Rational design of G(i)-biased CB1 agonist with reduced side effects
Summary
The cannabinoid receptor 1 (CB1) has emerged as a promising candidate for next-generation non-opioid therapies. However, the development of therapeutics targeting CB1 has been consistently hindered by significant adverse effects. Here, through structure-activity relationship analyses focused on biased signaling, we rationally design two Gi-biased CB1 agonists, LZD503 and LZD505. Our design strategy employed structural spatial tuning of the agonist scaffold to disrupt specific molecular int
Content
# Rational design of G(i)-biased CB1 agonist with reduced side effects
*Published: 2026 Apr 13*
The cannabinoid receptor 1 (CB1) has emerged as a promising candidate for
next-generation non-opioid therapies. However, the development of therapeutics
targeting CB1 has been consistently hindered by significant adverse effects.
Here, through structure-activity relationship analyses focused on biased
signaling, we rationally design two Gi-biased CB1 agonists, LZD503 and LZD505.
Our design strategy employed structural spatial tuning of the agonist scaffold
to disrupt specific molecular interactions and minimize steric conflicts with
critical tip residues within the ligand-binding pocket, thereby promoting
preferential Gi-pathway signaling. Cryo-electron microscopy structures of the
CB1-G-protein complexes bound to these designed agonists confirmed that their
anticipated conformational poses favored Gi-biased signaling. Both designed
compounds demonstrated promising results by alleviating pain and mitigating
unwanted responses in mice. The elucidated CB1 complex structures and the
resulting insights establish a comprehensive framework for the structure-guided
development of innovative CB1-targeted analgesics with reduced adverse effect
profiles.
DOI: 10.1016/j.cell.2026.03.020