76 (12), 6661-6665.
Pedersen, C. A. & Prange, A. J., Jr. (1985). Oxytocin and mothering behavior in the rat. Pharmacol.Ther., 28 (3), 287-302.0163-7258(85)90056-7 [pii]
Pierzynski, P. (2011). Oxytocin and vasopressin V(1A) receptors as new therapeutic targets in assisted reproduction. Reprod.Biomed.Online., 22 (1), 9-16.S1472-6483(10)00640-1 [pii];10.1016/j.rbmo.2010.09.015 [doi]
Pierzynski, P., Reinheimer, T. M., & Kuczynski, W. (2007). Oxytocin antagonists may improve infertility treatment. Fertil.Steril., 88 (1), 213-222.S0015-0282(07)00273-7 [pii];10.1016/j.fertnstert.2006.09.017 [doi]
Reinheimer, T. M. (2007). Barusiban suppresses oxytocin-induced preterm labour in non-human primates. BMC.Pregnancy.Childbirth., 7 Suppl 1 S15.1471-2393-7-S1-S15 [pii];10.1186/1471-2393-7-S1-S15 [doi]
Ring, R. H., Malberg, J. E., Potestio, L., Ping, J., Boikess, S., Luo, B. et al. (2006). Anxiolytic-like activity of oxytocin in male mice: behavioral and autonomic evidence, therapeutic implications. Psychopharmacology (Berl), 185 (2), 218-225.10.1007/s00213-005-0293-z [doi]
Ring, R. H., Schechter, L. E., Leonard, S. K., Dwyer, J. M., Platt, B. J., Graf, R. et al. (2010). Receptor and behavioral pharmacology of WAY-267464, a non-peptide oxytocin receptor agonist. Neuropharmacology, 58 (1), 69-77.S0028-3908(09)00224-X [pii];10.1016/j.neuropharm.2009.07.016 [doi]
Ross, H. E. & Young, L. J. (2009). Oxytocin and the neural mechanisms regulating social cognition and affiliative behavior. Frontiers in Neuroendocrinology, 30 (4), 534-547.
Sabatier, N. (2006). alpha-Melanocyte-stimulating hormone and oxytocin: a peptide signalling cascade in the hypothalamus. J.Neuroendocrinol., 18 (9), 703-710.JNE1464 [pii];10.1111/j.1365-2826.2006.01464.x [doi]
Salonia, A., Nappi, R. E., Pontillo, M., Daverio, R., Smeraldi, A., Briganti, A. et al. (2005). Menstrual cycle-related changes in plasma oxytocin are relevant to normal sexual function in healthy women. Hormones and Behavior, 47 (2), 164-169.
Schneiderman, I., Zagoory-Sharon, O., Leckman, J. F., & Feldman, R. (2012). Oxytocin during the initial stages of romantic attachment: Relations to couplesGÇÖ interactive reciprocity. Psychoneuroendocrinology, 37 (8), 1277-1285.
Slattery, D. A. & Neumann, I. D. (2010). Chronic icv oxytocin attenuates the pathological high anxiety state of selectively bred Wistar rats. Neuropharmacology, 58 (1), 56-61.
Smeltzer, M. D., Curtis, J. T., Aragona, B. J., & Wang, Z. (2006). Dopamine, oxytocin, and vasopressin receptor binding in the medial prefrontal cortex of monogamous and promiscuous voles. Neuroscience Letters, 394 (2), 146-151.
Strathearn, L., Iyengar, U., Fonagy, P., & Kim, S. (2012). Maternal oxytocin response during motherGÇôinfant interaction: Associations with adult temperament. Hormones and Behavior, 61 (3), 429-435.
Succu, S., Sanna, F., Cocco, C., Melis, T., Boi, A., Ferri, G. L. et al. (2008). Oxytocin induces penile erection when injected into the ventral tegmental area of male rats: role of nitric oxide and cyclic GMP. Eur.J.Neurosci., 28 (4), 813-821.EJN6385 [pii];10.1111/j.1460-9568.2008.06385.x [doi]
Takahashi, L. K. & Lore, R. K. (1982). Intermale and maternal aggression in adult rats tested at different ages. Physiology & Behavior, 29 (6), 1013-1018.
