Faculty Bibliography

We used a high-performance liquid chromatography method to measure CSF gangliosides, neutral glycolipids, and sulfatides in patients with lysosomal storage disorders. These measurements could be done on less than 1 milliliter of CSF. In patients with GM1 gangliosidosis, GM1 ganglioside was increased, and in GM2 gangliosidosis patients, GM2 ganglioside was increased in CSF. Sulfatides were variably increased in CSF early in the course of the disease and appeared to be a means of monitoring patients, following bone marrow transplantation. Fabry's disease patients showed an increase in globotriaosylceramide, but Krabbe's disease patients did not demonstrate an increase in galactosylceramide. This study suggests that CSF glycosphingolipid measurements may prove helpful in the diagnosis and monitoring of lysosomal storage diseases

Fabry disease is an X-linked glycosphingolipid storage disease caused by deficiency of alpha-galactosidase. Storage of globotriaosylceramide, also known as ceramide trihexoside, is maximal in blood vessels but also occurs in neurons. We performed neuropathological histochemical studies on the brains and spinal cords of 2 patients with confirmed Fabry disease. Luxol fast blue-positive deposits were found in blood vessels throughout the central and peripheral nervous system and within selected neurons in spinal cord and ganglia, brainstem, amygdala, hypothalamus, and entorhinal cortex. Regions adjacent to involved neuronal groups, including nucleus basalis, striatum, globus pallidus, and thalamus, were spared. Electron microscopy showed lamellar cytoplasmic neuronal inclusion bodies. Using a monoclonal antibody reactive with ceramide trihexoside, we found more extensive neuronal deposition than evident by Luxol-fast blue staining and new areas of neuronal storage in the spinal cord and cerebral cortex. Blood vessels throughout the nervous system were strongly immunoreactive. The highly selective pattern of neuronal involvement we found suggests that glycosphingolipid exposure, uptake, or catabolism varies greatly with respect to neuronal morphology and distribution. The degree of toxicity to neurons and the clinical significance of this neuronal storage remains to be defined

Adult GM2 gangliosidosis is a rare disorder that often presents with both neurological and psychiatric syndromes. Effective treatment of the psychotic and affective symptoms associated with this disorder has been complicated by poor treatment response and the concern that many psychotropic agents may worsen the underlying gangliosidosis. We report the successful use of electroconvulsive therapy for treatment of severe depression in a young man with adult GM2 gangliosidosis

We have observed that the fragile hair of two untreated patients with argininosuccinic aciduria showed abnormal alternating zones of bright and dark banding by polarizing microscopy. Scanning electron microscopy documented discontinuous grooves with a 50 to 100 microns periodicity. Results of amino acid analysis of the hair were essentially normal. After the patients were treated with a low-protein, arginine-supplemented diet, the hair assumed a normal appearance. Five patients already treated with diet showed no hair abnormalities. The pathogenesis of the hair changes in unknown, but our findings suggest that products generated in the disease can adversely affect metabolically active tissue such as hair

Single-stranded cDNA was prepared from RNA obtained from a patient with type 1 Gaucher disease. The cDNA was amplified in vitro and analyzed by sequencing. Three base-pair changes were identified which included a G to C transversion at nucleotide 3119 of the active gene (Asp140----His), an A to C transversion at nucleotide 3170 (Lys157----Gln) and a G to A change at nucleotide 5309 (Glu326----Lys). To study the mode of inheritance of the three different base-pair changes, genomic DNA was prepared from blood or skin fibroblasts of several family members. Genomic glucocerebrosidase DNA sequences were amplified and subjected to hybridization with allele-specific oligonucleotides (ASOs). The hybridization profiles demonstrated that two of the base-pair changes originated from the mother and were transmitted to her two affected sons and to a grandchild, while the third base-pair change, originating from the father, was transmitted to his two affected sons, a carrier daughter and a second grandchild. Tests of other patients with Gaucher disease failed to disclose the presence of the three base-changes. This is a unique family with three base-pair changes tightly linked to Gaucher disease

