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1 vivo role of Saposin C in the modulation of Gaucher disease.
2 d small molecule treatment for patients with Gaucher disease.
3 ty due to biallelic GBA1 mutations underlies Gaucher disease.
4 echanism through which N370S and L444P cause Gaucher disease.
5 nvestigating the mechanisms of neuronopathic Gaucher disease.
6 inhibitors in the treatment of some forms of Gaucher disease.
7 S beta-Glu, the most common mutation causing Gaucher disease.
8 wish extraction) and 24 patients with type 3 Gaucher disease.
9 eveloped as enzyme replacement therapies for Gaucher disease.
10 ficiency of the enzyme or activator leads to Gaucher disease.
11 hogenic processes, including virus entry and Gaucher disease.
12 transfer therapy as a curative treatment for Gaucher disease.
13 r potential alternative future therapies for Gaucher disease.
14 enzyme replacement therapy in patients with Gaucher disease.
15 s causes of the glycolipid storage disorder, Gaucher disease.
16 sorted skin fibroblasts from a patient with Gaucher disease.
17 le independent predictor of fracture risk in Gaucher disease.
18 strocytes and fibroblasts from patients with Gaucher disease.
19 may be effective for a number of variants in Gaucher disease.
20 ocerebrosidase (GCase), which is involved in Gaucher disease.
21 A1 activity cause the lipid-storage disorder Gaucher disease.
22 ve immune cell recruitment and activation in Gaucher disease.
23 matory response in experimental and clinical Gaucher disease.
24 regulation of GBA2 activity in patients with Gaucher disease.
25 reatment option for the neuropathic forms of Gaucher disease.
26 Parkinson disease and neuronopathic forms of Gaucher disease.
27 onstrating their similarity to patients with Gaucher disease.
28 ing its potential for treating neuronopathic Gaucher disease.
29 rom the patients with parkinsonism or Type 2 Gaucher disease.
30 conduritol beta-epoxide, a cellular model of Gaucher disease.
31 ty in fibroblasts derived from patients with Gaucher disease.
32 y for the L444P GBA mutation associated with Gaucher disease.
33 candidates as pharmacological chaperones for Gaucher disease.
34 avel the role of GBA2 during pathogenesis of Gaucher disease.
35 (ARMS)-to genotype 128 patients with type 1 Gaucher disease (64 of Ashkenazi Jewish ancestry and 64
36 pathogenic mutations (those associated with Gaucher disease), a number of 'non-pathogenic' variants
39 reticulo-endothelial system in patients with Gaucher disease, a rare lysosomal storage disorder cause
40 f its lipid substrates in lysosomes, causing Gaucher disease, an autosomal recessive disorder that di
41 ed to deliver GBA1, mutations of which cause Gaucher disease and are linked to Parkinson's disease, B
43 s can complicate genotyping in patients with Gaucher disease and contribute to the difficulty in inte
45 tivity in fibroblasts from healthy controls, Gaucher disease and heterozygous glucocerebrosidase muta
47 50% (P < 0.05) in fibroblasts from controls, Gaucher disease and heterozygous mutation carriers with
49 y of some type 3 (neuronopathic) variants of Gaucher disease and is a unique model suitable for testi
50 nding of genotype-phenotype relationships in Gaucher disease and may provide insights into the mechan
51 ght into a possible therapeutic strategy for Gaucher disease and other genetic disorders by modifying
52 vide insight into a therapeutic strategy for Gaucher disease and other human disorders that are assoc
53 nzyme beta-glucocerebrosidase (GC) result in Gaucher disease and represent a major risk factor for de
54 nes from skin biopsies of five patients with Gaucher disease and six heterozygous glucocerebrosidase
55 ociation between the rare monogenic disorder Gaucher disease and the common complex disorder Parkinso
56 f the complex molecular mechanism underlying Gaucher disease and the regulation of beta-glucosidase a
57 nd clinical evidence suggests a link between Gaucher disease and the synucleinopathies Parkinson dise
58 erve as a treatment option for patients with Gaucher disease and, possibly, other lysosomal storage d
59 re expressed that are deficient in Fabry and Gaucher diseases and in Hurler and Hunter syndromes.
