Protracted course of Krabbe disease in an adult patient bearing a novel mutation.

BACKGROUND: Krabbe disease, or globoid cell leukodystrophy, is an autosomal recessive disorder caused by the deficiency of galactocerebrosidase (GALC) activity. Although most cases are diagnosed in infancy and show a fatal outcome in childhood, adult patients have been identified, showing progressive spastic hemiparesis to tetraparesis, followed by optic atrophy, dementia, and neuropathy. The disease can be diagnosed by detecting the deficiency of GALC activity (less than 5% of normal) in any available tissue sample. The cloning of the human GALC gene allowed the molecular characterization of newly diagnosed patients. More than 75 disease-causing mutations and polymorphisms in this gene have been identified. OBJECTIVE: To describe a 28-year-old woman with Krabbe disease, correlating clinical and biochemical abnormalities to a novel mutation on the GALC gene. METHODS: Clinical investigation was enriched by neurophysiological and neuroimaging data. The activity of GALC was assayed in white blood cells using radiolabeled natural substrate. Genomic DNA was isolated from peripheral blood, and the GALC gene was sequenced. The mutated gene was expressed and GALC activity was measured in transfected COS-1 cells. RESULTS: The patient had progressive and bilateral amaurosis starting at 8 years of age. Although she was experiencing weakness in all her extremities, her intellect remained intact. She was found to be homozygous for a previously unreported missense mutation (T1886G), which leads to low, but not totally deficient, GALC activity. CONCLUSIONS: Expression of this mutation in COS-1 cells using the pcDNA3 expression vector (Invitrogen, Carlsbad, Calif) resulted in low, although not null, GALC activity, which can explain the protracted clinical course in this patient. Patients carrying the mutation described herein might be potential candidates for therapeutic trials, such as bone marrow transplantation or gene therapy.

Adult and infantile Gaucher disease in one family: mutational studies and clinical update.

Molecular analysis and clinical updates are provided on a previously reported mother and adult son with Gaucher disease; two other children died with acute neuronopathic (type 2) Gaucher disease. The mother and son have the identical genotype (370/444) but very different clinical manifestations. These findings illustrate the need for additional studies before families with newly diagnosed Gaucher disease undergo counseling.

Mutations in the lysosomal beta-galactosidase gene that cause the adult form of GM1 gangliosidosis.

Three adult patients with acid beta-galactosidase deficiency/GM1 gangliosidosis who were from two unrelated families of Scandinavian descent were found to share a common point mutation in the coding region of the corresponding gene. The patients share common clinical features, including early dysarthria, mild ataxia, and bone abnormalities. When cDNA from the two patients in family 1 was PCR amplified and sequenced, most (39/41) of the clones showed a C-to-T transition (C-->T) at nucleotide 245 (counting from the initiation codon). This mutation changes the codon for Thr(ACG) to Met(ATG). Mutant and normal sequences were also found in that position in genomic DNA, indicating the presence of another mutant allele. Genomic DNA from the patient in family 2 revealed the same point mutation in one allele. It was determined that in each family only the father carried the C-->T mutation. Expression studies showed that this mutation produced 3%-4% of beta-galactosidase activity, confirming its deleterious effects. The cDNA clones from the patients in family 1 that did not contain the C-->T revealed a 20-bp insertion of intronic sequence between nucleotides 75 and 76, the location of the first intron. Further analysis showed the insertion of a T near the 5' splice donor site which led to the use of a cryptic splice site. It appears that the C-->T mutation results in enough functional enzyme to produce a mild adult form of the disease, even in the presence of a second mutation that likely produces nonfunctional enzyme.

Regional mapping of the human galactocerebrosidase gene (GALC) to 14q31 by in situ hybridization.

The cDNA for human galactocerebrosidase (GALC) has recently been cloned and expressed. A portion of this cDNA was used for in situ hybridization, and the region of strongest signal corresponded to human chromosome region 14q31. This agrees with recent linkage studies that localized Krabbe disease (globoid cell leukodystrophy) to the same region. This information will be useful in future studies for mapping this gene in animal models of GALC deficiency.

Correction of sulfatide metabolism after transfer of prosaposin cDNA to cultured cells from a patient with SAP-1 deficiency.

The lysosomal removal of the sulfate moiety from sulfatide requires the action of two proteins, arylsulfatase A and sphingolipid activator protein-1 (SAP-1). Recently, patients have been identified who have a variant form of metachromatic leukodystrophy which is characterized by mutations in the gene coding for SAP-1, which is also called "prosaposin." All of the mutations characterized in these patients result in (a) deficient mature SAP-1, as determined by immunoblotting after SDS-PAGE of tissue and cell extracts, and (b) decreased ability of cultured skin fibroblasts to metabolize endocytosed [14C]-sulfatide. We now report the insertion of the full-length prosaposin cDNA into the Moloney murine leukemia virus-derived retroviral vector, pLJ, and the infection of cultured skin fibroblasts from a newly diagnosed and molecularly characterized patient with SAP-1 deficiency. The cultured cells infected with the prosaposin cDNA construct now show both production of normal levels of mature SAP-1 and completely normal metabolism of endocytosed [14C]-sulfatide. These studies demonstrate that the virally transferred prosaposin cDNA is processed normally and is localized within lysosomes, where it is needed for interaction between sulfatide and arylsulfatase A. In addition, normal as well as mutant sequences can now be found by allele-specific oligonucleotide hybridization of PCR-amplified genomic DNA by using exonic sequences as primers.

Pseudodeficiencies of arylsulfatase A and galactocerebrosidase activities.

Pseudodeficiency is defined as the in vitro measurement of low activity (usually under 15% of the normal mean for controls) of an enzyme in a healthy person. They may be hard to distinguish from presymptomatic people who will present with adult-onset clinical disease. The finding of healthy people with low arylsulfatase A and galactocerebrosidase activities is well documented. This confuses the laboratory doing testing and the clinician providing the sample. Therefore confirmation of a diagnosis of metachromatic leukodystrophy and Krabbe disease, as well as accurate identification of carriers, requires additional testing including 14C-sulfatide loading in cultured skin fibroblasts, examination of urine for excretion of undegraded lipids, examination of enzyme levels in additional family members including grandparents, and molecular analysis of DNA samples for known mutations.