Hongwei Sun scite author profile

A unique biomimetic drug-delivery system composed of 4T1-breast-cancer-cell membranes and paclitaxel-loaded polymeric nanoparticles (PPNs) (cell-membrane-coated PPNs), demonstrates superior interactions to its source tumor cells and elongated blood circulation, and displays highly cell-specific targeting of the homotypic primary tumor and metastases, with successful inhibition of the growth and lung metastasis of the breast cancer cells.

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Oligonucleotide Aptamers: New Tools for Targeted Cancer Therapy

Sun

Zhu

et al. 2014

Molecular Therapy - Nucleic Acids

459

319

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Aptamers are a class of small nucleic acid ligands that are composed of RNA or single-stranded DNA oligonucleotides and have high specificity and affinity for their targets. Similar to antibodies, aptamers interact with their targets by recognizing a specific three-dimensional structure and are thus termed “chemical antibodies.” In contrast to protein antibodies, aptamers offer unique chemical and biological characteristics based on their oligonucleotide properties. Hence, they are more suitable for the development of novel clinical applications. Aptamer technology has been widely investigated in various biomedical fields for biomarker discovery, in vitro diagnosis, in vivo imaging, and targeted therapy. This review will discuss the potential applications of aptamer technology as a new tool for targeted cancer therapy with emphasis on the development of aptamers that are able to specifically target cell surface biomarkers. Additionally, we will describe several approaches for the use of aptamers in targeted therapeutics, including aptamer-drug conjugation, aptamer-nanoparticle conjugation, aptamer-mediated targeted gene therapy, aptamer-mediated immunotherapy, and aptamer-mediated biotherapy.

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Crystal structure at 2.6-A resolution of human macrophage migration inhibitory factor.

Sun

Bucala

Lolis

1996

Proc. Natl. Acad. Sci. U.S.A.

307

294

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Macrophage migration inhibitory factor (MIF) was the first cytokine to be described, but for 30 years its role in the immune response remained enigmatic. In recent studies, MIF has been found to be a novel pituitary hormone and the first protein identified to be released from immune cells on glucocorticoid stimulation. Once secreted, MIF counterregulates the immunosuppressive effects of steroids and thus acts as a critical component of the immune system to control both local and systemic immune responses. We report herein the x-ray crystal structure of human MIF to 2.6-A resolution. The protein is a trimer of identical subunits. Each monomer contains two antiparallel a-helices that pack against a four-stranded a-sheet. The monomer has an additional two ,8-strands that interact with the a-sheets of adjacent subunits to form the interface between monomers. The three ,B-sheets are arranged to form a barrel containing a solvent-accessible channel that runs through the center of the protein along a molecular 3-fold axis. Electrostatic potential maps reveal that the channel has a positive potential, suggesting that it binds negatively charged molecules. The elucidated structure for MIF is unique among cytokines or hormonal mediators, and suggests that this counterregulator of glucocorticoid action participates in novel ligand-receptor interactions.

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Hongwei Sun

Cancer‐Cell‐Biomimetic Nanoparticles for Targeted Therapy of Homotypic Tumors

Oligonucleotide Aptamers: New Tools for Targeted Cancer Therapy

Crystal structure at 2.6-A resolution of human macrophage migration inhibitory factor.

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