Tamashiro, K. L. K., Nguyen, M. M. N., & Sakai, R. R. (2005). Social stress: From rodents to primates. Frontiers in Neuroendocrinology, 26 (1), 27-40.
Tarr, R. S. (1977). Role of the amygdala in the intraspecies aggressive behavior of the iguanid lizard, Sceloporus occidentalis. Physiology & Behavior, 18 (6), 1153-1158.
Thurmond, J. B. (1975). Technique for producing and measuring territorial aggression using laboratory mice. Physiology & Behavior, 14 (6), 879-881.
Trainor, B. C., Sisk, C. L., & Nelson, R. J. (2009). 5 - Hormones and the Development and Expression of Aggressive Behavior. In W.P.Editors-in-Chief: Donald, P. A. Arthur, Susan E.Fahrbach, M. E. a. R. Anne, & T. R. Robert (Eds.), Hormones, Brain and Behavior (Second Edition) (pp. 167-205). San Diego: Academic Press.
Veinante, P. & Freund-Mercier, M. J. (1997). Distribution of oxytocin- and vasopressin-binding sites in the rat extended amygdala: a histoautoradiographic study. J.Comp Neurol., 383 (3), 305-325.10.1002/(SICI)1096-9861(19970707)383:3<305::AID-CNE3>3.0.CO;2-7 [pii]
Viero, C., Shibuya, I., Kitamura, N., Verkhratsky, A., Fujihara, H., Katoh, A. et al. (2010). REVIEW: Oxytocin: Crossing the bridge between basic science and pharmacotherapy. CNS.Neurosci.Ther., 16 (5), e138-e156.CNS185 [pii];10.1111/j.1755-5949.2010.00185.x [doi]
Viviani, D. & Stoop, R. (2008). Opposite effects of oxytocin and vasopressin on the emotional expression of the fear response. In D.N.a.R.Inga (Ed.), Progress in Brain Research
Vochteloo, J. D. & Koolhaas, J. M. (1987). Medial amygdala lesions in male rats reduce aggressive behavior: interference with experience. Physiology & Behavior, 41 (2), 99-102.
Vrachnis, N., Malamas, F. M., Sifakis, S., Deligeoroglou, E., & Iliodromiti, Z. (2011). The oxytocin-oxytocin receptor system and its antagonists as tocolytic agents. Int.J.Endocrinol., 2011 350546.10.1155/2011/350546 [doi]
Wang, Y., He, Z., Zhao, C., & Li, L. (2013). Medial amygdala lesions modify aggressive behavior and immediate early gene expression in oxytocin and vasopressin neurons during intermale exposure. Behavioural Brain Research, 245 (0), 42-49.
Wang, Z. & Aragona, B. J. (2004). Neurochemical regulation of pair bonding in male prairie voles. Physiology & Behavior, 83 (2), 319-328.
Wang, Z. & Young, L. J. (1997). Ontogeny of oxytocin and vasopressin receptor binding in the lateral septum in prairie and montane voles. Developmental Brain Research, 104 (1GÇô2), 191-195.
Windle, R. J., Shanks, N., Lightman, S. L., & Ingram, C. D. (1997). Central oxytocin administration reduces stress-induced corticosterone release and anxiety behavior in rats. Endocrinology, 138 (7), 2829-2834.
Yoshimura, R., Kimura, T., Watanabe, D., & Kiyama, H. (1996). Differential expression of oxytocin receptor mRNA in the developing rat brain. Neurosci.Res., 24 (3), 291-304.0168-0102(95)01003-3 [pii]
Young, K. A., Gobrogge, K. L., Liu, Y., & Wang, Z. (2011). The neurobiology of pair bonding: Insights from a socially monogamous rodent. Frontiers in Neuroendocrinology, 32 (1), 53-69.
Young, L. J., Lim, M. M., Gingrich, B., & Insel, T. R. (2001). Cellular Mechanisms of Social Attachment. Hormones and Behavior, 40 (2), 133-138.
Zagrodzka, J. & Fonberg, E. (1978). Predatory versus alimentary behavior after amygdala lesions in cats. Physiology & Behavior, 20 (5), 523-531.
Arletti, R. & Bertolini, A. (1985). Oxytocin stimulates lordosis behavior in female rats. Neuropeptides, 6 (3), 247-253.
