Chapter
CHAPTER 3. ANGIOTENSIN ANTAGONISTS
CHAPTER 4. ANGIOTENSIN I CONVERTING ENZYME ACTIVITY IN THE CHOROID PLEXUS AND IN THE RETINA
CHAPTER 5. PEPTIDE REGULATION OF NEURONAL EXCITABILITY: EVIDENCE FOR A NEUROHORMONAL ROLE
Vertebrate Peptide Effects on Invertebrate Neurons
Structure Activity Study and Naturally Occurring Peptides
Consequences of Peptide Effects
CHAPTER 6. MECHANISMS INVOLVED IN CHANGES OF BLOOD PRESSURE ELICITED BY HYPOTHALAMIC STIMULATION
CHAPTER 7. RENIN SUBSTRATE IN THE CNS: POTENTIAL SIGNIFICANCE TO CENTRAL REGULATORY MECHANISMS
CHAPTER 8. ANGIOTENSIN AND SYMPATHETIC ACTIVITY
CHAPTER 9. EFFECTS OF ANGIOTENSIN-II AND ANGIOTENSIN-III ON CATECHOLAMINE BIOSYNTHESIS
CHAPTER 10. HUMORAL KIDNEY MEDIATION OF ADRENAL CATECHOLAMINE RESPONSE TO HEMORRHAGE
CHAPTER 11. THE ROLE OF EFFERENT AND AFFERENT RENAL NERVES IN THE RELEASE OF RENIN IN THE CAT
Renin Release from Innervated and Denervated Kidneys During Suprarenal Aortic Stenosis
Stimulation of Afferent Renal Nerves and Release of Renin
Discussion and Conclusions
CHAPTER 12. RENAL ADRENERGIC EFFECT OF ANGIOTENSIN
CHAPTER 13. PHYSIOLOGIC EFFECTS OF THE RENIN-ANGIOTENSIN SYSTEM ON SYMPATHETIC NERVOUS SYSTEM ACTIVITY IN THE CONSCIOUS DOG
CHAPTER 14. A CENTRAL SITE OF ACTION OF ANGIOTENSIN II AND ITS POSSIBLE ROLE IN THE CENTRAL REGULATION OF THE CARDIOVASCULAR SYSTEM
CHAPTER 15. A TECHNIQUE FOR DETERMINING THE SITE OF ACTION OF ANGIOTENSIN AND OTHER HORMONES IN THE BRAIN STEM
CHAPTER 16. THE REGULATION OF VASOMOTOR CENTRE ACTIVITY BY ANGIOTENSIN
CHAPTER 17. SYSTEMS ANALYSIS OF CNS/ANGIOTENSIN INTERACTION
The Implication of Angiotensin/CNS interaction
CHAPTER 18. DIRECT AND CENTRALLY MEDIATED CARDIOVASCULAR ACTIVITY OF ANGIOTENSIN III
CHAPTER 19. INTERACTION OF ANGIOTENSIN II WITH CENTRAL ADRENERGIC RECEPTORS
CHAPTER 20. FURTHER STUDIES ON CENTRALLY MEDIATED HEMODYNAMIC EFFECTS OF ANGIOTENSIN II IN ANESTHETIZED CATS
CHAPTER 21. STUDIES ON THE INTERACTION OF CLONIDINE WITH THE HYPERTENSIVE ACTIVITY OF ANGIOTENSIN II
CHAPTER 22. PRESENCE AND SIGNIFICANCE OF ANGIOTENSIN IN CEREBROSPINAL FLUID
CHAPTER 23. IMMUNOPHARMACOLOGY OF ANGIOTENSIN I IN BRAIN
CHAPTER 24. HYPOTHALAMIC STIMULATION OF ADH RELEASE BY ANGIOTENSIN II
CHAPTER 25. INTERACTIONS AND PROPERTIES OF SOME COMPONENTS OF THE RENIN-ANGIOTENSIN SYSTEM IN BRAIN
Effects of Centrally Administered Renin
Effect of Intraventricular Renin on CSF Angiotensin II Concentration
Components of the Renin-Angiotensin System in Brain
CHAPTER 26. INHIBITORS OF THE RENIN-ANGIOTENSIN SYSTEM IN RATS WITH MALIGNANT AND SPONTANEOUS HYPERTENSION: COMPARATIVE ANTIHYPERTENSIVE EFFECTS OF CENTRAL VS. PERIPHERAL ADMINISTRATION
CHAPTER 27. EVIDENCE FOR A POTENTIATING EFFECT OF CIRCULATING ANGIOTENSIN IN THE OSMOTICALLY STIMULATED INCREASE IN PLASMA ANTIDIURETIC HORMONE CONCENTRATION
The Role of the Renin-Angiotensin System in the Hemorrhage Induced Release of Antidiuretic Hormone
Increases in Circulating Angiotensin II and Plasma ADH Concentration
The Role of Plasma Osmolality in the Stimulation of ADH by the Renin-Angiotensin System
Site of Action of Circulating Angiotensin II in the Stimulation of ADH
CHAPTER 28. THE ROLE OF ADH IN THE PRESSOR RESPONSE TO INTRAVENTRICULAR ANGIOTENSIN II
CHAPTER 29. DRINKING ELICITED BY ANGIOTENSIN OR HYPEROSMOTIC STIMULATION OF THE RAT ANTERO-VENTRAL THIRD VENTRICLE: SINGLE OR SEPARATE NEURAL SUBSTRATES?
