Inflammation-triggered self-immolative conjugates enable oral peptide delivery by overcoming gastrointestinal barriers.
Juan Cheng, Peng Wu, Chenwen Li, Ying Han, Menglong Sun, Yin Dou, Sheng Chen, Jianxiang Zhang
Abstract
Open AccessOral delivery of peptide therapeutics remains challenging due to gastrointestinal (GI) degradation and poor intestinal absorption. Here, we propose a self-immolative peptide prodrug conjugate (SIPPC) platform for inflammation-targeted oral delivery, integrating a hydrophilic polyethylene glycol segment, a reactive oxygen species (ROS)-responsive hydrophobic self-immolative module, and a hydrolyzable scaffold, which collectively enable spontaneous assembly into micelle-like nanoparticles. Using three anti-inflammatory peptides (KPV, Ac-QAW, and IRW), we demonstrated that the engineered conjugates exhibit remarkable GI stability, efficient mucus penetration, and ROS-responsive release at inflamed sites. In colitis mice, the KPV-based conjugate (proKPV) achieved a 3.8-fold greater colonic accumulation than free KPV, with enhanced efficacy even at a 20-fold lower dose. Beyond therapeutic effects in the colitis model, oral proKPV substantially accumulated in inflamed lungs and exhibited potent anti-inflammatory efficacy in mice with acute lung injury. Ac-QAW and IRW-based conjugates exhibited comparable benefits, underscoring SIPPC as a transformative paradigm for oral peptide therapeutics, offering substantial promise for clinical translation in inflammatory disorders.