Litcius/Paper detail

Dual stimuli-responsive mesoporous silica nanoparticles for efficient loading and smart delivery of doxorubicin to cancer with RGD-integrin targeting

Han‐Sem Kim, Ji-Hye Kang, JunHwee Jang, Eun‐Jung Lee, Jin Hee Kim, Jonghoe Byun, Ueon Sang Shin

2023European Journal of Pharmaceutical Sciences25 citationsDOIOpen Access PDF

Abstract

The recent progress in nanoparticle applications, such as tumor-targeting, has enabled specific delivery of chemotherapeutics to malignant tissues with enhanced local efficacy while limiting side effects. However, existing delivery systems leave much room for improvement in terms of achieving enhanced colloidal stability in fluid medium, efficient targeting of intended sites, and effective release of therapeutic drugs into diseased cells. Here, an efficient stimuli-responsive nanocarrier for mammalian cells, termed RGD-NAMs, was developed, which enabled temperature- and pH-sensitive release of drug loads. The RGD-NAMs comprise two parts: a stimuli-responsive copolymer shell (NIBIm-AA-RGD) and drug-container core (MSNs). The RGD-NAMs have a stable drug-loading capacity with a marked difference in the release rate depending on the temperature and pH conditions. The RGD-NAMs also exhibit high colloidal stability in SBF (Stimulated body fluid) solutions and minimal toxicity in skeletal myoblasts (C2C12) and bovine arterial endothelial cells (BAEC). The doxorubicin-loaded RGD-NAMs induced a cytotoxic effect in a dose-dependent manner, which was furthered by an increase in temperature from 37 to 40 °C. Moreover, significant control of the release rate and the amount were achieved through pH change. This novel, smart drug-delivery system with high responsiveness to temperature and pH changes has wide application prospects in biomedical fields, including the theragnosis of tumors and vascular diseases.

Topics & Concepts

NanocarriersDrug deliveryDoxorubicinChemistryMesoporous silicaDrugDoxorubicin HydrochlorideDrug carrierBiophysicsNanotechnologyCancer researchMaterials sciencePharmacologyMesoporous materialChemotherapyMedicineSurgeryBiochemistryBiologyCatalysisNanoparticle-Based Drug DeliveryNanoplatforms for cancer theranosticsGraphene and Nanomaterials Applications