Hyaluronic Acid-Based Activatable Nanomaterials for Stimuli-Responsive Imaging and Therapeutics: Beyond CD44-Mediated Drug Delivery

Authors
Choi, Ki YoungHan, Hwa SeungLee, Eun SookShin, Jung MinAlmquist, Benjamin D.Lee, Doo SungPark, Jae Hyung
Issue Date
2019-08
Publisher
WILEY-V C H VERLAG GMBH
Citation
ADVANCED MATERIALS, v.31, no.34
Abstract
There is a rapidly increasing interest in developing stimuli-responsive nanomaterials for treating a variety of diseases. By enabling the activation of function locally at the sites of interest, it is possible to increase therapeutic efficacy significantly while simultaneously reducing adverse side effects. While there are many sophisticated nanomaterials available, they are often highly complex and not easily transferrable to industrial scales and clinical settings. However, nanomaterials based on hyaluronic acid offer a compelling strategy for reducing their complexity while retaining several desirable benefits such as active targeting and stimuli-responsive degradation. Herein, the basic properties of hyaluronic acid, its binding partners, and natural routes for degradation by hyaluronidases-hyaluronic-acid-degrading enzymes-and oxidative stresses are discussed. Recent advances in designing hyaluronic acid-based, actively targeted, hyaluronidase- or reactive-oxygen-species-responsive nanomaterials for both diagnostic imaging and therapeutic delivery, which go beyond merely the classical targeting of CD44, are summarized.
Keywords
REACTIVE OXYGEN; COPOLYMER MICELLES; BLADDER-CANCER; MACROMOLECULAR THERAPEUTICS; RHEUMATOID-ARTHRITIS; POLYMERIC MICELLES; THERANOSTIC AGENT; BINDING-PROTEINS; SYNOVIAL-FLUID; SIRNA DELIVERY; REACTIVE OXYGEN; COPOLYMER MICELLES; BLADDER-CANCER; MACROMOLECULAR THERAPEUTICS; RHEUMATOID-ARTHRITIS; POLYMERIC MICELLES; THERANOSTIC AGENT; BINDING-PROTEINS; SYNOVIAL-FLUID; SIRNA DELIVERY; hyaluronic acid; hyaluronidase; oxidative stress; reactive oxygen species; stimuli-responsive nanomaterials
ISSN
0935-9648
URI
https://pubs.kist.re.kr/handle/201004/119721
DOI
10.1002/adma.201803549
Appears in Collections:
KIST Article > 2019
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