Indiana university team targets idol enzyme to treat alzheimer's

Researchers at the Indiana University School of Medicine have identified the enzyme IDOL as a potential new target for treating Alzheimer's disease. Laboratory studies showed that removing the enzyme from neurons reduced amyloid plaques and improved brain cell communication.

The findings, published in Alzheimer's & Dementia, come from experiments using animal models of the disease. Deleting the IDOL gene in neurons lowered plaque levels and reduced apolipoprotein E, a protein linked to higher Alzheimer's risk. Effects were stronger in neurons than in microglia, the brain's immune cells, contrary to initial expectations.

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Microscopic illustration of protective microglia clearing amyloid plaques in an Alzheimer's brain model due to the OLE molecule
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Study identifies OLE molecule that shifts microglia into a more protective state in Alzheimer’s models

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Researchers in Spain and Switzerland report that an experimental molecule called OLE helped restore protective behavior in the brain’s immune cells in animal models of Alzheimer’s disease, reducing amyloid-related pathology and improving performance on memory and movement tests.

Scientists at the University of Southern California have found experimental compounds that may reduce harmful brain inflammation associated with Alzheimer’s disease. The work focuses on the enzyme cPLA2 and people who carry the high-risk APOE4 gene.

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Researchers at Cold Spring Harbor Laboratory have found that blocking the protein PTP1B improves memory and boosts plaque clearance in mouse models of Alzheimer's disease. The discovery links the protein to brain immune function and metabolic risks like diabetes and obesity. The team aims to develop inhibitors for potential human treatments.

Researchers have identified a previously unknown mechanism called karyoptosis that appears to drive the death of brain cells in Alzheimer's disease and frontotemporal dementia. The discovery, based on analysis of human brain tissue, points to a potential new target for treatments aimed at slowing neuron loss.

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Researchers at UCLA have identified senescent immune cells, dubbed 'zombie' cells, that accumulate in aging livers and contribute to fatty liver disease. By eliminating these cells in mice, the team reversed liver damage and reduced body weight, even on an unhealthy diet. The findings, published in Nature Aging, suggest similar mechanisms may drive human liver conditions.

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