Deletions of VCX-A and NLGN4: a variable phenotype including normal intellect

BACKGROUND

Patients with Xp22.3 interstitial and terminal deletions have been shown to be affected by intellectual disability (ID) or autism. Previously, VCX-A (variably charged protein X-A), located at Xp22.3, was introduced as a gene for ID and its presence was suggested to be sufficient to maintain normal mental development. Recent reports suggest that mutations in NLGN4 (neuroligin 4), located at that same region, are involved in autistic disorders and ID.

METHODS

In the current case study, we clinically and molecularly describe a pedigree of three generations affected by contiguous gene syndrome that includes features of X-linked ichthyosis and Kallmann syndrome.

RESULTS

Molecular analysis revealed the presence of an interstitial deletion spanning approximately 4.5Mb at Xp22.3. The centromeric breakpoint was localized between markers DXS1467 and DXS8051, proximal to KAL-1. The telomeric breakpoint was localized between markers DXS89 and DXS1060, distal to NLGN4. The deletion of VCX-A and NLGN4 in this family prompted us to examine the cognitive functions of our two adult patients using comprehensive intellectual and neurocognitive assessment. Normal intellectual function was found in one patient and mild ID was revealed in the other. Neither patient met any Diagnostic and Statistical Manual of Mental Disorder, Fourth Edition criteria for a pervasive developmental disorder such as autism.

CONCLUSIONS

These findings suggest that deletion of VCX-A and NLGN4 can result in variable phenotypic features and that normal mental development can be achieved despite this deletion, emphasizing the importance of environmental factors and possible modifier genes.

TAT gene mutation analysis in three Palestinian kindreds with oculocutaneous tyrosinaemia type II; characterization of a silent exonic transversion that causes complete missplicing by exon 11 skipping

Deficiency of the hepatic cytosolic enzyme tyrosine aminotransferase (TAT) causes marked hypertyrosinaemia leading to painful palmoplantar hyperkeratoses, pseudodendritic keratitis and variable mental retardation (oculocutaneous tyrosinaemia type II or Richner-Hanhart syndrome). Parents may therefore seek prenatal diagnosis, but this is not possible by biochemical assays as tyrosine does not accumulate in amniotic fluid and TAT is not expressed in chorionic villi or amniocytes. Molecular analysis is therefore the only possible approach for prenatal diagnosis and carrier detection. To this end, we sought TAT gene mutations in 9 tyrosinaemia II patients from three consanguineous Palestinian kindreds. In two kindreds (7 patients), the only potential abnormality identified after sequencing all 12 exons and exon-intron boundaries was homozygosity for a silent, single-nucleotide transversion c.1224G > T (p.T408T) at the last base of exon 11. This was predicted to disrupt the 5' donor splice site of exon 11 and result in missplicing. However, as TAT is expressed exclusively in liver, patient mRNA could not be obtained for splicing analysis. A minigene approach was therefore used to assess the effect of c.1224G > T on exon 11 splicing. Transfection experiments with wild-type and c.1224G > T mutant minigene constructs demonstrated that c.1224G > T results in complete exon 11 skipping, illustrating the utility of this approach for confirming a putative splicing defect when cDNA is unavailable. Homozygosity for a c.1249C > T (R417X) exon 12 nonsense mutation (previously reported in a French patient) was identified in both patients from the third kindred, enabling successful prenatal diagnosis of an unaffected fetus using chorionic villous tissue.

