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Antisense oligonucleotide treatment cures Parkinson’s disease in mice
By administering a one-time PTB antisense oligonucleotide therapy to mice, researchers observed an increase in neurons and elimination of Parkinson's from the models.
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Alzheimer’s disease
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Antibody for amyloid beta oligomers could revolutionise Alzheimer’s field
Scientists have designed a high affinity antibody for pathogenic amyloid beta oligomers, a key driver of Alzheimer’s disease, for use in further research and as a potential diagnostic tool.
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Imaging technique allows study of early stage Alzheimer’s disease
Scientists used optical photothermal spectroscopy (O-PTIR) to image murine neurons affected by early stage Alzheimer’s disease, providing insight into the progression of the disease.
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Inhibiting the epichaperome to combat Alzheimer’s disease
Pre-clinical studies demonstrate that inhibiting the ’epichaperome’ can restore neural networks to normal levels. Dr Barbara Wallner at Samus Therapeutics explains how targeting the epichaperome could work as a potential treatment for Alzheimer’s and other neurodegenerative diseases.
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Antibodies stimulate microglia to degrade Alzheimer’s amyloid plaques
A novel antibody has been shown to stimulate microglia to degrade amyloid plaques in a murine model of Alzheimer’s disease.
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Possible novel cognitive anti-ageing targets identified
Researchers have shown that two epigenetic regulators could be targeted to improve cognitive and behavioural decline in age-related diseases like Alzheimer’s.
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Could dolphins be viable models for human brain disorders?
Neuropathologic similarities between dolphins and humans suggest that the former could act as an effective model for the study of diseases such as Alzheimer’s. Professor Giovanni Di Guardo explains why dolphins could provide researchers with a new window into neurodegenerative conditons.
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Clusterin proteins’ cleanup mechanism is identified
The body’s means of maintaining health are diverse and plentiful, and now researchers in Japan have identified another metaphorical string to its bow: the ability to prevent cell damage using cleanup clusterin proteins that channel damaged proteins for disposal.
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Molecular ‘switch’ could help treat or reverse age-related diseases
A molecular 'switch' that controls the immune machinery responsible for chronic inflammation has been identified which could help treat or even reverse the development of age-related conditions like Alzheimer's, Parkinson's, cancer and diabetes.
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Interaction site for serotonin type 3A and RIC-3 chaperone identified
To address the receptor dysfunction associated with several neurological diseases, scientists have provided novel insights into a protein-protein interaction that could lead to more effective treatments.
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C1 compound identified as promising Alzheimer’s drug candidate
Researchers have screened thousands of drugs to discover that C1 effectively blocks the production of amyloid fibrils, so could be an effective therapeutic.
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Putrescine could be a therapy for chronic inflammatory diseases
Research has identified that putrescine, which aids macrophages in clearing dead cells, is lacking in atherosclerosis animal models and could be a potential therapeutic for the condition.
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Small molecule targeting mRNA could slow the progression of Parkinson’s disease
Research identified a small molecule that targets the mRNA of α-synuclein and prevents the formation of the protein, an approach which could provide novel neurodegeneration therapies.
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Pharmacological chaperone therapy shown to prevent Alzheimer’s in mice
A new study is the first to describe a novel pharmacological chaperone that is capable of preventing Alzheimer's disease in mice.
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Levels of neurogenesis could be a therapeutic target in neurodegenerative disease
Research has identified that regions of the brain can regenerate via neural stem cells and the process of neurogenesis which could provide a new avenue for regenerative therapeutics.
