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This could lead to loss of brain cells in old age

A recent study has highlighted the importance and activities of the so-called microglial cells in brain aging. 

This could lead to loss of brain cells in old age Representational Image:Pixabay

Washington: A recent study has highlighted the importance and activities of the so-called microglial cells in brain aging.

The CB1 receptor is responsible for the intoxicating effect of cannabis. However, it appears to act as a kind of "sensor" with which neurons measure and control the activity of certain immune cells in the brain. If the sensor fails, chronic inflammation may result probably the beginning of a dangerous vicious circle.

These cells are part of the brain's immune defense. For example, they detect and digest bacteria, but also eliminate diseased or defective nerve cells. They also use messenger substances to alert other defense cells and thus initiate a concerted campaign to protect the brain. This protective mechanism has undesirable side effects. It can also cause damage to healthy brain tissue. Inflammations are therefore usually strictly controlled.

"We know that so-called endocannabinoids play an important role in this. These are messenger substances produced by the body that acts as a kind of brake signal. They prevent the inflammatory activity of the glial cells," explained researcher Andras Bilkei-Gorzo.

Endocannabinoids develop their effect by binding to special receptors. There are two different types, called CB1 and CB2. However, microglial cells have virtually no CB1 and very low level of CB2 receptors. They are therefore deaf on the CB1 ear. And yet they react to the corresponding brake signals why this is the case, has been puzzling so far.

The scientists at the University of Bonn have now been able to shed light on this puzzle. Their findings indicate that the brake signals do not communicate directly with the glial cells, but via middlemen a certain group of neurons, because this group has a large number of CB1 receptors.

"We have studied laboratory mice in which the receptor in these neurons was switched off," explains Bilkei-Gorzo.

"The inflammatory activity of the microglial cells was permanently increased in these animals." In contrast, in control mice with functional CB1 receptors, the brain's own defense forces were normally inactive. This only changed in the presence of the inflammatory stimulus.

During aging, the production of cannabinoids declines reaching a low level in old individuals. This could lead to a kind of vicious circle. Since the neuronal CB1 receptors are no longer sufficiently activated, the glial cells are almost constantly in inflammatory mode.

More regulatory neurons die, as a result, so the immune response is less regulated and may become free-running. It may be possible to break this vicious circle with drugs in the future. It is, for instance, hoped that cannabis will help slow the progression of dementia. Its ingredient, tetrahydrocannabinol (THC), is a powerful CB1 receptor activator even in low doses free from intoxicating effect.

Last year, the researchers from Bonn and colleagues from Israel were able to demonstrate that cannabis can reverse the aging processes in the brains of mice. This result now suggests that an anti-inflammatory effect of THC may play a role in its positive effect on the aging brain.

 

 

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