Author
Listed:
- Le Thi Anh Hong
(Ajou University School of Medicine
Ajou University Graduate School of Medicine)
- Young-Min Kim
(Korea Institute of Science and Technology (KIST))
- Hee Hwan Park
(Ajou University School of Medicine
Ajou University Graduate School of Medicine)
- Dong Hoon Hwang
(Ajou University School of Medicine)
- Yuexian Cui
(Ajou University School of Medicine
Ajou University Graduate School of Medicine)
- Eun Mi Lee
(Ajou University School of Medicine)
- Stephanie Yahn
(University of Miami School of Medicine)
- Jae K. Lee
(University of Miami School of Medicine)
- Soo-Chang Song
(Korea Institute of Science and Technology (KIST)
University of Science and Technology (UST))
- Byung Gon Kim
(Ajou University School of Medicine
Ajou University Graduate School of Medicine
Ajou University School of Medicine)
Abstract
The cystic cavity that develops following injuries to brain or spinal cord is a major obstacle for tissue repair in central nervous system (CNS). Here we report that injection of imidazole-poly(organophosphazenes) (I-5), a hydrogel with thermosensitive sol–gel transition behavior, almost completely eliminates cystic cavities in a clinically relevant rat spinal cord injury model. Cystic cavities are bridged by fibronectin-rich extracellular matrix. The fibrotic extracellular matrix remodeling is mediated by matrix metalloproteinase-9 expressed in macrophages within the fibrotic extracellular matrix. A poly(organophosphazenes) hydrogel lacking the imidazole moiety, which physically interacts with macrophages via histamine receptors, exhibits substantially diminished bridging effects. I-5 injection improves coordinated locomotion, and this functional recovery is accompanied by preservation of myelinated white matter and motor neurons and an increase in axonal reinnervation of the lumbar motor neurons. Our study demonstrates that dynamic interactions between inflammatory cells and injectable biomaterials can induce beneficial extracellular matrix remodeling to stimulate tissue repair following CNS injuries.
Suggested Citation
Le Thi Anh Hong & Young-Min Kim & Hee Hwan Park & Dong Hoon Hwang & Yuexian Cui & Eun Mi Lee & Stephanie Yahn & Jae K. Lee & Soo-Chang Song & Byung Gon Kim, 2017.
"An injectable hydrogel enhances tissue repair after spinal cord injury by promoting extracellular matrix remodeling,"
Nature Communications, Nature, vol. 8(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00583-8
DOI: 10.1038/s41467-017-00583-8
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