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1.
Ann Neurol ; 2024 Aug 31.
Artigo em Inglês | MEDLINE | ID: mdl-39215697

RESUMO

OBJECTIVE: Hexanucleotide repeat expansions in the C9orf72 gene are the most common genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). A large body of evidence implicates dipeptide repeats (DPRs) proteins as one of the main drivers of neuronal injury in cell and animal models. METHODS: A pure repeat-associated non-AUG (RAN) translation zebrafish model of C9orf72-ALS/FTD was generated. Embryonic and adult transgenic zebrafish lysates were investigated for the presence of RAN-translated DPR species and adult-onset motor deficits. Using C9orf72 cell models as well as embryonic C9orf72-ALS/FTD zebrafish, hypothermic-therapeutic temperature management (TTM) was explored as a potential therapeutic option for C9orf72-ALS/FTD. RESULTS: Here, we describe a pure RAN translation zebrafish model of C9orf72-ALS/FTD that exhibits significant RAN-translated DPR pathology and progressive motor decline. We further demonstrate that hypothermic-TTM results in a profound reduction in DPR species in C9orf72-ALS/FTD cell models as well as embryonic C9orf72-ALS/FTD zebrafish. INTERPRETATION: The transgenic model detailed in this paper provides a medium throughput in vivo research tool to further investigate the role of RAN-translation in C9orf72-ALS/FTD and further understand the mechanisms that underpin neuroprotective strategies. Hypothermic-TTM presents a viable therapeutic avenue to explore in the context of C9orf72-ALS/FTD. ANN NEUROL 2024.

2.
Mult Scler ; 25(3): 306-324, 2019 03.
Artigo em Inglês | MEDLINE | ID: mdl-30319015

RESUMO

Multiple sclerosis (MS) is a chronic, immune-mediated demyelinating disease of the central nervous system. Animal models of MS have been critical for elucidating MS pathological mechanisms and how they may be targeted for therapeutic intervention. Here we review the most commonly used animal models of MS. Although these animal models cannot fully replicate the MS disease course, a number of models have been developed to recapitulate certain stages. Experimental autoimmune encephalomyelitis (EAE) has been used to explore neuroinflammatory mechanisms and toxin-induced demyelinating models to further our understanding of oligodendrocyte biology, demyelination and remyelination. Zebrafish models of MS are emerging as a useful research tool to validate potential therapeutic candidates due to their rapid development and amenability to genetic manipulation.


Assuntos
Modelos Animais de Doenças , Encefalomielite Autoimune Experimental , Esclerose Múltipla , Animais
3.
Ann Neurol ; 73(2): 246-58, 2013 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-23281025

RESUMO

OBJECTIVE: To determine, when, how, and which neurons initiate the onset of pathophysiology in amyotrophic lateral sclerosis (ALS) using a transgenic mutant sod1 zebrafish model and identify neuroprotective drugs. METHODS: Proteinopathies such as ALS involve mutant proteins that misfold and activate the heat shock stress response (HSR). The HSR is indicative of neuronal stress, and we used a fluorescent hsp70-DsRed reporter in our transgenic zebrafish to track neuronal stress and to measure functional changes in neurons and muscle over the course of the disease. RESULTS: We show that mutant sod1 fish first exhibited the HSR in glycinergic interneurons at 24 hours postfertilization (hpf). By 96 hpf, we observed a significant reduction in spontaneous glycinergic currents induced in spinal motor neurons. The loss of inhibition was followed by increased stress in the motor neurons of symptomatic adults and concurrent morphological changes at the neuromuscular junction (NMJ) indicative of denervation. Riluzole, the only approved ALS drug and apomorphine, an NRF2 activator, reduced the observed early neuronal stress response. INTERPRETATION: The earliest event in the pathophysiology of ALS in the mutant sod1 zebrafish model involves neuronal stress in inhibitory interneurons, resulting from mutant Sod1 expression. This is followed by a reduction in inhibitory input to motor neurons. The loss of inhibitory input may contribute to the later development of neuronal stress in motor neurons and concurrent inability to maintain the NMJ. Riluzole, the approved drug for use in ALS, modulates neuronal stress in interneurons, indicating a novel mechanism of riluzole action.


