SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

ANTUNES, V.R. et al. Role of angiotensin II and vasopressin receptors within the supraoptic nucleus in water and sodium intake induced by the injection of angiotensin II into the medial septal area. Braz J Med Biol Res [online]. 1998, vol.31, n.12, pp. 1597-1600. ISSN 1414-431X.  http://dx.doi.org/10.1590/S0100-879X1998001200013.

    1. Reid JA (1988). Actions of angiotensin II on the brain: mechanisms and physiological role. American Journal of Physiology, 246: F533-F543.

    [ Links ]

    2. Szczpanska-Sadowska E, Sobocineska J & Sadowski B (1982). Central dipsogenic effect of vasopressin. American Journal of Physiology, 242: R372-R379.

    [ Links ]

    3. Jhamandas JH, Lind RW & Renaud LP (1989). Angiotensin II may mediate excitatory neurotransmission from the subfornical organ to the hypothalamic supraoptic nucleus: an anatomical and electrophysiological study in the rat. Brain Research, 487: 52-61.

    [ Links ]

    4. Okuya S, Inenaga K, Kaneko T & Yamashita H (1987). Angiotensin II sensitive neurons in the supraoptic nucleus, subfornical organ and anteroventral third ventricle of rats in vitro. Brain Research, 402: 58-67.

    [ Links ]

    5. Yang CR, Phillips MI & Renaud LP (1992). Angiotensin II receptor activation depolarizes rat supraoptic neurons in vitro. American Journal of Physiology, 263: R1333-R1338.

    [ Links ]

    6. Simonnet G, Bioulac B, Rodriguez F & Vincent JD (1980). Evidence of a direct action of angiotensin II on neurones in the septum and in the medial preoptic area. Pharmacology, Biochemistry and Behavior, 13: 359-363.

    [ Links ]

    7. Poulain DA, Lebrun CJ & Vincent J (1981). Electrophysiological evidence for connections between septal neurons and the supraoptic nucleus of the hypothalamus of rat. Experimental Brain Research, 42: 260-268.

    [ Links ]

    8. Paxinos G & Watson C (1986). The Rat Brain in Stereotaxic Coordinates. Academic Press, San Diego.

    [ Links ]

    9. Thunhorst RT & Johnson AK (1994). Renin-angiotensin, arterial pressure, and salt appetite in rats. American Journal of Physiology, 266: R458-R465.

    [ Links ]

    10. Tsutsumi K & Saavedra JM (1991). Characterization and development of angiotensin II receptor subtypes (AT1 and AT2) in rat brain. American Journal of Physiology, 261: R209-R216.

    [ Links ]

    11. Mousseau MC, Thornton SN, Martial FP, Lienard F & Nicolaids S (1996). Neuronal responses to iontophoretically applied angiotensin II, losartan and aldosterone, as well as gustatory stimuli, in non-anesthetized control and desoxycorticosterone acetate-pretreated rats. Regulatory Peptides, 66: 51-54.

    [ Links ]

    12. Dorsa DM, Brot MD, Shewey LNM, Myers KM, Szot P & Miller MA (1988). Interaction of a vasopressin antagonist with vasopressin receptors in the septum of the rat brain. Synapse, 2: 205-211.

    [ Links ]

    13. Poulain P, Lederis K & Pittman OJ (1988). Subcellular localization and characterization of vasopressin binding sites in the ventral septal area, lateral septum and hypocampus of the rat brain. Journal of Neurochemistry, 50: 889-898.

    [ Links ]

    14. Swank MW & Dorsa DM (1991). Chronic treatment with vasopressin analogues alters affinity of vasopressin in the septum and amygdala of the rat brain. Brain Research, 544: 342-344.

    [ Links ]

    15. Renaud LP & Bourque CW (1991). Neurophysiology and neuropharmacology of hypothalamic magnocellular neurons secreting vasopressin and oxytocin. Progress in Neurobiology, 36: 131-169.

    [ Links ]

    16. Richard P, Moos F & Freund-Mercier MJ (1991). Central effects of oxytocin. Physiological Reviews, 71: 331-370.

    [ Links ]

    17. Ferguson AV, Bourque CW & Renaud LP (1985). Subfornical organ and supraoptic nucleus connections. American Journal of Physiology, 249: R214-R218.

    [ Links ]