Changes in the levels of dolichol and dolichyl phosphate in a murine model of Niemann-Pick's type C disease.

The distributions of mevalonate pathway lipids in various organs of a mouse strain used as a model for Niemann-Pick's type C disease were analyzed. Extensive accumulation of cholesterol was observed in all tissues with the exception of the brain, where the content of this lipid was decreased. The changes in total dolichol contents of most organs varied from a 50% decrease in the lung to a twofold increase in kidney and heart. There was relative enrichment of longer-chain dolichols, but no increase in the relative amount of alpha-unsaturated polyprenols was observed. The levels of dolichyl phosphate in all organs were increased, and most of this lipid was associated with bound oligosaccharides or proteins. Ubiquinone levels were largely unchanged. Subfractionation studies revealed that heavy and light lysosomes exhibited a 10-fold increase in cholesterol level, the amount of dolichol was decreased in lysosomes and increased in microsomes, and there was an increase in the dolichyl phosphate levels of all three of these subfractions. These results indicate that in diseased mice cholesterol accumulation in various organs is paralleled by an increase in the dolichyl phosphate concentration, whereas dolichol transport from the endoplasmic reticulum to lysosomes is inhibited.