A novel mutation in the SLC17A5 gene causing both severe and mild phenotypes of free sialic acid storage disease in one inbred Bedouin kindred

Four members of an extended consanguineous Bedouin family presented with different phenotypic variants of an autosomal recessive lysosomal free sialic acid storage disease. One affected individual had congenital ascites followed by rapid clinical deterioration and death, a presentation concordant with the clinical course of infantile free sialic acid storage disorder. His three first cousins had a more slowly progressive neurodegenerative disease, in line with the clinical phenotype of the milder form (Salla type) of this lysosomal disorder. Diagnosis of free sialic acid storage disease was based on clinical findings, histology, and biochemical assays of sialic acid. Molecular studies showed that all four affected individuals were homozygous for the same novel 983G > A mutation in exon 8 of the SLC17A5 gene, replacing glycine with glutamic acid at position 328 of the sialin protein. This family demonstrates the significant phenotypic variability of the disease in affected members of a single inbred kindred with precisely the same mutation, suggesting a role for modifier genes or environmental factors. It also highlights the need to consider this rare disorder in the differential diagnosis of congenital ascites and of unexplained psychomotor retardation, ataxia, and hypomyelination in infancy.

Mucolipidosis III type C: first-trimester biochemical and molecular prenatal diagnosis

OBJECTIVES

Mucolipidosis IIIC (MLIIIC) is a rare autosomal recessive lysosomal storage disease resulting from defective mannose 6-phosphate-dependent lysosomal enzyme trafficking; mutations of the gamma subunit of N-acetylglucosamine-1 phosphotransferase (GINAcPT) were recently found to cause its pathogenesis. We report here for the first time prenatal diagnosis (PND) for MLIIIC by means of chorionic villous sampling (CVS).

METHODS AND RESULTS

A fetus in a large Bedouin-Moslem family was found to be homozygous for the founder haplotype and the mutational SSCP pattern of MLIIIC. The diagnosis was confirmed by markedly reduced lysosomal enzyme activities in cultured chorionic villi. The molecular identification of the disease-causing mutation in this large Bedouin-Moslem kindred permitted, for the first time, identification of carriers and couples at risk.

CONCLUSIONS

The feasibility of early PND for a progressive disabling disease is important for its prevention. Nevertheless, the feasibility of PND raises a serious dilemma since affected individuals might have a variable phenotype and the disease is progressive and non-lethal. In addition, religious and social constraints are important factors to be taken into consideration in the genetic counseling of couples at risk.

Heparin-binding epidermal-growth-factor-like growth factor activation of keratinocyte ErbB receptors Mediates epidermal hyperplasia, a prominent side-effect of retinoid therapy

Sun-protected human skin was maintained in organ culture and treated with all-trans retinoic acid in the presence or absence of reversible or irreversible pharmacologic antagonists of c-erbB receptor tyrosine kinase activity. In the absence of these inhibitors, all-trans retinoic acid induced epidermal hyperplasia comparable to that induced in intact skin by all-trans retinol or all-trans retinoic acid itself. There was a strong correlation between inhibition of epidermal hyperplasia in organ culture and inhibition of epidermal-growth-factor-dependent keratinocyte growth in monolayer culture. In additional studies it was shown that all-trans retinoic acid could overcome the known inhibitory effects of calcium on expression of HB-EGF-like growth factor mRNA in organ-cultured skin. Further, it was shown that an antibody to HB-EGF-like growth factor inhibited retinoid-stimulated epidermal hyperplasia in organ culture and reduced proliferation in cultured keratinocytes. In contrast, the c-erbB receptor tyrosine kinase antagonists and the neutralizing HB-EGF-like growth factor antibody were ineffective in inhibiting all-trans-retinoic-acid-dependent survival and proliferation of human dermal fibroblasts. Taken together, these data indicate (i) that retinoid-induced epidermal hyperplasia in human skin proceeds through c-erbB, and (ii) that HB-EGF-like growth factor is one of the c-erbB ligands mediating this effect.

Clinical-biochemical correlation in molecularly characterized patients with Niemann-Pick type C

PURPOSE

Niemann-Pick disease type C (NP-C) is an autosomal recessive lipid storage disease manifested by an impairment in cellular cholesterol homeostasis. The clinical phenotype of NP-C is extremely variable, ranging from an acute neonatal form to an adult late-onset presentation. To facilitate phenotype-genotype studies, we have analyzed multiple Israeli NP-C families.

