Neurobiologiczne znaczenie oksytocyny u ludzi i zwierząt

• Autorzy: Kania B. F. , Wronska D. , Blachut M.

Warianty tytułu

EN

Neurobiology of oxytocin in humans and animals

• Języki publikacji: PL

Abstrakty

EN

Słowa kluczowe

PL

czlowiek; zwierzeta; neurobiologia; hormony podwzgorza; oksytocyna; funkcje

• Wydawca: -
• Czasopismo: Życie Weterynaryjne
• Rocznik: 2014
• Tom: 89
• Numer: 07
• Opis fizyczny: s.583-587,bibliogr.

Twórcy

autor

Kania B. F.

• Uniwersyteckie Centrum Medycyny Weterynaryjnej Uniwersytet Jagielloński-Uniwersytet Rolniczy w Krakowie, Kraków

autor

Wronska D.

• Wydział Hodowli i Biologii Zwierząt, Uniwersytet Rolniczy w Krakowie, Kraków

autor

Blachut M.

• Wydział Hodowli i Biologii Zwierząt, Uniwersytet Rolniczy w Krakowie, Kraków

Bibliografia

• 1. Rinaman L., Sherman T.G., Stricker M.: Vasopressin and oxytocin in the control nervous system. W: F.E. Bloom, D.J.Kupfer (edit.). Psychopharmacology-The Fourth Generationof Progress. Raven Press, Ltd., New York 1995.
• 2. Yu Q., Ji R., Gao X., Fu J., Guo W., Song X., Zhao X., Burstock G., Shi X., He C., Xiang Z.: Oxytocin is expressed byboth intrinsic sensory and secretomotor neurons in the entericnervous system of guinea pig. Cell Tissue Res. 2011,PMID21437658 (http://sch.lar.qsensei.com/content/1q0f69).
• 3. Churchland P.S., Winkielman P.: Modulating social behavior with oxytocin: how does it work? What does it mean? Horm. Behav. 2012, 61, 392–399.
• 4. Scantamburlo G., Ansseau M., Geenen V., Legros J.J.: Oxytocin: from milk ejection to maladaptation in stress response and psychiatric disorders. A psychoneuroendocrine perspective. Ann. D’Endocrinol. 2009, 70, 449–454.
• 5. Yamashita M., Takayanagi Y., Yoshida M., Nishimori K., Kusama M., Onaka T.: Involvement of prolactin releasing peptidein activation of oxytocin neurons in response to food intake.J. Neuroendocrinol. 2013, Jan 31.doi:10.1111/jne,12019.
• 6. Linneen S.K., Benz J.M., Dritz S.S., De Rouchey J.M., Goodband R.D., Tokach M.D.: A review of oxytocin use for sowsand gilts. (http://asi.ksu.edu/doc 3821.ashx).
• 7. Bales K.L., Perkeybile A.M.: Developmental experiences and the oxytocin receptor system. Horm. Behav. 2012, 61, 313–319.
• 8. Bosh O.J., Sartor S.B., Singewald N., Neumann I.D.: Extracellular amino acid levels in the paraventricularnucleus and the central amygdala in high- and low--anxiety dams rats during maternal aggression: regulationby oxytocin. Stress 2007, 10, 261–270.
• 9. McDonald K., McDonald T.M.: The peptide that binds: a systematic review of oxytocin and its prosocial effects in humans. Harv. Rev. Psychiatry 2010, 18, 1–21.
• 10. Stiepens N., Kendrick K.M., Maier W., Hurlemann R.: Prosocial effects of oxytocin and clinical evidence for its therapeuticpotential. Front Neuroendocrinol. 2011, 32, 426–450.
• 11. Meyre-Lindenberg A., Domes G., Kirsch P., Heinrischs M.: Oxytocin and vasopressin in the human brain: social neuropeptidesfor translational medicine. Neurosci. 2011, 12, 524–538.
• 12. Wojciak P., Remmlinger-Molenda A., Rybakowski J.: The role of oxytocin and vasopressin in central nervous system activityand mental disorders. Psychiat. Pol. 2012, 46, 1043–1052.
• 13. Qi J., Wang L.H., Yang J.Y., Wu C.F.: Effect of oxytocin on changes of N-methyl-D-aspartate receptor 1 expression in prefrontalcortex and hippocampus of mice induced by methamphetamine.J. Shenyang Pharm. Univ. (Chinese) 2008, 25, 825–830.
• 14. Babygirija R., Zheng J., Ludwig K., Takahashi T.: Central oxytocin is involved in restoring impaired gastric motilityfollowing repeated stress in mice. Am. J. Physiol. Regul. Integr.Comp. Physiol. 2010, 298, R157–65.
