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  • Acton S., Rigotti A., Landschulz K. T., Xu S., Hobbs H. H. & Krieger M. (1996) Identification of a scavenger receptor SR-BI as a high density lipoprotein receptor. Science 271, 518520.
  • Arita M., Sato Y., Miyata A., Tanabe T., Takahashi E., Hayden H. J., Arai H. & Inoue K. (1995) Human α-tocopherol binding protein: cDNA cloning, expression and chromosomal location. Biochem. J. 306, 437443.
  • Aschner M., Allen J. W., Kimelberg H. K., LoPachin R. M. & Streit W. J. (1999) Glial cells in neurotoxicity development. Annu. Rev. Pharmacol. Toxicol. 39, 151173.
  • Björkhem I., Lütjohann D., Diczfalusy U., Stahle L., Ahlborg G. & Wahren J. (1998) Cholesterol homeostasis in human brain: turnover of 24S-hydroxycholesterol and evidence for a cerebral origin of most of this oxysterol in the circulation. J. Lipid Res. 39, 14951600 .
  • Bjornboe A., Bjornboe G. E. A., Bodd E., Hagen B. F., Kveseth N. & Drevon C. A. (1986) Transport and distribution of α-tocopherol in lymph, serum, and liver cells in rats. Biochim. Biophys. Acta 889, 310315.
  • Cachia O., El Benna J., Pedruzzi E., Descomps B., Gougerot-Pocidalo M. A. & Leger C. L. (1998) α-Tocopherol inhibits the respiratory burst in monocytes. Attenuation of p47phox membrane translocation and phosphorylation. J. Biol. Chem. 273, 3280132805.
  • Calvo D., Gomez-Coronado D., Lasincion M. A. & Vega M. A. (1997) CLA-1 is an 85-kD plasma membrane glycoprotein that acts as a receptor for both native (HDL, LDL and VLDL) and modified (oxLDL and AcLDL) lipoproteins. Arterioscler. Thromb. Vasc. Biol. 17, 23412349.
  • Cao G., Garcia C. K., Wyne K. L., Schultz R. A., Parker K. L. & Hobbs H. H. (1997) Structure and localization of the human gene encoding SR-BI/CLA-1. J. Biol. Chem. 272, 3306833076.
  • Cohn W., Goss-Sampson M. A., Grun H. & Muller D. P. R. (1992) Plasma clearance and net uptake of α-tocopherol and low-density lipoprotein by tissues in WHHL and control rabbits. Biochem. J. 287, 147154.
  • Copp R. P., Wisniewski T., Hentati F., Larnaout A., Ben Hamida M. & Kayden H. Y. (1999) Localization of α-tocopherol transfer protein in the brains of patients with ataxia with vitamin E deficiency and other oxidative stress related neurodegenerative disorders. Brain Res. 822, 8087.DOI: 10.1016/s0006-8993(99)01090-2
  • Dehouck B., Fenart L., Dehouck M. P., Pierce A., Torpier G. & Cecchelli R. (1997) A new function for the LDL receptor: transcytosis of LDL across the blood–brain barrier. J. Cell Biol. 138, 877889.
  • Della Bianca V., Dusi S., Bianchini E., Dal Pra I. & Rossi F. (1999) β-Amyloid activates the O2 forming NADPH oxidase in microglia, monocytes and neutrophils. J. Biol. Chem. 274, 1549315499.
  • Deveraj S., Li D. & Jialal I. (1996) The effects of alpha tocopherol supplementation on monocyte function. Decreased lipid oxidation, interleukin 1β secretion, and monocyte adhesion to endothelium. J. Clin. Invest. 98, 756763.
  • Evans H. M. & Bishop K. S. (1922) On the existence of a hitherto unrecognized dietary factor essential for reproduction. Science 56, 650651.
  • Fluiter K., Sattler W., De Beer M. C., Connell P. M., Van Der Westerhuyzen D. R. & Van Berkel T. J. C. (1999) Scavenger receptor BI mediates the selective uptake of oxidized cholesterol esters by rat liver. J. Biol. Chem. 274, 88938899.
  • Goldstein J. L. & Brown M. S. (1977) Low-density lipoprotein pathway and its relation to atherosclerosis. Annu. Rev. Biochem. 46, 897930.
  • Goti D., Reicher H., Malle E., Kostner G. M., Panzenboeck U. & Sattler W. (1998) High-density lipoprotein (HDL3)-associated α-tocopherol is taken up by HepG2 cells via the selective uptake pathway and resecreted with endogenously synthesized apo-lipoprotein B-rich lipoprotein particles. Biochem. J. 332, 5765.
