José Miguel Codêsso scite author profile

Aims Machado–Joseph disease (MJD), or spinocerebellar ataxia type 3 (SCA3), is the most common autosomal dominantly‐inherited ataxia worldwide and is characterised by the accumulation of mutant ataxin‐3 (mutATXN3) in different brain regions, leading to neurodegeneration. Currently, there are no available treatments able to block disease progression. In this study, we investigated whether carbamazepine (CBZ) would activate autophagy and mitigate MJD pathology. Methods The autophagy‐enhancing activity of CBZ and its effects on clearance of mutATXN3 were evaluated using in vitro and in vivo models of MJD. To investigate the optimal treatment regimen, a daily or intermittent CBZ administration was applied to MJD transgenic mice expressing a truncated human ATXN3 with 69 glutamine repeats. Motor behaviour tests and immunohistology was performed to access the alleviation of MJD‐associated motor deficits and neuropathology. A retrospective study was conducted to evaluate the CBZ effect in MJD patients. Results We found that CBZ promoted the activation of autophagy and the degradation of mutATXN3 in MJD models upon short or intermittent, but not daily prolonged, treatment regimens. CBZ up‐regulated autophagy through activation of AMPK, which was dependent on the myo‐inositol levels. In addition, intermittent CBZ treatment improved motor performance, as well as prevented neuropathology in MJD transgenic mice. However, in patients, no evident differences in SARA scale were found, which was not unexpected given the small number of patients included in the study. Conclusions Our data support the autophagy‐enhancing activity of CBZ in the brain and suggest this pharmacological approach as a promising therapy for MJD and other polyglutamine disorders.

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RNA Interference Applications for Machado-Joseph Disease

Codêsso¹,

Matos²,

Nóbrega³

2023

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Machado-Joseph disease (MJD), also named spinocerebellar ataxia type 3 (SCA3), is a dominantly inherited neurodegenerative disease caused by abnormal CAG expansions in MJD1 gene, which translate to an overexpanded tract of glutamines in the ataxin-3 (ATXN3) protein. Since the identification of the causative gene, a huge effort was made toward the development of animal models for MJD/SCA3, to increase the understanding of the molecular mechanisms underpinning disease pathogenesis, and to develop therapeutic strategies for the disease. Nevertheless, until now there are no therapies available capable of stopping or delaying the disease progression, which culminates with the death of the patients. Therefore, there is an urgent unmet need for therapeutic solutions, for which gene therapy stands out. The RNA interference (RNAi) mechanism discovery allowed the identification of small RNA molecules with the ability to regulate gene expression. For gene therapy, RNAi provided a way to silence mutant genes, which are particularly useful in dominantly inherited diseases. In the last years, several studies have focused on using RNAi molecules to target mutant ATXN3. The results showed that this could be an efficient and safe strategy for modifying MJD/SCA3 progression. Now, an additional effort must be done to translate these results into clinical trials.

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José Miguel Codêsso

RNA Interference Therapy for Machado–Joseph Disease: Long-Term Safety Profile of Lentiviral Vectors Encoding Short Hairpin RNAs Targeting Mutant Ataxin-3

The autophagy‐enhancing drug carbamazepine improves neuropathology and motor impairment in mouse models of Machado–Joseph disease

RNA Interference Applications for Machado-Joseph Disease

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