PEGylated Zein Micelles for Prostate Cancer Therapy: Influence of PEG Chain Length and Transferrin Targeting on Docetaxel Delivery
Khadeejah Maeyouf, Jitkasem Meewan, Hawraa Ali-Jerman, Musa Albatsh, Sukrut Somani, Partha Laskar, Margaret Mullin, Craig Irving, Graeme MacKenzie, Christine Dufès

TL;DR
Researchers developed a new way to deliver docetaxel, a prostate cancer drug, using micelles made from zein and PEG, finding that shorter PEG chains with transferrin targeting improve drug delivery.
Contribution
The study introduces transferrin-functionalized PEGylated zein micelles for docetaxel delivery, highlighting the impact of PEG chain length on drug targeting and efficacy.
Findings
PEG5K micelles achieved higher transferrin conjugation and drug loading compared to PEG10K micelles.
Transferrin-targeted PEG5K micelles showed enhanced uptake in DU145 and LNCaP cells but lower internalization in PC-3-Luc cells.
Transferrin-targeted PEG5K micelles demonstrated greater anti-proliferative efficacy than non-targeted counterparts in vitro.
Abstract
Background/Objectives: Docetaxel is a widely used chemotherapeutic agent for several malignancies and is an established treatment for castration-resistant prostate cancer. However, its poor aqueous solubility, systemic toxicity, and the emergence of drug resistance limit its clinical benefit. Zein, a prolamin, forms micelles that enhance the solubility and delivery of hydrophobic drugs. As PEG length and ligand presentation govern micelle behavior, we investigated transferrin-functionalized PEGylated zein micelles as docetaxel nanocarriers and examined how PEG chain length (5 K vs. 10 K) and transferrin-mediated targeting affect delivery to prostate cancer cells. Methods: Docetaxel-loaded zein micelles bearing 5 K or 10 K PEG chains were prepared and conjugated to transferrin. Formulations were characterized for size, charge, morphology, critical micelle concentration, colloidal…
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Taxonomy
TopicsNanoparticle-Based Drug Delivery · RNA Interference and Gene Delivery · Prostate Cancer Treatment and Research