Bales, K. L. & Perkeybile, A. M. (2012). Developmental experiences and the oxytocin receptor system. Horm.Behav., 61 (3), 313-319. S0018-506X(11)00290-X [pii];10.1016/j.yhbeh.2011.12.013 [doi]
Baumgartner, T., Heinrichs, M., Vonlanthen, A., Fischbacher, U., & Fehr, E. (2008). Oxytocin Shapes the Neural Circuitry of Trust and Trust Adaptation in Humans. Neuron, 58 (4), 639-650.
Bethlehem, R. A. I., van Honk, J., Auyeung, B., & Baron-Cohen, S. (2013). Oxytocin, brain physiology, and functional connectivity: A review of intranasal oxytocin fMRI studies. Psychoneuroendocrinology, 38 (7), 962-974.
Bielsky, I. F. & Young, L. J. (2004). Oxytocin, vasopressin, and social recognition in mammals. Peptides, 25 (9), 1565-1574.
Blanchard, D. C. & Blanchard, R. J. (2010). Offensive and Defensive Aggression. In F.K.Editors-in-Chief:-á-áGeorge, Michel Le Moal and Richard, & F. T. Richard (Eds.), Encyclopedia of Behavioral Neuroscience (pp. 484-489). Oxford: Academic Press.
Blanchard, D. C., Fukunaga-Stinson, C., Takahashi, L. K., Flannelly, K. J., & Blanchard, R. J. (1984). Dominance and aggression in social groups of male and female rats. Behavioural Processes, 9 (1), 31-48.
Blanchard, R. J., Blanchard, D. C., Rodgers, J., & Weiss, S. M. (1990). The characterization and modelling of antipredator defensive behavior. Neuroscience & Biobehavioral Reviews, 14 (4), 463-472.
Bosch, O. J., Meddle, S. L., Beiderbeck, D. I., Douglas, A. J., & Neumann, I. D. (2005). Brain oxytocin correlates with maternal aggression: link to anxiety. J.Neurosci., 25 (29), 6807-6815.25/29/6807 [pii];10.1523/JNEUROSCI.1342-05.2005 [doi]
Burri, A., Heinrichs, M., Schedlowski, M., & Kruger, T. H. C. (2008). The acute effects of intranasal oxytocin administration on endocrine and sexual function in males. Psychoneuroendocrinology, 33 (5), 591-600.
Caldwell, J. D., Walker, C. H., Pedersen, C. A., & Mason, G. A. (1993). Sexual activity decreases oxytocin receptor densities in the thymus. Life Sci., 52 (22), 1781-1786.
Carter, C. S., DeVries, A. C., & Getz, L. L. (1995). Physiological substrates of mammalian monogamy: the prairie vole model. Neurosci.Biobehav.Rev., 19 (2), 303-314.014976349400070H [pii]
Carter, C. S. & Keverne, E. B. (2009). 4 - The Neurobiology of Social Affiliation and Pair Bonding. In W.P.Editors-in-Chief: Donald, P. A. Arthur, Susan E.Fahrbach, M. E. a. R. Anne, & T. R. Robert (Eds.), Hormones, Brain and Behavior (Second Edition) (pp. 137-166). San Diego: Academic Press.
Connor, R. C. & Heithaus, M. R. (1996). Approach by great white shark elicits flight response in bottlenose dolphins. Marine Mammal Science, 12 602-606.
Consiglio, A. R., Borsoi, A., Pereira, G. A. M., & Lucion, A. B. (2005). Effects of oxytocin microinjected into the central amygdaloid nucleus and bed nucleus of stria terminalis on maternal aggressive behavior in rats. Physiology & Behavior, 85 (3), 354-362.
de Boer, A., van Buel, E. M., & Ter Horst, G. J. (2012). Love is more than just a kiss: a neurobiological perspective on love and affection. Neuroscience, 201 (0), 114-124.
DeFrance, J. F. & Hutchinson, R. R. (1972). Electrographic changes in the amygdala and hippocampus associated with biting attack. Physiology & Behavior, 9 (1), 83-88.
DeVries, A. C., Young, W. S., & Nelson, R. J. (1997). Reduced aggressive behaviour in mice with targeted disruption of the oxytocin gene. J.Neuroendocrinol., 9 (5), 363-368.
