Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Southern blot hybridization of DNA from Chinese hamster x mouse somatic cell hybrids was used to assign the mouse Cd1d genes to chromosome 3. Analysis of the progeny of an intersubspecies backcross was used to position these genes near the gene for glucocerebrosidase, Gba.
Somat Cell Mol Genet 1991 Jan
PMID:Chromosomal localization of Cd1d genes in the mouse. 170 64

Human lysosomal beta-glucosidase (D-glucosyl-acylsphingosine glucohydrolase, EC 3.2.1.45) is a membrane-associated enzyme that cleaves the beta-glucosidic linkage of glucosylceramide (glucocerebroside), its natural substrate, as well as synthetic beta-glucosides. Experiments with cultured cells suggest that in vivo this glycoprotein requires interaction with negatively charged lipids and a small acidic protein, SAP-2, for optimal glucosylceramide hydrolytic rates. In vitro, detergents (Triton X-100 or bile acids) or negatively charged ganglioside or phospholipids and one of several "activator proteins" increase hydrolytic rate of lipid and water-soluble substrates. Using such in vitro assay systems and active site-directed covalent inhibitors, kinetic and structural properties of the active site have been elucidated. The defective activity of this enzyme leads to the variants of Gaucher disease, the most prevalent lysosomal storage disease. The nonneuronopathic (type 1) and neuronopathic (types 2 and 3) variants of this inherited (autosomal recessive) disease but panethnic, but type 1 is most prevalent in the Ashkenazi Jewish population. Several missense mutations, identified in the structural gene for lysosomal beta-glucosidase from Gaucher disease patients, are presumably casual to the specifically altered posttranslational oligosaccharide processing or stability of the enzyme as well as the altered in vitro kinetic properties of the residual enzyme from patient tissues.
Crit Rev Biochem Mol Biol 1990
PMID:Acid beta-glucosidase: enzymology and molecular biology of Gaucher disease. 212 41

A recombinant retrovirus carrying complementary DNA containing the complete coding sequence for human glucocerebrosidase was constructed and used to infect mouse cells and human fibroblasts from a type 2 Gaucher patient. The cDNA stably integrated in the genome of the recipient cell. Infected cells made glucocerebrosidase-cross-reacting material, and the protein was glycosylated and contained the epitope(s) missing in the type 2 mutant glucocerebrosidase. This study demonstrates the feasibility of efficiently transferring the gene encoding glucocerebrosidase to Gaucher cells using retrovirus as vector.
Mol Biol Med 1986 Jun
PMID:Retrovirus-mediated transfer of the human glucocerebrosidase gene to Gaucher fibroblasts. 373 91

Gaucher mice, created by targeted disruption of the glucocerebrosidase gene, are totally deficient in glucocerebrosidase and have a rapidly deteriorating clinical course analogous to the most severely affected type 2 human patients. An ultrastructural study of tissues from these mice revealed glucocerebroside accumulation in bone marrow, liver, spleen, and brain. This glycolipid had a characteristic elongated tubular structure and was contained in lysosomes, as demonstrated by colocalization with both ingested carbon particles and cathepsin D. In the central nervous system (CNS), glucocerebroside was diffusely stored in microglia cells and in brainstem and spinal cord neurons, but not in neurons of the cerebellum or cerebral cortex. This rostralcaudal pattern of neuronal lipid storage in these Gaucher mice replicates the pattern seen in type 2 human Gaucher patients and clearly demonstrates that glycosphingolipid catabolism and/or accumulation varies within different brain regions. Surprisingly, the cellular pathology of tissue from these Gaucher mice was relatively mild, and suggests that the early and rapid demise of both Gaucher mice and severely affected type 2 human neonates may be the result of both a neurotoxic metabolite, such as glucosylsphingosine, and other factors, such as skin water barrier dysfunction secondary to the absence of glucocerebrosidase activity.
Mol Chem Neuropathol
PMID:A biochemical and ultrastructural evaluation of the type 2 Gaucher mouse. 763 21

Gaucher disease is the most common of the glycolipid storage diseases and is caused by an inherited deficiency of the enzyme glucocerebrosidase. It is a very heterogeneous disease and presents early and late onset forms which may or may not be associated with a neurological disease. Several point mutations of the glucocerebrosidase gene have been reported to cause this disease. This is the first report of the mutations causing GD in Italy. In this study of ten patients of non-Jewish origin, two mutations (1226G and 1448C) accounted for 19 of 20 disease alleles. In these patients a gene frequency of 33% for the 1226G mutation and 57.8% for the 1448C mutation was found. The patients homozygous for the 1448C mutation were also homozygous for the Pv1.1- genotype (polymorphic Pvu II site present at nt. 3931). This is in contrast with previous reports linking 1448C mutation to the Pv1.1+ genotype. Two out of the three 1448C homozygous patients are currently free of any evident neurological symptoms. These patients have been undergoing enzyme-replacement therapy for the last one year and have a Pv1.1-/1448C glucocerebrosidase haplotype. Both these factors appear to be associated with a late development of neuronopathic disease.
Hum Mol Genet 1993 Jun
PMID:1448C mutation linked to the Pv1.1- genotype in Italian patients with Gaucher disease. 810 72

