Disorders of peroxisome biogenesis due to mutations in PEX1: phenotypes and PEX1 protein levels.

[neonatal adrenoleukodystrophy]

Zellweger syndrome (ZS ), neonatal adrenoleukodystrophy (NALD ), and infantile Refsum disease (IRD ) are clinically overlapping syndromes , collectively called "peroxisome biogenesis disorders " (PBDs ), with clinical features being most severe in ZS and least pronounced in IRD . Inheritance of these disorders is autosomal recessive . The peroxisome biogenesis disorders are genetically heterogeneous , having at least 12 different complementation groups (CGs ). The gene affected in CG 1 is PEX 1 . Approximately 65 % of the patients with PBD harbor mutations in PEX 1 . In the present study , we used SSCP analysis to evaluate a series of patients belonging to CG 1 for mutations in PEX 1 and studied phenotype-genotype correlations . A complete lack of PEX 1 protein was found to be associated with severe ZS ; however , residual amounts of PEX 1 protein were found in patients with the milder phenotypes , NALD and IRD . The majority of these latter patients carried at least one copy of the common G 8 43 D allele . When patient fibroblasts harboring this allele were grown at 30 degrees C , a two - to threefold increase in PEX 1 protein levels was observed , associated with a recovery of peroxisomal function . This suggests that the G 8 43 D missense mutation results in a misfolded protein , which is more stable at lower temperatures . We conclude that the search for the factors and /or mechanisms that determine the stability of mutant PEX 1 protein by high -throughput procedures will be a first step in the development of therapeutic strategies for patients with mild PBDs .