The causes of Alzheimer’s disease are not fully known and scientists continue
to investigate this area. So far, research into the causes of this brain disease
has found two main forms of neural damage or abnormalities that can be linked
to the disease and its progression.
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Genetic studies have shed new light on possible causes of Alzheimer's disease,
but these must be researched further. Aluminium and zinc as causes were the
topics of controversial studies and are discussed in less detail.
Tangled nerve cell fibres (neurofibrillary tangles)
Microscopic study of the brain of a person who has died from Alzheimer’s disease
reveals tangled nerve cell fibres in certain areas of the brain. (Nerve cell
fibres are typically found inside nerve cells.) As the nerve fibres become tangled,
protein deposits called plaques build up in the affected tissue. A protein called
tau is found in the tangles. Scientists are not sure how these neurofibrillary
tangles are formed, but they are characteristic of the condition.
Senile or neuritic plaques
These patches are situated outside the nerve cells and are surrounded by dying
neurons (nerve cells). The plaques contain a sticky protein, beta amyloid, which
cause malfunctioning of nerve cells that
eventually results in death of these cells. The plaques are made of amyloid precursor protein
(APP) molecules, which are usually essential components of the brain. Plaques
are formed when an enzyme takes APP apart at a specific location and leaves
the fragments (beta amyloid) in brain tissue, where they deposit abnormally.
The presence of neuritic plaques may be linked to a reduction in acetylcholine,
an important chemical that is instrumental in relaying messages in the brain.
Genetics
The association between Down syndrome and Alzheimer's disease has led scientists
to look for genetic factors on chromosome 21, the chromosome involved in Down
syndrome. Chromosomes are found in each cell in the body and carry the hereditary
information (genes). Other chromosomes that scientists have studied in relation
to Alzheimer’s disease include chromosomes 14 and 19. The study of chromosome
19 is the most significant. It was on this chromosome that scientists discovered
the ApoE-e4 gene, a well-known marker for heart disease that is commonly found
in people who developed Alzheimer's disease at age 65 years or older. The gene
was less likely to be found in people who did not have Alzheimer's disease.
These findings led scientists to believe that people with this gene might be
more susceptible to Alzheimer's disease, although it is not a definite indicator
that such people will develop the disease.
Aluminium
Some researchers found increased levels of aluminium, mercury and other metals
in the brains of victims of Alzheimer’s disease. This led to a controversial
theory suggesting that the ingestion of small particles of one of these metals,
especially aluminium, may lead to the development of Alzheimer's disease. However,
much more research is necessary to determine whether aluminium build-up is a
cause or a result of Alzheimer’s disease and to better understand the exact
role of this and other metals in the development of the disorder.
Zinc
Zinc is the focus of another controversial theory about the possible causes
of Alzheimer's disease. Studies suggesting a link between zinc and improved
mental alertness in the elderly led scientists to give Alzheimer's disease patients
zinc supplements in a 1991 study. However, after only two days the patients’
mental abilities deteriorated rapidly. A few years later, laboratory tests revealed
that zinc could make proteins form clumps similar to the plaques found in the
brains of Alzheimer's disease sufferers. This needs to be further investigated,
as scientists are not sure yet whether the plaques actually cause the disease
or whether they are a result of it.
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