Cholesterol-deprivation increases mono-unsaturated very long-chain fatty acids in skin fibroblasts from patients with X-linked adrenoleukodystrophy.

X-linked adrenoleukodystrophy (X-ALD) is the most common peroxisomal disorder and is characterized by a striking and unpredictable variation in phenotypic expression. It ranges from a rapidly progressive and fatal cerebral demyelinating disease in childhood (CCALD), to the milder slowly progressive form in adulthood (AMN). X-ALD is caused by mutations in the ABCD1 gene that encodes a peroxisomal membrane located ABC half-transporter named ALDP. Mutations in ALDP result in reduced beta-oxidation of very long-chain fatty acids (VLCFA, >22 carbon atoms) in peroxisomes and elevated levels of VLCFA in plasma and tissues. Previously, it has been shown that culturing skin fibroblasts from X-ALD patients in lipoprotein-deficient medium results in reduced VLCFA levels and increased expression of the functionally redundant ALD-related protein (ALDRP). The aim of this study was to further resolve the interaction between cholesterol and VLCFA metabolism in X-ALD. Our data show that the reduction in 26:0 in X-ALD fibroblasts grown in lipoprotein-deficient culture medium (free of cholesterol) is offset by a significant increase in both the level and synthesis of 26:1. We also demonstrate that cholesterol-deprivation results in increased expression of stearoyl-CoA-desaturase (SCD) and increased desaturation of 18:0 to 18:1. Finally, there was no increase in [1-(14)C]-26:0 beta-oxidation. Taken together, we conclude that cholesterol-deprivation reduces saturated VLCFA, but increases mono-unsaturated VLCFA. These data may have implications for treatment of X-ALD patients with lovastatin.

Biochemical markers predicting survival in peroxisome biogenesis disorders.

OBJECTIVE: To identify prognostic markers reflecting the extent of peroxisome dysfunction in primary skin fibroblasts from patients with peroxisome biogenesis disorders (PBD). BACKGROUND: PBD are a genetically heterogeneous group of disorders due to defects in at least 11 distinct genes. Zellweger syndrome is the prototype of this group of disorders, with neonatal adrenoleukodystrophy and infantile Refsum disease as milder variants. Common to these three disorders are liver disease, variable neurodevelopmental delay, retinopathy, and perceptive deafness. Because genotype-phenotype studies are complicated by the genetic heterogeneity among patients with PBD, the authors evaluated a series of biochemical markers as a measure of peroxisome dysfunction in skin fibroblasts. METHODS: Multiple peroxisomal functions including de novo plasmalogen synthesis, dihydroxyacetonephosphate acyltransferase (DHAPAT) activity, C26:0/C22:0 ratio, C26:0 and pristanic acid beta-oxidation, and phytanic acid alpha-oxidation were analyzed in fibroblasts from a series of patients with defined clinical phenotypes. RESULTS: A poor correlation with age at death was found for de novo plasmalogen synthesis, C26:0/C22:0 ratio, and phytanic acid alpha-oxidation. A fairly good correlation was found for pristanic acid beta-oxidation, but the best correlation was found for DHAPAT activity and C26:0 beta-oxidation. A mathematic combination of DHAPAT activity and C26:0 beta-oxidation showed an even better correlation. CONCLUSIONS: DHAPAT activity and C26:0 beta-oxidation are the best markers in predicting life expectancy of patients with PBD. Combination of both markers gives an even better prediction. These results contribute to the management of patients with PBD.