References
- Sowers J. R., Resch G., Temple G., Herzog J., Colantino M. Hyperprolactinemia in the spontaneously hypertensive rat. Acta Endocr. 1979; 90: 1–7
- Morris M., Sundberg D. K. Neurohypophyseal dopamine biosynthesis in the spontaneously hypertensive rat. Clin. Exp. Hypertension. 1981; 3: 1165–1181
- van den Buuse M., Versteeg D. H. G., de Jong W. Role of dopamine in the development of spontaneous hypertension. Hypertension. 1984; 6: 899–905
- Racz K., Kuchel O., Buu N., Tenneson S. Peripheral dopamine synthesis and metabolism in spontaneously hypertensive rat. Circ. Res. 1986; 58: 889–997
- Maemura S., Niwa M., Ozaki M. Characteristic alterations in adrenal catecholamine content in SHR, SHRSP and WKY during development of hypertension and stroke. Jpn. Heart J. 1982; 23: 593–603
- Lutold B. E., Karoum F., Neff N. H. Deficient dopamine metabolism in the celiac ganglion of spontaneously hypertensive rats. Circ. Res. 1979; 44: 467–471
- Sowers J. R., Golub M. S., Berger M. E., Whitfield L. A. Dopaminergic modulation of pressor and hormonal responses in essential hypertension. Hypertension. 1982; 4: 424–430
- Sowers J. R., Nyby M., Jasberg K. Dopaminergic control of prolactin and blood pressure: altered control in essential hypertension. Hypertension. 1982; 4: 431–438
- Takahashi M., Miura Y., Sano N., Kimura S., Toriyabe S., Ishizuka Y., Ohashi H., Noshiro T., Sugawara T., Watanabe H., Yoshinaga K. Plasma dopamine concentration in various types of hypertension. Folia Endocrinol. 1986; 62: 713–723
- Yoshimura M., Yamazaki H., Takashina R., Kambara S., Iyoda I., Sasaki S., Takahashi H., Takeda K., Ijichi H. The significance of duration of salt loading on cardiovascular response and urinary excretion of catecholamine in rats. Endocrinol. Jpn. 1986; 33: 169–175
- Yamazaki H., Yoshimura M., Takashina R., Kambara S., Lee L. C., Sasaki S., Takahashi H., Ijichi H. Enhanced renal sympathetic activity in response to salt loading in rats. Jpn. Circ. J. 1986; 50: 442–448
- Winternitz S. R., Oparil S. Sodium-neural interactions in the development of spontaneous hypertension. Clin. Exp. Hypertension. 1982; 4: 751–760
- Lee M. R. Dopamine and the kidney. Clin. Sci. 1982; 62: 439–448
- Bartholini G., Pletscher A. Effect of various decarboxylase inhibitors on the cerebral metabolism of dihydroxyphenylalanine. J. Pharm. Pharmac. 1969; 21: 323–324
- Porter C. C. Aromatic amino acid decarboxylase inhibitors. Fed. Proc. 1971; 30: 871–876
- Riggin R. M., Kissinger P. T. Determination of catecholamines in urine by reverse-phase liquid chromatography with electrochemical detection. Anal. Chem. 1977; 49: 2109–2111
- Felice L. J., Felice J. D., Kissinger J. Determination of catecholamines in rat brain parts by reverse-phase ion-pair liquid chromatography. J. Neurochem. 1978; 31: 1461–1465
- Snedecor G. W., Cochran W. G. Statistical methods. Sixth edition. Iowa state University Press, Ames, Iowa 1967
- Goldberg L. I. Dopamine receptors and hypertension, physiologic and pharmacologic implications. Am. J. Med. 1984; 77: 37–44
- Artalejo A. R., Garcia A. G., Montiel C., Sanchez-Garcia P. A dopaminergic receptor modulates catecholamine release from the cat adrenal gland. J. Physiol. 1985; 362: 359–368
- Lee L. C., Sasaki S., Fukuyama M., Nakamura Y., Okabayashi H., Kambara S., Iyoda I., Okajima H., Ijichi H. Effect of plasma volume and baroreflex system on hypothalamo-sympathetic nerve activities during developing stage of sodium-induced hypertension. Igakunoayumi 1985; 135: 71–72, (in Japanese)
- Udenfriend S., Zaltzman-Nirenberg N., Gordon R., Spector S. Evaluation of the biochemical effects produced in vivo by inhibitors of the three enzymes involved in norepinephrine biosynthesis. Mol. Pharmacol. 1966; 2: 95–105
- Alonso R., Agharanya J. C., Wurtman R. J. Tyrosine loading enhances catecholamine excretion by rats. J. Neural Transmission. 1980; 49: 31–43
- Udenfriend S., Zaltzman-Nirenberg P. On the mechanism of the norepinephrine release produced by -methyl-metatyrosine. J. Pharmacol. Exp. Ther. 1962; 138: 194–199
- Brodde O. E. Demonstration of vascular dopamine receptors in membranes from rabbit renal artery using 3H-spiroperidol binding. Experientia. 1980; 37: 1099–1101
- Lockhandwale W. F., Jandhyla B. S. The role the nervous system in the vascular actions of dopamine. J. Pharmacol. Exp. Ther. 1979; 210: 120–126
- Felder R. A., Blecher M., Eisner G. M. Cortical tubular and glomerular dopamine receptors in the rat kidney. Am J Physiol 1984; 246: F557–F568