Issue 3, 2021

One-step construction of ferritin encapsulation drugs for cancer chemotherapy

Abstract

Conventionally, a disassembly and reassembly method has been used for encapsulation of drug molecules in ferritin protein nano-cages. However, clinical applications of ferritin have been greatly restricted by its limited drug-loading capacity and process complexity. Here, we establish a simple high yield process for preparing high drug-loaded ferritin nanomedicine for industrial production. A complex of ferritin and a target drug was obtained by incubating the mixture at an appropriate pH. An electrostatic charge potential and small ferritin cavity facilitates the passage of drug molecules through the pores, traversing the ferritin shell and enabling deposition of the drug in the ferritin cavity. Compared to the disassembly/reassembly method, the loading capacity of a doxorubicin-loaded ferritin heavy chain (DOX-FTH), constructed by our novel method, was over 3-fold higher, while doxorubicin recovery was 10-fold higher. Results of transmission electron microscopy, size exclusion chromatography, dynamic light scattering, and zeta potential indicate that DOX-FTH exhibits the same physicochemical characteristics of natural apo-ferritin. Moreover, DOX-FTH can be taken up and induce apoptosis of cancer cells overexpressing TfR1. Here, we have demonstrated the successful introduction of more than ten drug molecule types into ferritin nano-cages using a novel method. These results demonstrate that this one-step method is a powerful production process to construct a drug-loading ferritin drug delivery system carrier.

Graphical abstract: One-step construction of ferritin encapsulation drugs for cancer chemotherapy

Supplementary files

Article information

Article type
Paper
Submitted
26 May 2020
Accepted
07 Dec 2020
First published
22 Dec 2020

Nanoscale, 2021,13, 1875-1883

One-step construction of ferritin encapsulation drugs for cancer chemotherapy

I. Inoue, M. Chiba, K. Ito, Y. Okamatsu, Y. Suga, Y. Kitahara, Y. Nakahara, Y. Endo, K. Takahashi, U. Tagami and N. Okamoto, Nanoscale, 2021, 13, 1875 DOI: 10.1039/D0NR04019C

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