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1989 | 40 | 3 |

Tytuł artykułu

The role of basal forebrain norepinephrine and the control of extracellular depletion-induced drinking

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

Słowa kluczowe

Wydawca

-

Rocznik

Tom

40

Numer

3

Opis fizyczny

p.282-292,fig.,ref.

Twórcy

autor
  • Departments of Psychology and Pharmacology and the Cardiovascular Center, University of Iowa, Iowa City, USA
  • Departments of Psychology and Pharmacology and the Cardiovascular Center, University of Iowa, Iowa City, USA

Bibliografia

  • 1. Bellin, S. I., Bhatnagar, R. K., Johnson, А. K. (1987a) Periventricular noradrenergic systems are critical for angioensin-induced drinking and blood pressure responses. Brain Res. 493. 106- 112.
  • 2. Bellin, S. I., Landas, S.K. Johnson, A. K. (1987b) Localized injections of 6-hydro- xydopamine into lamina terminalis-associated structures: effects on experimentally induced drinking and pressor responses. Brain Res. 416. 75-83.
  • 3. Bellin, S. I., Landas, S. ,K., Johnson, A. K. (1987) Selective catecholamine depletion of structures along the ventral lamina terminalis: Effects on experimentally-induced drinking and pressor responses (submitted for publication).
  • 4. Brody, M. J., Johnson, А. К. (1989) Role of the anteroventral third ventricle (AV3V) region in fluid and electrolyte balance, arterial pressure regulation, and hypertension. In: Frontiers in Neuroendoerinology, eds L. Martini, W. P. Ganong, Raven Press.
  • 5. Brooks, D. P., Share, L., Crofton, J. T. (1996) Central adrenergic control of vasopressin release. Neuroendoerinology 42. 416-420.
  • 6. Buggy, J. A., Johnson, A. K. (1978) Recovery of feeding tin rats following frontal neocortical ahlations. Brain Res. 149. 117-128.
  • 7. Cunningham, J. T., McGinity, K., Korby, R. F., Johnson, A. K. (1987) Decreases in AV3V norepinephrine content produce drinking response defficits to angiotensin II (ANG II). Fed. Proc. 46. 1235.
  • 8. Day, T. A., Ferguson, A. V., Renaud, L. P. (1984) Fadlitatory influence of noradrenergic afferente on the excitability of trait paraventricular nucleus neurosecretory cells, J, Physiol. 356. 237-249.
  • 9. Day, T. A., Renaud, L. P. (1984) Electrophysiological evidence that noradrenergic afferents selectively facilitate the activity of supraoptic vasopressin neurons. Brain Res. 303. 233-240.
  • 10. Day, T. A., Randle, J. C. R., Renaud, L. P. (1985) Opposing alpha- and beta-adrenergic mechanisms mediate dose-dependent actions of noradrenaline on supraoptic vasopressin neurons in vivo. Brain Res. 358. 171-179.
  • 11. Elam, M., Svensson, T. H., Thoren, P. (1985) Differentiated cardiovascular afferent regulation of the locus coeruleus neurons and sympathetic nerves. Brain Res. 358. 77-84.
  • 12. Fitzsimons, J. T. (1972) Thirst. Physiol. Rev. 52. 468-561.
  • 13. Fditzsimons, J. (1987) Angiotensin-induced effects on circum ventricular organs: Historical review and synopsis. In: Circumventricuiar Organs and Body Fluids.Vol.. III, ed. P. M. Gross, pp. 183-191. CRC Press, Inc. Boca Raton, Florida.
  • 14. Gordon, F. J., Brody, M. J., Johnson, A. K. (1979) Regional depletion of central nervous system catecholamines: Effects on blood pressure and drinking behavior. Brain Res. 178. 161-173.
  • 15. Gordon, F. J., Brody, M. J., Johnson, A. K. (1985) Regional depletion of central nervous system catecholamines: Effects on blood pressure and drinking behavior. Brain Res. 345. 285-297.
  • 16. Gray, T. S., Cassell, M. D., Williams, T. H., Lind, R. W., Johnson, A. K. (1982) The subfornical organ-median preoptiic pathway: Evidence suggesting that an AII-like substance may be a neurotransmitter tin this projection. Soc. Neurosci. Abstr. 8. 902.
