Circulating Isotocin, not Angiotensin II, is the Major Dipsogenic Hormone in Eels.

Shigenori Nobata, Y. Takei
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Abstract

Angiotensin II (AngII) is generally known as the most important dipsogenic hormone throughout vertebrates, while two other neurohypophysial hormones, vasopressin and oxytocin, are not dipsogenic in mammals. In this study, we found that systemic isotocin, but not vasotocin, is the potent dipsogenic hormone in eels. When injected intra-arterially into conscious eels, isotocin, vasotocin and AngII equally increased ventral aortic pressure dose-dependently at 0.03-1.0 nmol/kg, but only isotocin induced copious drinking. The dipsogenic effect was dose-dependent and occurred significantly at as low as 0.1 nmol/kg. By contrast, a sustained inhibition of drinking occurred after AngII, probably due to baroreflexogenic inhibition. No such inhibition was observed after isotocin despite similar concurrent hypertension. The baroreceptor may exist distal to the gill circulation because the vasopressor effect occurred at both ventral and dorsal aorta after AngII but only at ventral aorta after isotocin. By contrast, intra-cerebroventricular (i.c.v.) injection of isotocin had no effect on drinking or blood pressure, but AngII increased drinking and aortic pressure dose-dependently at 0.03-0.3 nmol/eel. Lesioning of the area postrema (AP), a sensory circumventricular organ, abolished drinking induced by peripheral isotocin, but not i.c.v. AngII. Collectively, isotocin seems to be a major circulating hormone that induces swallowing through its action on the AP, while AngII may be an intrinsic brain peptide that induces drinking through its action on a different circumventricular site, possibly a recently identified blood-brain barrier-deficient structure in the antero-ventral third ventricle of eels, as shown in birds and mammals.
循环异催产素,而不是血管紧张素II,是鳗鱼的主要致病激素。
血管紧张素II (AngII)通常被认为是脊椎动物中最重要的双源性激素,而另外两种神经垂体激素,加压素和催产素,在哺乳动物中不具有双源性。在这项研究中,我们发现系统性的催产素,而不是血管催产素,是鳗鱼体内有效的致病性激素。当将异催产素、血管催产素和AngII动脉内注射到清醒的鳗鱼体内时,它们均以0.03-1.0 nmol/kg的剂量依赖性增加腹主动脉压力,但只有异催产素引起大量饮酒。致病效应呈剂量依赖性,低至0.1 nmol/kg时显著发生。相比之下,AngII后持续的饮酒抑制发生,可能是由于barrefrefgenic抑制。尽管有类似的并发高血压,但使用催产素后未观察到这种抑制作用。压力感受器可能存在于鳃循环的远端,因为血管加压作用在AngII后的腹主动脉和背主动脉均发生,而在异催产素后仅在腹主动脉发生。脑室内注射异催产素对饮酒和血压无影响,但在0.03 ~ 0.3 nmol/鳗鱼剂量范围内,AngII使饮酒和主动脉压呈剂量依赖性升高。后脑区(AP),一个感觉心室周围器官的损伤,消除饮酒引起的外周异催产素,但没有。总的来说,催产素似乎是一种主要的循环激素,通过对AP的作用诱导吞咽,而AngII可能是一种内在的脑肽,通过对不同的心室周围部位的作用诱导饮酒,可能是最近在鳗鱼的前腹侧第三脑室中发现的血脑屏障缺陷结构,如鸟类和哺乳动物所示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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