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.