Brain organoid study reveals multiple changes in brain cells during early embryonic development may contribute to schizophrenia later in life.
A new study reveals ILC2 cells in the nervous system can halt immune response to infections that cause inflammation.
A unique subset of group 3 innate lymphoid cells spurs T cells to attack myelinated nerve fibers in mouse models of multiple sclerosis.
Abnormalities in astrocytes may play a critical role in some of the behavioral symptoms experienced by those with autism.
The way in which the brain's wiring aligns with patterns of activity may vary with age, sex, and genetics. The alignments may have implications on cognition, researchers report.
A drug currently being tested in cancer clinical trials appears to prevent dysfunction in an immune cell signaling pathway associated with Alzheimer's disease. Blocking the pathway could prevent Alzheimer's from developing and slow the progression of symptoms for those who already have the disease.
Seizures originate from an excess of excitatory over inhibitory neural activity in confined regions of the brain, and spread only when they overcome strong inhibitory activity in surrounding regions.
Synaptic vesicles are a major source of energy consumption in inactive neurons, a new study reports.