METHODS

The severity of the disease was assessed by the age at onset, hepatic involvement, neurological deterioration, and cholesterol esterification studies. Screening of the entire NPC1 coding sequence allowed for molecular characterization and identification of disease causing mutations.

RESULTS

A total of nine NP-C index cases with mainly neurovisceral involvement were characterized. We demonstrated a possible link between the severity of the clinical phenotype and the cholesterol esterification levels in fibroblast cultures following 24 hours of in vitro cholesterol loading. In addition, we identified eight novel mutations in the NPC1 gene.

CONCLUSIONS

Our results further support the clinical and allelic heterogeneity of NP-C and point to possible association between the clinical and the biochemical phenotype in distinct affected Israeli families.

Anti-CD11a ameliorates disease in the human psoriatic skin-SCID mouse transplant model: comparison of antibody to CD11a with Cyclosporin A and clobetasol propionate

The present study assesses the applicability of human skin-SCID (severe combined immunodeficiency) mouse chimeras in testing antipsoriatic therapeutics. Three agents were examined: (1) a monoclonal antibody to the alpha subunit of leukocyte function associated antigen-1 integrin (CD11a); (2) Cyclosporin A; and (3) clobetasol propionate (Temovate), a potent topical corticosteroid used clinically in the treatment of psoriasis. Skin transplanted to SCID mice from normal human volunteers or from psoriatic lesional skin was allowed to heal for 3 to 5 weeks before application of test reagents. During this period, psoriatic skin, which was 3.8-fold thicker than the corresponding normal skin before transplantation, maintained its phenotype (ie, increased epidermal thickness, rete ridges with blunted ends, and intralesional presence of T lymphocytes). Transplanted normal human skin, however, underwent a hyperplastic response during this period, resulting in a 2.4-fold increase in epidermal thickness. After the healing period, animals transplanted with normal or psoriatic skin were treated for 14 days by daily intraperitoneal injection of either Cyclosporin A or a monoclonal antibody to human CD11a, or by topical application of clobetasol propionate. At the end of the treatment period, the mice were killed and the tissue evaluated morphometrically for changes in epidermal thickness and immunohistologically for the presence of T lymphocytes. Both Cyclosporin A and anti-CD11a reduced the epidermal thickness of transplanted psoriatic skin, whereas neither reagent significantly reduced the thickness of transplanted normal skin. T lymphocytes were detected in the skin from treated animals; there did not seem to be any reduction in the number of T lymphocytes. Clobetasol propionate reduced the epidermal thickness of both normal and psoriatic skin. These data indicate that, in this model, therapies directed against pathophysiologic mechanisms that contribute to psoriasis can be distinguished from treatments that block epidermal hyperplasia occurring as a consequence of xenografting. Our observations provide evidence for the activity of anti-CD11a in an animal model of human psoriasis.

Characterization of lysosomal acid lipase mutations in the signal peptide and mature polypeptide region causing Wolman disease

Wolman disease results from an inherited deficiency of lysosomal acid lipase (LAL; EC 3.1.1.13). This enzyme is essential for the hydrolysis of cholesteryl esters and triacylglycerols derived from endocytosed lipoproteins. Because of a complete absence of LAL activity, Wolman patients accumulate progressive amounts of cholesteryl esters and triacylglycerols in affected tissues. To investigate the nature of the genetic defects causing this disease, mutations in the LAL gene from three subjects of Moslem-Arab and Russian descent living in Israel were determined. Two homozygotes for a novel 1-bp deletion introducing a premature in-frame termination codon at amino acid position 106 (S106X) were identified. A third subject was a homozygote for a G-5R signal peptide substitution and a G60V missense mutation. The functional significance of these mutations was tested by in vitro expression of single and double mutants in Spodoptera frugiperda cells. Single mutants G60V and S106X and double mutant G-5R/G60V displayed a virtual absence of lipase activity in cell extracts and culture medium. Signal peptide mutant G-5R retained lipase activity in cell extracts and showed a drastically reduced enzyme activity in culture supernatant, indicating that the mutation may affect secretion of active enzyme from cells. These results support the notion that Wolman disease is a genetically heterogeneous disorder of lipid metabolism.

