Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe the neuropathology in mucopolysaccharidosis type VII (MPS VII) mice with a recessively inherited deficiency of the lysosomal enzyme beta-glucuronidase. Affected animals have a shortened life span, are dysmorphic, dwarfed and have clinical evidence of behavioral and memory deficiencies. Widespread lysosomal distention with glycosaminoglycan accumulation affects most viscera. In the central nervous system there is progressive accumulation of lysosomal storage in neurons, glia and mesenchymal tissue. The morphological character and the amount of lysosomal storage varies among neuronal groups. In the hippocampus, regional variation in the abundance of lysosomal storage in the MPS VII mice correlates with regional variation in the amount of beta-glucuronidase activity in normal mice. The MPS VII mouse provides a well-defined genetic system for the analysis of the neuropathology of MPS VII and is an attractive model on which to test the effects of potential therapies for lysosomal storage disease on the central nervous system.
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PMID:Neuropathology of murine mucopolysaccharidosis type VII. 896 Mar 13

Mucopolysaccharidosis type VII (Sly syndrome) is a lysosomal storage disease caused by inherited deficiency of the lysosomal enzyme beta-glucuronidase. A murine model of this disorder has been well characterized and used to study a number of forms of experimental therapies, including gene therapy. We produced recombinant adenovirus that expresses human beta-glucuronidase and administered this recombinant adenovirus to beta-glucuronidase-deficient mice intravenously. The beta-glucuronidase activities in liver and spleen were elevated to 40% and 20%, respectively, of the heterozygote enzymatic level at day 16. Expression persisted for at least 35 days. Pathological abnormalities of these tissues were also improved, and the elevated levels of urinary glycosaminoglycans were reduced in treated mice. However, the beta-glucuronidase activity in kidney and brain was not significantly increased. After administration of the recombinant adenovirus directly into the lateral ventricles of mutant mice, the beta-glucuronidase activity in crude brain homogenates increased to 30% of heterozygote activity. Histochemical demonstration of beta-glucuronidase activity in brain revealed that the enzymatic activity was mainly in ependymal cells and choroid. However, in some regions, the adenovirus-mediated gene expression was also evident in brain parenchyma associated with vessels and in the meninges. These results suggest that adenovirus-mediated gene delivery might improve the central nervous system pathology of mucopolysaccharidosis in addition to correcting visceral pathology.
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PMID:Adenovirus-mediated gene transfer and expression of human beta-glucuronidase gene in the liver, spleen, and central nervous system in mucopolysaccharidosis type VII mice. 903 45

Current human gene therapy relies on genetic modification of the patient's own cells. An alternate non-autologous approach is to use universal cell lines engineered to secrete therapeutic products. Protection with immuno-isolation devices would allow the same recombinant cell line to be used for different patients, thus potentially lowering the cost of treatment. The feasibility of this idea has now been demonstrated in vitro and in vivo. Recombinant gene products with potential therapeutic applications (human growth hormone, factor IX, lysosomal enzymes, adenosine deaminase) have been expressed from genetically modified cells after encapsulation with alginate-poly-L-lysine-alginate or hydroxyethyl methacrylate-methyl methacrylate. We have also demonstrated the feasibility of this idea in vivo. After intraperitoneal implantation, genetically modified mouse Ltk- fibroblasts or C2C12 myoblasts encapsulated in alginate-poly-L-lysine-alginate could deliver recombinant gene products (human growth hormone, human factor IX) to the systemic circulation of mice. The clinical efficacy of this novel approach to gene therapy has now been shown in murine models of human diseases. In the Snell dwarf mice deficient in growth hormone production, implantation of encapsulated mouse myoblasts engineered to secrete mouse growth hormone resulted in increases in body weight, length and organ sizes, some to > 25% above those of the controls. In the Gus/Gus mice suffering from the lysosomal storage disease mucopolysaccharidosis type VII due to deficient beta-glucuronidase, implantation of encapsulated mouse fibroblasts engineered to secrete mouse beta-glucuronidase resulted in delivery of normal levels of the enzyme in the plasma and significant correction of the organ histopathology. Hence, delivery of recombinant gene products through bioartificial devices appears to be a promising strategy for the treatment of genetic diseases.
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PMID:Microcapsules as bio-organs for somatic gene therapy. 961 35

