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1.
Hum Mol Genet ; 28(20): 3406-3421, 2019 10 15.
Artigo em Inglês | MEDLINE | ID: mdl-31373366

RESUMO

Gaucher disease (GD) is caused by GBA1 mutations leading to functional deficiency of acid-ß-glucosidase (GCase). No effective treatment is available for neuronopathic GD (nGD). A subclass of neural stem and precursor cells (NPCs) expresses VLA4 (integrin α4ß1, very late antigen-4) that facilitates NPC entry into the brain following intravenous (IV) infusion. Here, the therapeutic potential of IV VLA4+NPCs was assessed for nGD using wild-type mouse green fluorescent protein (GFP)-positive multipotent induced pluripotent stem cell (iPSC)-derived VLA4+NPCs. VLA4+NPCs successfully engrafted in the nGD (4L;C*) mouse brain. GFP-positive cells differentiated into neurons, astrocytes and oligodendrocytes in the brainstem, midbrain and thalamus of the transplanted mice and significantly improved sensorimotor function and prolonged life span compared to vehicle-treated 4L;C* mice. VLA4+NPC transplantation significantly decreased levels of CD68 and glial fibrillary acidic protein, as well as TNFα mRNA levels in the brain, indicating reduced neuroinflammation. Furthermore, decreased Fluoro-Jade C and NeuroSilver staining suggested inhibition of neurodegeneration. VLA4+NPC-engrafted 4L;C* midbrains showed 35% increased GCase activity, reduced substrate [glucosylceramide (GC, -34%) and glucosylsphingosine (GS, -11%)] levels and improved mitochondrial oxygen consumption rates in comparison to vehicle-4L;C* mice. VLA4+NPC engraftment in 4L;C* brain also led to enhanced expression of neurotrophic factors that have roles in neuronal survival and the promotion of neurogenesis. This study provides evidence that iPSC-derived NPC transplantation has efficacy in an nGD mouse model and provides proof of concept for autologous NPC therapy in nGD.


Assuntos
Doença de Gaucher/metabolismo , Doença de Gaucher/terapia , Glucosilceramidase/metabolismo , Células-Tronco Pluripotentes Induzidas/fisiologia , Células-Tronco Neurais/fisiologia , Animais , Terapia Baseada em Transplante de Células e Tecidos/métodos , Células-Tronco Pluripotentes Induzidas/citologia , Infusões Intravenosas , Integrina alfa4beta1/metabolismo , Camundongos , Células-Tronco Neurais/citologia , beta-Glucosidase/metabolismo
2.
Hum Mol Genet ; 25(23): 5126-5141, 2016 12 01.
Artigo em Inglês | MEDLINE | ID: mdl-27655403

RESUMO

Neuronopathic Gaucher disease (nGD) manifests as severe neurological symptoms in patients with no effective treatment available. Ryanodine receptors (Ryrs) are a family of calcium release channels on intracellular stores. The goal of this study is to determine if Ryrs are potential targets for nGD treatment. A nGD cell model (CBE-N2a) was created by inhibiting acid ß-glucosidase (GCase) in N2a cells with conduritol B epoxide (CBE). Enhanced cytosolic calcium in CBE-N2a cells was blocked by either ryanodine or dantrolene, antagonists of Ryrs and by Genz-161, a glucosylceramide synthase inhibitor, suggesting substrate-mediated ER-calcium efflux occurs through ryanodine receptors. In the brain of a nGD (4L;C*) mouse model, expression of Ryrs was normal at 13 days of age, but significantly decreased below the wild type level in end-stage 4L;C* brains at 40 days. Treatment with dantrolene in 4L;C* mice starting at postnatal day 5 delayed neurological pathology and prolonged survival. Compared to untreated 4L;C* mice, dantrolene treatment significantly improved gait, reduced LC3-II levels, improved mitochondrial ATP production and reduced inflammation in the brain. Dantrolene treatment partially normalized Ryr expression and its potential regulators, CAMK IV and calmodulin. Furthermore, dantrolene treatment increased residual mutant GCase activity in 4L;C* brains. These data demonstrate that modulating Ryrs has neuroprotective effects in nGD through mechanisms that protect the mitochondria, autophagy, Ryr expression and enhance GCase activity. This study suggests that calcium signalling stabilization, e.g. with dantrolene, could be a potential disease modifying therapy for nGD.


