Composition of cerebral lipids in murine leucodystrophy: the quaking mutant.

Abstract

Abstract—The composition of sphingolipids and phospholipids of mouse brain during myelination was determined in the Quaking mutant, which manifests a genetic disorder of myelin formation, and in littermate controls. The biochemical changes during myelination in the brains of the controls corresponded quantitatively with previous findings in a different strain of mice. The Quaking mutant exhibited concentrations of sphingolipids and phospholipids in brain which were comparable to those of controls in the early stage of myelination but the tissue content failed to increase with maturation. The greatest differences occurred in the cerebrosides which at 65 days of postnatal age were only 10 per cent of control levels. During development the pattern of cerebral levels of sphingomyelin, plasmalogen and total phospholipid in the mutants tended to resemble that of the cerebrosides.The defect in the Quaking mutant is compatible with a failure in maturation of myelin. These findings have been compared with those in the Jimpy mutant, a different genetic disorder of myelin in the mouse previously studied in a similar fashion. The Jimpy mutant is characterized by a quantitatively more pronounced deficiency of myelin lipids and a decline in cerebrosides during brain development.