Domes, G., Heinrichs, M., Gl+ñscher, J., B++chel, C., Braus, D. F., & Herpertz, S. C. (2007). Oxytocin Attenuates Amygdala Responses to Emotional Faces Regardless of Valence. Biological Psychiatry, 62 (10), 1187-1190.
Engelmann, M., Ebner, K., Landgraf, R., Holsboer, F., & Wotjak1 CT (1999). Emotional stress triggers intrahypothalamic but not peripheral release of oxytocin in male rats. J.Neuroendocrinol., 11 (11), 867-872.jne403 [pii]
Ferguson, J. N., Aldag, J. M., Insel, T. R., & Young, L. J. (2001). Oxytocin in the medial amygdala is essential for social recognition in the mouse. J.Neurosci., 21 (20), 8278-8285.21/20/8278 [pii]
Ferris, C. F., Foote, K. B., Meltser, H. M., Plenby, M. G., Smith, K. L., & Insel, T. R. (1992). Oxytocin in the amygdala facilitates maternal aggression. Ann.N.Y.Acad.Sci., 652 456-457.
Gamer, M., Zurowski, B., & Buchel, C. (2010). Different amygdala subregions mediate valence-related and attentional effects of oxytocin in humans. Proc.Natl.Acad.Sci.U.S.A, 107 (20), 9400-9405.1000985107 [pii];10.1073/pnas.1000985107 [doi]
Gibbs, D. M. (1985). Immunoneutralization of oxytocin attenuates stress-induced corticotropin secretion in the rat. Regulatory Peptides, 12 (4), 273-277.
Gil, M., Bhatt, R., Picotte, K. B., & Hull, E. M. (2011). Oxytocin in the medial preoptic area facilitates male sexual behavior in the rat. Hormones and Behavior, 59 (4), 435-443.
Gimpl, G. & Fahrenholz, F. (2001). The oxytocin receptor system: structure, function, and regulation. Physiol Rev., 81 (2), 629-683.
Grewen, K. M., Girdler, S. S., Amico, J., & Light, K. C. (2005). Effects of partner support on resting oxytocin, cortisol, norepinephrine, and blood pressure before and after warm partner contact. Psychosom.Med., 67 (4), 531-538.67/4/531 [pii];10.1097/01.psy.0000170341.88395.47 [doi]
Huber, D., Veinante, P., & Stoop, R. (2005). Vasopressin and oxytocin excite distinct neuronal populations in the central amygdala. Science, 308 (5719), 245-248.308/5719/245 [pii];10.1126/science.1105636 [doi]
Hurlemann, R., Patin, A., Onur, O. A., Cohen, M. X., Baumgartner, T., Metzler, S. et al. (2010). Oxytocin enhances amygdala-dependent, socially reinforced learning and emotional empathy in humans. J.Neurosci., 30 (14), 4999-5007.30/14/4999 [pii];10.1523/JNEUROSCI.5538-09.2010 [doi]
Insel, T. R. & Shapiro, L. E. (1992). Oxytocin receptor distribution reflects social organization in monogamous and polygamous voles. Proc.Natl.Acad.Sci.U.S.A, 89 (13), 5981-5985.
Kennett, J. E. & McKee, D. T. (2012). Oxytocin: an emerging regulator of prolactin secretion in the female rat. J.Neuroendocrinol., 24 (3), 403-412.10.1111/j.1365-2826.2011.02263.x [doi]
Kiss, A. & Mikkelsen, J. D. (2005). Oxytocin--anatomy and functional assignments: a minireview. Endocr.Regul., 39 (3), 97-105.
Knobloch, H., Charlet, A., Hoffmann, L., Eliava, M., Khrulev, S., Cetin, A. et al. (2012). Evoked Axonal Oxytocin Release in the Central Amygdala Attenuates Fear Response. Neuron, 73 (3), 553-566.
Knutson, J. F. & Hynan, M. T. (1973). Predatory aggression and irritable aggression: Shock-induced fighting in mouse-killing rats. Physiology & Behavior, 11 (1), 113-115.
Lee, H. J., Macbeth, A. H., Pagani, J. H., & Scott, Y. I. (2009). Oxytocin: The great facilitator of life. Progress in Neurobiology, 88 (2), 127-151.
