Comparative Efficacy of Tumor Microenvironment-responsive Nanotherapeutics Targeting PSD95/Discs-large/ZO-1 Binding Kinase in Different Histological Subgroups of Medulloblastoma.

Int J Med Sci

Department of Ultrastructural Pathology, Beijing Neurosurgical Institute/ Beijing Tiantan Hospital, Capital Medical University, Beijing, 100070, China.

Published: December 2024

AI Article Synopsis

  • The study investigates the use of a targeted nanotherapeutic drug that responds to the tumor microenvironment, specifically focusing on its effects on PBK in medulloblastoma cells (Daoy and ONS-76).
  • Utilizing the rabies virus glycoprotein (RVG), the researchers developed a nanocomplex (HPAA/RVG/PBK-siRNA) that includes a microenvironment stimulus (glutathione) and delivers PBK-siRNA for targeted therapy.
  • Various analytical methods were used to evaluate the characteristics and effectiveness of this nanocomplex, demonstrating potential benefits for improving treatment strategies in medulloblastoma.

Article Abstract

This work aimed to demonstrate the therapeutic effects of tumor microenvironment-responsive nanotherapeutic drugs targeting PSD95/Discs-large/ZO-1 domain (PDZ)-binding-kinase (PBK) in medulloblastoma Daoy and ONS-76 cells. The objective was to provide critical theoretical and practical foundations for the clinical adoption of tumor microenvironment-responsive nanotherapeutic drugs targeting PBK. The rabies virus glycoprotein (RVG) was utilized as a specific targeting molecule to form a tumor microenvironment-responsive nanocomplex, HPAA/RVG/PBK-siRNA, which incorporated glutathione (GSH) as a microenvironment stimulus factor within a hyperbranched polymer polyamide amine (HPAA). This nanocomplex also carried PBK-small interfering RNA (siRNA) for targeted PBK therapy. Characterization of HPAA, maleimide-polyethylene glycol-N-succinyl ester (MAL-PEG-NHS), HPAA-PEG, RVG, HPAA-RVG, and HPAA/RVG/PBK-siRNA was conducted using nuclear magnetic resonance spectroscopy, high-performance liquid chromatography (HPLC), dynamic light scattering, and transmission electron microscopy (TEM). Flow cytometry was employed to assess endocytosis and cell transfection of HPAA-RVG and HPAA/RVG/PBK-siRNA in Daoy and ONS-76 cells. The two cell lines were treated with HPAA/RVG/PBK-siRNA (HPAA/siRNA group), methoxy-PEG polyethylenimine (PEI-25k)/PBK-siRNA (PEI group), HPAA/RVG nanocarriers without PBK-siRNA (HPAA/RVG group), Dharmacon™ non-targeting siRNA (shNTC group), PBK-siRNA (Control group 1), AChR inhibitor (Control group 2), and GSH inhibitor (Control group 3), and compared with the control group (medium without any substances). Western blot analysis validated PBK expression levels (ELs) in various cell groups. Additionally, cell viability and proliferation were evaluated using methyl tetrazolium (MTT) assays and 5-Bromo-2'-deoxyuridine (BrdU) incorporation assays. The results revealed proton absorption peaks for HPAA at 2.78 ppm, 3.21 ppm, and 3.49 ppm, while RVG and HPAA-RVG exhibited characteristic absorption peaks at 23.653 min and 23.584 min, respectively, with peak areas of 4,856.6 and 6,927.3 for RVG. The nanoparticle sizes were 50-100 nm for HPAA-RVG and 100 nm for HPAA/RVG/PBK-siRNA, displaying spherical morphology and uniform size distribution. The average potential of HPAA-PEG was lower than that of HPAA (<0.05), and HPAA-RVG showed dramatically lower potential than HPAA (<0.001). At 8 hours, Daoy cells displayed higher endocytosis rates versus ONS-76 cells (<0.05). The transfection rates of HPAA-RVG in both ONS-76 and Daoy cells were higher than those of HPAA, with Daoy cells showing higher transfection rates than HPAA (<0.05). Under HPAA-RVG treatment, AChR levels in ONS-76 cells were significantly lower than those in Daoy cells ( < 0.05). Compared to the control group, the PBK protein expression levels, cell survival rates, and the number of cells in the proliferative phase were significantly reduced in Control group 1, the PEI group, and the HPAA/siRNA group in both ONS-76 and Daoy cells, with the ONS-76 cells in the HPAA/siRNA group showing the lowest values among these groups ( < 0.05). In summary, the findings indicated that the tumor microenvironment-responsive nanocomposite HPAA/RVG/PBK-siRNA selectively inhibited PBK expression in Daoy medulloblastoma cells, showcasing potential applicability in medulloblastoma therapy.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11610338PMC
http://dx.doi.org/10.7150/ijms.97992DOI Listing

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