Mucolipidosis type IV: novel MCOLN1 mutations in Jewish and non-Jewish patients and the frequency of the disease in the Ashkenazi Jewish population

The gene MCOLN1 is mutated in Mucolipidosis type IV (MLIV), a neurodegenerative, recessive, lysosomal storage disorder. The disease is found in relatively high frequency among Ashkenazi Jews due to two founder mutations that comprise 95% of the MLIV alleles in this population [Bargal et al., 2000]. In this report we complete the mutation analysis of Jewish and non-Jewish MLIV patients whose DNA were available to us. Four novel mutations were identified in the MCOLN1 gene of severely affected patients: two missense, T232P and F465L; a nonsense, R322X; and an 11-bp insertion in exon 12. The nonsense mutation (R322X) was identified in two unrelated patients with different haplotypes in the MCOLN1 chromosomal region, indicating a mutation hotspot in this CpG site. An in-frame deletion (F408del) was identified in a patient with unusual mild psychomotor retardation. The frequency of MLIV in the general Jewish Ashkenazi population was estimated in a sample of 2,000 anonymous, unrelated individuals assayed for the two founder mutations. This analysis indicated a heterozygotes frequency of about 1/100. A preferred nucleotide numbering system for MCOLN1 mutations is presented and the issue of a screening program for the detection of high-risk families in the Jewish Ashkenazi population is discussed.

Identification of the gene causing mucolipidosis type IV

Mucolipidosis type IV (MLIV) is an autosomal recessive, neurodegenerative, lysosomal storage disorder characterized by psychomotor retardation and ophthalmological abnormalities including corneal opacities, retinal degeneration and strabismus. Most patients reach a maximal developmental level of 12?15 months. The disease was classified as a mucolipidosis following observations by electron microscopy indicating the lysosomal storage of lipids together with water-soluble, granulated substances. Over 80% of the MLIV patients diagnosed are Ashkenazi Jews, including severely affected and mildly affected patients. The gene causing MLIV was previously mapped to human chromosome 19p13.2-13.3 in a region of approximately 1 cM (ref. 7). Haplotype analysis in the MLIV gene region of over 70 MLIV Ashkenazi chromosomes indicated the existence of two founder chromosomes among 95% of the Ashkenazi MLIV families: a major haplotype in 72% and a minor haplotype in 23% of the MLIV chromosomes (ref. 7, and G.B., unpublished data). The remaining 5% are distinct haplotypes found only in single patients. The basic metabolic defect causing the lysosomal storage in MLIV has not yet been identified. Thus, positional cloning was an alternative to identify the MLIV gene. We report here the identification of a new gene in this human chromosomal region in which MLIV-specific mutations were identified.

Molecular basis of variant pseudo-hurler polydystrophy (mucolipidosis IIIC)

Mucolipidosis IIIC, or variant pseudo-Hurler polydystrophy, is an autosomal recessive disease of lysosomal hydrolase trafficking. Unlike the related diseases, mucolipidosis II and IIIA, the enzyme affected in mucolipidosis IIIC (N-Acetylglucosamine-1-phosphotransferase [GlcNAc-phosphotransferase]) retains full transferase activity on synthetic substrates but lacks activity on lysosomal hydrolases. Bovine GlcNAc-phosphotransferase has recently been isolated as a multisubunit enzyme with the subunit structure alpha(2)beta(2)gamma(2). We cloned the cDNA for the human gamma-subunit and localized its gene to chromosome 16p. We also showed, in a large multiplex Druze family that exhibits this disorder, that MLIIIC also maps to this chromosomal region. Sequence analysis of the gamma-subunit cDNA in patients from 3 families identified a frameshift mutation, in codon 167 of the gamma subunit, that segregated with the disease, indicating MLIIIC results from mutations in the phosphotransferase gamma-subunit gene. This is to our knowledge the first description of the molecular basis for a human mucolipidosis and suggests that the gamma subunit functions in lysosomal hydrolase recognition.