Assuntos
Dantroleno/administração & dosagem , Doença de Gaucher/tratamento farmacológico , Mitocôndrias/efeitos dos fármacos , Canal de Liberação de Cálcio do Receptor de Rianodina/genética , Animais , Sinalização do Cálcio/genética , Modelos Animais de Doenças , Doença de Gaucher/genética , Doença de Gaucher/fisiopatologia , Humanos , Camundongos , Mitocôndrias/genética , Mitocôndrias/patologia , Neurônios/efeitos dos fármacos , Neurônios/patologia , Fármacos Neuroprotetores/administração & dosagem , Canal de Liberação de Cálcio do Receptor de Rianodina/metabolismo
3.
Hum Mol Genet ; 24(24): 7031-48, 2015 Dec 15.
Artigo em Inglês | MEDLINE | ID: mdl-26420838

RESUMO

Defective lysosomal acid ß-glucosidase (GCase) in Gaucher disease causes accumulation of glucosylceramide (GC) and glucosylsphingosine (GS) that distress cellular functions. To study novel pathological mechanisms in neuronopathic Gaucher disease (nGD), a mouse model (4L;C*), an analogue to subacute human nGD, was investigated for global profiles of differentially expressed brain mRNAs (DEGs) and miRNAs (DEmiRs). 4L;C* mice displayed accumulation of GC and GS, activated microglial cells, reduced number of neurons and aberrant mitochondrial function in the brain followed by deterioration in motor function. DEGs and DEmiRs were characterized from sequencing of mRNA and miRNA from cerebral cortex, brain stem, midbrain and cerebellum of 4L;C* mice. Gene ontology enrichment and pathway analysis showed preferential mitochondrial dysfunction in midbrain and uniform inflammatory response and identified novel pathways, axonal guidance signaling, synaptic transmission, eIF2 and mammalian target of rapamycin (mTOR) signaling potentially involved in nGD. Similar analyses were performed with mice treated with isofagomine (IFG), a pharmacologic chaperone for GCase. IFG treatment did not alter the GS and GC accumulation significantly but attenuated the progression of the disease and altered numerous DEmiRs and target DEGs to their respective normal levels in inflammation, mitochondrial function and axonal guidance pathways, suggesting its regulation on miRNA and the associated mRNA that underlie the neurodegeneration in nGD. These analyses demonstrate that the neurodegenerative phenotype in 4L;C* mice was associated with dysregulation of brain mRNAs and miRNAs in axonal guidance, synaptic plasticity, mitochondria function, eIF2 and mTOR signaling and inflammation and provides new insights for the nGD pathological mechanism.


Assuntos
Encéfalo/metabolismo , Doença de Gaucher/genética , Imino Piranoses/uso terapêutico , MicroRNAs/metabolismo , Chaperonas Moleculares/uso terapêutico , RNA Mensageiro/metabolismo , Animais , Axônios/metabolismo , Encéfalo/patologia , Modelos Animais de Doenças , Encefalite/metabolismo , Encefalite/patologia , Fator de Iniciação 2 em Eucariotos/metabolismo , Doença de Gaucher/tratamento farmacológico , Doença de Gaucher/metabolismo , Doença de Gaucher/patologia , Perfilação da Expressão Gênica , Glucosilceramidas/metabolismo , Camundongos Endogâmicos C57BL , Mitocôndrias/metabolismo , Chaperonas Moleculares/metabolismo , Neuroglia/patologia , Neurônios/patologia , Fenótipo , Psicosina/análogos & derivados , Psicosina/metabolismo , Transdução de Sinais , Transmissão Sináptica , Serina-Treonina Quinases TOR/metabolismo
4.
Analyst ; 142(18): 3380-3387, 2017 Sep 08.
Artigo em Inglês | MEDLINE | ID: mdl-28812093

