A study led by Turkish researcher Pinar Ayata unveiled a critical mechanism involving microglia—specialized immune cells in the brain—that could open new avenues for treating Alzheimer's ...

Sphere of Influence. In iAssembloids, microglia (red) form projections (white arrows), while astrocytes (green) assume star shapes typically found in the brain. [Courtesy of Kampmann et al., 2025.] ...

The study, published in the journal Neuron, highlights microglia, the brain's primary immune cells, as central players in both the protective and harmful responses associated with the disease.

Electron micrographs show typical microglia in the prefrontal cortex of a 92-year-old healthy female (left) and dark microglia a 91-year-old female patient with Alzheimer’s disease (right).

The study, published in the journal Neuron, highlights microglia, the brain's primary immune cells, as central players in both the protective and harmful responses associated with the disease.

Caption Using live cell imaging microscopy, the scientists observed the formation of connections between neurons and microglia. The video above shows the formation of TNTs between a neuron and ...

the researchers went on to show how the ISR pathway was causing dark microglia to release harmful lipids into the brain's tissues. It was these damaging fats that caused the damage to synapses and ...

Joseph Arboleda-Velasquez of Harvard Medical School praised the results. “Ye’s group has now provided compelling evidence showing increased binding affinity of ApoE3 Christchurch for tau and its ...