• 15. Cohen H., Kaplan Z., Kozlovsky N., Gidron Y., Matar M.A., Zohar J.: Hippocampal microinfusion of oxytocin attenuatesthe behavioural response to stress by means of dynamic interplaywith the glucocorticoid-catecholamine responses. J.Neuroendocrinol. 2010, 22, 889–904.
• 16. Onaka T.: Neural pathways controlling central and peripheral oxytocin release during stress. J. Neuroendocrinol. 2004, 16, 308–312.
• 17. Onaka T., Takayanagi Y., Yoshida M.: Role of oxytocin neurons in the control of stress, energy metabolism, and social behaviour. J. Neuroendocrinol. 2012, 24, 587–598.
• 18. Bale T.L., Dorsa D.M.: Transcriptional regulation of the oxytocin receptor gene. Adv. Exp. Med. Biol. 1998, 449, 307–315.
• 19. Insel T.R.: The challenge of translation in social neuroscience: A review of oxytocin, vasopressin, and affiliative behavior.Neuron 2010, 65, 768–779.
• 20. Hara Y., Battey J., Gainer H.: Structure of mouse vasopressin and oxytocin genes. Brain. Res. 1990, 8, 319–324.
• 21. Sausville E., Carney D., Battey J.: The human vasopressin gene is linked to the oxytocin gene and is selectively expressed in a cultured lung cancer cell line. J. Biol. Chem. 1985, 260, 10236–10241.
• 22. Gimpl G., Fahrenholtz F.: The oxytocin receptor system: structure, function and regulation. Physiol. Rev. 2001, 81,629–83.
• 23. Krueger F., Parasuraman R., Iyenger V., Thornburg M., Weel J., Lin M., Clarke E., McCabe K., Lipsky R.H.: Oxytocin receptorgenetic variation promotes human trust behavior.Frontiers in Human Nerosci. (2012), www.ncbi.nlm. nih.gov./ pmc / articles /PMC3270329
• 24. Pobbe R.L., Pearson B.L., Blanchard D.C., Blanchard R.J.: Oxytocin receptor and Mecp2 308 Y knockout mice exhibit altered expression of autism-related social behaviors. Physiol. Behav. 2012, 61, 436–444.
• 25. Truedsson M., Carlson J., Simren M., Ohlsson B.: Polymorphism in the oxytocin promoter region in patients with lactase non-persistence is not related to symptoms. BMC Gastroenterol. 2009, www.biomedcentral.com/1471–230X/9/90
• 26. Levin R., Edelman S., Shalev I., Ebstein P., Heresco-Levy U.: The role of oxytocin in neuropsychiatric disorders: conceptsand mechanisms. W: M.S. Ritner (wyd.). Brain Protectionin Schizophreania, Mood and Cognitive Disorders. SpringerScience + Bisness, Media B.V. 2010, 611–634.
• 27. Knobloch H.S., Charlet A., Hoffman L.C., Eliava M., Khrulev S., Cetin A.H., Osten P., Schwartz M.K., Seeburg P.H., Stoop R., Grinevich V.: Evoked axonal oxytocin release in the central amygdala attenuates fear response. Nuron 2012,73, 553–566.
• 28. Bethelehem R.A., van Honk J., Auyeung B., Baron-Cohen S.: Oxytocin, brain physiology, an functional connectivity:A review of intranasal oxytocin fMRI studies. Psychoneuroendocrinol.(2012), http://dx.doi.org/10.1016/j.psyneuen.2012.10.011
• 29. Poletini M.O., McKee D.T., Szawka R.E., Bertram R., Helena C.V., Freeman M.E.: Cervical stimulation activates A1 and locus coeruleus neurons that project to the paraventricularis nucleus of the hypothalamus. Brain Res. Bull. 2012, 88,566–573.
• 30. Arletti R., Benelli A., Poggioli R., Luppi P., Menozzi B., Bertolini A.: Aged rats are still responsive to the antidepressantand memory-improving effects of oxytocin. Neuropeptides1995, 29, 177–182.
• 31. Blackburn R.E., Samson W.K., Fulton R.J., Stricker E.M., Verbalis J.G.: Central oxytocin and ANP receptors mediateosmotic inhibition of salt appetite in rats. Am. J. Physiol.Regulatory Integrative Comp. Physiol. 1995, 269, R245–251.
• 32. Conrad K.P., Gellai M., North W.G., Waltin H.: Influence of oxytocin on renal hemodynamics and sodium excretion.Ann. NY Acad. Sci. 1993, 689, 346–62.
