In the journal Experimental Neurology, the scientists report the beneficial effects of so-called astrocytes, a certain type of glial cells. They get their name from the Greek word for glue, as it was long thought that these cells simply hold the nerve cells together and provided them with nutrients. In the case of epilepsy, the prevalent opinion was that their reaction to a seizure would actually damage the brain. The researchers from Freiburg disagree. In fact, they say, astrocytes help to reduce long-term damage brought upon by epileptic fits.
The team discovered the positive effects of astrocytes in mice, in which epileptic states can be selectively triggered. If the scientists injected mice with a specific protein to activate the astrocytes prior to an epilepsy-inducing insult, fewer nerve cells died in the wake of the seizure. Other pathological changes that would usually occur in the brain were likewise significantly reduced. The astrocytes’ protective effect lasted for many days after their activation. When the researchers measured the rodents’ brain activity, they likewise found fewer signs that are typical for a brain suffering from epilepsy. However, the authors report that the astrocytes had to be already activated before seizures were elicited. Activating them afterwards, on the other hand, did not lead to a protective effect.
Further studies will have to demonstrate that astrocytes have this protective influence all over the brain. According to Haas, who is also a member of Freiburg’s new cluster of excellence BrainLinks-BrainTools, their findings suggest that a timely activation of astrocytes could offer an effective protection from long-term damage to the brain.
