A Dual-Action Mechanism to Prevent OX40 Signaling: The Structural Basis for the Differentiated Antagonist STAR-0310
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Abstract
Atopic dermatitis (AD) is a chronic inflammatory disease sustained by dysregulated T cell activity. The OX40/OX40L pathway drives effector and memory T cell proliferation, survival, and cytokine production, making it a key therapeutic target. STAR-0310, a novel anti-OX40 antibody, binds a noncanonical epitope that sterically blocks receptor trimerization without inducing agonism. Structural and functional studies demonstrated a dual mechanism: prevention of new OX40/OX40L interactions and efficient disruption of pre-formed complexes, outperforming comparator antibodies. The pure antagonism and complex disruption capacity of STAR-0310 support its clinical evaluation ( NCT06782477 ) as a differentiated OX40-targeted therapy for AD. Highlights Novel binding mechanism: STAR-0310 engages OX40 distal to the OX40L site, sterically blocking receptor trimerization without inducing agonism. Dual action: Prevents formation of new OX40/OX40L complexes and efficiently disrupts pre-formed complexes sustaining inflammation. Differentiation from competitors: Achieves greater efficiency in complex disruption compared with rocatinlimab and IMG-007 with no partial agonist activity. Clinical potential: Pure antagonist profile supports ongoing evaluation of STAR-0310 ( NCT06782477 ) as a best-in-class OX40 therapy for atopic dermatitis.
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- last seen: 2026-05-20T01:45:00.602351+00:00