Leng, G., Meddle, S. L., & Douglas, A. J. (2008). Oxytocin and the maternal brain. Current Opinion in Pharmacology, 8 (6), 731-734.
Litvin, Y., Murakami, G., & Pfaff, D. W. (2011). Effects of chronic social defeat on behavioral and neural correlates of sociality: Vasopressin, oxytocin and the vasopressinergic V1b receptor. Physiology & Behavior, 103 (3GÇô4), 393-403.
Loup, F., Tribollet, E., Dubois-Dauphin, M., & Dreifuss, J. J. (1991). Localization of high-affinity binding sites for oxytocin and vasopressin in the human brain. An autoradiographic study. Brain Res., 555 (2), 220-232.0006-8993(91)90345-V [pii]
Loup, F., Tribollet, E., Dubois-Dauphin, M., Pizzolato, G., & Dreifuss, J. J. (1989). Localization of oxytocin binding sites in the human brainstem and upper spinal cord: an autoradiographic study. Brain Res., 500 (1-2), 223-230.0006-8993(89)90317-X [pii]
Lowbridge, J., Manning, M., Haldar, J., & Sawyer, W. H. (1977). Synthesis and some pharmacological properties of [4-threonine, 7-glycine]oxytocin, [1-(L-2-hydroxy-3-mercaptopropanoic acid), 4-threonine, 7-glycine]oxytocin (hydroxy[Thr4, Gly7]oxytocin), and [7-Glycine]oxytocin, peptides with high oxytocic-antidiuretic selectivity. J.Med.Chem., 20 (1), 120-123.
Ludwig, M. & Leng, G. (2006). Dendritic peptide release and peptide-dependent behaviours. Nat.Rev.Neurosci., 7 (2), 126-136.nrn1845 [pii];10.1038/nrn1845 [doi]
Lukas, M., Toth, I., Reber, S. O., Slattery, D. A., Veenema, A. H., & Neumann, I. D. (2011). The neuropeptide oxytocin facilitates pro-social behavior and prevents social avoidance in rats and mice. Neuropsychopharmacology, 36 (11), 2159-2168.npp201195 [pii];10.1038/npp.2011.95 [doi]
Manning, M., Lowbridge, J., Sawyer, W. H., & Haldar, J. (1976). Synthesis and some pharmacological properties of [1-(L-2-hydroxy-3-mercaptopropanoic acid), 4-threonine]oxytocin (hydroxy [4-thr]oxytocin), a peptide with strikingly high oxytocic potency and of [1-(L-2-hydroxy-3-mercaptopropanoic acid)]oxytocin (hydroxy-oxytocin). J.Med.Chem., 19 (3), 376-380.
Manning, M., Misicka, A., Olma, A., Bankowski, K., Stoev, S., Chini, B. et al. (2012). Oxytocin and vasopressin agonists and antagonists as research tools and potential therapeutics. J.Neuroendocrinol., 24 (4), 609-628.10.1111/j.1365-2826.2012.02303.x [doi]
Manning, M., Stoev, S., Chini, B., Durroux, T., Mouillac, B., & Guillon, G. (2008). Peptide and non-peptide agonists and antagonists for the vasopressin and oxytocin V1a, V1b, V2 and OT receptors: research tools and potential therapeutic agents. Prog.Brain Res., 170 473-512.S0079-6123(08)00437-8 [pii];10.1016/S0079-6123(08)00437-8 [doi]
Martinez, L. A., Albers, H. E., & Petrulis, A. (2010). Blocking oxytocin receptors inhibits vaginal marking to male odors in female Syrian hamsters. Physiol Behav., 101 (5), 685-692.S0031-9384(10)00292-1 [pii];10.1016/j.physbeh.2010.08.007 [doi]
Melis, M. R., Melis, T., Cocco, C., Succu, S., Sanna, F., Pillolla, G. et al. (2007). Oxytocin injected into the ventral tegmental area induces penile erection and increases extracellular dopamine in the nucleus accumbens and paraventricular nucleus of the hypothalamus of male rats. Eur.J.Neurosci., 26 (4), 1026-1035.EJN5721 [pii];10.1111/j.1460-9568.2007.05721.x [doi]
Melis, M. R., Succu, S., Cocco, C., Caboni, E., Sanna, F., Boi, A. et al. (2010). Oxytocin induces penile erection when injected into the ventral subiculum: role of nitric oxide and glutamic acid. Neuropharmacology, 58 (7), 1153-1160.S0028-3908(10)00041-9 [pii];10.1016/j.neuropharm.2010.02.008 [doi]
Motelica-Heino, I., Edwards, D. A., & Roffi, J. (1993). Intermale aggression in mice: Does hour of castration after birth influence adult behavior? Physiology & Behavior, 53 (5), 1017-1019.