RESUMO

Gaucher disease (GD) is caused by mutations on the GBA1 gene leading to deficiency in acid ß-glucosidase (GCase) and subsequent accumulation of its substrates, glucosylceramide (GlcC) and glucosylsphingosine (GlcS). GlcS in plasma has been proposed as a highly sensitive and specific biomarker for the diagnosis of GD and for monitoring disease progression and response to therapy. Here we report a novel robust and accurate hydrophilic interaction liquid chromatography tandem mass spectrometric method (HILIC-MS/MS) for the direct measurement of glucosylsphingosine (GlcS) in dried plasma spots (DPS). The method was also capable of resolving the isomeric pair, glucosylsphingosine and galactosylsphingosine, the latter of which was proposed as a promising biomarker for Krabbe disease. The method was fully validated and applied to the analysis of 19 GD patients and carriers. The GlcS levels in 9 GD type I patients who have been on enzyme replacement therapy (ERT) were reduced to a mean of 31.0 nM, much lower compared to a pre-treated specimen at a level of 85.8 nM, but still significantly elevated compared to healthy controls. GlcS concentrations in three treated type III GD patients were much lower compared to an untreated patient. In our preclinical GD studies, 4L;C* mice (subacute nGD model) exhibited comparable levels of plasma GlcS, but had much higher GlcS accumulation in the brain than those of 9V/null mice (chronic neuropathic GD model). Our method for the measurement of GlcS in DPS proved to be a very convenient approach for sample collection, storage and shipping nationwide and internationally.


Assuntos
Cromatografia Líquida , Teste em Amostras de Sangue Seco , Doença de Gaucher/diagnóstico , Doença de Gaucher/terapia , Glucosilceramidase/sangue , Espectrometria de Massas em Tandem , Animais , Biomarcadores/sangue , Progressão da Doença , Humanos , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout
5.
Mol Genet Metab ; 112(3): 229-41, 2014 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-24837159

RESUMO

Lysosomal acid lipase (LAL) is an essential enzyme that hydrolyzes triglycerides (TG) and cholesteryl esters (CE) in lysosomes. Mutations of the LIPA gene lead to Wolman disease (WD) and cholesterol ester storage disease (CESD). The disease hallmarks include hepatosplenomegaly and extensive storage of CE and/or TG. The effects of intravenous investigational enzyme therapy (ET) on survival and efficacy were evaluated in Lipa knock out, lal-/- mice with advanced disease using recombinant human LAL (rhLAL). Comparative ET was conducted with lower doses (weekly, 0.8 and 3.2mg/kg) beginning at 16 weeks (study 1), and with higher dose (10mg/kg) in early (8-weeks), middle (16-weeks) and late (24-weeks) disease stages (study 2). In study 1, rhLAL extended the life span of lal-/- mice in a dose dependent manner by 52 (0.8 mg/kg) or 94 (3.2mg/kg) days. This was accompanied by partial correction of cholesterol and TG levels in spleen and liver. In study 2, the high dose resulted in a significant improvement in organ size (liver, spleen and small intestine) and tissue histology as well as significant decreases in cholesterol and TG in all three groups. In the treated livers and spleens the cholesterol and TG levels were reduced to below treatment initiation levels indicating a reversal of disease manifestations, even in advanced disease. ET diminished liver fibrosis and macrophage proliferation. These results show that LAL deficiency can be improved biochemically and histopathologically by various dosages of ET, even in advanced disease.


Assuntos
Doença de Wolman/metabolismo , Doença de Wolman/patologia , Animais , Peso Corporal , Modelos Animais de Doenças , Terapia de Reposição de Enzimas , Feminino , Metabolismo dos Lipídeos , Lipídeos/sangue , Masculino , Camundongos , Camundongos Knockout , Tamanho do Órgão , Fenótipo , Esterol Esterase/administração & dosagem , Resultado do Tratamento , Doença de Wolman/tratamento farmacológico , Doença de Wolman/genética , Doença de Wolman/mortalidade , Doença de Wolman
6.
PLoS One ; 11(9): e0162367, 2016.
Artigo em Inglês | MEDLINE | ID: mdl-27598339

