Defective synthesis of glycerophosphorylcholine in murine muscular dystrophy; the primary molecular lesion?

Infante, Juan P.

doi:10.1016/0014-5793(85)80709-2

FEBS Letters

1985

DOI: 10.1016/0014-5793(85)80709-2

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Defective synthesis of glycerophosphorylcholine in murine muscular dystrophy; the primary molecular lesion?

Juan P. Infante

Abstract: Activities of the rate‐limiting enzymes of the cytidine pathway for the synthesis of phosphatidylcholine and phosphatidylethanolamine are negligible in differentiated mouse gastrocnemius, whereas that of the respective proposed de novo glycerophosphodiester pathways is high in this muscle. Rates of de novo glycerophosphorylcholine synthesis in dystrophic mouse gastrocnemius are about half that of the wild‐type homozygotes, whereas that of the heterozygotes is near the mean of the two homozygous groups. These r… Show more

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Cited by 18 publications

References 26 publications

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Alterations in relative phosphocreatine concentrations in preclinical mouse muscular dystrophy revealed by in vivo nmr

et al. 1988

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Using in vivo 31P NMR spectroscopy, the early postnatal development of lower hindleg muscles of normal and dystrophic mice was investigated. Ratios of phosphocreatine and inorganic phosphate, and of phosphocreatine and ATP increased exponentially during normal postnatal growth and differentiation. In dystrophic skeletal muscles, however, the ratios were already considerably lower during the early postnatal period, before histopathological features were observed. The ratios remained lower, relative to normal muscles, at least into the young adult stage. A deficiency in the sequestering of creatine or a defect in the phosphocreatine shuttle is proposed to explain the pathological features observed in this disorder.

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Alterations in relative phosphocreatine concentrations in preclinical mouse muscular dystrophy revealed by in vivo nmr

et al. 1988

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De novo sn-glycerol-3-phosphorylcholine synthetase activity in lung and muscle and its subcellular location

Infante

1986

Mol Cell Biochem

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Vitamin E and selenium participation in fatty acid desaturation A proposal for an enzymatic function of these nutrients

1986

Mol Cell Biochem

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A critical review of the literature on the effects of vitamin E and selenium deficiences on unsaturated fatty acid metabolism reveals that some of these effects are inconsistent with the antioxidant hypothesis of these nutrients as their only biological function. On the basis of these data it is proposed that vitamin E and selenium play a role in the desaturation of n-3 and n-6 polyunsaturated fatty acids by participating in the microsomal electron transport chain and in a proposed peroxidase moiety of the desaturase complex, respectively. A re-interpretation of the experimental literature in terms of the proposed hypothesis is provided, with some suggestions to test its main tenets.

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Defective synthesis of glycerophosphorylcholine in murine muscular dystrophy; the primary molecular lesion?

Cited by 18 publications

References 26 publications

Alterations in relative phosphocreatine concentrations in preclinical mouse muscular dystrophy revealed by in vivo nmr

Alterations in relative phosphocreatine concentrations in preclinical mouse muscular dystrophy revealed by in vivo nmr

De novo sn-glycerol-3-phosphorylcholine synthetase activity in lung and muscle and its subcellular location

Vitamin E and selenium participation in fatty acid desaturation A proposal for an enzymatic function of these nutrients

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