Naber, F., van IJzendoorn, M. H., Deschamps, P., van Engeland, H., & Bakermans-Kranenburg, M. J. (2010). Intranasal oxytocin increases fathersGÇÖ observed responsiveness during play with their children: A double-blind within-subject experiment. Psychoneuroendocrinology, 35 (10), 1583-1586.
Neumann, I. D. (2007). Stimuli and consequences of dendritic release of oxytocin within the brain. Biochem.Soc.Trans., 35 (Pt 5), 1252-1257.BST0351252 [pii];10.1042/BST0351252 [doi]
Neumann, I. D. (2008). Brain oxytocin: a key regulator of emotional and social behaviours in both females and males. J.Neuroendocrinol., 20 (6), 858-865.JNE1726 [pii];10.1111/j.1365-2826.2008.01726.x [doi]
Neumann, I. D. & Landgraf, R. (2012). Balance of brain oxytocin and vasopressin: implications for anxiety, depression, and social behaviors. Trends Neurosci., 35 (11), 649-659.S0166-2236(12)00152-X [pii];10.1016/j.tins.2012.08.004 [doi]
Neumann, I. D., Wigger, A., Torner, L., Holsboer, F., & Landgraf, R. (2000). 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. J.Neuroendocrinol., 12 (3), 235-243.jne442 [pii]
Neumann, I. D. (2002). Chapter 12 Involvement of the brain oxytocin system in stress coping: interactions with the hypothalamo-pituitary-adrenal axis. In D.Poulain (Ed.), Progress in Brain Research Vasopressin and Oxytocin: From Genes to Clinical Applications (Volume 139 ed., pp. 147-162). Elsevier.
Neumann, I. D. (2009). The advantage of social living: Brain neuropeptides mediate the beneficial consequences of sex and motherhood. Frontiers in Neuroendocrinology, 30 (4), 483-496.
Ostrowski, N. L. (1998). Oxytocin receptor mRNA expression in rat brain: implications for behavioral integration and reproductive success. Psychoneuroendocrinology, 23 (8), 989-1004.S0306-4530(98)00070-5 [pii]
Parent, A. S., Rasier, G., Matagne, V., Lomniczi, A., Lebrethon, M. C., Gerard, A. et al. (2008). Oxytocin facilitates female sexual maturation through a glia-to-neuron signaling pathway. Endocrinology, 149 (3), 1358-1365.en.2007-1054 [pii];10.1210/en.2007-1054 [doi]
Parker, K. J., Phillips, K. M., Kinney, L. F., & Lee, T. M. (2001). Day length and sociosexual cohabitation alter central oxytocin receptor binding in female meadow voles (Microtus pennsylvanicus). Behav.Neurosci., 115 (6), 1349-1356.
Pedersen, C. A., Ascher, J. A., Monroe, Y. L., & Prange, A. J., Jr. (1982). Oxytocin induces maternal behavior in virgin female rats. Science, 216 (4546), 648-650.
Pedersen, C. A. & Boccia, M. L. (2002). Oxytocin maintains as well as initiates female sexual behavior: effects of a highly selective oxytocin antagonist. Horm.Behav., 41 (2), 170-177.10.1006/hbeh.2001.1736 [doi];S0018506X01917362 [pii]
Pedersen, C. A., Caldwell, J. D., Peterson, G., Walker, C. H., & Mason, G. A. (1992). Oxytocin activation of maternal behavior in the rat. Ann.N.Y.Acad.Sci., 652 58-69.
Pedersen, C. A. & Prange, A. J., Jr. (1979). Induction of maternal behavior in virgin rats after intracerebroventricular administration of oxytocin. Proc.Natl.Acad.Sci.U.S.A, 76 (12), 6661-6665.
