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Metabolic fuel selection by intestinal epithelium

  • Jehan-François Desjeux (a1)
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References
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Alvarado, F. (1966). Transport of sugars and amino acids in the intestine: evidence for a common carrier. Science 151, 10101013.
Burant, C. F., Flink, S., Depaoli, A. M., Chen, J., Lee, W. S., Hediger, M. A., Buse, J. B. & Chang, E. B. (1994). Small intestine hexose transport in experimental diabetes. Increased transporter mRNA and protein expression in enterocytes. Journal of Clinical Investigation 93, 578585.
Burant, C. F., Takeda, J., Brot-Laroche, E., Bell, G. I. & Davidson, N. O. (1992). Fructose transporter in human spermatozoa and small intestine is GLUT5. Journal of Biological Chemistry 267, 1452314526.
Cheeseman, C. (1992). Role of intestinal basolateral membrane in absorption of nutrients. American Journal of Physiology 263, R482R488.
Collins, F. S., Drumm, M. L., Cole, J. L., Lockwood, W. K., Vande Woude, G. F. & Iannuzzi, M. C. (1987). Construction of a general human chromosome jumping library, with application to cystic fibrosis. Science 235, 10461049.
Cryer, P. E. (1993). Glucose counterregulation: prevention and correction of hypoglycemia in humans. American Journal of Physiology 264, E149E155.
Desjeux, J. F. (1993). Congenital selective defects of intestinal transport. In Management of Digestive and Liver Disorders in Infants and Children, pp. 175203 [Buts, J. P. and Sokal, E. M., editors]. Amsterdam: Elsevier.
Desjeux, J. F., Rajantie, J., Simell, O., Dumontier, A. M. & Perheentupa, J. (1980). Lysine fluxes across the jejunal epithelium in lysinuric protein intolerance. Journal of Clinical Investigation 65, 13821387.
Drumm, M. L., Wilkinson, D. J., Smit, L. S., Worrell, R. T., Strong, T. V., Frizzell, R. A., Dawson, D. C. & Collins, F. S. (1991). Chloride conductance expressed by delta F508 and other mutant CFTRs in Xenopus oocytes. Science 254, 17971799.
Dullaart, R. P. F., Speelberg, B., Schuurman, H. J., Milne, R. W., Havekes, L. M., Marcel, Y. L., Geuze, H. J., Hulshof, M. M. & Erkelens, D. W. (1986). Epitopes of apolipoprotein B-100 and B-48 in both liver and intestine. Expression and evidence for local synthesis in recessive abetalipoproteinemia. Journal of Clinical Investigation 78, 13971404.
Fei, Y. J., Kanai, Y., Nussberger, S., Ganapathy, V., Leibach, F. H., Romero, M. F., Singh, S. K., Boron, W. F. & Hediger, M. A. (1994). Expression cloning of a mammalian proton-coupled oligopeptide transporter. Nature 368, 563566.
Ferraris, R. P. & Diamond, J. (1992). Crypt-villus site of glucose transporter induction by dietary carbohydrate in mouse intestine. American Journal of Physiology 262, G1069G1073.
Frizzell, R. A., Rechkemmer, G. & Shoemaker, R. L. (1986). Altered regulation of airway epithelial cell chloride channels in cystic fibrosis. Science 233, 558560.
Garcia, C. K., Goldstein, J. L., Pathak, R. K., Anderson, R. G. & Brown, M. S. (1994). Molecular characterization of a membrane transporter for lactate, pyruvate, and other monocarboxylates: implications for the Cori cycle. Cell 76, 865873.
Gardiner, K. & Barbul, A. (1993). Intestinal amino acid absorption during sepsis. Journal of Parenteral and Enteral Nutrition 17, 217283.
Glickman, R. M., Glickman, J. N., Magun, A. & Brin, M. (1991). Apolipoprotein synthesis in normal and abetalipoproteinemic intestinal mucosa. Gastroenterology 101, 749755.
Havel, R. J. & Kane, J. P. (1989). Structure and metabolism of plasma lipoproteins. In The Metabolic Basis of Inherited Disease, pp. 11291138 [Scriver, C. R., Beaudet, A. L., Sly, W. S. and Valle, D., editors]. New York: McGraw-Hill.
Kanai, Y. & Hediger, M. A. (1992). Primary structure and functional-characterization of a high-affinity glutamate transporter. Nature 6403, 467471.