Mucolipidosis type IV: the origin of the disease in the Ashkenazi Jewish population

Mucolipidosis type IV (MLIV) is a neurodegenerative lysosomal storage disease in which most of the patients diagnosed hitherto are Ashkenazi Jews. The basic metabolic defect causing this disease is still unknown and the relevant gene has not yet been mapped or cloned. Seventeen Israel Ashkenazi families with MLIV patients had been interviewed to study their family origin. Although the families immigrated to Israel from various European countries they all could trace their roots three to four generations back to northern Poland or the immediate neighbouring country, Lithuania. Furthermore, there are only one or two ultraorthodox families among the 70-80 Ashkenazi families with MLIV patients worldwide, a marked under-representation of this group which constitutes at least 10% of the Ashkenazi population. This data indicate that MLIV mutation occurred only around the 18th and 19th centuries, after the major expansion of this population, in a founder in this defined European region belonging to a more modern, secular family.

Adult-onset Niemann-Pick type C disease. Clinical, biochemical, and genetic study

BACKGROUND

Niemann-Pick type C disease is an autosomal recessive neurometabolic disorder of unknown origin mapped to chromosome 18q11-12 in most of the studied families. In contrast to the sphingomyelin lipidoses, in Niemann-Pick type C disease, fibroblasts are impaired in intracellular homeostatic responses to exogenous low-density lipoprotein (LDL) cholesterol. Biochemical heterogeneity of the disorder in relation to abnormal LDL processing is associated with various clinical presentations, but adult-onset Niemann-Pick type C disease is rare and has not been comprehensively characterized.

OBJECTIVE

To describe clinical, biochemical, and genetic features of adult-onset Niemann-Pick type C disease in 3 siblings.

DESIGN AND SETTING

Case series in a tertiary care center.

PATIENTS

The 3 siblings manifested a variable combination of vertical supranuclear ophthalmoplegia, ataxia, and splenomegaly. Brain magnetic resonance imaging showed cerebellar atrophy; brainstem auditory evoked responses were unobtainable, and bone marrow examination disclosed typical foam cells. The patients were 20, 26, and 28 years old and belonged to a sibship of 13 born of consanguineous healthy parents.

METHODS

Esterification of exogenous LDL cholesterol in cultured skin fibroblasts and filipin staining for free intracellular cholesterol. Polymerase chain reaction-based DNA linkage study using AC microsatellite markers D18S40, D18S44, D18S480, and D18S66.

RESULTS

Fibroblasts of the 3 patients showed a 23% to 58% block in the induced cholesterol esterification after 4 1/2 hours and a mild to moderate accumulation of free cholesterol. DNA study demonstrated linkage to the major 18q11-12 Niemann-Pick type C locus and identified unaffected carriers.

CONCLUSIONS

These results confirm the diagnosis of the least biochemically affected Niemann-Pick type C phenotype in this family with adult-onset disease and support a correlation between the mild laboratory and clinical findings in this age group.

Aspartylglucosaminuria among Palestinian Arabs

Aspartylglucosaminuria (AGU) is a rare disorder of glycoprotein metabolism caused by the deficiency of the lysosomal enzyme aspartylglucosaminidase (AGA). AGU is inherited as an autosomal recessive trait and occurs with a high frequency in Finland because of a founder effect. While very few patients with AGU have been reported from non-Finnish origin, we diagnosed the disorder in 8 patients originating from 3 unrelated families, all Palestinian Arabs from the region of Jerusalem. The clinical diagnosis of AGU is often difficult, in particular early in the course of the disease, and most of the patients are diagnosed after the age of 5 years. However, since these patients excrete early large amounts of aspartylglucosamine in urine, biochemical screening is easy by urine chromatography.

