Dual-targeted and controlled release delivery of doxorubicin to breast adenocarcinoma: In vitro and in vivo studies

Abstract

Doxorubicin (DOX) is a chemotherapeutic drug that belongs to the anthracyclines family. Cardiotoxicity is one of the main limiting factor of prescribing DOX. To reduce its side effects and enhance the drug delivery to the targeted tissues, we aimed to establish a new targeted and controlled release drug delivery system for treatment of breast cancer. In this article, we tried to synthesize a new nanoplatform consisted of DOX conjugate with hydrazide and disulfide bonds to the hyaluronic acid (HA). Firstly, 4,4′-Dithiodibutyric acid (DTBH) was conjugated with HA. Then, 3-aminophenyl boronic acid monohydrate (APBA) was conjugated with DTBH-HA. Subsequently, DOX was added to DTBH-HA-APBA. HA is a natural polymer with the ability to target CD44, a cell surface adhesion receptor, which are highly overexpressed on the surface of variety of cancer cells. Other targeting agent, APBA can target sialic acid on the cancer cells surface and improve the tumor uptake. Formation of The DTBH-HA-APBA conjugate was confirmed by proton nuclear magnetic resonance (1H NMR) spectroscopy. Scanning emission electron microscopy (SEM) images of the DOX-DTBH-HA-APBA displayed a spherical shape with an average diameter of about 70 nm. In vitro drug release study showed considerably different release pattern of DOX from the formulation at acidic pH (5.4) which was higher than normal pH (7.4). Cellular uptake and cellular cytotoxicity analysis were examined in human breast adenocarcinoma cell line (MCF-7) and mouse breast cancer cells (4T1) as positive cell lines and Chinese Hamster Ovary cells (CHO) as negative cell line. Results confirmed that there is a remarkable difference between dual-targeted (DOX-DTBH-HA-APBA) and single targeted (DOX-DTBH-HA) formulations in both positive cell lines regarding internalization and cytotoxicity. In vivo studies indicated that dual-targeted formulation has the best efficacy with minimum side effects in mouse model. Fluorescence imaging of organs revealed that DOX-DTBH-HA-APBA showed greater DOX accumulation compared with DOX-DTBH-HA and free DOX in tumor site. Also, pathological evaluation indicated that there is no observable cardiotoxicity with final formulation.