Wonder how CBD Works in The Brain?


Did you know that 14% of Americans regularly use CBD? That’s one in seven adults that use a variety of different CBD products.

While clinical trials of CBD’s effects on the brain are limited, there is evidence from some studies that suggest many of the effects CBD contains are related to the neurological impact of the cannabinoid. This includes both cannabinoid receptors found throughout the Endocannabinoid system, as well as a number of others found in the brain. 

Your Brain on CBD

One of the many reasons CBD continues to gain in popularity is for the neurological influence it contains. What happens in your brain when you take CBD is directly responsible for many of the beneficial effects it’s suggested to contain. 

Here we’ll take a look at just how CBD influences various receptors in the brain and the effects that are suggested to entail because of it. 

The Influence of CBD on Brain Receptors

Within the brain are some 86 billion specialized cells known as neurons. These neurons communicate with one another by releasing what are known as neurotransmitters. 

A receptor is a protein or combination of proteins that a molecule (such as a neurotransmitter) binds to. Whether or not a neuron is sensitive to a particular neurotransmitter depends on if that neuron contains a receptor that binds to it. 

Some of the most well-known neurotransmitters in the brain are dopamine and serotonin, often referred to as the brain’s “feel-good” chemicals. Other molecules (such as illicit and prescription drugs and hormones) can also bind to receptors in the brain. Cannabinoids like THC and CBD are an example of molecules that influence the brain through their binding affinity or indirect influence on certain receptors. 

CBD and Cannabinoid Receptors

In the endocannabinoid system there are two different cannabinoid receptors, known as CB1 and CB2 receptors. Both are found throughout the body, however, CB1 receptors are more prominent in the brain and central nervous system, while CB2 receptors are found predominantly in the cells and tissues of the immune system. 

Here’s the thing, though. CBD doesn’t directly interact with either of these cannabinoid receptors. If they’re such an integral aspect of the endocannabinoid system, how does CBD work in the brain if there’s no direct interaction? 

The Indirect Influence of CBD on CB1 Receptors and The ECS

We just mentioned that CBD doesn’t have any binding affinity to CB1 receptors in the brain. Just because it doesn’t bind directly to these receptors like THC, it’s known to contain a significant influence. 

Instead of binding to them, CBD is known for its indirect influence on CB1 and other receptors in the brain. 

For one, CBD activates TRPV1 receptors, also known as the vanilloid receptor 1 and capsaicin receptor. TRPV1 receptors are directly involved in functions such as the regulation of body temperature and certain other responses. 

CBD also inhibits FAAH (fatty acid amide hydrolase), which creates higher levels of the endocannabinoid anandamide. Something research shows about people with lower FAAH levels? They’re happier than those with higher level of FAAH.

The Influence of CBD on Serotonin Receptors

Serotonin is one of the most famous neurotransmitters found in the brain. It’s responsible for a multitude of different functions, including mood regulation, social behavior, memory, sleep and sexual function. 

Research shows that CBD interacts with the 5-HT1A serotonin receptor, which would explain why the cannabinoid is associated with such a broad scope of potential. While many experts support that CBD’s influence on 5-HT1A could support a variety of healthy mental functions, more research is needed before it could be used in certain clinical applications. 

The Influence of CBD on Dopamine Receptors 

All drugs that are known to cause abuse increase dopamine levels in the brain. It’s these increases in dopamine levels that are suggested to mediate the positive reinforcement and rewarding properties of such drugs. The negative effects associated with drug withdrawal are connected to a decrease in dopamine function. 

CBD, however, does not directly act on dopamine receptors. Instead, it has an indirect influence on dopamine by its effect on activating adenosine receptors. Aside from the role adenosine receptors play in cardiovascular function, they also play a significant role in the brain by down-regulating the release of dopamine. 

The Complex Connection Between the Brain and CBD

The relationship CBD has with the brain is undoubtedly complex, one that researchers are still continuing to explore. While there are still many unanswered questions when it comes to the neurological effects of CBD, one thing is certain. The cannabinoid interacts with several different receptors in the brain, something ultimately believed to be the reason behind the much of beneficial potential it contains. 

As researchers begin to gain a better understanding of the way CBD works in the brain, they will likely continue to discover and convey the promising benefits the non-intoxicating cannabinoid contains. 

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