Mechanism of cellular uptake of long-chain fatty acids: Do we need cellular proteins? (original) (raw)

References

1. Civelek VN, Hamilton JA, Tornheim K, Kelly KL, Corkey BE: Intracellular pH in adipocytes: Effects of free fatty acid diffusion across the plasma membrane, lipolytic agonists, and insulin. Proc Natl Acad Sci USA 93: 10139–10144, 1996
   Google Scholar
2. Hamilton JA, Johnson RA, Corkey B, Kamp F: Fatty acid transport: the diffusion mechanism in model and biological membranes. J Mol Neurosci 16: 99–108, 2001
   Google Scholar
3. Doody MC, Pownall HJ, Kao YJ, Smith LC: Mechanism and kinetics of transfer of a fluorescent fatty acid between single-walled phosphatidylcholine vesicles. Biochemistry 19: 108–116, 1980
   Google Scholar
4. Storch J, Kleinfeld AM: Transfer of long-chain fluorescent free fatty acids between unilamellar vesicles. Biochemistry 25: 1717–1726, 1986
   Google Scholar
5. Kleinfeld AM, Storch J: Transfer of long-chain fluorescent fatty acids between small and large unilamellar vesicles. Biochemistry 32: 2053–2061, 1993
   Google Scholar
6. Abumrad N, Harmon C, Ibrahimi A: Membrane transport of longchain fatty acids: Evidence for a facilitated process. J Lipid Res 39: 2309–2318, 1998
   Google Scholar
7. Daniels C, Noy N, Zakim D: Rates of hydration of fatty acids bound to unilamellar vesicles of phosphatidylcholine or to albumin. Biochemistry 24: 3286–3292, 1985
   Google Scholar
8. Cabral DJ, Small DM, Lilly HS, Hamilton JA: Transbilayer movement of bile acids in model membranes. Biochemistry 26: 1801–1804, 1987
   Google Scholar
9. Kamp F, Hamilton JA: pH gradients across phospholipid membranes caused by fast flip-flop of un-ionized fatty acids. Proc Natl Acad Sci USA 89: 11367–11370, 1992
   Google Scholar
10. Kamp F, Hamilton JA: Movement of fatty acids, fatty acid analogues, and bile acids across phospholipid bilayers. Biochemistry 32: 11074–11086, 1993
    Google Scholar
11. Kamp F, Zakim D, Zhang F, Noy N, Hamilton JA: Fatty acid flipflop in phospholipid bilayers is extremely fast. Biochemistry 34: 11928–11937, 1995
    Google Scholar
12. Zhang F, Kamp F, Hamilton JA: Dissociation of long and very long chain fatty acids from phospholipid bilayers. Biochemistry 35: 16055–16060, 1995
    Google Scholar
13. Storch J, Lechene C, Kleinfeld AM: Direct determination of free fatty acid transport across the adipocyte plasma membrane using quantitative fluorescence microscopy. J Biol Chem 266: 13473–13476, 1991
    Google Scholar
14. Kleinfeld AM, Chu P, Romero C: Transport of long-chain native fatty acids across lipid bilayer membranes indicates that transbilayer flip-flop is rate limiting. Biochemistry 36: 14146–14158, 1997
    Google Scholar
15. Fraser H, Coles SM, Woodford JK, Frolov AA, Murphy EJ, Schroeder F, Bernlohr DA, Grund V: Fatty acid uptake in diabetic rat adipocytes. Mol Cell Biochem 167: 51–60, 1997
    Google Scholar
16. Pohl P, Rokitskaya TI, Pohl EE, Saparov SM: Permeation of phloretin across bilayer lipid membranes monitored by dipole potential and microelectrode measurements. Biochim Biophys Acta 1323: 163–172, 1997
    Google Scholar
17. Abumrad NA, Perkins RC, Park JH, Park CR: Mechanism of long chain fatty acid permeation in the isolated adipocyte. J Biol Chem 256: 9183–9191, 1981
    Google Scholar
18. Zakim D: Fatty acids enter cells by simple diffusion. Proc Soc Exp Biol Med 212: 5–14, 1996
