锂可增强大脑和唾液腺中激动剂依赖性磷脂酰肌醇反应。
Lithium amplifies agonist-dependent phosphatidylinositol responses in brain and salivary glands.
作者信息
Berridge M J, Downes C P, Hanley M R
出版信息
Biochem J. 1982 Sep 15;206(3):587-95. doi: 10.1042/bj2060587.
Abstract
- The effect of Li+ on the agonist-dependent metabolism of [3H]inositol has been studied in rat brain, rat parotid and the insect salivary gland. 2. When brain or parotid slices were incubated in the presence of [3H]inositol, Li+ was found to amplify the ability of agonists such as carbachol, phenylephrine, histamine, 5-hydroxytryptamine and Substance P to elevate the amount of label appearing in the inositol phosphates. 3. A different approach was used with the insect salivary gland, which was prelabelled with [3H]inositol. After washing out the label, the subsequent release of [3H]inositol induced by 5-hydroxytryptamine was greatly decreased by Li+. During Li+ treatment there was a large accumulation of [3H]inositol 1-phosphate. 4. This ability of Li+ to greatly amplify the agonist-dependent accumulation of myo-inositol 1-phosphate offers a novel technique for identifying those receptors that function by hydrolysing phosphatidylinositol. 5. The therapeutic action of Li+ may be explained by this inhibition of myo-inositol 1-phosphatase, which lowers the level of myo-inositol and could lead to a decrease in the concentration of phosphatidylinositol, especially in those neurons that are being stimulated excessively. This alteration in phosphatidylinositol metabolism may serve to reset the sensitivity of those multifunctional receptors that generate second messengers such as Ca2+, cyclic GMP and the prostaglandins.
摘要
- 已在大鼠脑、大鼠腮腺和昆虫唾液腺中研究了锂离子对[3H]肌醇激动剂依赖性代谢的影响。2. 当脑或腮腺切片在[3H]肌醇存在下孵育时,发现锂离子可增强诸如卡巴胆碱、去氧肾上腺素、组胺、5-羟色胺和P物质等激动剂提高肌醇磷酸中标记物含量的能力。3. 对昆虫唾液腺采用了不同的方法,先用[3H]肌醇对其进行预标记。洗去标记物后,锂离子可大大降低5-羟色胺诱导的[3H]肌醇的后续释放。在锂离子处理期间,[3H]肌醇-1-磷酸大量积累。4. 锂离子极大地增强肌醇-1-磷酸激动剂依赖性积累的这种能力,为鉴定通过水解磷脂酰肌醇起作用的那些受体提供了一种新技术。5. 锂离子的治疗作用可能是由于这种对肌醇-1-磷酸酶的抑制,这会降低肌醇水平,并可能导致磷脂酰肌醇浓度降低,尤其是在那些受到过度刺激的神经元中。磷脂酰肌醇代谢的这种改变可能有助于重置那些产生诸如Ca2+、环鸟苷酸和前列腺素等第二信使的多功能受体的敏感性。
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