Assuntos
Esclerose Lateral Amiotrófica/fisiopatologia , Modelos Animais de Doenças , Interneurônios/fisiologia , Superóxido Dismutase/genética , Peixe-Zebra , Esclerose Lateral Amiotrófica/tratamento farmacológico , Esclerose Lateral Amiotrófica/genética , Esclerose Lateral Amiotrófica/patologia , Animais , Animais Geneticamente Modificados , Apomorfina/farmacologia , Agonistas de Dopamina/farmacologia , Genes Reporter , Glicina/fisiologia , Proteínas de Choque Térmico HSP72/genética , Humanos , Interneurônios/efeitos dos fármacos , Interneurônios/patologia , Camundongos , Neurônios Motores/efeitos dos fármacos , Neurônios Motores/patologia , Neurônios Motores/fisiologia , Músculo Esquelético/inervação , Fator 2 Relacionado a NF-E2/metabolismo , Junção Neuromuscular/patologia , Junção Neuromuscular/fisiopatologia , Fármacos Neuroprotetores , Técnicas de Patch-Clamp , Riluzol/farmacologia , Estresse Fisiológico/efeitos dos fármacos , Estresse Fisiológico/fisiologia , Superóxido Dismutase/metabolismo , Superóxido Dismutase-1 , Proteínas de Peixe-Zebra/metabolismo
5.
Acta Neuropathol Commun ; 6(1): 125, 2018 11 19.
Artigo em Inglês | MEDLINE | ID: mdl-30454072

RESUMO

A hexanucleotide repeat expansion (HRE) within the chromosome 9 open reading frame 72 (C9orf72) gene is the most prevalent cause of amyotrophic lateral sclerosis/fronto-temporal dementia (ALS/FTD). Current evidence suggests HREs induce neurodegeneration through accumulation of RNA foci and/or dipeptide repeat proteins (DPR). C9orf72 patients are known to have transactive response DNA binding protein 43 kDa (TDP-43) proteinopathy, but whether there is further cross over between C9orf72 pathology and the pathology of other ALS sub-types has yet to be revealed.To address this, we generated and characterised two zebrafish lines expressing C9orf72 HREs. We also characterised pathology in human C9orf72-ALS cases. In addition, we utilised a reporter construct that expresses DsRed under the control of a heat shock promoter, to screen for potential therapeutic compounds.Both zebrafish lines showed accumulation of RNA foci and DPR. Our C9-ALS/FTD zebrafish model is the first to recapitulate the motor deficits, cognitive impairment, muscle atrophy, motor neuron loss and mortality in early adulthood observed in human C9orf72-ALS/FTD. Furthermore, we identified that in zebrafish, human cell lines and human post-mortem tissue, C9orf72 expansions activate the heat shock response (HSR). Additionally, HSR activation correlated with disease progression in our C9-ALS/FTD zebrafish model. Lastly, we identified that the compound ivermectin, as well as riluzole, reduced HSR activation in both C9-ALS/FTD and SOD1 zebrafish models.Thus, our C9-ALS/FTD zebrafish model is a stable transgenic model which recapitulates key features of human C9orf72-ALS/FTD, and represents a powerful drug-discovery tool.


Assuntos
Esclerose Lateral Amiotrófica/genética , Esclerose Lateral Amiotrófica/patologia , Proteína C9orf72/genética , Demência Frontotemporal/genética , Demência Frontotemporal/patologia , Animais , Animais Geneticamente Modificados , Proteína C9orf72/metabolismo , Linhagem Celular , Células Cultivadas , Modelos Animais de Doenças , Embrião não Mamífero , Regulação da Expressão Gênica/genética , Proteínas de Fluorescência Verde/genética , Proteínas de Fluorescência Verde/metabolismo , Resposta ao Choque Térmico , Humanos , Locomoção/genética , Camundongos , Neurônios Motores/patologia , Músculos/metabolismo , Músculos/patologia , Músculos/ultraestrutura , Superóxido Dismutase-1/metabolismo , Transfecção , Peixe-Zebra
6.
Front Biosci ; 7: c83-96, 2002 Aug 01.
Artigo em Inglês | MEDLINE | ID: mdl-12133810