Koepsell, H. & Spangenberg, J. (1994). Function and presumed molecular structure of Na+–D-glucose cotransport. Journal of Membrane Biology 138, 111.
Kong, C. T., Yet, S. F. & Lever, J. E. (1993). Cloning and expression of a mammalian Na+ amino acid cotransporter with sequence similarity to Na+ glucose cotransporters. Journal of Biologica1 Chemistry 268, 15091512.
Mahraoui, L., Rousset, M., Dussaulx, E., Darmoul, D., Zweibaum, A. & Brot-Laroche, E. (1992). Expression and iocalization of GLUT-5 in caco-2 cells, human small intestine, and colon. American Journal of Physiology 263, G312G318.
Martin, M. G., Turk, E., Kahulis, C. & Wright, E. M. (1994). Glucose–galactose malabsorption is associated with abnormalities of the Na+ glucose transporter. Gastroenterology 106, A252.
Metel'skioi, S. T. (1992). A multichannel transporter for glucose and amino acid transport. Fiziologicheskii Zhurnal SSSR Imeni Im Sechenua 78, 8492.
Nakanishi, M., Kagawa, Y., Narita, Y. & Hirata, H. (1994). Purification and reconstitution of an intestinal Na( +)-dependent neutral r-alpha-amino acid transporter. Journal of Biological Chemistry 269, 93259329.
Pickel, V. M., Nirenberg, M. J., Chan, J., Mosckovitz, R., Udenfriend, S. & Tate, S. S. (1993). Ultrastructural localization of a neutral and basic amino acid transporter in rat kidney and intestine. Proceedings of the National Academy of Sciences, USA 90,77797783.
Powell, D. W. (1994). Barrier function of epithelia. American Journal of Physiology 241, G275G288.
Safonova, I. G., Sviridov, D. D., Nano, J. L., Rampal, P. & Repin, V. S. (1994). Regulation of cholesterol uptake in the rat intestinal cell line. Biochimica et Biophysica Acta 1210, 181186.
Salloum, R. M., Copeland, E. M. & Souba, W. W. (1991). Brush border transport of glutamine and other substrates during sepsis and endotoxemia. Annals of Surgery 213, 401409.
Salloum, R. M., Stevens, B. R., Schultz, G. S. & Souba, W. W. (1993). Regulation of small intestinal glutamine transport by epidermal growth factor. Surgery 113, 552559.
Schroeder, F., Jefferson, J. R., Powell, D., Incerpi, S., Woodford, J. K., Colles, S. M., Myers-Pyne, S., Emge, T., Hubbell, T. & Moncecchi, D. (1993). Expression of rat 1-fabp in mouse fibroblasts: role in fat absorption. Molecular and Cell Biochemistry 123, 7383.
Shirazi-Beechey, S. P., Hirayama, B. A., Wang, Y., Scott, D., Smith, M. W. & Wright, E. M. (1991). Ontogenic development of lamb intestinal sodium-glucose co-transporter is regulated by diet. Journal of Physiology 437, 699708.
Simell, O. (1989). Lysinuric protein intolerance and other cationic aminoaciduria. In The Metabolic Basis of Inherited Disease, pp. 24972513 [Scriver, C. R., Beaudet, A. L., Sly, W. S. and Valle, D., editors]. New York: McGraw-Hill.
Thomson, A. B., Cheeseman, C. I., Keelan, M., Fedorak, R. & Clandinin, M. T. (1994). Crypt cell production rate, enterocyte turnover time and appearance of transport along the jejunal villus of the rat. Biochimica et Biophysica Acta 1191, 197204.
Turk, E., Martin, M. G. & Wright, E. M. (1994). Structure of the human Na+/glucose cotransporter gene SGLTl. Journal of Biological Chemistry 269, 1520415209.
Wright, E. M., Turk, E., Zabel, B., Mundlos, S. & Dyer, J. (1991). Molecular genetics of intestinal glucose transport. Journal of Clinical Investigation 88, 14351440.
Yan, N., Mosckovitz, R., Udenfriend, S. & Tate, S. S. (1992). Distribution of mRNA of a Na(+)-independent neutral amino acid transporter cloned from rat kidney and its expression in mammalian tissues and Xenopus laevis oocytes. Proceedings of the National Academy of Sciences, USA 89, 99829985.
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Proceedings of the Nutrition Society
  • ISSN: 0029-6651
  • EISSN: 1475-2719
  • URL: /core/journals/proceedings-of-the-nutrition-society
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