  • Goti D., Hammer A., Galla H. J., Malle E. & Sattler W. (2000) Uptake of lipoprotein-associated α-tocopherol by primary porcine brain capillary endothelial cells. J. Neurochem. 74, 13741383.
  • Hammad S. M., Stefansson S., Twal W. O., Drake C. J., Fleming P., Remaley A., Brewer H. B. & Argraves W. S. (1999) Cubilin, the endocytotic receptor for intrinsic factor–vitamin B12 complex, mediates high-density lipoprotein holoparticle endocytosis. Proc. Natl Acad. Sci. USA 96, 1015810163.DOI: 10.1073/pnas.96.18.10158
  • Heppner F. L., Roth K., Nitsch R. & Hailer N. P. (1998) Vitamin E induces ramification and downregulation of adhesion molecules in cultured microglial cells. Glia 22, 180188.DOI: 10.1002/(sici)1098-1136(199802)22:2<180::aid-glia9>3.0.co;2-b
  • Hosomi A., Goto K., Kondo H., Iwatsubo T., Yokota T., Ogawa M., Arita M., Aoki J., Arai H. & Inoue K. (1998) Localization of α-tocopherol transfer protein in rat brain. Neurosci. Lett. 256, 159162.DOI: 10.1016/s0304-3940(98)00785-x
  • Kayden H. J. & Traber M. G. (1993) Absorption, lipoprotein transport, and regulation of plasma concentrations of vitamin E in humans. J. Lipid Res. 34, 343358.
  • Knipping G., Rotheneder M., Striegl G. & Esterbauer H. (1990) Antioxidants and resistance against oxidation of porcine LDL subfractions. J. Lipid Res. 31, 19651972.
  • Kölsch H., Lütjohann D., Tulke A., Björkhem I. & Rao M. L. (1999) The neurotoxic effect of 24-hydroxycholesterol on SH-SY5Y human neuroblastoma cells. Brain Res. 818, 171175.DOI: 10.1016/s0006-8993(98)01274-8
  • Lopez D. & McLean M. (1999) Sterol regulatory element-binding protein-1a binds to cis elements in the promoter of the rat high density lipoprotein receptor SR-BI gene. Endocrinology 140, 56695681.
  • Lowry O. H., Rosebrough N. J., Farr A. L. & Randall R. J. (1951) Protein measurement with the Folin reagent. J. Biol. Chem. 193, 265275.
  • Lucarelli A., Gennarelli M., Cardelli P., Novelli G., Scarpa S., Dallapicolla B. & Strom R. (1997) Expression of receptors for native and chemically modified low-density lipoproteins in brain microvessels. FEBS Lett. 401, 5358.DOI: 10.1016/s0014-5793(96)01435-4
  • Matsumoto A., Mitchell A., Kurata H., Pyle L., Kondo K., Itakura H. & Fidge N. (1997) Cloning and characterization of HB2, a candidate high density lipoprotein receptor. Sequence homology with members of the immunoglobulin superfamily of membrane proteins. J. Biol. Chem. 272, 1677816782.
  • Miller D. W. (1999) Immunobiology of the blood–brain barrier. J. Neurovirol. 5, 570578.
  • Miller J. & Germain R. N. (1986) Efficient cell surface expression of class II MHC molecules in the absence of associated invariant chain. J. Exp. Med. 164, 14781489.
  • Muller D. P. R. (1995) Vitamin E and neurological function: lessons from patients with abetalipoproteinaemia. Redox Report 1, 239245.
  • Murao K., Terpstra V., Green S. R., Kondratenko N., Steinberg D. & Quehenberger O. (1997) Characterization of CLA-1, a human homologue of rodent scavenger receptor BI, as a receptor for high density lipoprotein and apoptotic thymocytes. J. Biol. Chem. 272, 1755117557.
  • Murphy D. J. & Mavis R. D. (1981) Membrane transfer of alpha-tocopherol. Influence of soluble alpha-tocopherol-binding factors from the liver, lung, heart, and brain of the rat. J. Biol. Chem. 256, 1046410468.
  • Orso E., Broccardo C., Kaminski W. E., Bottcher A., Liebisch G., Drobnik W., Gotz A., Chambenoit O., Diederich W., Langmann T., Spruss T., Luciani M. F., Rothe G., Lackner K. J., Chimini G. & Schmitz G. (2000) Transport of lipids from Golgi to plasma membrane is defective in tangier disease patients and Abc1-deficient mice. Nat. Genet. 24, 192196.DOI: 10.1038/72869
  • Ouahchi K., Arita M., Kayden H., Hentati F., Ben Hamida M., Sokol R., Arai H., Inoue K., Mandell J. L. & Koenig M. (1995) Ataxia with isolated vitamin E deficiency is caused by mutations in the α-tocopherol transfer protein. Nat. Genet. 9, 141145.