Murine mucopolysaccharidosis type VII (MPS VII) is a lysosomal storage disease caused by a recessively inherited deficiency of the lysosomal enzyme beta-glucuronidase. Affected mice have clinical, biochemical and pathological findings similar to those seen in humans with MPS VII (Sly syndrome), including growth retardation, facial dysmorphism, deafness, behavioural deficits and widespread glycosaminoglycan storage in lysosomes in the viscera, skeleton and brain. This mouse model is a useful tool for the evaluation of the effectiveness and experimental therapies for the MPS disorders. Syngeneic bone marrow transplantation performed in newborn MPS VII animals--before clinical evidence of disease is pronounced--prolongs life, improves hearing and bone growth, and prevents lysosomal storage in many sites, but does not correct the central nervous system disease. Enzyme therapy with beta-glucuronidase from the first days of life does reduce lysosomal storage in the brain in murine MPS VII. The enzyme-replaced mice also have reduced visceral lysosomal storage, impressive normalization of their phenotype and an improved life span. The effectiveness of gene therapy for the treatment of lysosomal storage disease has also been tested using the MPS VII model. When transplanted into MPS VII mice, syngeneic haematopoietic stem cells or mouse skin fibroblasts infected with retrovirus expressing beta-glucuronidase decreased storage, but only in the liver and spleen. Injection of an adenovirus vector expressing beta-glucuronidase into the vitreous of the MPS VII mice reduced storage in the retinal pigment epithelium and corneal endothelium. Intravenous administration of the adenovirus vector transduced with the beta-glucuronidase gene reduced liver and spleen storage and, when instilled into the cerebral ventricles, this viral vector caused beta-glucuronidase production in epithelial cells lining the ventricles. Recently, retroviral vector-corrected MPS VII fibroblasts secreting high levels of beta-glucuronidase were engrafted directly into the brains of adult MPS VII mice with resultant reduction in storage in neurons and glia adjacent to the grafts. Future efforts aimed at prolonging expression of the beta-glucuronidase gene by viral vectors and more precisely directing the therapeutic effect to the skeleton and brain will be important in optimizing treatments for murine MPS VII and extending the results of such therapies to humans with MPS.
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PMID:Murine mucopolysaccharidosis type VII: the impact of therapies on the clinical course and pathology in a murine model of lysosomal storage disease. 972 37

Mucopolysaccharidosis type VII (MPS VII), caused by beta-glucuronidase deficiency, is a classic lysosomal storage disease. In the central nervous system (CNS), there is widespread pathology with distention of vacuoles in neurons and glia. An approach to therapy for MPS VII would require extensive delivery of enzyme to the CNS and subsequent uptake by the affected cells. In this study we show that intrastriatal injection of recombinant adenovirus encoding beta-glucuronidase (Ad betagluc) to MPS VII or wild-type mice results in focal, intense beta-glucuronidase mRNA expression near the injection site. Further, histochemical staining for enzyme activity showed that beta-glucuronidase activity extended well beyond transduced cells. Activity was detected throughout the ipsilateral striatum as well as in the corpus callosum, ventricles, and bilateral neocortex. Similarly, after injection into the right lateral ventricle or cisterna magna, enzyme activity was present in the ependymal cells of the ventricles, in the subarachnoid spaces, and also in the underlying cortex (150-500 microm from ependyma). The distribution of enzyme was most extensive 21 days after gene transfer to normal mouse brain, with more than 50% of the hemisphere positive for beta-glucuronidase activity. Eighty-four days after adenovirus injection a substantial level of enzyme expression remained (>40% of hemisphere positive for beta-glucuronidase activity). Histological sections from striatum of beta-glucuronidase-deficient mice injected with Ad betagluc showed a marked reduction in the number of distended vacuoles in both neurons and glia, as compared with uninjected striatum. Importantly, correction was noted in both hemispheres. Our finding that a relatively small number of transduced cells produce enzyme that reaches a large proportion of the CNS has favorable implications in developing direct gene transfer therapies for lysosomal storage disorders.
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PMID:Extensive beta-glucuronidase activity in murine central nervous system after adenovirus-mediated gene transfer to brain. 982 32

Mucopolysaccharidosis type VII (MPS VII) is a lysosomal storage disease caused by a deficiency in beta-glucuronidase. The disease has been well-characterized in B6.C-H-2bml/ByBir-gus(mps/mps) mice, which have proven to be an excellent model for the study of treatment modalities of storage diseases. However, because of the progressive nature of the disease, the mice deteriorate rapidly, have a greatly decreased life span, and are infertile. To increase fitness, B6.C-H-2bml/ByBir-gus(mps/+) were interbred with normal C3H mice. This study compares clinical findings, fertility, longevity, and gross and microscopic findings in the original strain with those in the F2 generation of the interbred strain.
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PMID:Variant clinical course of mucopolysaccharidosis type VII in two groups of mice carrying the same mutation. 988 57

