Energy Consumption by Phospholipid Metabolism in Mammalian Brain

被引:0
作者
A. D. Purdon
T. A. Rosenberger
H. U. Shetty
S. I. Rapoport
机构
[1] National Institute on Aging,Brain Physiology and Metabolism Section
[2] National Institutes of Health,undefined
来源
Neurochemical Research | 2002年 / 27卷
关键词
Brain; phospholipids; phosphatidylinositide cycle; ether phospholipids; de novo synthesis; turnover; signaling; phospholipase C; myo-inositol; rat; human; energy; ATP; phosphatidylinositol;
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摘要
Until recently, brain phospholipid metabolism was thought to consume only 2% of the ATP consumed by the mammalian brain as a whole. In this paper, however, we calculate that 1.4% of total brain ATP consumption is consumed for the de novo synthesis of ether phospholipids and that another 5% is allocated to the phosphatidylinositide cycle. When added to previous estimates that fatty acid recycling within brain phospholipids and maintenance of membrane lipid asymmetries of acidic phospholipids consume, respectively, 5% and 8% of net brain ATP consumption, it appears that phospholipid metabolism can consume up to 20% of net brain ATP consumption. This new estimate is consistent with recent evidence that phospholipids actively participate in brain signaling and membrane remodeling, among other processes.
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页码:1641 / 1647
页数:6
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  • [1] Vierbuchen M.(1979)Studies on the hydrolysis of 1–alkyl- Hoppe-Zeyler' Z. Physiol. Chem. 360 1091-1097
  • [2] Gunawan J.(1977)-glycero-3–phosphoethanolamine in subcellular fractions of rat brain J. Biol. Chem. 252 4025-4037
  • [3] Debuch H.(1994)Metabolism of glycerophospholipids of myelin and microsomes in rat brain Biochemistry 33 5805-5812
  • [4] Miller S. L.(1998)Plasmenylethanolamine facilitates rapid membrane fusions: A stopped-flow kinetic investigation correlating the propensity of a major plasma membrane constituent to adopt an HII phase with its ability to promote membrane fusion Biochem. J. 335 313-318
  • [5] Benjamins J. A.(1990)Energy requirements for two aspects of phospholipid metabolism in mammalian brain J. Neurochem. 55 1352-1356
  • [6] Morell P.(1994)Phospholipid transverse diffusion in synaptosomes: Evidence for the involvement of the aminophospholipid translocase Mol. Membr. Biol. 11 199-216
  • [7] Glaser P. E.(1985)Back and forth: The regulation and function of transbilayer phospholipid movement in eukaryotic cells Biochim. Biophys. Acta 833 366-371
  • [8] Gross R. W.(1992)Metabolism of unique diarachidonoyl and linoleoylarachidonoyl species of ethanolamine and choline phosphoglycerides in rat testes J Neurochem 58 18-38
  • [9] Purdon A. D.(1995)Inositol lipids and signal transduction in the nervous system: An update Biochim. Biophys. Acta 1259 317-333
  • [10] Rapoport S. I.(1996)Platelet-activating factor receptor: Gene expression and signal transduction J. Neurochem. 67 1702-1710
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