60 cerebrosidase (GC) cDNA for the treatment of Gaucher disease, and a small murine cell surface antigen
61 ne patient with Type 2 (acute neuronopathic) Gaucher disease, and differentiated them into macrophage
62 nt of early lethal genetic diseases, such as Gaucher disease, and for disabling neuropathies, such as
63 L444P/recombinant allele resulted in type 2 Gaucher disease, and homozygosity for a recombinant alle
64 potential as leads for chaperone therapy for Gaucher disease, and this paradigm promises to accelerat
65 udy suggests that, in general, patients with Gaucher disease are not at highly increased risk of canc
67 rebrosidase (GCase), the enzyme deficient in Gaucher disease, are a common genetic risk factor for th
68 e glucocerebrosidase gene (GBA), which cause Gaucher disease, are also potent risk factors for Parkin
69 ariants, including those not associated with Gaucher disease, are common in PD and result in a more a
70 glucocerebrosidase, the enzyme deficient in Gaucher disease, are common risk factors for Parkinson d
71 Glucocerebrosidase 1 mutations, which cause Gaucher disease, are the most common genetic risk factor
74 onstructed based on linkage, and a consensus Gaucher disease-associated founder mutation-flanking hap
75 which a vast majority of 94 sites harboring Gaucher disease-associated missense variants are located
76 study demonstrates that heterozygosity for a Gaucher disease-associated mutation in Gba interferes wi
77 gest that GBA2 might affect the phenotype of Gaucher disease, because GBA2 activity is reduced in Gba
78 osidase cause the lysosomal storage disorder Gaucher disease but also increase the risk for Parkinson
79 s are being made to develop gene therapy for Gaucher disease, but formidable obstacles must be overco
80 tion therapy ameliorate systemic features of Gaucher disease, but no therapies are approved for neuro
81 eutic strategies considered or developed for Gaucher disease can now inform drug development for PD.
82 e disorders, including Tay-Sachs disease and Gaucher disease, can be accounted for if the disease-ass
83 e lysosomal acid beta-glucosidase (GCase) in Gaucher disease causes accumulation of glucosylceramide
84 in the glucocerebrosidase (GBA1) gene cause Gaucher disease, characterized by lysosomal accumulation
85 ized by protein-folding mutations, including Gaucher disease, cystic fibrosis and ZZ alpha1-antitryps
87 en species in fibroblasts from patients with Gaucher disease (dihydroethidium oxidation rate increase
88 ssociated with Parkinson's risk but not with Gaucher disease (E326K, P = 0.009; T369M, P < 0.001).
90 r such treatable lysosomal storage diseases: Gaucher disease, Fabry disease, Pompe disease and the mu
93 onism in a rare subgroup of individuals with Gaucher disease first directed attention to the role of
95 of established and emerging therapeutics for Gaucher disease for the treatment of the synucleinopathi
97 e, we provide evidence that a mouse model of Gaucher disease (Gba1(D409V/D409V)) exhibits characteris
99 , encoding glucocerebrosidase (GCase), cause Gaucher disease (GD) and are also genetic risks in devel
100 (GCase) cause the lysosomal storage disorder Gaucher disease (GD) and are strong risk factors for syn
101 for Parkinson disease (PD) in patients with Gaucher disease (GD) and glucocerebrosidase (GBA) hetero
102 (GCase) causes the lysosomal storage disease Gaucher disease (GD) and has emerged as the greatest gen
104 h is more abundant in patients and mice with Gaucher disease (GD) and is capable of regulating B-cell
106 ebrosidase 1 (GBA) mutations responsible for Gaucher disease (GD) are the most common genetic risk fa
109 d) gene causes the classic manifestations of Gaucher disease (GD) involving the viscera, the skeleton
122 ), Shwachman-Bodian-Diamond syndrome (SBDS), Gaucher disease (GD) type III, Duchenne (DMD) and Becker
124 tionally, bi-allelic mutations in GBA1 cause Gaucher disease (GD), a lysosomal storage disorder.
