Molecular defects underlying Wolman disease appear to be more heterogeneous than those resulting in cholesteryl ester storage disease

Human lysosomal acid lipase/cholesteryl ester hydrolase (hLAL) is essential for the intralysosomal metabolism of cholesteryl esters and triglycerides taken up by receptor-mediated endocytosis of lipoprotein particles. The key role of the enzyme in intracellular lipid homeostasis is illustrated by tw...

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Bibliographic Details
Main Authors: Peter Lohse, Sylke Maas, Pia Lohse, Adrian C. Sewell, Otto P. van Diggelen, Dietrich Seidel
Format: Article
Language:English
Published: Elsevier 1999-02-01
Series:Journal of Lipid Research
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Online Access:http://www.sciencedirect.com/science/article/pii/S0022227520333605
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Summary:Human lysosomal acid lipase/cholesteryl ester hydrolase (hLAL) is essential for the intralysosomal metabolism of cholesteryl esters and triglycerides taken up by receptor-mediated endocytosis of lipoprotein particles. The key role of the enzyme in intracellular lipid homeostasis is illustrated by two lysosomal storage diseases inherited as autosomal recessive traits. Wolman disease, associated with deficient hLAL activity, leads to massive intracellular substrate accumulation and is always fatal in early infancy. Cholesteryl ester storage disease (CESD), in contrast, is characterized by very low levels of enzymic activity sufficient to allow survival of the affected patients into adulthood. In order to elucidate the underlying molecular defects in Wolman disease, we have characterized the hLAL gene in two female Wolman patients of German and Turkish origin by SSCP and DNA sequence analysis. Our results demonstrate that the German proband was compound heterozygous for an 8-bp deletion in exon 3 and a 2-bp deletion in exon 4 of the hLAL gene. These frameshift mutations lead to protein truncation at amino acid positions 24 and 116 and to complete loss of hydrolytic activity. The Turkish proband, in contrast, was homozygous for a G1064→T substitution in exon 10 of the hLAL gene which converts the completely conserved glycine (GGG) residue at position 321 of the mature enzyme to tryptophan (TGG). In vitro expression of the hLAL(Gly321→Trp) cDNA construct revealed that the amino acid replacement results in a more than 99% reduction of neutral lipid hydrolysis. The mutations provide new insights into the molecular basis of Wolman disease which is apparently more heterogeneous at the genetic level than cholesteryl ester storage disease.—Lohse, P., S. Maas, P. Lohse, A. C. Sewell, O. P. van Diggelen, and D. Seidel. Molecular defects underlying Wolman disease appear to be more heterogeneous than those resulting in cholesteryl ester storage disease. J. Lipid Res. 1999. 40: 221–228.
ISSN:0022-2275