RESUMO

As new lead discovery technologies of high throughput screening and rational drug design have been incorporated into pharmaceutical and biotechnology drug discovery programs, researchers have focused on the applying these new technologies in diseases traditionally neglected by for-profit drug discovery efforts. This article reviews general trends in orphan disease lead discovery, identifies best practices of orphan market drug discovery and provides an overview of recent ALS lead discovery programs and drug development according to these metrics. Best practices in orphan market drug discovery embodied by programs like the NIH Anticonvulsant Screening Program include the (1) management of timelines and priorities, (2) engagement of for-profit partners, (3) creative application of technology, (4) collaboration, and (5) flexibility. Recent trends in ALS lead discovery have been shaped not only by the predominance of animal models of disease over in vitro models, but also by the successes and best practices of these earlier orphan market drug discovery programs. The ALS Treatment Initiative, the Johns Hopkins Center for ALS Research, the ALS Association, and the ALS Therapy Development Foundation have all initiated lead discovery programs in the past several years which seek to utilize existing experimental models of the disease and challenge assumptions about the linear nature of the lead discovery and development process. The compounds currently in clinical evaluation for ALS were identified as leads from a variety of sources, further reinforcing the transforming effect these new lead discovery programs have had on drug discovery and development in ALS. We conclude our review with an overview of the challenges and opportunities lead discovery in ALS currently faces, ultimately concluding that ALS lead discovery, and indeed orphan market drug discovery in general, would most benefit from more centralized lead discovery management, expanded national access to core facilities for lead discovery, and matrixed simultaneous screening of multiple compounds for multiple neglected diseases.


Assuntos
Esclerose Lateral Amiotrófica/tratamento farmacológico , Química Farmacêutica/tendências , Desenho de Fármacos , Produção de Droga sem Interesse Comercial , Animais , Química Farmacêutica/economia , Comportamento Cooperativo , Indústria Farmacêutica/economia , Indústria Farmacêutica/tendências , Fundações/tendências , Humanos , Produção de Droga sem Interesse Comercial/economia , Apoio à Pesquisa como Assunto/economia , Apoio à Pesquisa como Assunto/tendências
7.
PLoS One ; 8(6): e67276, 2013.
Artigo em Inglês | MEDLINE | ID: mdl-23840650

RESUMO

Charcot-Marie-Tooth disease (CMT) represents a group of neurodegenerative disorders typically characterised by demyelination (CMT1) or distal axon degeneration (CMT2) of motor and sensory neurons. The majority of CMT2 cases are caused by mutations in mitofusin 2 (MFN2); an essential gene encoding a protein responsible for fusion of the mitochondrial outer membrane. The mechanism of action of MFN2 mutations is still not fully resolved. To investigate a role for loss of Mfn2 function in disease we investigated an ENU-induced nonsense mutation in zebrafish MFN2 and characterised the phenotype of these fish at the whole organism, pathological, and subcellular level. We show that unlike mice, loss of MFN2 function in zebrafish leads to an adult onset, progressive phenotype with predominant symptoms of motor dysfunction similar to CMT2. Mutant zebrafish show progressive loss of swimming associated with alterations at the neuro-muscular junction. At the cellular level, we provide direct evidence that mitochondrial transport along axons is perturbed in Mfn2 mutant zebrafish, suggesting that this is a key mechanism of disease in CMT. The progressive phenotype and pathology suggest that zebrafish will be useful for further investigating the disease mechanism and potential treatment of axonal forms of CMT. Our findings support the idea that MFN2 mutation status should be investigated in patients presenting with early-onset recessively inherited axonal CMT.


Assuntos
Transporte Axonal/genética , Doença de Charcot-Marie-Tooth/genética , Doença de Charcot-Marie-Tooth/metabolismo , Mutação , Proteínas de Peixe-Zebra/genética , Peixe-Zebra , Sequência de Aminoácidos , Animais , Doença de Charcot-Marie-Tooth/patologia , Doença de Charcot-Marie-Tooth/fisiopatologia , Modelos Animais de Doenças , GTP Fosfo-Hidrolases , Homozigoto , Humanos , Mitocôndrias/metabolismo , Atividade Motora/genética , Neurônios/metabolismo , Proteínas de Peixe-Zebra/química , Proteínas de Peixe-Zebra/metabolismo
8.
Zebrafish ; 7(3): 305-10, 2010 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-20874494

RESUMO

Abstract The zebrafish community has been steadily growing in the last 20 years in Europe. Given the federal structure of Europe, this increase in zebrafish research generated a need for a strategic forum to identify and discuss exciting new areas of research and funding opportunities as well as to address infrastructural and legal issues of experimentation, transport, and husbandry of zebrafish. To foster this exchange, the European Union (EU)-funded network EuFishBioMed (Cost Action BM0804) organized an international scientific meeting of zebrafish principal investigators in Padova, Italy, in March this year. More than 120 researchers from all over the globe presented their latest work in talks and posters. A number of workshops addressed future directions of research and infrastructural issues.


Assuntos
Peixe-Zebra , Animais , Itália , Pesquisa , Sociedades Científicas
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