  • Pittman R. C., Knecht T. P., Rosenbaum M. S. & Taylor C. A. Jr (1987) A nonendocytotic mechanism for the selective uptake of high density lipoprotein-associated cholesterol esters. J. Biol. Chem. 262, 24432450.
  • Posse de Caves E., Vance D. E., Campenot R. B., Kiss R. S. & Vance J. E. (2000) Uptake of lipoproteins for axonal growth of sympathetic neurons. J. Biol. Chem. 275, 1988319890.
  • Ricciarelli R., Tasinato A., Clement S., Özer N. K., Boscoboinik D. & Azzi A. (1998) α-Tocopherol specifically inactivates cellular protein kinase C a by changing its phosphorylation state. Biochem. J. 334, 243249.
  • De La Rothblat G. H. L., Lera-Moya M., Atger V., Kellner-Weibel G., Williams D. L. & Phillips M. C. (1999) Cell cholesterol efflux: integrations of old and new observations provides new insights. J. Lipid Res. 40, 781796.
  • Rubin L. L. & Staddon J. M. (1999) The cell biology of the blood brain barrier. Annu. Rev. Neurosci. 22, 1128.
  • Sattler W. & Stocker R. (1993) Greater selective uptake by HepG2 cells of high-density lipoprotein cholesteryl ester hydroperoxides than that of unoxidized cholesteryl esters. Biochem. J. 294, 771778.
  • Sattler W., Mohr D. & Stocker R. (1994) Rapid isolation of lipoproteins and assessment of their peroxidation by high-performance liquid chromatography postcolumn chemiluminescence. Methods Enzymol. 233, 469489.
  • Sattler W., Levak-Frank S., Radner H., Kostner G. M. & Zechner R. (1996) Muscle specific overexpression of lipoprotein lipase in transgenic mice results in increased α-tocopherol levels in skeletal muscle. Biochem. J. 318, 1519.
  • Sun A. Y. & Chen Y. M. (1998) Oxidative stress and neurodegenerative disorders. J. Biomed. Sci. 5, 401414.
  • Teng B., Blumenthal S., Forte T., Navaratnam N., Scott J., Gotto A. M. Jr & And Chan L. (1994) Adenovirus-mediated gene transfer of rat apolipoprotein B mRNA-editing protein in mice virtually eliminates apolipoprotein B-100 and normal low-density lipoprotein production. J. Biol. Chem. 269, 2939529404.
  • Tewes B., Franke H., Hellwig S., Hoheisel D., Decker S., Griesche G., Tilling T., Wegener J. & Galla H. J. (1997) in Drug Transport Across the Blood–Brain-Barrier (BBB): In Vivo and In Vitro Techniques ( De BoerA. G. and SutanoW., eds), pp. 9197. Harwood Academic, Amsterdam.
  • Tint G. S., Irons M., Elias E. R., Batta A. K., Frieden R., Chen T. S. & Salen G. (1994) Defective cholesterol biosynthesis associated with the Smith-Lemli-Opitz syndrome. N. Engl. J. Med. 330, 107113.
  • Trigatti A., Rayburn H., Vinals M., Braun A., Miettinen H., Penman M., Hertz M., Schrenzel M., Amigo L., Rigotti A. & Krieger M. (1999) Influence of the high density lipoprotein receptor SR-BI on reproductive and cardiovascular pathophysiology. Proc. Natl Acad. Sci. USA 96, 93229327.DOI: 10.1073/pnas.96.16.9322
  • Trigatti B., Rigotti A. & Krieger M. (2000) The role of the high-density lipoprotein receptor SR-BI in cholesterol metabolism. Curr. Opin. Lipidol. 11, 123131.
  • Turley S. D., Burns D. K. & Dietschy J. M. (1998) Preferential utilization of newly synthesized cholesterol for brain growth in neonatal lambs. Am. J. Physiol. 274, E1099E1105.
  • De Vries H. E., Kuiper J., Van Berkel T. J. C. & Breimer J. J. (1993) Characterization of the scavenger receptor on bovine cerebral endothelial cells in vitro. J. Neurochem. 61, 18131821.
  • Webb N. R., Connell P. M., Graf G. A., Smart E. J., De Villiers W. S. J., De Beer F. C. & Van Der Westhuyzen D. R. (1998) SR-BII, an isoform of the scavenger receptor BI containing an alternate cytoplasmic tail, mediates lipid transfer between high density lipoproteins and cells. J. Biol. Chem. 273, 1524115248.