THE EFFECTS OF PHENYLKETONURIC AND OTHER METABOLITES ON SULFATED GALACTOCEREBROSIDE SYNTHESIS IN VIVO AND IN CULTURE |
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Authors: | T. J. Sprinkle O. M. Rennert |
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Affiliation: | Departmcnt of Biochemistry, and Departments of Pediatrics, Biochemistry, and Neurosciences, J. Hillis Miller Health Ccnter, University of Florida, Gainesville, FL 32610, U.S.A. |
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Abstract: | Abstract— Sulfated galactocerebroside synthesis was examined in vitro in mouse spinal cord cultures. This system permitted the study of the effects of phenylketonuric metabolites upon synthesis of a specific myelin component, sulfatide, formed early in postnatal development in mice. A significant reduction of Na235SO4 incorporation into myelin sulfatide was observed when spinal cord cultures were grown in the presence of 1000 μm -l -phenylalanine and 500 μm -phenylpyruvate (51 and 700%, respectively). No reduction was observed with β-phenyllactate (300 μm and) phenylacetate (250 μm ). Light microscopy indicated that the phenylpyruvate and phenylalanine treated cultures were less extensively myelinated compared to control and β-phenyllactate or phenylacetate treated cultures. The reduction of sulfatide synthesis by phenylpyruvate was shown to be reversible. Intracerebral bilateral injections (8 μg) of l -phenylalanine, phenylpyruvate, α-ketobutyrate, α-ketoisocaproate, α-ketoisovalerate, β-phenyllactate, and phenylacetate in mice 8–15 days old, followed by i.p. administration of radioactive sulfate, resulted in significantly reduced incorporation (all P < 0.05) of sulfate into brain sulfatides with all compounds tested with the exception of β-phenyllactate and phenylacetate. In adult mouse, phenylpyruvate treatment also resulted in a significant decrease in labelling of brain sulfatide. The effects of phenylpyruvate and other metabolites upon pyruvate oxidation in mouse brain homogenates were examined by measuring 14CO2 release from [1-14C]pyruvate. Both phenylpyruvate and α-ketoisocaproate at 1 × 10-3 resulted in a decrease in 14CO2 produced, while phenylacetate and β-phenyllactate had no effect. Sulfate incorporation into sulfatide was reduced by α-ketoisocaproate and phenylpyruvate, and to a lesser extent by phenylalanine, α-ketobutyrate, and α-ketoisovalerate. Phenyllactate and phenylacetate had no effect, either in vivo, or in culture. This order of effectiveness may be related in part to the effects of these compounds on pyruvate oxidation. |
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