Disruption of the D(2) dopamine receptor produces adrenergic and endothelin B receptor-dependent hypertension

Authors

Xiaoxil Li, Zhongshan School of Medicine, SYSU
Martin Bek, Zhongshan School of Medicine, SYSU
Laureano D. Asico, Zhongshan School of Medicine, SYSU
Zhiwei Yang, Zhongshan School of Medicine, SYSU
Marcelo Rubinstein, Zhongshan School of Medicine, SYSU
David K. Grandy, Zhongshan School of Medicine, SYSU
David S. Goldstein, Zhongshan School of Medicine, SYSU
Gilbert M. Eisner, Zhongshan School of Medicine, SYSU
Pedro A. Jose, Zhongshan School of Medicine, SYSU

Document Type

Journal Article

Publication Date

1-1-2002

Journal

Zhonghua yi xue za zhi

Volume

82

Issue

10

Abstract

OBJECTIVE: To assess whether D(2) receptors participate in the regulation of genetic hypertension. METHODS: Arterial pressure was measured in mice mutant for the D(2) dopamine receptors, and the interactions between D(2) dopamine receptors and other vasopressor systems were also studied. RESULTS: Both systolic blood pressure (BP) in D(2) mutant (D(2)-/-) and hybrid (D(2)+/-) mice (128 +/- 2 mm Hg, 129 +/- 4 mm Hg) and diastolic BP (107 +/- 2 mm Hg, 108 +/- 3 mm Hg) were higher than in wild-type (D(2)+/+) mice (104 +/- 2 mm Hg, 77 +/- 1 mm Hg). The BP after alpha-adrenergic blockade decreased to a greater extent in D(2)-/- than in D(2)+/+ mice. Epinephrine excretion was greater in D(2)-/- than in D(2)+/+ mice and adrenalectomy decreased blood pressure to a greater extent in D(2)-/- than in D(2)+/+ mice. The non specific endothelin B (ETB) blocker (BQ788) decreased BP in D(2)-/- but had not in D(2)+/+ mice. The ETB1 blocker RES 701 - 1 increased BP in D(2)-/- but not D(2)+/+ mice. ET-1 and the ETB agonist, sarafatoxin S6c increased BP to a greater extent in D(2)+/+ than in D(2)-/- mice. Circulating ET-like immunoreactive peptides were similar in D(2)-/- and D(2)+/+ mice but ETB receptor expression was greater in D(2)-/- than in D(2)+/+ mice. In contrast, blockade of ETA and V(1) vasopressin receptors had no effect on BP in either D(2)-/- and D(2)+/+ mice. The hypotensive effect of the AT(1) antagonist, losartan, was also similar in D(2)-/- and D(2)+/+ mice. The greater basal sodium excretion and lower renal Na(+)/K(+)ATPase activity in D(2)-/- than in D(2)+/+ mice indicate that sodium retention was not the cause of hypertension in these animals. CONCLUSION: Hypertension in the D(2) mutant mice may be caused by absent inhibitory effect of D(2) receptors on sympathetic outflow coupled with increased ETB2 activity.

APA Citation

Li, X., Bek, M., Asico, L., Yang, Z., Rubinstein, M., Grandy, D., Goldstein, D., Eisner, G., & Jose, P. (2002). Disruption of the D(2) dopamine receptor produces adrenergic and endothelin B receptor-dependent hypertension. Zhonghua yi xue za zhi, 82 (10). Retrieved from https://hsrc.himmelfarb.gwu.edu/smhs_medicine_facpubs/3848