The sphingolipid activator protein, saposin C (also termed SAP 2), was chemically synthesized, purified, and characterized. The fully protected 82-residue protein was synthesized by automated solid-phase methods, with multiple recoupling steps resulting in a high average coupling efficiency of 98.8%. The overall yield was estimated to be approx 40%. Deprotection and cleavage of the peptide from the resin was followed by folding in the absence of chaotropic agents at pH 8.5. The protein was purified by reversed-phase high pressure liquid chromatography (HPLC) and its purity determined by capillary electrophoresis and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The composition of the synthetic saposin C was determined by amino acid analysis. Its sequence was verified by Edman sequence analysis of overlapping peptide fragments generated by chymotryptic and Staphylococcus aureus V8 digestions. The sequence at the C-terminus was determined by digestion with carboxypeptidase P, followed by phenylthiohydantoin (PTH) derivitization and HPLC analysis of the released amino acid residues. Deglycosylated native saposin C appeared as a lower molecular-weight species than synthetic saposin C on SDS-PAGE. This has been explained by amino acid and C-terminal analysis showing native saposin C to be two amino acids shorter at the C terminus than a deduced sequence (from cDNA) previously published. Synthetic saposin C displayed 85% of full biological activity as determined by its ability to stimulate glucocerebrosidase activity in vitro: Synthetic and native saposin C increased glucocerebrosidase catalyzed hydrolysis of 4-methylumbelliferyl beta-D-glucoside by factors of 6.0 and 7.1, respectively. Furthermore, synthetic and native saposin C share similar K(act) values (0.5 and 1.5 microM respectively) indicating that they bind to glucocerebrosidase with similar affinities.
J Mol Neurosci 1993
PMID:Synthesis and characterization of a bioactive 82-residue sphingolipid activator protein, saposin C. 829 89

The characterization of mutations in Japanese patients with lipidosis, particularly in metachromatic leukodystrophy (MLD) and Gaucher disease has been studied in detail. Metachromatic leukodystrophy is characterized by an accumulation of sulfatide in nervous tissues and kidney due to a deficiency of arylsulfatase A (ASA). We analyzed the presence of three known mutant arylsulfatase A alleles in Japanese patients with MLD. Among 10 patients of Japanese patients with MLD, we found that allele 445A mutation has moderately high incidence and also homozygosity of this mutation results in the late infantile form. Allele 2381T was not found in Japanese patients. Furthermore, we found novel mutation which is G- to A mutation at the 1070 nucleotide of the ASA gene (designated 1070 A) in Japanese patients with juvenile onset. This mutation results in a amino acid substitution of Gly245 by Arg and found in heterozygote form. Our studies of molecular analysis in 10 Japanese patients with MLD indicate that Japanese MLD patients have unique characteristics of ASA mutations compared with those of Caucasian patients. On the other hand, Gaucher disease is the most prevalent sphingolipidosis, characterized by an accumulation of glucocerebroside in macrophage derived cells due to a deficiency of lysosomal hydrolase glucocerebrosidase. To study the molecular basis of Gaucher disease in Japanese patients, we analyzed the presence of the two known mutations (6433C and 3548A) in the glucocerebrosidase gene of 15 patients with Gaucher disease. We found that the 6433C and 3548A mutations occur in all subtypes of Japanese patients with Gaucher disease.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Biochem 1993 Feb 17
PMID:Molecular characteristics in Japanese patients with lipidosis: novel mutations in metachromatic leukodystrophy and Gaucher disease. 845 80