Niemann-Pick C1 disease gene: homology to mediators of cholesterol homeostasis

Niemann-Pick type C (NP-C) disease, a fatal neurovisceral disorder, is characterized by lysosomal accumulation of low density lipoprotein (LDL)-derived cholesterol. By positional cloning methods, a gene (NPC1) with insertion, deletion, and missense mutations has been identified in NP-C patients. Transfection of NP-C fibroblasts with wild-type NPC1 cDNA resulted in correction of their excessive lysosomal storage of LDL cholesterol, thereby defining the critical role of NPC1 in regulation of intracellular cholesterol trafficking. The 1278-amino acid NPC1 protein has sequence similarity to the morphogen receptor PATCHED and the putative sterol-sensing regions of SREBP cleavage-activating protein (SCAP) and 3-hydroxy-3-methyl-glutaryl coenzyme A (HMG-CoA) reductase.

Hunter syndrome among Jews in Israel

Hunter syndrome (mucopolysaccharidosis II) is an X-linked lysosomal storage disorder caused by the deficiency of iduronate sulfatase (IDS), the gene of which is located at Xq28. A relatively high frequency of Hunter disease among Ashkenazi and Moroccan Jews in Israel was observed. Genetic analysis of the patients with Hunter disease in these ethnic groups indicated the absence of new mutations and a two-fold excess of individuals with the mutant allele over non carriers. This unusual phenomenon is unique to these ethnic groups and is suggestive of a prenatal selection process favoring the Hunter allele. Studies of the IDS gene structure and its flanking region are performed with the aim of detecting the mutations causing the disease in these patients and thus develop the most accurate diagnostic procedure for carrier identification among female relatives in these families. Furthermore, these studies are also aimed at identifying the unique molecular structure in the IDS gene or its flanking region which is the basis for the selection process. RFLP analysis using the cDNA gene (pc2S15) and DNA probes closely linked to the IDS gene, as well as the study of CA repeats in a closely linked region, indicated the absence of common haplotypes among Ashkenazi or Moroccan patients, excluding a linkage disequilibrium between a putative advantageous linked gene to the Hunter mutation in our patients. Studies of the IDS gene indicated a partial deletion in two patients while the other 12 patients had an apparent intact gene.(ABSTRACT TRUNCATED AT 250 WORDS)

Late infantile metachromatic leukodystrophy in Israel

Metachromatic Leukodystrophy (MLD) is a neurodegenerative disease in which the lysosomal enzyme, Aryl sulfatase A (ARSA) is deficient. The disease is inherited as an autosomal recessive trait and its frequency is estimated to be 1/40,000 live births. The gene of ARSA has been cloned and up to now eight mutations causing MLD have been reported. Another mutation, PD, leads to the deficiency of the enzyme in vitro (pseudodeficiency) without any known clinical effect. The PD mutation is frequent in all populations. In Israel, late infantile MLD was found to be very frequent in a small Jewish isolate, the Habbanite Jews (1/75 live births). The molecular analysis demonstrated that in the Habbanite population, the mutation occurred on an allele with the PD mutation. The loss of ARSA activity is due to a point mutation C > T leading to a change of proline to leucine. MLD is also frequent among Moslem Arabs in Jerusalem. The mutation is a transition G > A destroying the splice donor site of exon 2. This mutation has been reported in patients with the late infantile MLD from different ethnic groups. The Christian Arabs in Israel also have a high incidence of the disease (1/10,000 live births); the mutation in this population is still unknown. Knowledge of the different mutations causing MLD in these defined populations will allow a carrier screening program to be carried out and prevent the birth of additional affected children.

Screening for carriers of Tay-Sachs disease in the ultraorthodox Ashkenazi Jewish community in Israel

A screening program for the detection of Tay-Sachs disease (TSD) carriers in the ultra Orthodox community of Ashkenazi Jews has operated in Israel since 1986. The purpose of this program is the prevention of marriages of 2 heterozygotes. The screened individuals are mostly couples in the engagement process or students in religious high schools. Two mandatory requirements guide this program. First, anonymity of the tested individuals who are identified only by code numbers; second completion of the test results of couples in the engagement process within a few days. The screening program is performed by the determination of hexosaminidase A (Hex A) activity in serum which is repeated in serum and leukocyte extracts in couples where both partners were found in the heterozygote range in the initial tests. The minimal carrier frequency was estimated to be 1:26 or higher, which is higher then in the general Jewish Ashkenazi population. This higher carrier frequency apparently stems from the fact that most members of this community originate from central Europe where the TSD carrier frequency was previously reported to be the highest in the Ashkenazi population. Since the beginning of the screening program no TSD child has been born to newlywed couples of this community in Israel.

