Subfornical organ efferents to neural systems for control of body water.
about
The subcommissural organMicroarray analysis of the transcriptome of the subfornical organ in the rat: regulation by fluid and food deprivationRole of circumventricular organs in pro-inflammatory cytokine-induced activation of the hypothalamic-pituitary-adrenal axis.Angiotensin II type 1a receptors in subfornical organ contribute towards chronic intermittent hypoxia-associated sustained increase in mean arterial pressure.An intact median preoptic nucleus is necessary for chronic angiotensin II-induced hypertensionInfluence of converting enzyme inhibition on the release of vasopressin induced by angiotensin.Autoradiographic localization of angiotensin II receptors in rat brainEfferent projections from the median preoptic nucleus to sleep- and arousal-regulatory nuclei in the rat brainThe roles of sensitization and neuroplasticity in the long-term regulation of blood pressure and hypertension.Mediation of osmoregulatory influences on neuroendocrine corticotropin-releasing factor expression by the ventral lamina terminalis.Transmitter interactions in the central cholinergic control of blood pressure regulation.Central angiotensin I increases swallowing activity and oxytocin release in the near-term ovine fetus.Angiotensin and NMDA receptors in the median preoptic nucleus mediate hemodynamic response patterns to stressAngiotensin II type 2 receptors have a major somatodendritic distribution in vasopressin-containing neurons in the mouse hypothalamic paraventricular nucleus.Thirst neurons anticipate the homeostatic consequences of eating and drinking.Circulating signals as critical regulators of autonomic state--central roles for the subfornical organ.The median preoptic nucleus: front and centre for the regulation of body fluid, sodium, temperature, sleep and cardiovascular homeostasis.Neuroendocrine Regulation of Hydromineral Homeostasis.Neurohumoral Integration of Cardiovascular Function by the Lamina Terminalis.Effect of Melanotan-II on Brain Fos Immunoreactivity and Oxytocin Neuronal Activity and Secretion in Rats.Subfornical organ neurons integrate cardiovascular and metabolic signals.Clarifying the Ghrelin System's Ability to Regulate Feeding Behaviours Despite Enigmatic Spatial Separation of the GHSR and Its Endogenous Ligand.Neural circuits underlying thirst and fluid homeostasis.Angiotensin and the lamina terminalis: illustrations of a complex unity.Brain angiotensin and circulatory control.Metabotropic glutamate receptors in median preoptic neurons modulate neuronal excitability and glutamatergic and GABAergic inputs from the subfornical organ.Agonist activation of cytosolic Ca2+ in subfornical organ cells projecting to the supraoptic nucleus.Angiotensin II induces inward currents in subfornical organ neurones of rats.The trajectory of sensory pathways from the lamina terminalis to the insular and cingulate cortex: a neuroanatomical framework for the generation of thirst.GABAB receptor modulation of rapid inhibitory and excitatory neurotransmission from subfornical organ and other afferents to median preoptic nucleus neurons.Mediation of dehydration-induced peptidergic gene expression in the rat lateral hypothalamic area by forebrain afferent projections.The Hypothalamic Preoptic Area and Body Weight Control.The neural basis of homeostatic and anticipatory thirst.A comparison of brain angiotensin II receptors during lactation and diestrus of the estrous cycle in the rat.Presynaptic alpha-adrenoceptors in median preoptic nucleus modulate inhibitory neurotransmission from subfornical organ and organum vasculosum lamina terminalis.Synaptic contact between median preoptic neurons and subfornical organ neurons projecting to the paraventricular hypothalamic nucleus.Fourth ventricle injection of ghrelin decreases angiotensin II-induced fluid intake and neuronal activation in the paraventricular nucleus of the hypothalamus.Control of neuronal excitability by an ion-sensing receptor (correction of anion-sensing)Neural Substrate Essential for Suppression of Vasopressin Secretion and Excretion of a Water Load.Hierarchical neural architecture underlying thirst regulation.