    Google Scholar
19. Zakim D: Thermodynamics of fatty acid transfer. J Membr Biol 176: 101–109, 2000
    Google Scholar
20. Trigatti BL, Gerber GE: The effect of intracellular pH on longchain fatty acid uptake in 3T3-L1 adipocytes: Evidence that uptake involves the passive diffusion of protonated long-chain fatty acids across the plasma membrane. Biochem J 313: 487–494, 1996
    Google Scholar
21. Coburn CT, Knapp FF Jr, Febbraio M, Beets AL, Silverstein RL, Abumrad NA: Defective uptake and utilization of long chain fatty acids in muscle and adipose tissues of CD36 knockout mice. J Biol Chem 275: 32523–32529, 2000
    Google Scholar
22. Febbraio M, Abumrad NA, Hajjar DP, Sharma K, Cheng W, Pearce SF, Silverstein RL: A null mutation in murine CD36 reveals an important role in fatty acid and lipoprotein metabolism. J Biol Chem 274: 19055–19062, 1999
    Google Scholar
23. Coburn CT, Hajri T, Ibrahimi A, Abumrad NA: Role of CD36 in membrane transport and utilization of long-chain fatty acids by different tissues. J Mol Neurosci 16: 117–121, 2001
    Google Scholar
24. Hamilton JA: Fatty acid transport: difficult or easy? J Lipid Res 39: 467–481, 1998
    Google Scholar
25. Glatz JFC, Luiken JJFP, Bonen A: Involvement of membraneassociated proteins in the acute regulation of cellular fatty acid uptake. J Mol Neurosci 16: 123–132, 2001
    Google Scholar
26. Stump DD, Fan X, Berk PD: Oleic acid uptake and binding by rat adipocytes define dual pathways for cellular fatty acid uptake. J Lipid Res 42: 509–520, 2001
    Google Scholar
27. Hamilton JA, Civelek VN, Kamp F, Tornheim K, Corkey BE: Changes in internal pH caused by movement of fatty acids into and out of clonal pancreatic beta-cells (HIT). J Biol Chem 269: 20852–20856, 1994
    Google Scholar
28. Watkins PA, Lu JF, Steinberg SJ, Gould SJ, Smith KD, Braiterman LT: Disruption of the Saccharomyces cerevisiae FAT1 gene decreases very long-chain acyl-CoA synthetase activity and elevates intracellular very long-chain fatty acid concentrations. J Biol Chem 273: 18210–18219, 1998
    Google Scholar
29. Watkins PA, Pevsner J, Steinberg SJ: Human very long-chain acylCoA synthetase and two human analoges: Initial characterization and relationship to fatty acid transport. Prostagland Leuckot Essent Fatty Acids 60: 323–328, 1999
    Google Scholar
30. Bonen A, Luiken J, Arumugam Y, Glatz JFC, Tandon NN: Acute regulation of fatty acid uptake involves the redistribution of fatty acid translocase. J Biol Chem 275: 14501–14508, 2000
    Google Scholar
31. Glatz JFC, Storch J: Unraveling the significance of cellular fatty acid-binding proteins. Curr Opin Lipid 12: 267–274, 2001
    Google Scholar
32. Lewis SE, Listenberger LL, Ory DS, Schaffer JE: Membrane topology of the murine fatty acid transport protein 1. J Biol Chem 276: 37042–37050, 2001
    Google Scholar
33. Abumrad N, Coburn C, Ibrahimi A: Membrane proteins implicated in long-chain fatty acid uptake by mammalian cells: CD36, FATP and FABPpm. Biochim Biophys Acta 1441: 4–13, 1999
    Google Scholar
34. Ek-von Mentzer B, Zhang F, Hamilton JA: Binding of 13-HODE and 15-HETE to phospholipid bilayers, albumin, and intracellular fatty acid binding proteins. J Biol Chem 276: 15575–15580, 2001
    Google Scholar

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