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Alzheimer's disease

695 may be Alzheimer’s magic number

U. LEEDS (UK) — Discovery of the prevalence of a specific peptide that is toxic to nerve cells is expected to advance research into Alzheimer’s disease and may explain why a cure has remained elusive.

Alzheimer’s disease is widely believed to be caused by the gradual accumulation in the brain of amyloid-beta peptide, that is formed from a protein known as APP, found in three forms.

Most research into APP—a key area of study for the disease—doesn’t distinguish between the different forms of the protein.

The new findings, published in the Journal of Biological Chemistry, show that amyloid beta peptide is actually created mainly by just one form of APP—known as APP695 for the number of its amino acids.

APP695 is found at greater concentration in brain and nerve cells, but this study is the first time the significance of that has been shown and will enable research to focus more clearly on the exact mechanism by which amyloid beta peptide accumulates in the brain.

“Research into amyloid beta peptide has been going on for more than 20 years and while treatments have made it to clinical trials, nothing has proved truly effective against this disease,” says Tony Turner, professor of biological sciences at the University of Leeds.

“This could be because research to date has been a bit of a blunt instrument: scientists have essentially been working on too broad a field. Our findings will allow researchers to target their work much more precisely.”

The study of APP695 also led scientists to identify a potential new factor in the development of Alzheimer’s. When APP is broken down, it forms another protein called AICD.

AICD forms from APP695 switches on certain genes within nerve cells that may then damage the cell. The process is unique to nerve cells and AICD forms from the other forms of APP does not have this effect.

“AICD has been detected before, but because studies haven’t differentiated between the different forms of APP, there was no consensus on its role,” explains Nigel Hooper, professor of biochemistry.

“It seems likely that AICD formed from APP695 is a contributing factor in the deterioration in nerve and brain cells which leads to Alzheimer’s. This provides another avenue for research into a potential cure for the disease.”

“This is the latest study from a long-term research collaboration to significantly further our understanding of neurodegenerative diseases, such as Alzheimer’s disease,” says Chris Kennard, chair of the MRC Neurosciences and Mental Health Board.

“It forms part of a £4.1m investment by the MRC and is a shining example of where fundamental research, which unravels the complex biology of disease, can provide the building blocks for potential treatments in future.”

Simon Ridley, head of research at the Alzheimer’s Research Trust, says “This study gives us important new insight into the role of APP in Alzheimer’s disease, and could have significant implications for future research in this area.

“We must now build on these findings with more research, as this is the only way we will be able to find an effective treatment for dementia.”

More than 820,000 people in the UK live with dementia and one in three people older than 65 will die with some form of the disease. The Alzheimer’s Research Trust estimates that the annual cost to the UK economy is £23 billion.

The research was funded by the Medical Research Council and the Alzheimer’s Research Trust.

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