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Looking into the symptoms of Alzheimer’s disease, scientists led by EPFL have found clues that could help doctors diagnose or even treat Alzheimer’s disease in its early stages.
Scientists at EPFL’s Protein Core Facility, have now led an international team of scientists from Harvard, Edinburgh and Ulm in one of the most extensive analysis of Abeta peptides. The project aimed to understand what happens during aggregation, and particularly at its early stages.
Using different analysis techniques (e.g. mass spectrometry), the researchers identified specific points on Abeta where it undergoes a process called «autocleavage». Normally, Abeta is cut by specialized enzymes as part of the cell’s cleaning process. But, in this case, Abeta simply breaks at very specific points along its structure without any enzymes being involved.
The researchers found that Abeta autocleavage happens during the early stages of aggregation. The process generates truncated Abeta fragments, which can then form complexes with normal, unbroken Abeta molecules. This produces the neurotoxic oligomers that are thought to cause the early cognitive problems of Alzheimer’s.
In addition, the scientists found that autocleavage of Abeta also produces a pattern or «fragment signature» that is highly reproducible, meaning that it can be used to detect Abeta aggregation early on.
The research team also screened mice that are used as standard models of Alzheimer’s disease, as well as human
Finally, the researchers also found that the truncated peptides can be used to develop antibodies that can identify and bind them. This would enable doctors to monitor the accumulation of truncated Abeta fragments in diagnostic tools, and even target them for clearing by the patient’s immune system.
«The study reveals novel Abeta targets associated with the early events of oligomerization," says Adrian Schmid at EPFL’s Protein Core Facility and senior author of the paper. «This may help define the preclinical stage of Alzheimer’s, and determine the factors that predict the emergence of clinical impairment and progression to severe dementia.»
The findings take our knowledge about Abeta aggregation to a new level and have important implications in Alzheimer’s diagnosis and future therapies. «Preclinical biomarkers of dementia can help identify individuals who may benefit from early therapeutic intervention," says Schmid. «It can therefore improve the patient’s overall quality of life while reducing the costs associated with
This project was conceived and developed at the EPFL’s Proteomics Core Facility (PCF) and involved a collaboration between the EPFL’s Interdisciplinary Centre for Electron Microscopy (CIME), the Department of Neurology at Ulm University Hospital (Germany), the Centre for Dementia Prevention at Edinburgh University (Scotland), and Harvard Medical School (Mass General Hospital, Boston, USA). It was funded by EPFL and its Tech Transfer Office and the
Source: http://actu.epfl.ch/news/diagnosing-alzheimer-s-earlier-rather-than-later/
