Luan Luu scite author profile

Machado-Joseph disease (MJD, also known as spinocerebellar ataxia type 3) is a fatal neurodegenerative disease that impairs control and coordination of movement. Here we tested whether treatment with the histone deacetylase inhibitor sodium valproate (valproate) prevented a movement phenotype that develops in larvae of a transgenic zebrafish model of the disease. We found that treatment with valproate improved the swimming of the MJD zebrafish, affected levels of acetylated histones 3 and 4, but also increased expression of polyglutamine expanded human ataxin-3. Proteomic analysis of protein lysates generated from the treated and untreated MJD zebrafish also predicted that valproate treatment had activated the sirtuin longevity signaling pathway and this was confirmed by findings of increased SIRT1 protein levels and sirtuin activity in valproate treated MJD zebrafish and HEK293 cells expressing ataxin-3 84Q, respectively. Treatment with resveratrol (another compound known to activate the sirtuin pathway), also improved swimming in the MJD zebrafish. Co-treatment with valproate alongside EX527, a SIRT1 activity inhibitor, prevented induction of autophagy by valproate and the beneficial effects of valproate on the movement in the MJD zebrafish, supporting that they were both dependent on sirtuin activity. These findings provide the first evidence of sodium valproate inducing activation of the sirtuin pathway. Further, they indicate that drugs that target the sirtuin pathway, including sodium valproate and resveratrol, warrant further investigation for the treatment of MJD and related neurodegenerative diseases. Graphical abstract

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Autophagy Function and Benefits of Autophagy Induction in Models of Spinocerebellar Ataxia Type 3

Watchon

Luu

Plenderleith

et al. 2023

Cells

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Background: Spinocerebellar ataxia 3 (SCA3, also known as Machado Joseph disease) is a fatal neurodegenerative disease caused by the expansion of the trinucleotide repeat region within the ATXN3/MJD gene. The presence of this genetic expansion results in an ataxin-3 protein containing a polyglutamine repeat region, which renders the ataxin-3 protein aggregation prone. Formation of ataxin-3 protein aggregates is linked with neuronal loss and, therefore, the development of motor deficits. Methods: Here, we investigated whether the autophagy protein quality control pathway, which is important in the process of protein aggregate removal, is impaired in a cell culture and zebrafish model of SCA3. Results: We found that SH-SY5Y cells expressing human ataxin-3 containing polyglutamine expansion exhibited aberrant levels of autophagy substrates, including increased p62 and decreased LC3II (following bafilomycin treatment), compared to the controls. Similarly, transgenic SCA3 zebrafish showed signs of autophagy impairment at early disease stages (larval), as well as p62 accumulation at advanced age stages (18 months old). We then examined whether treating with compounds known to induce autophagy activity, would aid removal of human ataxin-3 84Q and improve the swimming of the SCA3 zebrafish larvae. We found that treatment with loperamide, trehalose, rapamycin, and MG132 each improved the swimming of the SCA3 zebrafish compared to the vehicle-treated controls. Conclusion: We propose that signs of autophagy impairment occur in the SH-SY5Y model of SCA3 and SCA3 zebrafish at larval and advanced age stages. Treatment of the larval SCA3 zebrafish with various compounds with autophagy induction capacity was able to produce the improved swimming of the zebrafish, suggesting the potential benefit of autophagy-inducing compounds for the treatment of SCA3.

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The Alzheimer’s Disease Amyloid Precursor Protein and its Neuritogenic Actions

Luu

Ciccotosto

Cappai

2021

CAR

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: The Amyloid Precursor Protein (APP) is principally known and studied for its involve- ment in Alzheimer’s disease as the source of the amyloid β peptide; however, its physiological ac- tions within the nervous system are also important as it is involved in a range of neuronal activi- ties, including neurogenesis, synaptic plasticity, neurite outgrowth, and neuroprotection. Of the dif- ferent neuronal functions that APP can affect, some may be relevant to APP’s role in Alzheimer’s disease, while others can be primarily related to its physiological roles. This review will focus on APP’s neuritogenic actions and surmise the key molecular mechanisms, as well as the structural and signaling requirements, which form the basis for APP’s neuritogenic effects. Deciphering the normal function(s) of APP is valuable to properly understanding its role in health as well as Alzheimer’s disease.

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TDP-43 is a ubiquitylation substrate of the SCFcyclin F complex

Rayner

Yang

Farrawell

et al. 2022

Neurobiology of Disease

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Luan Luu

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Sodium valproate increases activity of the sirtuin pathway resulting in beneficial effects for spinocerebellar ataxia-3 in vivo

Autophagy Function and Benefits of Autophagy Induction in Models of Spinocerebellar Ataxia Type 3

The Alzheimer’s Disease Amyloid Precursor Protein and its Neuritogenic Actions

TDP-43 is a ubiquitylation substrate of the SCFcyclin F complex

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Luan Luu

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Sodium valproate increases activity of the sirtuin pathway resulting in beneficial effects for spinocerebellar ataxia-3 in vivo

Autophagy Function and Benefits of Autophagy Induction in Models of Spinocerebellar Ataxia Type 3

The Alzheimer’s Disease Amyloid Precursor Protein and its Neuritogenic Actions

TDP-43 is a ubiquitylation substrate of the SCFcyclin F complex

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Product

Resources

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Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