Design of Folate-Containing Liposomal Nucleic Acid Delivery Systems for Antitumor Therapy

Biological Evaluation of Molecular Spherical Nucleic Acids: Targeting Tumors via a Hybridization-Based Folate Decoration

Folate receptors (FRs), membrane-bound proteins that bind specifically to folate with high affinity, are overexpressed by various cancer types and are therefore used as targets for delivery of therapeutic agents. Molecular spherical nucleic acids (MSNAs) are dendritic formulations of oligonucleotides (ONs) that may have advantages over linear parent ONs with respect to delivery properties. Here, we assembled folate-decorated MSNAs, site-specifically radiolabeled them, and then biologically evaluated their effects in mice bearing HCC1954 breast cancer xenograft tumors. The biodistribution of intravenously administered 18F-radiolabeled MSNAs was monitored using positron emission tomography/computed tomography imaging. The results revealed higher accumulation of folate-decorated MSNAs in FR-expressing organs such as the liver, kidney, and spleen, as well as a higher tumor-to-muscle ratio than that observed for MSNAs without the folate decoration. However, the observed increase was statistically significant only for MSNA structures with a PO backbone. The observed selective uptake of folate-decorated MSNAs highlights their potential as targeted delivery vehicles for therapeutic and diagnostic agents in FR-overexpressing cancers.

Advances on Delivery System of Active Ingredients of Dried Toad Skin and Toad Venom

Dried toad skin (TS) and toad venom (TV) are the dried skin of the Bufo bufo gargarizans Cantor and the Bufo melanostictus Schneider, which remove the internal organs and the white secretions of the skin and retroauricular glands. Since 2005, cinobufacini preparations have been approved by the State Food and Drug Administration for use as adjuvant therapies in the treatment of various advanced cancers. Meanwhile, bufalenolides has been identified as the main component of TS/TV, exhibiting antitumor activity, inducing apoptosis of cancer cells and inhibiting cancer cell proliferation or metastasis through a variety of signaling pathways. However, clinical agents frequently face limitations such as inherent toxicity at high concentrations and insufficient tumor targeting. Additionally, the development and utilization of these active ingredients are hindered by poor water solubility, low bioavailability, and rapid clearance from the bloodstream. To address these challenges, the design of a targeted drug delivery system (TDDS) aims to enhance drug bioavailability, improve targeting within the body, increase drug efficacy, and reduce adverse reactions. This article reviews the TDDS for TS/TV, and their active components, including passive, active, and stimuli-responsive TDDS, to provide a reference for advancing their clinical development and use.

Editorial for Special Issue: "Liposomal and Lipid-Based Drug Delivery Systems and Vaccines"

Liposomes and lipid-based supramolecular systems have been used in clinical practice for more than 30 years as drug carriers and vaccines for the treatment of oncological diseases and infections [...].