Mucolipidosis type IV: accumulation of phospholipids and gangliosides in cultured amniotic cells. A tool for prenatal diagnosis

Cultured amniotic fluid cells from two mucolipidosis type IV (MLIV)-affected fetuses demonstrated accumulation of phospholipids and gangliosides when compared with normal controls. Like cultured skin fibroblasts from MLIV patients, cultured amniotic cells from the affected fetuses accumulated primarily lyso phospholipids and this could be demonstrated by radioactive labelling with appropriate precursors, either inorganic phosphate or oleic acid. Furthermore, like cultured skin fibroblasts, there was significant retention of exogenously supplied GD1A ganglioside in the affected amniotic cells. This storage was previously demonstrated to be unique to MLIV and thus can be used at present as a specific procedure for prenatal diagnosis of MLIV.

Krabbe disease in Israel

Over a period of 15 years, 18 infants affected with Krabbe disease were diagnosed in Israel. None of the patients were Jews. Six were Druze from a large kindred in which a very high incidence of the disease was previously reported. The 12 other patients were Moslem Arabs; 7 were from two adjacent villages and most of them were found to be related, originating from a large kindred in which the incidence of the disease is 1/130 live births. Three other patients were from a third large kindred that also had a high incidence of Krabbe disease. Israel's population includes communities in which a high incidence of lysosomal diseases has been found. The incidence of these diseases in Israel may be reduced by delineating the populations at risk. With respect to Krabbe disease, as reported here, the tests for heterozygote detection are not sufficiently accurate for a screening of the populations at risk. Prevention is possible only by prenatal diagnosis in the families at risk.

Hunter syndrome in Jews in Israel: further evidence for prenatal selection favoring the Hunter allele

Among all the Jewish families with Hunter patients in Israel, 10 were Ashkenazi or Moroccan in origin. In those families, there was a paucity of new mutations. In addition, a significant deviation of the segregation ratio between the Hunter gene and the normal allele was demonstrated among the offspring of heterozygous mothers or siblings of affected children in these families. These results confirm and extend our previous observations suggesting selection in favor of the X chromosome carrying the Hunter allele among Ashkenazi and Moroccan Jews.

The identification of lysosomal ganglioside sialidase in human cells

In this report we present evidence for the existence of a lysosomal ganglioside sialidase. The sialidase activity was solubilized by sonication and stimulated by cholate. The absence of ganglioside sialidase activity in sialidosis patients indicates that lysosomal sialidase is active towards gangliosides and glycoproteins. The plasma membranes were associated with two types of ganglioside sialidase activities, one was enhanced by cholate while the other was partially inhibited by this detergent.

Gaucher disease type I and pregnancy

We surveyed 47 pregnancies of 17 women affected with Gaucher disease (GD) type I. In two women affected with the severe form of GD type I, no change was observed in the course of the disease during pregnancy. In one patient with the moderate form of the disease there was an exacerbation of the disease during and after pregnancy, and thereafter two subsequent pregnancies of this woman ended by early spontaneous abortion. Four women were diagnosed during their pregnancy or soon after delivery suggesting in these women an exacerbation related to pregnancy. In the other ten women there was no change in the course of the disease. In general, the pregnancies of women affected with GD were normal; however, six women needed blood transfusion during pregnancy or at delivery. From these data it is suggested that there is some risk to pregnant women affected with GD type I, and accordingly, appropriate follow-up should be planned at the beginning of pregnancy in these patients.