“Cannabidiol (CBD) is a phytocannabinoid with potential in one of the most prevalent syndromes occurring at birth, the hypoxia of the neonate.
CBD targets a variety of proteins, adenosine A2AR and cannabinoid CB1R receptors included. These two receptors may interact to form heteromers (A2AR-CB1R Hets) that are also a target of CBD. Thus, we aimed to assess whether the expression and function of A2AR-CB1R-Hets is affected by CBD in animal models of hypoxia of the neonate and in glucose- and oxygen deprived (GOD) neurons and microglial cells.
Results indicated that the formation of A2AR-CB1R heteromers increased A2AR affinity for its selective agonist CGS21680. Moreover, resonance energy transfer assays showed that CBD and cannabigerol (CBG) affected the structure of the heteromer. Regarding functionallity, CBD partially bloked A2AR induced signalling in transfected HEK-293 T cells, while it recovered CB1R signalling in glucose/oxygen-deprived neurons and microglial cells. The expression of A2AR-CB1R Hets increased in GOD neurons and microglial cells.
This increase was counteracted with a pre-treatment with CBD and CBG. Importantly, in brain sections of a hypoxia/ischemia animal model, administration of CBD led to a significant reduction in the expression of A2AR-CB1R Hets.
In conclusion, CBD effects in the hypoxia of the neonate can be mediated by A2AR-CB1R complex. CBD partially blocks A2AR signalling while potentiates the neuroprotective effect of CB1R in hypoxic-ischemic conditions.”
https://pubmed.ncbi.nlm.nih.gov/41046105/
“In conclusion, the relevance of A2A-CB1 heteromers formations lies in the fact that these receptors can regulate each other. At the first stages after the injury A2A acquires a more important role, while days after CB1R signalling would provide an improvement.
Interestingly, CBD treatment plays an important effect by controlling A2AR and CB1R competition. This compound could be really beneficial to fight ischemic stroke by regulating A1R-CB1R complex function in the different stages of the disease.”
https://www.sciencedirect.com/science/article/pii/S0969996125003481?via%3Dihub