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Targeted hollow pollen silica nanoparticles for enhanced intravesical therapy of bladder cancer

Lulu Wang, Qi Fan, Luopeng Bi, Jiao Yan, Xiaoqing Han, Yanjing Wang, Yanjing Wang, Panpan Song, Yanbo Wang, Yanbo Wang, Haiyuan Zhang

2023Biomaterials Science11 citationsDOI

Abstract

Bladder cancer (BC), such as non-muscle invasive bladder cancer (NMIBC), has a significantly high recurrence rate even after intravesical therapy because traditional intravesical chemotherapeutic drugs have short retention time in the bladder and lack efficient uptake in BC cells. Pollen structure usually shows potent adhesion ability to tissue surfaces, different from traditional electronic interaction or covalent binding. 4-Carboxyphenylboric acid (CPBA) has high affinity to sialic acid residues that are overexpressed on BC cells. In the present study, hollow pollen silica (HPS) nanoparticles (NPs) were prepared and modified with CPBA to form CHPS NPs, which could be further loaded with pirarubicin (THP) to form THP@CHPS NPs. THP@CHPS NPs showed high adhesion to skin tissues and could be more efficiently internalized by a mouse bladder cancer cell line (MB49) than THP, inducing more significant apoptotic cells. After intravesical instillation into a BC mouse model through an indwelling catheter, THP@CHPS NPs could more significantly accumulate at the bladder than THP at 24 h post-instillation, and after 8 days of intravesical treatments, magnetic resonance imaging (MRI) revealed that the bladders treated with THP@CHPS NPs showed more smooth bladder lining and more reduction in size and weights than those with THP. Moreover, THP@CHPS NPs exhibited excellent biocompatibility. THP@CHPS NPs hold great potential for intravesical treatment of bladder cancer.

Topics & Concepts

Bladder cancerCancer therapyCancerNanoparticleCancer researchChemistryUrologyMedicineNanotechnologyInternal medicineMaterials scienceNanoparticle-Based Drug DeliveryAdvanced Drug Delivery SystemsBladder and Urothelial Cancer Treatments
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