Skye Bioscience Highlights Novel Synthetic Cannabinoid-based Library Capable of Modulating the Endocannabinoid System to Treat Ocular Diseases at ARVO 2024 Annual Meeting
In This Article:
Poster presentation details screening approach allowing selection of candidate molecules applicable to dry eye disease and chronic ocular pain, with potential to identify therapeutic candidates with novel mechanisms of action for other ocular pathologies
SAN DIEGO, May 10, 2024 (GLOBE NEWSWIRE) -- Skye Bioscience, Inc. (Nasdaq: SKYE) (“Skye”), a clinical-stage biotechnology company focused on the discovery, development and commercialization of novel classes of therapeutic drugs that modulate the endocannabinoid system (ECS), today announced that it presented new data in a poster titled “Development and screening of a novel library of synthetic endocannabinoid agonists and inhibitors to advance a potential therapy to treat dry eye disease and chronic ocular pain” on May 9th at the ARVO (Association of Research in Vision and Ophthalmology) 2024 Annual Meeting.
“The endocannabinoid system offers unique opportunities to address unmet medical needs with new mechanisms of action. At ARVO we showcased Skye’s development and screening of a novel library of synthetic agonists and inhibitors that could potentially fulfill some of these opportunities,” said Punit Dhillon, Chief Executive Officer and Chairman of Skye.
Key highlights
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Presented biological ECS screening program focused on pathways relevant to dry eye disease (DED) and chronic ocular pain
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Three synthetic cannabinoid-based compounds relevant to DED and chronic ocular pain have been identified for further pharmaceutical development
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Conclusion: a unique screening approach has the potential to provide a new class of therapeutics with novel mechanisms of action for the treatment of diverse ocular pathologies.
Chris Twitty, PhD, Chief Scientific Officer of Skye, added: “Skye’s strategy is to develop advanced pharmaceutical drugs capable of modulating the endocannabinoid system to positively impact ocular pathologies. The study’s evaluation of a novel synthetic cannabinoid-based library with biologically relevant cell types, targets, and pathways enabled the selection of candidate molecules applicable to DED and chronic ocular pain. Ultimately, we selected cannabinerol and two non-electrophilic indolic adducts of cannabidiolquinone and cannabigeroquinone that warrant further interrogation and pharmaceutical development.”
Study details
A rigorous in vitro screening platform based on modulation of pathways relevant to cannabinoid biology in the context of ocular pathologies was designed to interrogate a library of 98 synthetic cannabinoid-based molecules for their potential to treat ocular diseases. Immortalized human ocular cell lines and stable modified HEK cells were used to measure activation/inhibition of specific cannabinoid receptors, including CB1, CB2, GPR55, and TRPV1. The library was initially interrogated using a threshold of relevant biological activity. The resulting 38 compounds were scored based on EC50/IC50 of signaling (CB1/2/TRPV1/PPARg/NF-kB) and inhibition of ROS and HIF-1a in human epithelial and endothelial (corneal/conjunctival) cells. These compounds were also interrogated for chemical/developability attributes, which helped provide the rationale for ultimately selecting three lead candidate molecules.