RESUMO

To study the neuronal deficits in neuronopathic Gaucher Disease (nGD), the chronological behavioral profiles and the age of onset of brain abnormalities were characterized in a chronic nGD mouse model (9V/null). Progressive accumulation of glucosylceramide (GC) and glucosylsphingosine (GS) in the brain of 9V/null mice were observed at as early as 6 and 3 months of age for GC and GS, respectively. Abnormal accumulation of α-synuclein was present in the 9V/null brain as detected by immunofluorescence and Western blot analysis. In a repeated open-field test, the 9V/null mice (9 months and older) displayed significantly less environmental habituation and spent more time exploring the open-field than age-matched WT group, indicating the onset of short-term spatial memory deficits. In the marble burying test, the 9V/null group had a shorter latency to initiate burying activity at 3 months of age, whereas the latency increased significantly at ≥12 months of age; 9V/null females buried significantly more marbles to completion than the WT group, suggesting an abnormal response to the instinctive behavior and an abnormal activity in non-associative anxiety-like behavior. In the conditional fear test, only the 9V/null males exhibited a significant decrease in response to contextual fear, but both genders showed less response to auditory-cued fear compared to age- and gender-matched WT at 12 months of age. These results indicate hippocampus-related emotional memory defects. Abnormal gait emerged in 9V/null mice with wider front-paw and hind-paw widths, as well as longer stride in a gender-dependent manner with different ages of onset. Significantly higher liver- and spleen-to-body weight ratios were detected in 9V/null mice with different ages of onsets. These data provide temporal evaluation of neurobehavioral dysfunctions and brain pathology in 9V/null mice that can be used for experimental designs to evaluate novel therapies for nGD.


Assuntos
Envelhecimento/patologia , Doença de Gaucher/fisiopatologia , Glucosilceramidase/genética , Hipocampo/fisiopatologia , Transtornos da Memória/fisiopatologia , Estimulação Acústica , Envelhecimento/genética , Animais , Comportamento Animal , Condicionamento Psicológico/fisiologia , Modelos Animais de Doenças , Progressão da Doença , Comportamento Exploratório/fisiologia , Medo/fisiologia , Feminino , Marcha/fisiologia , Doença de Gaucher/metabolismo , Doença de Gaucher/patologia , Glucosilceramidase/deficiência , Glucosilceramidas/biossíntese , Hipocampo/metabolismo , Hipocampo/patologia , Masculino , Transtornos da Memória/metabolismo , Transtornos da Memória/patologia , Camundongos , Psicosina/análogos & derivados , Psicosina/biossíntese , Fatores Sexuais , Memória Espacial/fisiologia , alfa-Sinucleína/biossíntese
7.
Nat Commun ; 7: 11992, 2016 06 30.
Artigo em Inglês | MEDLINE | ID: mdl-27356620

RESUMO

Progranulin (GRN) loss-of-function mutations leading to progranulin protein (PGRN) haploinsufficiency are prevalent genetic causes of frontotemporal dementia. Reports also indicated PGRN-mediated neuroprotection in models of Alzheimer's and Parkinson's disease; thus, increasing PGRN levels is a promising therapeutic for multiple disorders. To uncover novel PGRN regulators, we linked whole-genome sequence data from 920 individuals with plasma PGRN levels and identified the prosaposin (PSAP) locus as a new locus significantly associated with plasma PGRN levels. Here we show that both PSAP reduction and overexpression lead to significantly elevated extracellular PGRN levels. Intriguingly, PSAP knockdown increases PGRN monomers, whereas PSAP overexpression increases PGRN oligomers, partly through a protein-protein interaction. PSAP-induced changes in PGRN levels and oligomerization replicate in human-derived fibroblasts obtained from a GRN mutation carrier, further supporting PSAP as a potential PGRN-related therapeutic target. Future studies should focus on addressing the relevance and cellular mechanism by which PGRN oligomeric species provide neuroprotection.


Assuntos
Demência Frontotemporal/genética , Peptídeos e Proteínas de Sinalização Intercelular/genética , Saposinas/genética , Doença de Alzheimer/genética , Doença de Alzheimer/metabolismo , Animais , Demência Frontotemporal/metabolismo , Técnicas de Silenciamento de Genes , Haploinsuficiência , Células HeLa , Humanos , Peptídeos e Proteínas de Sinalização Intercelular/metabolismo , Camundongos , Camundongos Knockout , Doença de Parkinson/genética , Doença de Parkinson/metabolismo , Polimorfismo de Nucleotídeo Único , Progranulinas , Mapas de Interação de Proteínas
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