大鼠腮腺中淀粉酶生物合成与释放的调控

Control of amylase biosynthesis and release in the parotid gland of the rat.

作者信息

McPherson M A, Hales C N

出版信息

Biochem J. 1978 Dec 15;176(3):855-63. doi: 10.1042/bj1760855.

DOI:10.1042/bj1760855

PMID:218555

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1186309/

Abstract

Amylase biosynthesis and release in the rat parotid were studied under various conditions. Incorporation of [(3)H]leucine into amylase, extracted from the tissue by immunoadsorbent, was measured and found to be time-dependent and totally inhibited by the protein synthesis inhibitor puromycin. 2. Adrenaline, at a concentration (10mum) that gave maximum stimulation of release, inhibited [(3)H]leucine incorporation into both total protein and amylase. This effect was reversed by phentolamine. 3. Adrenaline (1mum) and isoproterenol (10mum) stimulated biosynthesis of total protein and amylase. These effects were blocked by propranolol, as were the effects on release. Dibutyryl cyclic AMP (2mm) mimicked the effects of isoproterenol and adrenaline (1mum) on both amylase biosynthesis and release. All the above stimulatory effects on amylase biosynthesis were only observed if the tissue was pretreated with effector before pulse-labelling with [(3)H]leucine. 4. Insulin (625muunits/ml initial concentration, 150muunits/ml final concentration) stimulated incorporation of [(3)H]leucine into total protein and amylase when added to the tissue at the same time as the leucine. 5. Carbamoylcholine (10mum) decreased [(3)H]leucine incorporation into total protein and amylase when both were added to the tissue simultaneously, but this effect was prevented by removal of effector and washing the tissue before addition of [(3)H]leucine. 6. Stimulation of beta-adrenergic receptors increased both amylase release and biosynthesis, but stimulation of alpha-receptors can inhibit biosynthesis without inhibiting release. Cholinergic agents can also inhibit amylase biosynthesis, but stimulate release. Insulin at approximately physiological concentration can increase incorporation of leucine into amylase without stimulating release. The system described therefore provides an excellent model for the further investigation of the mechanisms of these diverse effects.

摘要

在不同条件下研究了大鼠腮腺中淀粉酶的生物合成与释放。测定了通过免疫吸附从组织中提取的淀粉酶中[(3)H]亮氨酸的掺入情况，发现其具有时间依赖性，且被蛋白质合成抑制剂嘌呤霉素完全抑制。2. 肾上腺素在能使释放达到最大刺激的浓度（10μM）下，抑制[(3)H]亮氨酸掺入总蛋白和淀粉酶中。酚妥拉明可逆转此效应。3. 肾上腺素（1μM）和异丙肾上腺素（10μM）刺激总蛋白和淀粉酶的生物合成。这些效应被普萘洛尔阻断，对释放的效应也被阻断。二丁酰环磷腺苷（2mM）模拟了异丙肾上腺素和肾上腺素（1μM）对淀粉酶生物合成和释放的效应。上述所有对淀粉酶生物合成的刺激效应只有在组织在用[(3)H]亮氨酸进行脉冲标记之前先用效应物预处理时才会观察到。4. 胰岛素（初始浓度625微单位/毫升，最终浓度150微单位/毫升）在与亮氨酸同时添加到组织中时，刺激[(3)H]亮氨酸掺入总蛋白和淀粉酶中。5. 当同时将氨甲酰胆碱（10μM）和[(3)H]亮氨酸添加到组织中时，氨甲酰胆碱会降低[(3)H]亮氨酸掺入总蛋白和淀粉酶中的量，但在添加[(3)H]亮氨酸之前去除效应物并洗涤组织可防止此效应。6. 刺激β-肾上腺素能受体可增加淀粉酶的释放和生物合成，但刺激α-受体可抑制生物合成而不抑制释放。胆碱能药物也可抑制淀粉酶的生物合成，但刺激释放。大约生理浓度的胰岛素可增加亮氨酸掺入淀粉酶中而不刺激释放。因此，所描述的系统为进一步研究这些不同效应的机制提供了一个极好的模型。