CHAPTER 30. SENSITIVE SITES IN THE BRAIN FOR THE BLOOD PRESSURE AND DRINKING RESPONSES TO ANGIOTENSIN II
CHAPTER 31. A CRITICAL ANALYSIS OF THE SITE OF ACTION FOR THE DIPSOGENIC EFFECT OF ANGIOTENSIN II
The Brain as the Site of Action for the Dipsogenic Effect of Peripheral Angiotensin II
The Role of the Cerebral Ventricular System in Angiotensin Thirst
Assessment of Subfornical Organ Involvement in Angiotensin-Induced Drinking
An Analysis of the Periventricular Regions of the Anterior Ventral Third Ventricle in Thirst
Summary, Synthesis, and Speculation
CHAPTER 32. COPIOUS DRINKING AND THE RENIN-ANGIOTENSIN-SYSTEM
CHAPTER 33. THE PEPTIDE SPECIFICITY OF RECEPTORS FOR ANGIOTENSIN-INDUCED THIRST
CHAPTER 34. SUPPRESSION OF ANGIOTENSIN-INDUCED THIRST BY THE E-PROSTAGLANDINS
Experiment 1: The Basic Phenomenon
Experiment 2: Chemical Specificity
Experiment 3: Behavioral Specificity
Experiment 4: The Role of Hyperthermia
CHAPTER 35. ANGIOTENSIN II-INDUCED DRINKING: DISTRIBUTION OF RESPONSIVE CENTRAL TISSUE SITES IN THE RAT, RABBIT, AND MONKEY
CHAPTER 36. LOCALIZATION OF DIPSOGENIC RECEPTORS FOR ANGIOTENSIN II
Intracranial Injection of Angiotensin at Subfornical Organ: A Re-evaluation
Effect of Subfornical Organ Lesions on intravenous Angiotensin Drinking
Antagonism of Intravenous Angiotensin Drinking With Intracranial Saralasin Acetate
CHAPTER 37. FREE WATER CLEARANCE DECREASE AFTER INTRACAROTID (ICA) ANGIOTENSIN II (A-II) IN CONSCIOUS SHEEP
CHAPTER 38. CENTRAL SODIUM - ANGIOTENSIN INTERACTION
Evidence for Specific Sensors of CSF [Na 3
Dependence of Central A-II Action on CSF [Na+]
Duration of Central A-II Action
Site of Na and A-II Sensors Involved in Central Control of Water Balance
CHAPTER 39. EFFECTS OF CHANGING CSF-NACL CONCENTRATION ON RENAL FUNCTION, RENIN, ANGIOTENSIN, AND ALDOSTERONE
CHAPTER 40. EVIDENCE FOR MULTIPLE RECEPTORS AND NEURAL PATHWAYS WHICH SUBSERVE WATER INTAKE INITIATED BY ANGIOTENSIN II
CHAPTER 41. MULTIPLE KIDNEY RENINS ASSOCIATED WITH MALIGNANT HYPERTENSION
CHAPTER 42. IMMUNOHISTOCHEMICAL EVIDENCE FOR THE EXISTENCE OF ANGIOTENSIN II CONTAINING NERVE TERMINALS IN THE CENTRAL NERVOUS SYTEM OF THE RAT
CHAPTER 43. ON THE ORIGIN OF ANGIOTENSIN-LIKE PEPTIDES IN CEREBROSPINAL FLUID
CHAPTER 44. EFFECTS OF CENTRALLY ADMINISTERED ANGIOTENSIN II AND ANGIOTENSIN II ANTAGONIST ON ARTERIAL BLOOD PRESSURE IN DIFFERENT STRAINS OF RATS
CHAPTER 45. LACK OF HYPOTENSIVE EFFECT OF CENTRAL INJECTION OF ANGIOTENSIN INHIBITORS IN SH AND NORMOTENSIVE RATS
CHAPTER 46. SOME CENTRAL NERVOUS SYSTEM EFFECTS ON THE CIRCULATING ANGIOTENSIN-CONVERTING ENZYME
CHAPTER 47. BINDING OF ANGIOTENSINS BY PLASMA FACTORS FROM MENTALLY RETARDED PATIENTS, BY PHOSPHOLIPIDS FOUND IN NERVOUS TISSUE, AND BY CELLS OF THE RETINA
CHAPTER 48. ANGIOTENSIN I AND DOPAMINE-β-HYDROXYLASE IN THE CEREBROSPINAL FLUID OF NORMOTENSIVE AND HYPERTENSIVE PATIENTS
CHAPTER 49. ON THE NEURONAL LOCALIZATION AND THE PHYSIOLOGICAL VARIATIONS OF BRAIN ANGIOTENSIN
CHAPTER 50. THE INTERACTION OF ANGIOTENSIN II WITH MAST CELLS, PLATELETS AND 5-HT NEURONS
CHAPTER 51. RECOMMENDATIONS FOR NOMENCLATURE OF THE RENIN-ANGIOTENSIN SYSTEM