组胺对大鼠胃组织中组氨酸脱羧酶活性的抑制作用:H2受体介导的反馈调节。
Suppression of rat stomach histidine decarboxylase activity by histamine: H2-receptor-mediated feed-back.
作者信息
Håkanson R, Larsson L I, Liedberg G, Rehfeld J F, Sundler F
出版信息
J Physiol. 1977 Aug;269(3):643-67. doi: 10.1113/jphysiol.1977.sp011920.
Abstract
- Gastrin activates rat stomach histidine decarboxylase. Exogenous histamine suppressed the basal enzyme activity in unoperated, in nephrectomized, in vagally denervated and in antrectomized rats, and counteracted the pentagastrin-induced enzyme activation in unoperated rats.2. Kinetic analysis of enzyme-catalysed histidine decarboxylation in extracts from untreated vagotomized and from histamine-treated vagotomized rats showed that the histamine-induced suppression of histidine decarboxylase activity probably reflects a reduced enzyme concentration. Moreover, the enzyme half-life in vagotomized rats after treatment with histamine was shorter than the half-life observed after inhibition of enzyme synthesis. These observations suggest that administration of histamine not only inhibits enzyme synthesis but also causes an accelerated rate of elimination of histidine decarboxylase.3. Intravenous infusion of histamine caused marked displacement of the pentagastrin dose-response curve, in a manner suggesting a reduced sensitivity to pentagastrin.4. After H(2)-receptor blockade, but not after H(1)-receptor blockade, histamine was less effective in suppressing the enzyme activity. Furthermore, H(2)-receptor blockade augmented the pentagastrin-induced enzyme activation.5. The results suggest that histamine (via H(2)-receptors) reduces the sensitivity of the histamine-storing cells to gastrin and that H(2)-receptor blockade induces the opposite effects.6. We propose that the histamine-storing cells in the rat stomach are endowed with H(2)-receptors and that exogenous histamine is capable of acting directly on the histamine cells. This may reflect a physiological control mechanism whereby mobilized endogenous histamine modifies its own synthesis and release.
摘要
胃泌素可激活大鼠胃组织中的组氨酸脱羧酶。外源性组胺可抑制未手术、肾切除、迷走神经切断及胃窦切除大鼠的基础酶活性,并可抵消未手术大鼠中五肽胃泌素诱导的酶激活作用。
对未处理的迷走神经切断大鼠及组胺处理的迷走神经切断大鼠提取物中酶催化的组氨酸脱羧反应进行动力学分析表明,组胺诱导的组氨酸脱羧酶活性抑制可能反映了酶浓度的降低。此外,组胺处理后迷走神经切断大鼠中酶的半衰期比抑制酶合成后观察到的半衰期短。这些观察结果表明,给予组胺不仅抑制酶的合成,还会导致组氨酸脱羧酶的消除速率加快。
静脉输注组胺导致五肽胃泌素剂量反应曲线明显位移,表明对五肽胃泌素的敏感性降低。
H₂受体阻断后,但H₁受体阻断后未出现这种情况,组胺抑制酶活性的效果减弱。此外,H₂受体阻断增强了五肽胃泌素诱导的酶激活作用。
结果表明,组胺(通过H₂受体)降低了储存组胺的细胞对胃泌素的敏感性,而H₂受体阻断则产生相反的效果。
我们提出,大鼠胃中储存组胺的细胞具有H₂受体,外源性组胺能够直接作用于组胺细胞。这可能反映了一种生理控制机制,即动员的内源性组胺可调节其自身的合成和释放。
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