  • 17. Henk, J. L. M,, Wijnen, E., DeKloet, R., Versteeg, D. H. G., DeJong, W. (1978) Differences in regional brain catecholamine metabolism after a decrease in blood pressure. Life Sci. 23. 2587-2592.
  • 18. Johnson, A. (1932) The neurobiology of the periventricular tissue surrounding the anteroventral third ventricle (AV3V) and its role in behavior, fluid balance, and cardiovascular control. In: Circulation, Neurobioldgy and Behavior,eds. O. A. Smith, R. A. Galosy, S. M. Weiss, Elsevier.
  • 19. Johnson, A. K. (1985a) The periventricular anteroventral Third Ventricle (AV3V). Its relationship with the subfornical organ and neural systems involved in maintaining body fluid homeostasis. Brain Res. Bull. 15. 596-601.
  • 20. Johnson, A. K. (1935b) The role off the periventricular tissue of the anteroventral third ventricle (AV3V) in the regulation of body fluid homeostasis. In: Vasopressin, ed. R. W. Schrier, Raven Press.
  • 21. Johnson, A. K., Buggy, J. (1977) A critical analysis of the site of action for the dipsogenic effect of angiotensin II. In: Central Action of Angiotensin and Related Hormones, eds. J. P. Buckley, C. Ferrarto, M. F. Lokhandwala. Pergamon Press.
  • 22. Johnson, A. K., Buggy, J. (1978) Periventricular preoptic-hypothalamus is vital for thirst and normal water economy. Am. J. Physiol. 234. R122-R129.
  • 23. Johnson, A. К., Cunningham, J. T. (1987) Brain mechanisms and drinking: The role of lamina terminalis-associated systems in extracellular thirst. Kidney Internat. Suppl. 21, 32. S35-S42.
  • 24. Kimura, T., Share, L., Wang, В. C., Crofton, J. T. (1981) The role of central adrenoceptors in the control vasopressin release and blood pressure. Endocrinology 108. 1829-1836.
  • 25. Lind, R. W., Van Hoesen, G. W., Johnson, А. K. (1982) An HRP study of the connections of the subfornical organ of the rat. J. Comp. Neurol. 210. 265-277.
  • 26. Lind, R. W., Johnson, A. K. (1982a) Central and peripheral mechanisms, mediating angiotensin-induced thirst. In: Brain Renin-Angiotensin. Experimental Brain Research, Suppl. 4, ed. D. Ganten, Springer Verlag, Berlin.
  • 27. Lind, R. W., Johnson, A. K. (1982b) Shbfoimiical organ-median preoptic connections and drinking and pressor responses to angiotensin II. J. Neurosci. 2. 1043-1051.
  • 28. Lind, R. W., Swanson, L. W., Ganten, D. (1984) Angiotensin II immuno-reactivity in the neural afferentis of the subfornical organ of the rat. Brain Res. 321. 209-215.
  • 29. Lynch, K. R., Hawelu-Johnson, C. L., Guyenet, P. G. (1987) Localization of brain angiot ensin ogen mRNA by hybridization. Histochemistry 2. 149-138.
  • 30. McAllen, R. M., Blessing, W. W. (1987) Neurons (presumably Al-cells) projecting from the caudal ventrolateral medulla to the region of the supraoptic nucleus respond to fbaroreceptor inputs in the rabbit. Neurosci. Lett. 73. 247-252.
  • 31. McRae-Deguerce, A., Cunningham, J. T., Bellin, S., Landes, S., Wilkin, L., Johnson,, A. K. (1987) Fetal noradrenergic cell suspensions transplanted .'into amine-depleted nuclei of adult rats. Reprinted from Vol. 4915, Annals of the New York Academy of Siences.
  • 32. McRae-Degueurce, A., Bellin, S. L, Landas, S. K., Johnson, A. K. (1936) Fetal noradrenergic transplants into amine-depleted basal forebrain nuclei restore drinking to angiotensin. Brain Res. 374. 162-166.
  • 33. Miselis, R., Shapiro, R. E., Hand, P. (1979) Subfornical organ efferents to neural systems for control »of body water. Science 7. 1022-1025.
