Macrophage-Targeting DNA Nanomaterials: A Future Direction of Biological Therapy

Abstract

DNA can be used for precise construction of complex and flexible micro-nanostructures, including DNA origami, frame nucleic acids, and DNA hydrogels. DNA nanomaterials have good biocompatibility and can enter macrophages via scavenger receptor-mediated endocytosis. DNA nanomaterials can be uniquely and flexibly designed to ensure efficient uptake by macrophages, which represents a novel strategy to regulate macrophage function. With the development of nanotechnology, major advances have been made in the design and manufacturing of DNA nanomaterials for clinical therapy. In diseases accompanied by macrophage disturbances including tumor, infectious diseases, arthritis, fibrosis, acute lung injury, and atherosclerosis, DNA nanomaterials received considerable attention as potential treatments. However, we lack sufficient information to guarantee precise targeting of macrophages by DNA nanomaterials, which precludes their therapeutic applications. In this review, we summarize recent studies of macrophage-targeting DNA nanomaterials and discuss the limitations and challenges of this approach with regard to its potential use as a biological therapy.

Keywords:

• macrophages
• DNA nanomaterials
• therapy
• macrophage-related diseases

Acknowledgments

The authors acknowledge Editage for English language editing.

Disclosure

The authors declare no conflicts of interest in this work.

Additional information

Funding

This research was supported by the National Natural Science Foundation of China (NO.81570657, No. 81974102).