A Protease-Cleavable iNOS-Inhibitor Polymeric Prodrug Designed for Controlled Modulation of Nitric Oxide
Alimoradi, H.; Panahpour, A.; Fallah, A.; Delporte, C.
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Inducible nitric oxide synthase (iNOS) is frequently overexpressed in inflammatory disorders and solid tumors, where sustained nitric oxide (NO) production promotes angiogenesis, tumor progression, and resistance to therapy. Despite promising preclinical results, the clinical translation of iNOS inhibitors remains limited by poor tumor selectivity, rapid systemic clearance, and off-target toxicities. To address these challenges, we developed a protease-responsive polymeric iNOS-inhibiting prodrug (ProCIP) designed for localized activation within protease-rich pathological microenvironments. ProCIP was synthesized from poly(ethylene glycol)-poly(L-glutamate) and functionalized with amidine-based iNOS inhibitory moieties. The resulting cationic polymer readily formed nanoscale polyionic complexes with anionic polymers or molecules. In cell-free assays, enzymatic activation of ProCIP resulted in a significant reduction in iNOS activity, whereas non-activated nanoparticles showed minimal inhibition. Cellular studies confirmed efficient nanoparticle uptake by RAW264.7 macrophages and revealed a significant reduction in intracellular NO levels in lipopolysaccharide-stimulated cells. These findings demonstrate that ProCIP enables protease-triggered iNOS inhibition and localized NO regulation, offering a promising strategy for improving the safety and efficacy of iNOS-targeted therapies in cancer and other inflammatory diseases.
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