  • 34. Miselis, R. R. (1981) The efferent projections of the subfornical organ of the rat: A circumventricular organ within a neural network subserving water balance. Brain Res. 230. 1-12.
  • 35. Moore, S. D., Guyenet, P. G. (1983) Effect of blood pressure and clonidine on the activity of A2 noradrenergic neurons. Soc. Neurosci. Abst. 4, 9. 549.
  • 36. Nelson, D. O., Johnson, A. K. (1985) Subfornical organ projections to nucleus medianus: Electrophysiological evidence for angiotensin II synapses. Fed. Proc. 44. 1010.
  • 37. Philippu, A., Dietl, H., Eilsert, A. (1981) Hypotension alters the release of catecholamines in the hypothalamus of the conscious rabbit. Eur. J. Pharm. 69. 519-523.
  • 38. Plunkett, L. M., Shigematsu, K., Kurihara, M., Saavedra, J. M. (1987) Localization of angiotensin II receptors along the anterioventral third ventricle area of the rat brain. Brain Res. 405. 205-212.
  • 39. Qualy, J. M., Westfall, T. C. (1986) Soc. Neurosci. Abstr. Vol. 12, part 2. 1154.
  • 40. Quintin, L., Gillon, J. Y., Ghignone, M,, Renaud, B., Pujol, J. F. (1987) Baroreflexed-linked variations of catecholamine metabolism in the caudal ventrolateral medulla,an in vivo electrochemical study. Brain Res. 425. 319-335.
  • 41. Randle, J. C. R., Mazurek, M., Kneifel, D., Dufresne, J., Renaud, L. P. (1986) Alpha adrenergic receptor activation releases vasopressin and oxytocin from perfused rat hypothalamic explants. Neurosci. Lett. 65. 219-223.
  • 42. Saper, С. В., Reis, D. J., Joh, T. (1983) Medullary catedholaimine inputs to the lanteroventral third ventricular cardiovascular regulatory region in the rat. Neurosci. Lett. 42. 285-291.
  • 43. Sawchenko, P. E., Swanson, L. W. (1982) The organization of the noradrenergic pathways from the brainstem to the paraventricular and supraoptic nuclei in the rat. Brain Res. Reviews 4. 275-325.
  • 44. Schmidt, R. H., Bjorklund, A., Stenevi, U. (1981) Intracerebral grafting of dissociated CNS tissue suspensions: a new approach for neuronal transplantation to deep brain sites. Brain Res. 218. 347-356.
  • 45. Shrager, E. E. (1981) The contribution of periventricular structures of the lamina terminaliis to the «control of thirst. Ph. D. Dissertation, Uniivereslty of Iowa, Iowa City, I A.
  • 46. Simpson, J. B., Routtenberg, A. (1973) Subfotroical organ: Site of drinking elicited by angiotensin II. Science 181. 1172-1175.
  • 47. Simpson, J. B., Epstein, A. N., Camargo, J. S. Jr. (1978) Localization of receptors for the dipsogeuic action of angiotensin II in the subfornical organ of rat. J. Comp. Physiol. Psychology 92. 531-601.
  • 48. Sinha, J. N., Dietl, H., Philippu, A. (1980) Effect of a fall of blood pressure on the release of catecholamines in the hypothalamus. Life Sciences 26. 1751-1760.
  • 49. Striker, E. M., Zigmond, M. J. (l976) Recovery of function after damage to central cateclrolamine-containing neurons: a neurochemicat model for the lateral hypothalamic syndrome, In: Progress in Psychobiology and Physiological Psychology, eds J. M. Sprague, A. N. Epstein, pp. 121-183, Academic Press.
  • 50. Wilkin, L. D., Patel, K. P., Schmid, P. G., Johnson, A. K. (1987) Increased norepinephrine turnover in the median preoptic nucleus following reduced extracellular fluid volume. Brain Res. 423. 369-372.
  • 51. Willoughby, J. D., Jervois, P. M., Mendue, M. F., Blessing, W. W. (1937) Noradrenaline release by activation of alpha-adrenoceptors in the region of the supraoptic nucleus causes secretion of vasopressin in the unanesthetized rat. Neuroendocrin. 45. 219-226.

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Bibliografia

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Identyfikator YADDA

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