Biochemical markers predicting survival in peroxisome biogenesis disorders.

[neonatal adrenoleukodystrophy]

To identify prognostic markers reflecting the extent of peroxisome dysfunction in primary skin fibroblasts from patients with peroxisome biogenesis disorders (PBD ).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 .Multiple peroxisomal functions including de novo plasmalogen synthesis , dihydroxyacetonephosphate acyltransferase (DHAPAT ) activity , C 2 6 :0 /C 2 2 :0 ratio , C 2 6 :0 and pristanic acid beta -oxidation , and phytanic acid alpha-oxidation were analyzed in fibroblasts from a series of patients with defined clinical phenotypes .A poor correlation with age at death was found for de novo plasmalogen synthesis , C 2 6 :0 /C 2 2 :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 C 2 6 :0 beta -oxidation . A mathematic combination of DHAPAT activity and C 2 6 :0 beta -oxidation showed an even better correlation .DHAPAT activity and C 2 6 :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 .