“This review aims at highlighting the interplay between the endocannabinoids (eCBs) anandamide and 2-arachidonoylglycerol, and sphingosine-1-phosphate (S1P) signaling. The eCBs and S1P are bioactive compounds that exemplify a paradigm of crosstalk among lipid signals, with profound implications for physiological processes and disease pathogenesis.
Cross-communication between eCBs and S1P occurs through multiple mechanisms: (i) receptor heterodimerization and co-regulation, (ii) mutual metabolic modulation, and (iii) integrated regulation of downstream effectors. The latter emerged as a key mechanism underlying the bidirectional interactions between eCBs and S1P, with functional overlaps that regulate several processes including inflammation, vascular function, and neuronal activity.
In addition, cannabis-derived compounds (such as cannabidiol) can influence eCBs and S1P signaling, calling for further research into their therapeutic exploitation.
Overall, the dynamic interplay between endogenous eCBs and S1P – as well as with exogenous cannabidiol – described here offers a compelling example of the complexity of interactions among bioactive lipids. A deeper mechanistic understanding of these relationships could pave the way to novel strategies in drug design and development, emphasizing the importance of integrated approaches in the study of bioactive lipid biochemistry.”
https://pubmed.ncbi.nlm.nih.gov/41033556/
“In conclusion, it seems apparent that eCB and S1P signaling pathways operate through interconnected networks of remarkable complexity. As yet, the biochemical crosstalk between these bioactive lipids remains incompletely understood, potentially limiting the therapeutic exploitation of these signals. Future strategies targeting the spatiotemporal dynamics of lipid transport – from intracellular trafficking to extracellular distribution – combined with selective receptor engagement, may unlock novel therapeutic opportunities that current approaches have not fully realized.”