Switches' in our DNA that affect gene activity in cells could be crucial to understanding and possibly treating Alzheimer's ...

Summary: Researchers have created a new experimental model that reveals how changing a key Alzheimer’s risk gene can shift ...

Researchers are investigating the role of non-coding DNA, or junk DNA, in regulating astrocytes, brain cells involved in ...

Researchers at Baylor College of Medicine reveal that astrocytes, the most abundant cells in the brain, play a direct role in the regulation of neuronal circuits involved in learning and memory. The ...

Delivering a connection-building protein to star-shaped cells in the brain could reverse changes to neural circuits seen in ...

Researchers at Baylor College of Medicine have unraveled the processes that give astrocytes, the most abundant glial cell in the brain, their special bushy shape, which is fundamental for brain ...

Scientists mapped hidden DNA switches in brain support cells to understand how gene control may influence Alzheimer’s disease ...

Astrocytes release a variety of chemical mediators by which they respond and signal to their environment (for review, see ref. 1). The underlying mechanisms for this release remain largely undefined.

Researchers at Washington University School of Medicine in St. Louis have upended decades-old dogma of how connections between brain cells are rearranged during states of heightened vigilance or ...

Resting brain stem cells hardly differ from normal astrocytes, which support the nerve cells in the brain. How can almost identical cells perform such different functions? The key lies in the ...

Scientists had previously reported that removing senescent glia from mouse models of tauopathy protected them from neurodegeneration. But what made those glia senescent to begin with? In the July 20 ...