Pedersen, C. A. & Prange, A. J., Jr. (1985). Oxytocin and mothering behavior in the rat. Pharmacol.Ther., 28 (3), 287-302.0163-7258(85)90056-7 [pii]
Pierzynski, P. (2011). Oxytocin and vasopressin V(1A) receptors as new therapeutic targets in assisted reproduction. Reprod.Biomed.Online., 22 (1), 9-16.S1472-6483(10)00640-1 [pii];10.1016/j.rbmo.2010.09.015 [doi]
Pierzynski, P., Reinheimer, T. M., & Kuczynski, W. (2007). Oxytocin antagonists may improve infertility treatment. Fertil.Steril., 88 (1), 213-222.S0015-0282(07)00273-7 [pii];10.1016/j.fertnstert.2006.09.017 [doi]
Reinheimer, T. M. (2007). Barusiban suppresses oxytocin-induced preterm labour in non-human primates. BMC.Pregnancy.Childbirth., 7 Suppl 1 S15.1471-2393-7-S1-S15 [pii];10.1186/1471-2393-7-S1-S15 [doi]
Ring, R. H., Malberg, J. E., Potestio, L., Ping, J., Boikess, S., Luo, B. et al. (2006). Anxiolytic-like activity of oxytocin in male mice: behavioral and autonomic evidence, therapeutic implications. Psychopharmacology (Berl), 185 (2), 218-225.10.1007/s00213-005-0293-z [doi]
Ring, R. H., Schechter, L. E., Leonard, S. K., Dwyer, J. M., Platt, B. J., Graf, R. et al. (2010). Receptor and behavioral pharmacology of WAY-267464, a non-peptide oxytocin receptor agonist. Neuropharmacology, 58 (1), 69-77.S0028-3908(09)00224-X [pii];10.1016/j.neuropharm.2009.07.016 [doi]
Ross, H. E. & Young, L. J. (2009). Oxytocin and the neural mechanisms regulating social cognition and affiliative behavior. Frontiers in Neuroendocrinology, 30 (4), 534-547.
Sabatier, N. (2006). alpha-Melanocyte-stimulating hormone and oxytocin: a peptide signalling cascade in the hypothalamus. J.Neuroendocrinol., 18 (9), 703-710.JNE1464 [pii];10.1111/j.1365-2826.2006.01464.x [doi]
Salonia, A., Nappi, R. E., Pontillo, M., Daverio, R., Smeraldi, A., Briganti, A. et al. (2005). Menstrual cycle-related changes in plasma oxytocin are relevant to normal sexual function in healthy women. Hormones and Behavior, 47 (2), 164-169.
Schneiderman, I., Zagoory-Sharon, O., Leckman, J. F., & Feldman, R. (2012). Oxytocin during the initial stages of romantic attachment: Relations to couplesGÇÖ interactive reciprocity. Psychoneuroendocrinology, 37 (8), 1277-1285.
Slattery, D. A. & Neumann, I. D. (2010). Chronic icv oxytocin attenuates the pathological high anxiety state of selectively bred Wistar rats. Neuropharmacology, 58 (1), 56-61.
Smeltzer, M. D., Curtis, J. T., Aragona, B. J., & Wang, Z. (2006). Dopamine, oxytocin, and vasopressin receptor binding in the medial prefrontal cortex of monogamous and promiscuous voles. Neuroscience Letters, 394 (2), 146-151.
Strathearn, L., Iyengar, U., Fonagy, P., & Kim, S. (2012). Maternal oxytocin response during motherGÇôinfant interaction: Associations with adult temperament. Hormones and Behavior, 61 (3), 429-435.
Succu, S., Sanna, F., Cocco, C., Melis, T., Boi, A., Ferri, G. L. et al. (2008). Oxytocin induces penile erection when injected into the ventral tegmental area of male rats: role of nitric oxide and cyclic GMP. Eur.J.Neurosci., 28 (4), 813-821.EJN6385 [pii];10.1111/j.1460-9568.2008.06385.x [doi]
Takahashi, L. K. & Lore, R. K. (1982). Intermale and maternal aggression in adult rats tested at different ages. Physiology & Behavior, 29 (6), 1013-1018.
Tamashiro, K. L. K., Nguyen, M. M. N., & Sakai, R. R. (2005). Social stress: From rodents to primates. Frontiers in Neuroendocrinology, 26 (1), 27-40.
