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通过磷酸水解酶和磷脂酶A类活性控制磷脂酸代谢的因素。镁、钙及两亲性阳离子药物的影响。

Factors controlling the metabolism of phosphatidate by phosphohydrolase and phospholipase A-type activities. Effects of magnesium, calcium and amphiphilic cationic drugs.

作者信息

Sturton R G, Brindley D N

出版信息

Biochim Biophys Acta. 1980 Sep 8;619(3):494-505. doi: 10.1016/0005-2760(80)90101-0.

DOI:10.1016/0005-2760(80)90101-0
PMID:6257299
Abstract
  1. The simultaneous deacylation and dephosphorylation of 1,2-diacyl-sn-[3H]glycerol 3-phosphate by the microsomal and soluble fraction of rat liver was studied. The substrate was either in the form of an emulsion or bound to microsomal membranes. 2. Mg2+ stimulated the deacylation and dephosphorylation of phosphatidate emulsions by both fractions, although the stimulation of both microsomal activities was less than that in the soluble fraction. The preparations of membrane-bound phosphatidate contained Mg2+. Further addition of Mg2+ inhibited dephosphorylation, whereas low concentrations of EDTA stimulated. Additional Mg2+ had little effect on the deacylation of membrane-bound phosphatidate and EDTA inhibited it. 3. Ca2+ inhibited the phosphohydrolase reactions in both fractions, but had little effect on the deacylation of phosphatidate emulsions or membrane-bound phosphatidate. 4. In the absence of Mg2+, lower concentrations of amphiphilic cations (chlorpromazine and benfluorex) stimulated the deacylation and dephosphorylation of phosphatidate emulsions by the soluble fraction. They also stimulated deacylation by the microsomal fraction, but inhibited dephosphorylation. In the present of 5 mM MgCl2, these drugs inhibited the dephosphorylation and deacylation of phosphatidate emulsions, the deacylation reaction being slightly less sensitive. Chlorpromazine (0.4 and 0.8 mM) also inhibited the dephosphorylation of membrane-bound Mg2+-phosphatidate by microsomal and microsomal plus soluble fractions. The deacylation was stimulated by 0.4 mM chlorpromazine and by 1 and 2 mM norfenfluramine. Chlorpromazine (0.8 mM) inhibited the deacylation by microsomal plus soluble fractions, but not by microsomal fractions alone. 5. The possible importance of the deacylation of phosphatidate in the physiological and pharmacological control of glycerolipid synthesis is discussed.
摘要
  1. 研究了大鼠肝脏微粒体和可溶性部分对1,2 - 二酰基 - sn - [³H]甘油3 - 磷酸的同时脱酰基和去磷酸化作用。底物呈乳剂形式或与微粒体膜结合。2. Mg²⁺刺激了两部分对磷脂酸乳剂的脱酰基和去磷酸化作用,尽管对微粒体两种活性的刺激小于对可溶性部分的刺激。膜结合磷脂酸制剂中含有Mg²⁺。进一步添加Mg²⁺会抑制去磷酸化作用,而低浓度的EDTA则起刺激作用。额外的Mg²⁺对膜结合磷脂酸的脱酰基作用影响不大,而EDTA会抑制该作用。3. Ca²⁺抑制了两部分中的磷酸水解酶反应,但对磷脂酸乳剂或膜结合磷脂酸的脱酰基作用影响不大。4. 在没有Mg²⁺的情况下,较低浓度的两亲性阳离子(氯丙嗪和苯氟雷司)刺激了可溶性部分对磷脂酸乳剂的脱酰基和去磷酸化作用。它们也刺激了微粒体部分的脱酰基作用,但抑制了去磷酸化作用。在存在5 mM MgCl₂的情况下,这些药物抑制了磷脂酸乳剂的去磷酸化和脱酰基作用,脱酰基反应的敏感性略低。氯丙嗪(0.4和0.8 mM)也抑制了微粒体部分以及微粒体加可溶性部分对膜结合Mg²⁺ - 磷脂酸的去磷酸化作用。0.4 mM氯丙嗪以及1和2 mM诺芬氟拉明刺激了脱酰基作用。氯丙嗪(0.8 mM)抑制了微粒体加可溶性部分的脱酰基作用,但不抑制单独微粒体部分的脱酰基作用。5. 讨论了磷脂酸脱酰基作用在甘油脂质合成的生理和药理控制中的可能重要性。

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