126 osidase (GBA1) mutations are associated with Gaucher disease (GD), an autosomal recessive disorder ca
128 lly linked to the lysosomal storage disorder Gaucher disease (GD), but the mechanistic connection is
131 codes beta-glucocerebrosidase (GCase), cause Gaucher disease (GD), whereas mono-allelic mutations do
136 tion is commonly observed in both inherited (Gaucher disease [GD]) and acquired disorders of lipid me
137 plicated in both a rare, monogenic disorder (Gaucher disease, GD) and a common, multifactorial condit
142 d beta-glucosidase during enzyme therapy for Gaucher disease has significant implications for monitor
143 hage-targeted enzyme replacement therapy for Gaucher disease, has been successfully used for several
146 matologic disorders such as the hemophilias, Gaucher disease, hemochromatosis, and the porphyrias.
148 view explores the haematological features of Gaucher disease in the context of new insights into the
149 educed marrow GBA1 expression reminiscent of Gaucher disease, in which PKC involvement has been sugge
151 us mutations in GBA1, the gene implicated in Gaucher disease, increase the risk and severity of Parki
178 -glucocerebrosidase, the enzyme defective in Gaucher disease, is targeted to the lysosome independent
179 lysosomal enzyme defective in patients with Gaucher disease-is delivered to the lysosome through its
180 We have developed adult mice carrying the Gaucher disease L444P point mutation in the glucocerebro
181 patients with saposin C deficiency develop a Gaucher disease-like central nervous system (CNS) phenot
182 ly reduced in fibroblasts from patients with Gaucher disease (median 5% of controls, P = 0.0001) and
183 re significantly reduced in fibroblasts from Gaucher disease (median glucosylceramidase levels 42% of
188 localized and general structural effects of Gaucher disease mutations that were not obvious from the
189 ups: (i) patients with Parkinson disease and Gaucher disease (n = 7, average age = 56.6 +/- 9.2 years
192 vel pathological mechanisms in neuronopathic Gaucher disease (nGD), a mouse model (4L;C*), an analogu
199 five severely affected type 1 and two type 2 Gaucher disease patients of non-Jewish descent identifie
202 wo D409Vgba knockin alleles without signs of Gaucher disease (residual GCase activity, >/=20%), we re
208 However, the group with both Parkinson and Gaucher diseases showed decreased resting regional cereb
209 Mutations in the lysosomal GBA1 underlie Gaucher disease, the most common lysosomal storage disea
212 extraordinarily effective for patients with Gaucher disease, the most prevalent metabolic storage di
213 tment of Parkinson disease and neuronopathic Gaucher disease to increase glucocerebrosidase activity
214 uld be applicable to investigations of other Gaucher disease treatments in both human and animal mode
215 our patients with Type 1 (non-neuronopathic) Gaucher disease, two with and two without parkinsonism,
220 idual measures was maintained in adults with Gaucher disease type 1 treated with eliglustat who remai
222 t FLT201 could offer a durable treatment for Gaucher disease type 1, addressing unmet needs related t
223 may be critical in the case of treatment for Gaucher disease type 1, because GC transduced cells have
228 genetic heterogeneity in the lesions causing Gaucher disease types 1 and 2, and further delineate gen
230 we correctly predict responsiveness of three Gaucher disease variants, and we provide predictions for
231 ine loss in patients with both Parkinson and Gaucher disease was similar to sporadic Parkinson diseas
232 ustat), an approved drug for treating type 1 Gaucher disease, was found to normalize CFTR-dependent c
233 ons that correspond to the clinical types of Gaucher disease, we have devised a highly efficient one-
234 nt study, DNA samples from 240 patients with Gaucher disease were examined using several complementar
236 heterozygosity for N370S resulted in type 1 Gaucher disease, whereas homozygosity for L444P was asso
237 glycolipid synthesis, resulted in a drug for Gaucher disease, which was approved worldwide in 2002.
238 stat Tartrate (Genz-112638) in Patients With Gaucher Disease Who Have Reached Therapeutic Goals With
239 al risk factors for severe manifestations of Gaucher disease will allow rational assessment of patien
242 neurons from patients with Type 2 and Type 1 Gaucher disease with parkinsonism had reduced dopamine s
245 11, 62.1 +/- 7.1 years); (iii) patients with Gaucher disease without parkinsonism, but with a family