It is now clear that the lysosomal hydrolysis of sphingolipids requires both lysosomal enzymes and so-called sphingolipid activator proteins (SAPs). One gene, called prosaposin, codes for a precursor protein that is proteolytically cut into four putative SAPs. These four SAPs, of about 80 amino acids, share some structural features but differ somewhat in their specificity. Domain 3 of prosaposin mRNA contains the coding region for SAP-2, an activator of glucocerebrosidase. While most patients with Gaucher disease store glucosylceramide due to defects in glucocerebrosidase, a few patients store this lipid in the presence of normal enzyme levels. In this paper we describe the identification of a point mutation in domain 3 of a patient who died with this variant form of Gaucher disease. Polymerase chain reaction amplification was performed in the small amount of genomic DNA available using primers generated from the intronic sequence surrounding domain 3. The patient was found to have a T-to-G substitution at position 1144 (counting from the A of ATG initiation codon) in half of the M13 recombinant clones. This changes the codon for cysteine382 to glycine. His father and unaffected brother also had this mutation, but his mother did not. She was found to have half of the normal amount of mRNA for prosaposin in her cultured skin fibroblasts. Therefore, this child inherited a point mutation in domain 3 from his father and a deficiency of all four SAPs coded for by prosaposin from his mother.
Somat Cell Mol Genet 1993 Jan
PMID:Mutational analysis in a patient with a variant form of Gaucher disease caused by SAP-2 deficiency. 846 Mar 94

Gaucher disease, resulting from the decreased activity of the lysosomal enzyme glucocerebrosidase, is the most prevalent sphingolipid storage disease. Due to considerable heterogeneity of phenotypic expression, it has been subdivided into the nonneurological type 1 disease, and types 2 and 3, the neurological types. We describe homozygosity for the D409H mutation within the glucocerebrosidase gene associated with a unique form of type 3 Gaucher disease. Twelve patients, originating from three Arab sibships, were found to be homozygous for the D409H mutation. They all presented with oculomotor apraxia and a progressive cardiac valve defect with minimal organomegaly. When expressed in human cells in tissue culture, using the T7/EMC/vaccinia virus hybrid expression system, we were able to demonstrate that the mRNA carrying the D409H mutation was less stable than the normal counterpart. Pulse-chase experiments demonstrated that the mutated protein exhibited lower stability than the normal counterpart. Its activity toward the artificial substrate 4-methyl umbelliferyl glucopyranoside was similar to that of the mutated enzymes carrying the N370S or the L444P mutations. However, in loading experiments using lissamine-rhodamine conjugated glucosyl ceramide as a substrate, the recombinant mutated protein carrying the D409H mutation exhibited 28.63 +/- 6.05% of the activity exhibited by the normal enzyme. L444P and N370S mutations exhibited 51.90 +/- 7.16 and 115.75 +/- 12.64% of normal enzyme activity, respectively. Loading of cells homozygous for the D409H mutation demonstrated 10. 05% of the activity shown by normal cells. L444P and N370S homozygous cells demonstrated 25.3 and 98.5% of foreskin fibroblast glucocerebrosidase activity, respectively. We demonstrate that homozygosity for the D409H mutation is a unique case of a peculiar phenotype associated with a specific intracellular glucocerebrosidase activity.
Biochem Mol Med 1996 Dec
PMID:The glucocerebrosidase D409H mutation in Gaucher disease. 898 34

Gaucher disease is a heterogeneous disease characterized by impaired activity of the lysosomal enzyme glucocerebrosidase. This heterogeneity is attributed to a large number of mutations in the corresponding gene. In order to test the biochemical properties of some mutations prevalent among Israeli populations, the normal human glucocerebrosidase cDNA and cDNAs carrying mutations N370S, L444P, D409H, recTL, recNcil, P415R and 84GG were coupled to the T7 RNA polymerase promoter in a vaccinia virus-derived expression vector (pTM-1). Recombinant viruses were produced and used to infect human tissue culture cells. RNA and protein stability, recognition by anti-glucocerebrosidase monoclonal antibodies and intracellular enzymatic activity were measured. The results demonstrated that the D409H allele directed synthesis of cytoplasmic RNA with decreased stability compared with its normal counterpart or other mutated forms. The D409H and L444P mutated proteins had lower stability than that of their normal counterpart, while the recNcil-mutated protein was more stable. Only glucocerebrosidase forms harboring leucine at position 444 were recognized by the anti-glucocerebrosidase monoclonal antibodies used (8E4 and 2C7). Measurements of enzymatic activity of the recombinant proteins in cells loaded with a fluorescent glucosylceramide demonstrated that the N370S mutated enzyme had activity similar to that of the normal enzyme. The other mutated enzymes exhibited varying degrees of activities, generally corresponding to the phenotypes with which they are associated. The results presented demonstrate the use of the vaccinia virus-derived expression system and of loading living cells with fluorescent substrate as efficient tools for studying mutants in Gaucher disease and in other lysosomal diseases.
Hum Mol Genet 1997 Jun
PMID:Expression of mutated glucocerebrosidase alleles in human cells. 917 35


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