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  • Journal
    Digital Access
    Provider
    Version
    Karger
    Nephron
    Karger
    Nephron. Clinical practice
    Karger
    Nephron. Experimental nephrology
    Karger
    Nephron. Physiology
    Print Access Request
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    Stored offsite. Please request print.
    v. 1-91, [92], 93-98, 1964-2001, [2002], 2003-04.
    86
  • Article
    Derksen A, Cohen P.
    J Biol Chem. 1975 Dec 25;250(24):9342-7.
    We describe a method for measuring the release of fatty acids from endogenous substrates of human platelet homogenates and membranes. The method depends on the availability of lipids whose fatty acids are odd-chained and therefore suitable as internal reference compounds that, at the time of lipid extraction, can be added to an incubation to permit subsequent quantification of the content of free fatty acids or fatty acids esterified to specific lipids. We found four types of lipolytic activities in human platelets. In homogenates at pH 4.0 a triglyceride lipase operated as shown by the synchrony of triglyceride degradation and release of glycerol and those fatty acids that are the predominant constituents of triglycerides. However, enough arachidonic acid was released at this pH level to suggest some phospholipid breakdown, since triglycerides hold relatively small amounts of this acid. With membranous preparations, in the alkaline pH range there were two peaks of fatty acid release with accompanying degradation of phospholipids. At pH 8.5, where release of the saturated acids, palmitic and stearic, predominated, their sum was 3.5 times that of arachidonic acid. At pH 9.5 the release of palmitic and stearic acids was only slightly below their peak values; however, the release of arachidonic acid nearly equaled the sum of the saturated acids. Linoleic acid was not released in representative amounts by those reactions that released arachidonic acid, despite the overwhelming propensity of both to be esterified at the 2-position of phospholipids. Pertinently, the choline phospholipids are linoleic-rich and the non-choline phospholipids linoleic-poor, while both have a generous endowment of arachidonic acid. With this in mind, we raise the possibility that the phospholipase A2 of human platelets is an endoenzyme because of its tendency to act on those phospholipids that are thought to comprise the inner layer of the cell membrane.
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