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Cited 37 time in webofscience Cited 23 time in scopus
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N-Acetylated Proline-Glycine-Proline Accelerates Cutaneous Wound Healing and Neovascularization by Human Endothelial Progenitor Cells

Authors
Kwon, Yang WooHeo, Soon ChulLee, Tae WookPark, Gyu TaeYoon, Jung WonJang, Il HoKim, Seung-ChulKo, Hyun-ChangRyu, YoungjaeKang, HyeonaHa, Chang ManLee, Sang ChulKim, Jae Ho
Issue Date
Feb-2017
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.7, pp.1 - 13
Journal Title
SCIENTIFIC REPORTS
Volume
7
Start Page
1
End Page
13
URI
http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/836
DOI
10.1038/srep43057
ISSN
2045-2322
Abstract
Human endothelial progenitor cells (hEPCs) are promising therapeutic resources for wound repair through stimulating neovascularization. However, the hEPCs-based cell therapy has been hampered by poor engraftment of transplanted cells. In this study, we explored the effects of N-acetylated Proline-Glycine- Proline (Ac-PGP), a degradation product of collagen, on hEPC-mediated cutaneous wound healing and neovascularization. Treatment of hEPCs with Ac-PGP increased migration, proliferation, and tube-forming activity of hEPCs in vitro. Knockdown of CXCR2 expression in hEPCs abrogated the stimulatory effects of Ac-PGP on migration and tube formation. In a cutaneous wound healing model of rats and mice, topical application of Ac-PGP accelerated cutaneous wound healing with promotion of neovascularization. The positive effects of Ac-PGP on wound healing and neovascularization were blocked in CXCR2 knockout mice. In nude mice, the individual application of Ac-PGP treatment or hEPC injection accelerated wound healing by increasing neovascularization. Moreover, the combination of Ac-PGP treatment and hEPC injection further stimulated wound healing and neovascularization. Topical administration of Ac-PGP onto wound bed stimulated migration and engraftment of transplanted hEPCs into cutaneous dermal wounds. Therefore, these results suggest novel applications of Ac-PGP in promoting wound healing and augmenting the therapeutic efficacy of hEPCs.
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