Tarr, R. S. (1977). Role of the amygdala in the intraspecies aggressive behavior of the iguanid lizard, Sceloporus occidentalis. Physiology & Behavior, 18 (6), 1153-1158.
Thurmond, J. B. (1975). Technique for producing and measuring territorial aggression using laboratory mice. Physiology & Behavior, 14 (6), 879-881.
Trainor, B. C., Sisk, C. L., & Nelson, R. J. (2009). 5 - Hormones and the Development and Expression of Aggressive Behavior. In W.P.Editors-in-Chief: Donald, P. A. Arthur, Susan E.Fahrbach, M. E. a. R. Anne, & T. R. Robert (Eds.), Hormones, Brain and Behavior (Second Edition) (pp. 167-205). San Diego: Academic Press.
Veinante, P. & Freund-Mercier, M. J. (1997). Distribution of oxytocin- and vasopressin-binding sites in the rat extended amygdala: a histoautoradiographic study. J.Comp Neurol., 383 (3), 305-325.10.1002/(SICI)1096-9861(19970707)383:3<305::AID-CNE3>3.0.CO;2-7 [pii]
Viero, C., Shibuya, I., Kitamura, N., Verkhratsky, A., Fujihara, H., Katoh, A. et al. (2010). REVIEW: Oxytocin: Crossing the bridge between basic science and pharmacotherapy. CNS.Neurosci.Ther., 16 (5), e138-e156.CNS185 [pii];10.1111/j.1755-5949.2010.00185.x [doi]
Viviani, D. & Stoop, R. (2008). Opposite effects of oxytocin and vasopressin on the emotional expression of the fear response. In D.N.a.R.Inga (Ed.), Progress in Brain Research
Vochteloo, J. D. & Koolhaas, J. M. (1987). Medial amygdala lesions in male rats reduce aggressive behavior: interference with experience. Physiology & Behavior, 41 (2), 99-102.
Vrachnis, N., Malamas, F. M., Sifakis, S., Deligeoroglou, E., & Iliodromiti, Z. (2011). The oxytocin-oxytocin receptor system and its antagonists as tocolytic agents. Int.J.Endocrinol., 2011 350546.10.1155/2011/350546 [doi]
Wang, Y., He, Z., Zhao, C., & Li, L. (2013). Medial amygdala lesions modify aggressive behavior and immediate early gene expression in oxytocin and vasopressin neurons during intermale exposure. Behavioural Brain Research, 245 (0), 42-49.
Wang, Z. & Aragona, B. J. (2004). Neurochemical regulation of pair bonding in male prairie voles. Physiology & Behavior, 83 (2), 319-328.
Wang, Z. & Young, L. J. (1997). Ontogeny of oxytocin and vasopressin receptor binding in the lateral septum in prairie and montane voles. Developmental Brain Research, 104 (1GÇô2), 191-195.
Windle, R. J., Shanks, N., Lightman, S. L., & Ingram, C. D. (1997). Central oxytocin administration reduces stress-induced corticosterone release and anxiety behavior in rats. Endocrinology, 138 (7), 2829-2834.
Yoshimura, R., Kimura, T., Watanabe, D., & Kiyama, H. (1996). Differential expression of oxytocin receptor mRNA in the developing rat brain. Neurosci.Res., 24 (3), 291-304.0168-0102(95)01003-3 [pii]
Young, K. A., Gobrogge, K. L., Liu, Y., & Wang, Z. (2011). The neurobiology of pair bonding: Insights from a socially monogamous rodent. Frontiers in Neuroendocrinology, 32 (1), 53-69.
Young, L. J., Lim, M. M., Gingrich, B., & Insel, T. R. (2001). Cellular Mechanisms of Social Attachment. Hormones and Behavior, 40 (2), 133-138.
Zagrodzka, J. & Fonberg, E. (1978). Predatory versus alimentary behavior after amygdala lesions in cats. Physiology & Behavior, 20 (5), 523-531.
Cómo citar
Florez Acevedo, S., & Cardenas Parra, L. F. (2017). Rol Modulador de la Oxitocina en la Interacción Social y el Estrés Social. Universitas Psychologica, 15(5). https://doi.org/10.11144/Javeriana.upsy15-5.rmoi
Número
Sección
Artículos