Primary cultures of astrocytes from rat as a model for biotin deficiency in nervous tissue (original) (raw)

References

• Balazs R., Patel A. J., and Richter D. (1973) Metabolic compartments in the brain: Their properties and relation to morphological structures, in_Metabolic Compartmentation in the Brain_ (Balazs R. and Cremer J. E., eds.), pp. 167–184, Macmillan, London.
  Google Scholar
• Berl S. (1966) Glutamine synthetase determination of its distribution in brain during development.Biochemistry 5, 916–922.
  Article PubMed CAS Google Scholar
• Bock E., Moller M., Nissen C., and Sensenbrenner M. (1977) Glial fibrillary acidic protein in primary astroglial cell cultures derived from newborn rat brain.FEBS Lett. 83, 207–211.
  Article PubMed CAS Google Scholar
• Booher J. and Sensenbrenner M. (1972) Growth and cultivation of dissociated neurons and glial cells from embryonic chick, rat and human brain in flask cultures.Neurobiology 2, 97–105.
  PubMed CAS Google Scholar
• Chandler C. S. and Ballard F. J. (1985) Distribution and degradation of biotincontaining carboxylases in human cell lines.Biochem. J. 232, 385–393.
  PubMed CAS Google Scholar
• Hansson E., Sellström Å., Persson L. I., and Rönnback L. (1980) Brain primary culture. A characterization.,Brain Res. 188, 233–246.
  Article PubMed CAS Google Scholar
• Hansson E., Rönnbäck, L., Lowenthal A., Noppe M., Alling C., Karlsson B., and Sellström Å. (1982) Brain primary culture—a characterization (part II).Brain Res. 231, 173–183.
  Article PubMed CAS Google Scholar
• Hansson E., Rönnbäck L., Persson L. I., Lowenthal A., Noppe M., Alling C., and Karlsson B. (1984) Cellular composition of primary cultures from cerebral cortex, striatum, hippocampus, brainstem and cerebellum.Brain Res. 300, 9–18.
  Article PubMed CAS Google Scholar
• Hertz L., Juurlink B. H. J., and Szuchet S. (1985) Cell cultures, in_Handbook of Neurochemistry_, vol. 8 (Lajtha A, ed.), pp. 603–661, Plenum, New York.
  Google Scholar
• Jackson C. W., Brown L. K., Somerville B. C., Lyles S. A., and Look A. T. (1984) Two-color flow cytometric measurement of DNA distributions of rat megakaryocytes in unfixed, unfractionated narrow cell suspensions.Blood 63, 768–778.
  PubMed CAS Google Scholar
• Jakobs, C., Sweetman L., Nyhan W. L., and Packman S. (1984) Stable isotope dilution analysis of 3-hydroxyisovaleric acid in amniotic fluid: Contribution to the prenatal diagnosis of inherited disorders of leucine catabolism.J. Inher. Metab. Dis. 7, 15–20.
  Article PubMed CAS Google Scholar
• Kimelberg H. K., Narumi S., and Bourke R. S. (1978) Enzymatic and morphological properties of primary rat brain astrocyte culture, and enzyme development in vivo.Brain Res. 153, 55–57.
  Article PubMed CAS Google Scholar
• Lowry O. H., Rosebrough N. J., Farr A. L., and Randall R. J. (1951) Protein measurement with the Folin phenol reagent.J. Biol. Chem. 193, 265–275.
  PubMed CAS Google Scholar
• Norenberg M. D. and Martinez-Hernandez A. (1979) Fine structural localization of glutamine synthetase in astrocytes of rat brain.Brain Res. 161, 303–310.
  Article PubMed CAS Google Scholar
• Sander J. E., Packman S., and Townsend J. (1982) Brain pyruvate carboxylase and the pathophysiology of biotin-dependent diseases.Neurology 32, 878–880.
  PubMed CAS Google Scholar
• Schousboe A. (1980) Primary cultures of astrocytes from mammalian brain as a tool in neurochemical research.Cell. Mol. Biol. 26, 505–513.
  CAS Google Scholar
• Schousboe A., Nissen C., Bock E., Sapirstein V. S., Juurlink R. H. J., and Hertz L. (1980) Biochemical development of rodent astrocytes in primary culture, in_Tissue Culture in Neurobiology_ (Giacobini E., Vernadakis A. and Shahar A., eds.), pp. 397–409, Raven, New York.
  Google Scholar
• Schrijver J., Dias Th., and Hommes F. A. (1979) Some biochemical observations on biotin deficiency in the rat as a model for human pyruvate carboxylase deficiency.Nutr. Metab. 23, 179–191.
  Article PubMed CAS Google Scholar
• Shank R. P. and Campbell G. L. (1984) α-Ketoglutarate and malate uptake and metabolism by synaptosome: Further evidence for an astrocyte-to-neuron metabolic shuttle.J. Neurochem. 42, 1153–1161.
  Article PubMed CAS Google Scholar
• Shank R. P., Bennett G. S., Freytag S. O., and Campbell G. L. (1985) Pyruvate carboxylase an astrocyte-specific enzyme implicated in the replenishment of amino acid neurotransmitter pools.Brain Res. 329, 364–367.
  Article PubMed CAS Google Scholar
• Suchy S. F. and Wolf b. (1986) Effect of biotin deficiency and supplementation on lipid metabolism in rats: Cholesterol and lipoproteins.Am. J. Clin. Nutr. 43, 831–838.
  PubMed CAS Google Scholar
• Suormala T., Wick H., Bonjour J. P., and Baumgartner E. R. (1985) Rapid differential diagnosis of carboxylase deficiencies and evaluation for biotin-responsiveness in a single blood sample.Clin. Chim. Acta 145, 151–162.
  Article PubMed CAS Google Scholar
• Yu A. C. H., Drejer J., Hertz L., and Schousboe A. (1983) Pyruvate carboxylase activity in primary cultures of astrocytes and neurons.J. Neurochem. 41, 1484–1487.
  Article PubMed CAS Google Scholar

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