• 33. Lefebvre L., Viville S., Barton S.C., Ishino F., Keverne E.B., Surani M.A.: Abnormal maternal behaviour and growth retardation associated with loss of the imprinted gene Mest. Nat. Genet. 1998, 20, 163–169.
• 34. Fuchs A.R., Fields M.J., Freidman S., Shemesh M., Ivell R.: Oxytocin and the timing of parturition. Influence of oxytocingene expression, oxytocin secretion, and oxytocin inducedprostaglandin F2α and E2 release. Adv. Exp. Med. Biol. 1995,395, 405–420.
• 35. Ivell R., Rust W., Einspanier A., Hartung S., Fields M., Fuchs A.R.: Oxytocin and oxytocin receptor gene expression in the reproductive tract of the pregnant cow: rescue of luteal oxytocin production at term. Biol. Reprod. 1995, 53, 553–560.
• 36. Okuda K., Uenoyama Y., Fujita Y., Iga K., Sakamoto K., Kiura T.: Functional oxytocin receptors in the bovine granulosecells. Biol. Reprod. 1997, 56, 625–631.
• 37. Zingg H.H., Rozen F., Breton C., Larcher A., Neculcea J., Chu K., Russo C., Arslan A.: Gonadal steroid regulation ofoxytocin and oxytocin gene expression. Adv. Exp. Med. Biol.1995, 395, 395–404.
• 38. Pitzel L., Jarry H., Wuttke W.: Demonstration of oxytocin receptors in porcine corpora lutea: effects of the cycle stageand the distribution on small and large luteal cells. Biol.Reprod. 1993, 48, 640–646.
• 39. Wuttke W., Jarry H., Knoke I., Pitzel L., Spiess S.: Luteotropic and luteolytic effects of oxytocin in the porcine corpusluteum. Adv. Exp. Med. Biol. 1995, 395, 495–506.
• 40. Bathgate R.A., Sernia C., Gemmeli R.T.: Arginine vasopressin- and oxytocin-like peptides in the testis of two Australianmarsupials. Peptides 1993, 14, 701–5.
• 41. Nicholson H.D., Jenkin L.: Oxytocin and prostatic function. Adv. Exp. Med. Biol. 1995, 395, 529–38.
• 42. Nicholson H.D., Hardy M.P.: Luteinizing hormone differentially regulates the secretion of testicular oxytocin and testosteroneby purified adult rat Leydig cells in vitro. Endocrinology1992, 130, 671–617.
• 43. Frayne J., Nicholson H.D.: Localization of oxytocin receptors in the human and macaque monkey male reproductiontracts: evidence for a physiological role of oxytocin inthe male. Mol. Hum. Reprod. 1998, 4, 527–532.
• 44. Bodanszky M., Sharaf H., Roy J.B., Said S.I.: Contractile activity of vasotocin, oxytocin and vasopressin on mammalianprostate. Eur. J. Pharmacol. 1992, 216, 311–313.
• 45. Nicholson H.D.: Oxytocin: a paracrine regulator of prostatic function. Rev. Reprod. 1996, 1, 69–72.
• 46. McNelly A.S., Robinson I.C., Houston M.J., Hoowie P.W.: Release of oxytocin and prolactin in response to suckling. Br. Med. J. Clin. Res. 1983, 286, 257–259.
• 47. Nishimori K., Young L.J., Guo Q., Wang Z., Insel T.R., Matzuk M.M.: Oxytocin in required for nursing but is not essentialfor parturition or reproductive behavior. Proc. Natl.Acad. Sci. USA 1996, 93, 11699–116704.
• 48. Bruckmaier R.M., Schams D., Blum J.W.: Continuously elevated concentrations of oxytocin during milking are necessaryfor complete milk removal in dairy cows. J. Dairy Res.1994, 61, 323–334.
• 49. Pettibone D.J., Woyden C.J., Totaro J.A.: Identification of functional oxytocin receptors in lactating rat mammarygland in vitro. Eur. J. Pharmacol. 1990, 188, 235–241.
• 50. Solof M.S., Wieder M.H.: Oxytocin receptors in rat involuting mammary glands. Can. J. Biochem. Cell Biol. 1983, 61, 631–63551. Lundin S.S., Kreider D.L., Rorie R.W., Hardesty D., MitchellM.D., Koike T.I.: Characterization of porcine endometrial,myometrial, and mammary oxytocin binding sites during gestation and labor. Biol. Reprod. 1996, 55, 575–581.
• 52. Kimura T., Ito Y., Einspanier., Tohya K., Nobunaga T., Tokugawa Y., Takemura M., Kubota Y., Ivell R., Matsuura N.,Saji F., Murata Y.: Expression and immunolocalization of th oxytocin receptor in human lactating and non-lactating