For many metabolic diseases, early correction of the inherited deficiency is required to prevent long-term sequelae. We examined the ability of adeno-associated virus (AAV) to mediate efficient gene transfer during the neonatal period in mice with the lysosomal storage disease mucopolysaccharidosis type VII (MPS VII). Quadriceps of newborn MPS VII mice were injected with an AAV vector containing human beta-glucuronidase (GUSB) cDNA. High-level intramuscular GUSB expression was seen as early as 2 weeks of age, and persisted for at least 16 weeks with no reduction in activity. In addition, GUSB activity was detected in both liver and spleen at later time points. The level of GUSB activity resulted in a significant reduction in lysosomal storage in the liver and a minimal reduction in the spleen at 16 weeks. However, the temporal and spatial pattern of hepatic GUSB activity, coupled with the presence of GUSB cDNA in liver sections, suggests that hematogenous dissemination of virus at the time of injection led to gene transfer to hepatic cells. These results demonstrate that AAV vectors can successfully infect neonatal muscle and persist through the rapid growth phase following birth. However, GUSB secretion from an intramuscular source is inefficient, limiting the therapeutic efficacy of this approach.
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PMID:Neonatal intramuscular injection with recombinant adeno-associated virus results in prolonged beta-glucuronidase expression in situ and correction of liver pathology in mucopolysaccharidosis type VII mice. 1002 33

Mucopolysaccharidosis type VII (MPS VII) is a lysosomal storage disease caused by a genetic deficiency of beta-glucuronidase (GUS). We used a recombinant adeno-associated virus vector (AAV-GUS) to deliver GUS cDNA to MPS VII mice. The route of vector administration had a dramatic effect on the extent and distribution of GUS activity. Intramuscular injection of AAV-GUS resulted in high, localized production of GUS, while intravenous administration produced low GUS activity in several tissues. This latter treatment of MPS VII mice reduced glycosaminoglycan levels in the liver to normal and reduced storage granules dramatically. We show that a single administration of AAV-GUS can provide sustained expression of GUS in a variety of cell types and is sufficient to reverse the disease phenotype at least in the liver.
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PMID:Treatment of lysosomal storage disease in MPS VII mice using a recombinant adeno-associated virus. 1002 43

Mucopolysaccharidosis type VII (MPS VII) is an inherited lysosomal storage disease caused by insufficient beta-glucuronidase (GUS). To provide gene therapy in a mutant mouse model of this disease, we have used a recombinant adeno-associated virus (rAAV) vector to deliver GUS cDNA to a variety of tissues. Although intravenous administration of vector produced therapeutic levels of GUS in the liver, delivery to the brain was inadequate. To improve delivery to the brain intrathecal injection of the vector into the cerebrospinal fluid was employed. This route of administration to either neonatal or adult mutant mice resulted in therapeutic levels of GUS in the brain and the elimination of storage granules in brain tissue.
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PMID:Elimination of lysosomal storage in brains of MPS VII mice treated by intrathecal administration of an adeno-associated virus vector. 1045 22

Causes of transplantation failures are often difficult to assess due to our inability to monitor hematopoietic stem cell (HSC) homing, distribution, and amplification in situ. We have developed a mouse model that permits histochemical localization of 1000-fold enriched HSC and quantification of their long-term expanded progeny in situ. The mice are genetically myeloablated (c-kit receptor mutated, W41/W41) and are beta-glucuronidase null (GUSB ; gus(mps)/gus(mps)). The GUSB- mice with mucopolysaccharidosis type VII (MPS VII), like a large number of human patients with similar diseases, have systemic lysosomal storage disease that leads to premature death. Congenic GUSB+, Lineage(lo), Sca-1(hi), c-Kit(hi), Hoechst(lo) HSC, at doses of 30, 100, 250, and 425 cells, implanted and amplified in adult W41/W41, gus(mps)/gus(mps) recipients in a dose-dependent manner. At autopsy, primary recipients of 100 and 425 donor cells had histologically identifiable donor GUSB+ cells in multiple sites and showed both myeloid and lymphoid expansion in bone marrow. Donor cells were rare in the liver and spleen of 100-cell recipients, but lysosomal storage was significantly reduced. The life span was significantly extended in engrafted recipients of 250 (36.7 +/- 3.84 weeks,p = 0.0316) and 425 (40.7 +/-1.53 weeks,p = 0.0033) cells compared to untreated mice (26.4 +/- 1.53 weeks). Secondary hosts of marrow from the recipients of 425 cells demonstrated continued expansion of the GUSB+ cells. Results indicate the genetically myeloablated MPS VII mice can be used to trace and enumerate donor cells long-term and to follow early engraftment events in situ.
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PMID:A genetically myeloablated MPS VII model detects the expansion and curative properties of as few as 100 enriched murine stem cells. 1056 Sep 17


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