Fiche publication
Date publication
septembre 2025
Journal
ACS nano
Auteurs
Membres identifiés du Cancéropôle Est :
Dr BIANCO Alberto
Tous les auteurs :
Yin Y, Yang C, Chen Z, Du H, Jiang G, Bianco A, Dai J, Ji DK
Lien Pubmed
Résumé
Immunotherapy has revolutionized the treatment of lung cancer, but many patients still experience inadequate responses or develop resistance, emphasizing the urgent need for more effective therapeutic strategies. Here, we present the design of an inhalable flexible 2D molybdenum disulfide (MoS) T cell hyperactivation platform (2D MoS-THP) based on anchoring therapeutic proteins onto the surface of metallic molybdenum disulfide. By loading IL2 and anti-PD1 proteins onto a flexible metallic molybdenum disulfide crystalline form, we achieved effective T cell hyperactivation. Our platform leverages the synergistic effects of anti-PD1 and IL2 to remodel exhausted T cells while simultaneously overcoming regulatory T cell (Treg)-mediated immunosuppression, resulting in a superior T cell activation. Additionally, 2D metallic MoS not only serves as a carrier for delivering therapeutic proteins but also plays a pivotal functional role by inducing cuproptosis in Tregs through disruption of mitochondrial function and elevation of oxidative stress, thereby clearing a key barrier to effector T cell activation. The inhalation administration route further improves intratumoral accumulation, enhances therapeutic potency, and minimizes systemic immune-related side effects. Overall, this inhalable "three-in-one" immunotherapy platform achieves robust T cell hyperactivation with reduced systemic toxicity, efficiently removing immunosuppressive barriers, and remodeling the tumor immune microenvironment to overcome cancer immunotherapy resistance.
Mots clés
2D materials, cuproptosis, immunotherapy resistance, pulmonary delivery, regulatory T cells
Référence
ACS Nano. 2025 09 19;:
