Co‐delivery of oncolytic virus and chemotherapeutic modality: Vincristine against prostate cancer treatment: A potent viro‐chemotherapeutic approach

Prostate cancer is a prevalent carcinoma among males, and conventional treatment options are often limited. Cytotoxic chemotherapy, despite its drawbacks, remains a mainstay. We propose a targeted co‐delivery approach using nanoscale delivery units for Oncolytic measles virus (OMV) and vincristine (...

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Published in:Journal of medical virology 2024-07, Vol.96 (7), p.e29748-n/a
Main Authors: Anjum, Sadia, Naseer, Faiza, Ahmad, Tahir, Liaquat, Afrose, Abduh, Maisa S., Kousar, Kousain
Format: Article
Language:English
Subjects:
Antineoplastic Agents - administration & dosage
Antineoplastic Agents - pharmacology
Antitumor activity
Cancer therapies
CD44 antigen
Cell cycle
Cell death
Cell Line, Tumor
Cell Survival - drug effects
Cell viability
Chemotherapy
Controlled release
Cytotoxicity
Design optimization
Drug Delivery Systems
Flow cytometry
Humans
hyaluronic acid
Male
Measles virus - drug effects
Membrane potential
nanoparticles
Nanoparticles - chemistry
Oncolysis
Oncolytic Virotherapy - methods
Oncolytic Viruses
PC-3 Cells
Polydispersity
Prostate cancer
Prostate carcinoma
Prostatic Neoplasms - drug therapy
Prostatic Neoplasms - therapy
S phase
Sustained release
Tumor cell lines
Vincristine
Vincristine - administration & dosage
Vincristine - pharmacology
Viruses
Zeta potential
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Summary:Prostate cancer is a prevalent carcinoma among males, and conventional treatment options are often limited. Cytotoxic chemotherapy, despite its drawbacks, remains a mainstay. We propose a targeted co‐delivery approach using nanoscale delivery units for Oncolytic measles virus (OMV) and vincristine (VC) to enhance treatment efficacy. The HA‐coated OMV + VC‐loaded TCs nanoformulation is designed for targeted oncolytic activity in prostate cancer. The CD44 expression analysis in prostate cancer cell lines indicates a significantly high expression in PC3 cells. The optimization of nanoformulations using Design of Expert (DOE) is performed, and the preparation and characterization of HA‐coated OMV + VC‐loaded TCs nanoformulations are detailed showing average particle size 397.2 ± 0.01 nm and polydispersity index 0.122 with zeta potential 19.7 + 0.01 mV. Results demonstrate successful encapsulation efficiency with 2.4 × 106 TCID50/Ml and sustained release of OMV and VC from the nanoformulation for up to 72 h. In vitro, assays reveal potent anticancer activity at 10 ± 0.71% cell viability in PC3 cells compared to 73 ± 0.66% in HPrEC and significant morphological changes at 90 µg/ml in dose and time‐dependent manner. The co‐formulation showed positive cell death 49.5 ± 0.02% at 50 µg PI/ml in PBS and 54.3% cell cycle arrest at the G2/M phase, 8.1% G0/G1 and 5.7% at S phase, with significant mitochondrial membrane potential (MMP) at 50 µg/ml, as assessed by flow cytometry (FACS). The surface‐integrating ligand approach enhances the targeted delivery of the oncolytic virus and chemotherapeutic drug, presenting a potential alternative for prostate cancer treatment and suggested that co‐administering VC and OMV in a nanoformulation could improve therapeutic outcomes while reducing chemotherapeutic drug doses.
ISSN:0146-6615
1096-9071
1096-9071
DOI:10.1002/jmv.29748