P2860
Q28270260-B5642BFB-9268-4617-B74E-829A244BB0A1Q28565582-329E33AB-AA62-4DC4-B6E6-236D965429C5Q34311135-C8A5E3AD-51D2-4EB7-9759-D1F127DA1DB1Q35138604-A5EEF8DB-1465-4B15-98BC-81BC578EE0F5Q36088174-D24BDAC5-6C14-493E-A15A-709678C539E9Q36096966-ABFE1FFC-AFB9-4C37-9AF2-8D9893F1D817Q36252451-336DF256-1311-4AAF-9325-3543A3389FF1Q36360698-358DC9A9-5B80-4080-B8EF-59D7BE43B3BCQ36422516-55F12556-B104-4CA2-8B29-E3FB0A41C604Q36484158-22A34FCD-08EA-4AEE-A470-765D3541DA2AQ36519297-25595B4A-8A89-45F6-BE61-7BA7E94E1083Q36982513-F0FB5BB6-AEEA-4890-BFF9-D7656DF43BF0Q37127358-92978994-BCC5-463C-BEFA-5596692DCFF3Q37340136-E6DED9EA-977B-4BF5-943B-F7757B4E4075Q37510631-43183835-341C-428A-907E-70309B80A99AQ37750134-F606E065-727E-4DAA-963D-67DC4194E94AQ38371044-2F1F4606-EBD6-4BF6-A338-4F2F1E54EB1BQ38542461-333F2064-EBBC-4D77-9516-748C44E7EE74Q38623987-E8EF9713-B11F-4179-A4BE-8BD5DC264DE1Q39068985-C3D564AB-768C-4330-8732-F00F05160C44Q39076935-FA52B6E1-4A12-4085-AF44-873B844776DBQ39250251-73A97761-201C-4274-85D6-602F0773183AQ39389069-73B2522E-F97C-41B9-88CB-A25AC054732EQ39571537-518E8208-4A94-4DE5-B7E7-F2A7AE62C7C7Q41107934-8411143F-1537-4652-9693-8D9170CDA6DEQ43216892-EAF16B5E-1AC2-49B3-BBFE-CF7F882CDE02Q43569521-FB4CB0C2-DD69-4A84-B085-895DB6A6DF01Q43644923-6B49EAE8-8A9D-4F90-AFE4-969DCC6A3045Q44686138-91C32CB6-E516-4F5F-AC82-F5F91E8A844EQ44770201-F382DC01-50A9-486E-BB91-7FA86FC7D6DEQ46356677-407735CA-E2A8-4523-8564-B47CCB1DCA5AQ47196319-125040B4-03D3-4E4C-A425-05119706BB38Q47307823-039E7CD3-0E67-43D7-8A69-2757DA44F1E6Q48114295-6FA1A8D3-D1A3-4E28-A828-80FD2E37CC5BQ48312467-F26C52CD-6AE8-4D60-BFDC-773BEA3CF2AAQ48364561-A6F4DA78-EA45-47BE-A4DC-A90844D2CC0AQ48420038-2DF3B9ED-FD1F-442D-A5C0-4F1F50D39914Q50109389-BF91677D-733C-4B94-8410-6372D6AB0E70Q50553218-A5FC4182-C3B2-4824-BD7D-856F3AB89BB2Q51557195-6DB5AFB0-2DF7-45EC-9BB6-B448D49D1C16
P2860
Subfornical organ efferents to neural systems for control of body water.
description
1979 nî lūn-bûn
@nan
1979年の論文
@ja
1979年論文
@yue
1979年論文
@zh-hant
1979年論文
@zh-hk
1979年論文
@zh-mo
1979年論文
@zh-tw
1979年论文
@wuu
1979年论文
@zh
1979年论文
@zh-cn
name
Subfornical organ efferents to neural systems for control of body water.
@en
type
label
Subfornical organ efferents to neural systems for control of body water.
@en
prefLabel
Subfornical organ efferents to neural systems for control of body water.
@en
P2093
P356
P1433
P1476
Subfornical organ efferents to neural systems for control of body water.
@en
P2093
P304
P356
10.1126/SCIENCE.472723
P407
P577
1979-09-01T00:00:00Z