Focusing back on the AMsh-AFD interaction, the team asked a follow-up question: KCC-3 appeared to mediate this glia-neuron interaction by localizing specifically to their interface, but how was this ...

To better model how neurons fire and interact with glia, some scientists place the cells into a brain or grow them in an organoid. Others have produced little spheres of human neural tissue by ...

Every organ in the body is made up of a range of cell types that must coordinate their size and shape throughout the lifetime of the animal to maintain correct organ architecture and function. A focus ...

In humans and other mammals, loss of neurons in the retina due to trauma or disease is an irreversible process that can lead to blindness. But unlike humans, some animals, such as fish, have the ...

Researchers at the Baylor College of Medicine and the Jan and Dan Duncan Neurological Research Institute at the Texas Children’s Hospital have uncovered a new cell type in the human brain. The team ...

Researchers at Baylor College of Medicine and the Jan and Dan Duncan Neurological Research Institute at Texas Children's Hospital have uncovered a new cell type in the human brain. The study published ...

Researchers report that a single glial cell uses different molecules to communicate with different neurons. Careful clustering of these molecules ensures that the glial cell can conduct a distinct ...

Senescence, a state in which cells neither divide nor die, but simply linger, has been linked to aging and neurodegeneration. What causes such cells to appear in old brains, and how might they wreak ...

Researcher have uncovered a new cell type in the human brain that fires electrical impulses. The cells are hybrids, part neuron and part glia, and are present in both glioma, a type of brain tumor, ...