Fucosidosis is a rare, autosomal recessive, lysosomal storage disorder caused by a severe deficiency of alpha-L-fucosidase in all tissues. We have conducted a review of fucosidosis, compiling data from published reports and an international questionnaire survey. Seventy-seven patients affected with fucosidosis of which 19 had not been reported before have been identified. A major aim of the present study was to define the natural history of fucosidosis. The clinical picture of fucosidosis consists of progressive mental (95%) and motor (87%) deterioration, coarse facies (79%), growth retardation (78%), recurrent infections (78%), dysostosis multiplex (58%), angiokeratoma corporis diffusum (52%), visceromegaly (44%), and seizures (38%). Whereas the original fucosidosis patients described by Durand et al. (J. Pediatr 75:665-674, 1969) were decerebrate and died before age 5 years, most fucosidosis patients have a slower course of degeneration. Mortality before age 5 years was observed in only 7 patients (9%), whereas 36 patients (64%) reached the second decade. We did not find evidence for the existence of clinical heterogeneity with a rapidly progressive type I and a slowly progressive type II fucosidosis as suggested in the literature. Instead, there seems to exist a wide continuous clinical spectrum. At the biochemical level no heterogeneity in residual fucosidase enzyme activity or cross-reacting immunoreactive fucosidase protein was observed. At the DNA level at least 4 different mutations must be responsible for fucosidosis. These genotypic differences however do not explain the observed phenotypic differences.
Celiac disease (CD), a malabsorption disorder of the small intestine, results from ingestion of gluten. The HLA risk factors involved in CD are well known but do not explain the entire genetic susceptibility. To determine the localization of other genetic risk factors, a systematic screening of the genome has been undertaken. The typing information of 281 markers on 110 affected sib pairs and their parents was used to test linkage. Systematic linkage analysis was first performed on 39 pairs in which both sibs had a symptomatic form of CD. Replication of the regions of interest was then carried out on 71 pairs in which one sib had a symptomatic form and the other a silent form of CD. In addition to the HLA loci, our study suggests that a risk factor in 5qter is involved in both forms of CD (symptomatic and silent). Furthermore, a factor on 11qter possibly differentiates the two forms. In contrast, none of the regions recently published was confirmed by the present screening.
No correlation was found between individual mutations and the presence of neutropenia, bacterial infections and systemic complications. These results suggest that different genes and proteins modulate neutrophil differentiation, maturation and apoptosis and thus the severity and frequency of infections. The absence of detectable mutations in three patients could suggest that a second protein plays a role in microsomal phosphate transport.
Keratosis follicularis spinulosa decalvans (KFSD) or Siemens-1 syndrome is a rare X-linked disease of unknown etiology affecting the skin and the eye. Although most affected families are compatible with X-linked inheritance, KFSD appears to be clinically and genetically heterogeneous. So far, the gene has been mapped to Xp22.13p22.2 in two extended KFSD families. Analysis of additional recombination events in the first Dutch pedigree located the gene to an interval covering approximately 1 Mb between markers DXS7163 and DXS7593/DXS7105, whereas haplotype reconstruction in the second German family positioned the gene outside the previously identified region, proximal to marker DXS274. We report here the molecular characterization of an Xp21.1p22.12 duplication present in a patient affected with dosage-sensitive sex reversal (DSS) and KFSD. The duplicated region includes both the DAX1 gene (previously demonstrated to be responsible for DSS) and the KFSD interval, in which the gene encoding spermidine/spermine N(1)-acetyltransferase ( SSAT) is located. This enzyme catalyzes the N(1)-acetylation of spermidine and spermine and, by the successive activity of polyamine oxidase, the spermine can be converted to spermidine and the spermidine to putrescine. Overexpression of the SSAT enzyme in a mouse model results in putrescine accumulation and a phenotype with skin and hair abnormalities reminiscent of human KFSD. Analysis of polyamine metabolism in the cells of the patient indicated that the levels of metabolites such as putrescine, spermidine and spermine were consistent with the overexpression of the SSAT gene as in the murine model. Thus, we propose that overexpression of SSAT and the consequent putrescine accumulation are involved in the KFSD phenotype, at least in our propositus.
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