Antimetastatic Sulfonate-Functionalized Mesoporous Silica Nanoparticles Enhance Irinotecan Stability and Delivery for Colorectal Cancer Treatment

Metastatic colorectal cancer (mCRC) remains a leading cause of cancer-related mortality, with Irinotecan (IRI) serving as a backbone chemotherapeutic despite its dose-limiting toxicities, instability of the active lactone form, and lack of intrinsic antimetastatic activity. To overcome these barriers, we developed sulfonate-functionalized mesoporous silica nanoparticles (MSNs), referred to as (SO ₃ ^- )-MSN-PEG/TA, as a multifunctional nanocarrier for IRI delivery. This nanoformulation markedly enhanced drug loading efficiency and preserved over 90% of the lactone form for up to six months, enabling sustained release and improved pharmacological stability. In vitro studies demonstrated superior cellular uptake, enhanced apoptosis, and a reduced IC ₅₀ compared to free IRI. Beyond drug delivery, (SO ₃ ^- )-MSN-PEG/TA exhibited intrinsic antimetastatic activity by modulating focal adhesion kinase (FAK)/paxillin signaling, thereby impairing cell migration and suppressing angiogenesis, along with efficient tumor accumulation through the enhanced permeability and retention (EPR) effect. Pharmacokinetic analysis further revealed that IRI@(SO ₃ ^- )-MSN-PEG/TA prolonged systemic retention, maintaining higher IRI plasma concentrations compared with free IRI. IRI@(SO ₃ ^- )-MSN-PEG/TA significantly inhibited both primary tumor growth and metastatic dissemination in orthotopic and heterotopic colorectal cancer models, while markedly reducing systemic toxicities and preserving bone marrow cellularity relative to free IRI and liposomal IRI (Onivyde). Collectively, this dual-functional nanomedicine provides an innovative therapeutic strategy that not only augments IRI efficacy but also confers metastasis suppression and favorable pharmacokinetics, addressing critical unmet needs in mCRC treatment. These findings highlight the translational potential of IRI@(SO ₃ ^- )-MSN-PEG/TA as a safer and more effective therapy for mCRC.