The diagnosis of late-onset variants of Krabbe disease (globoid cell leukodystrophy) has been facilitated by the recognition of galactocerebrosidase deficiency as its biochemical hallmark. Fifteen patients, ages 4-73, are presented. Signs included pes cavus, optic disc pallor, progressive spastic tetraparesis, a sensorimotor demyelinating neuropathy and hypodense lesions in the parieto-occipital periventricular white matter. Although intellect was preserved in more than half the cases, significant intrafamilial variability in mental functioning was encountered in 3 families. Bone marrow transplantation was successful in 1 13-year-old girl, but caused the death of 2 teenage twin sisters

Gaucher disease is the most common sphingolipid storage disorder. Due to its high prevalence it may appear with a nonrelated neurological disease and be misinterpreted as Gaucher type 3. A family is described in which 2 Gaucher brothers presented different clinical signs. Molecular analysis has shown that both carried two mutated alleles. One allele had a G to C transversion at nucleotide 3119 of the active gene (Asp140-His) while the other presented two base pair changes, an A to C transversion at nucleotide number 3170 (Lys157-Gly), and a G-A transition at nucleotide number 5309 (Glu324-Lys). Therefore, both presented the same type of Gaucher disease which was accompanied with a nonrelated neurological disease in one of them. Molecular diagnosis of 161 patients has provided a relative abundance of different mutations among Jewish and non-Jewish patients and allowed some genotype-phenotype correlation. Differential expression of the murine glucocerebrosidase activator gene (the prosaposine) has been demonstrated using Northern technique and in situ hybridization. High expression levels were observed in the brain and testes. In the testes the prosaposine expression was confined to the supporting cells. In the female gonad prosaposine expression has also been shown, in the corpus luteum. In a 12 1/2-day-old embryo, prosaposine gene expression was detected mainly in brain stem, in dorsal ganglia and in the genital ridge

Seven members of an Ashkenazi Jewish family with Gaucher disease in 3 successive generations were tested for the presence of the 2 common mutations known to occur in the glucocerebrosidase gene. Genomic DNA from blood or skin fibroblasts of relatives was amplified by using the PCR technique and individual mutations identified by oligonucleotides specific to the mutated sequences. Four individuals were homozygous for a mutation at amino acid 370 (370 mutation) known to occur only in type 1 disease. The other 3 affected relatives were compound heterozygotes for this mutation and for a mutation at amino acid 444 (NciI mutation) which, in the homozygous state, is associated with neurological disease. Clinical severity was more marked in the compound heterozygotes than in the homozygotes. Since the mutation is present in Ashkenazim, molecular diagnosis in families which carry the NciI mutation should prove useful in assessing their risk of the neurologic forms of Gaucher disease

BACKGROUND AND METHODS. The prevention of Tay-Sachs disease (GM2 gangliosidosis, type 1) depends on the identification of carriers of the gene for this autosomal recessive disorder. We compared the enzyme-based test widely used in screening for Tay-Sachs disease with a test based on analysis of DNA. We developed methods to detect the three mutations in the HEXA gene that occur with high frequency among Ashkenazi Jews: two mutations cause infantile Tay-Sachs disease, and the third causes the adult-onset form of the disease. DNA segments containing these mutation sites were amplified with the polymerase chain reaction and analyzed for the presence of the mutations. RESULTS. Among 62 Ashkenazi obligate carriers of Tay-Sachs disease, the three specific mutations accounted for all but one of the mutant alleles (98 percent). In 216 Ashkenazi carriers identified by the enzyme test, DNA analysis showed that 177 (82 percent) had one of the identified mutations. Of the 177, 79 percent had the exon 11 insertion mutation, 18 percent had the intron 12 splice-junction mutation, and 3 percent had the less severe exon 7 mutation associated with adult-onset disease. The results of the enzyme tests in the 39 subjects (18 percent) who were defined as carriers but in whom DNA analysis did not identify a mutant allele were probably false positive (although there remains some possibility of unidentified mutations). In addition, of 152 persons defined as noncarriers by the enzyme-based test, 1 was identified as a carrier by DNA analysis (i.e., a false negative enzyme-test result). CONCLUSIONS. The increased specificity and predictive value of the DNA-based test make it a useful adjunct to the diagnostic tests currently used to screen for carriers of Tay-Sachs disease. Although some false positive results may be desirable on an enzyme-based test that is used in screening, the DNA test allows precise definition of the carrier state for the known mutations