The
study found that deleting the ABI3 gene in mice increased plaques and
inflammation in the brain, suggesting avenues for new treatments.
Researchers
at the Indiana University School of Medicine, US, have discovered that deleting
the gene called ABI3 significantly increases amyloid-beta plaque accumulation
in the brain and decreases the amount of microglia around the plaques.
According to the team, this discovery could lead to the development of novel
Alzheimer’s disease treatments in the future.
The team based their research on a human
genetics study of more than 85,000 people — fewer than half of whom were
Alzheimer’s patients — that identified the mutation in the ABI3 gene. The
researchers concluded that this mutation increased the risk of late-onset
Alzheimer’s. “However, there was no investigation into the function of ABI3
gene in the brain or about how this gene affects microglia function,” added Dr
Hande Karahan who co-led the research with Dr Jungsu Kim.
In this
study, published in Science Advances, the team deleted the ABI3 gene from an
Alzheimer’s disease mouse model and tested the functions of the gene in
microglia in cell cultures. In the mouse model, they saw increased levels of
plaques and inflammation in the brain and signs of synaptic dysfunction.
Additionally, Karahan explained that the deletion of the gene impaired the
movement of microglia so the immune cells cannot move closer to plaques to try
to clear up the proteins.
“Our
study provides the first in vivo functional evidence that the loss of ABI3
function may increase the risk of developing Alzheimer’s disease by affecting
amyloid beta accumulation and neuroinflammation,” Karahan concluded. “This
study can provide further insight into understanding the key functions of
microglia contributing to the disease and help identify new therapeutic
targets.”
European Journal of Case Reports and Clinical Images is an international open-access journal publi
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