We investigated the biochemical and clinical efficacy of dietary erucic acid (C22:1) therapy for X-linked adrenoleukodystrophy (ALD). In a double-blind crossover study of patients who were on chronic oleic acid (C18:1) therapy, addition of erucic acid to the diet led to a further reduction in plasma hexacosanoic acid (C26:0) concentration. We treated 12 newly diagnosed ALD patients with a diet enriched with erucic acid and oleic acid for 2 to 19 months. Mean plasma C26:0 concentration decreased to normal by 4 weeks, and the C26:0 composition of plasma sphingomyelin and phosphatidylcholine became normal by 4 months on therapy. Fatty acid analysis of postmortem tissues from 1 boy treated for 10 months suggested that dietary erucic acid entered the heart, liver, adrenal gland, and brain. Eight patients remained on treatment long enough (mean, 12 +/- 3 months) to evaluate their clinical response; 6 of these patients with moderate to advanced disease deteriorated neurologically or showed progression of white matter disease on brain magnetic resonance imaging whereas 2 mildly affected patients remained clinically stable after 10 and 19 months. No adverse effects of the diet occurred. We conclude that dietary erucic acid therapy is effective in lowering plasma C26:0 to normal in ALD patients, and may prevent further demyelination in some mildly affected boys.
zyme, fatty alcohol:NAD' oxidoreductase, which catalyzes the oxidation of fatty alcohol to fatty acid. Lipid metabolism was studied in cultured skin fibroblasts from patients with the inherited disorder, Sjogren-Larsson syndrome (SLS). Intact SLS fibroblasts incubated in the presence of I1_14Cipalmitate accumulated more radioactive hexadecanol than did normal cells, whereas incorporation of radioactivity into other cellular lipids was unaltered. The hexadecanol content of SLS fibroblasts was abnormally elevated. Hexadecanol accumulation was not due to increased fatty alcohol synthesis nor its deficient utilization for glycerol ether synthesis. The half-life of intracellular hexadecanol loaded into SLS fibroblasts was increased (70 min) compared with normal (15 min), and intact SLS fibroblasts showed impaired oxidation of ['CIhexadecanol to fatty acid. Fatty alcohol:NAD' oxidoreductase, the enzyme catalyzing this reaction, was deficient in SLS fibroblasts. Mean total activity in SLS fibroblasts (n = 5) was 13% of that in normal fibroblasts, and palmitoyl CoA-inhibitable activity was 1% of normal. Fibroblasts from two obligate SLS heterozygotes had enzyme activities intermediate between that in normal fibroblasts and individuals with SLS. These results suggest that the primary defect in SLS is deficiency of fatty alcohol:NAD' oxidoreductase. SLS represents the first inherited disorder in man associated with an isolated abnormality in fatty alcohol metabolism.
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