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磷酸肌醇激活物,前列腺素原酰基肌醇环磷酸(环 PIP)合成的底物——肌醇喂养有效性的关键。

Activated Inositol Phosphate, Substrate for Synthesis of Prostaglandylinositol Cyclic Phosphate (Cyclic PIP)-The Key for the Effectiveness of Inositol-Feeding.

机构信息

General Secretariat for Research and Innovation, GR-11527 Athens, Greece.

Fachbereich C-Biochemie, Bergische University, 42119 Wuppertal, Germany.

出版信息

Int J Mol Sci. 2024 Jan 23;25(3):1362. doi: 10.3390/ijms25031362.

DOI:10.3390/ijms25031362
PMID:38338641
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10855042/
Abstract

The natural cyclic AMP antagonist, prostaglandylinositol cyclic phosphate (cyclic PIP), is biosynthesized from prostaglandin E (PGE) and activated inositol phosphate (n-Ins-P), which is synthesized by a particulate rat-liver-enzyme from GTP and a precursor named inositol phosphate (pr-Ins-P), whose 5-ring phosphodiester structure is essential for n-Ins-P synthesis. Aortic myocytes, preincubated with [H] myo-inositol, synthesize after angiotensin II stimulation (30 s) [H] pr-Ins-P (65% yield), which is converted to [H] n-Ins-P and [H] cyclic PIP. Acid-treated (1 min) [H] pr-Ins-P co-elutes with inositol (1,4)-bisphosphate in high performance ion chromatography, indicating that pr-Ins-P is inositol (1:2-cyclic,4)-bisphosphate. Incubation of [H]-GTP with unlabeled pr-Ins-P gave [H]-guanosine-labeled n-Ins-P. Cyclic PIP synthase binds the inositol (1:2-cyclic)-phosphate part of n-Ins-P to PGE and releases the [H]-labeled guanosine as [H]-GDP. Thus, n-Ins-P is most likely guanosine diphospho-4-inositol (1:2-cyclic)-phosphate. Inositol feeding helps patients with metabolic conditions related to insulin resistance, but explanations for this finding are missing. Cyclic PIP appears to be the key for explaining the curative effect of inositol supplementation: (1) inositol is a molecular constituent of cyclic PIP; (2) cyclic PIP triggers many of insulin's actions intracellularly; and (3) the synthesis of cyclic PIP is decreased in diabetes as shown in rodents.

摘要

天然环 AMP 拮抗剂,前列腺素肌醇环磷酸酯(环 PIP),由前列腺素 E(PGE)和激活的肌醇磷酸盐(n-Ins-P)生物合成,后者由颗粒状大鼠肝酶从 GTP 和一种名为肌醇磷酸盐(pr-Ins-P)的前体合成,其 5 元环磷酸二酯结构是 n-Ins-P 合成所必需的。预先用[H]肌醇孵育的主动脉心肌细胞在血管紧张素 II 刺激后(30 s)合成[H]pr-Ins-P(65%产率),其转化为[H]n-Ins-P 和[H]环 PIP。用酸处理(1 min)的[H]pr-Ins-P 与肌醇(1,4)-二磷酸在高效离子色谱中共同洗脱,表明 pr-Ins-P 是肌醇(1:2-环,4)-二磷酸。用[H]-GTP 孵育未标记的 pr-Ins-P 得到[H]-鸟苷标记的 n-Ins-P。环 PIP 合酶将 n-Ins-P 的肌醇(1:2-环)-磷酸部分结合到 PGE 上,并释放出[H]-标记的鸟苷作为[H]-GDP。因此,n-Ins-P 很可能是鸟苷二磷酸-4-肌醇(1:2-环)-磷酸。给患有与胰岛素抵抗相关的代谢疾病的患者喂食肌醇有助于改善他们的病情,但目前尚不清楚这种效果的产生机制。环 PIP 似乎是解释肌醇补充治疗效果的关键:(1)肌醇是环 PIP 的分子组成部分;(2)环 PIP 触发胰岛素的许多细胞内作用;(3)在糖尿病中,如在啮齿动物中所示,环 PIP 的合成减少。

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