Regulation of dopamine-induced natriuresisby the dopamine-metabolizing enzyme catechol-O-methyltransferase.

C Odlind, V Göransson, I Reenilä, P Hansell
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引用次数: 18

Abstract

Dopamine (DA) is an intrarenal natriuretic hormone involved in sodium homeostasis. A study was performed to elucidate two possible regulatory pathways of DA-induced natriuresis, i.e., metabolism and precursor delivery. This was done by use of an intraperitoneal injection of a catechol-O-methyltransferase (COMT) inhibitor, entacapone, or intravenous infusion of the DA precursor, L-dopa. Entacapone (30 mg/kg i.p.) induced a more than fivefold increase in renal sodium excretion which occurred without changes in renal haemodynamics. The natriuretic response was highly dependent on DA D(1)-like receptor activation, since the selective D(1)-like receptor antagonist SCH23390 attenuated the natriuretic response by 61%, while the selective D(2)-like receptor antagonist sulpiride was ineffective. The urinary excretion of DA did not increase. Infusion of L-dopa (60 microg/h/kg) only induced a twofold increase in sodium excretion, but the urinary excretion of DA increased more than 17-fold. The L-dopa-induced natriuretic response occurred without increments in glomerular filtration rate and could be blocked with the D(1)-like receptor antagonist SCH23390. It is concluded that the DA-metabolizing enzyme COMT is involved in the regulation of the natriuretic effect of intrarenal DA. It may be speculated that intrarenal DA activity is not primarily determined on the basis of delivered precursor, but on that of the level of DA metabolism.

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多巴胺代谢酶儿茶酚- o -甲基转移酶对多巴胺诱导的耐钠性的调节。
多巴胺(DA)是一种参与钠稳态的肾内利钠激素。我们进行了一项研究,以阐明两种可能的调控途径,即代谢和前体递送。这是通过使用腹腔注射儿茶酚o -甲基转移酶(COMT)抑制剂恩他卡酮或静脉输注DA前体左旋多巴来完成的。恩他卡朋(30mg /kg i.p)诱导肾钠排泄量增加5倍以上,而肾血流动力学没有改变。利钠反应高度依赖于DA D(1)样受体的激活,因为选择性D(1)样受体拮抗剂SCH23390可将利钠反应减弱61%,而选择性D(2)样受体拮抗剂舒必利无效。尿中DA的排泄量没有增加。输注左旋多巴(60 μ g/h/kg)仅诱导钠排泄量增加2倍,但尿中DA排泄量增加17倍以上。左旋多巴诱导的利钠反应没有增加肾小球滤过率,可以用D(1)样受体拮抗剂SCH23390阻断。由此可见,DA代谢酶COMT参与了肾内DA的利钠作用的调控。由此可以推测,决定肾内DA活性的主要不是递送的前体,而是DA代谢水平。
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