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载有 P 物质的静电纺丝小肠黏膜下层/聚(ε-己内酯)-ran-聚(L-丙交酯)片通过募集 MSC 促进伤口愈合。

Substance P-loaded electrospun small intestinal submucosa/poly(ε-caprolactone)-ran-poly(l-lactide) sheet to facilitate wound healing through MSC recruitment.

机构信息

Department of Molecular Science and Technology, Ajou University, Suwon 16499, Korea.

出版信息

J Mater Chem B. 2019 Dec 21;7(47):7599-7611. doi: 10.1039/c9tb01532a. Epub 2019 Nov 19.

DOI:10.1039/c9tb01532a
PMID:31740904
Abstract

In this work, we prepared an electrospun small intestinal submucosa/poly(ε-caprolactone)-ran-poly(l-lactide) (SIS/PCLA) sheet onto which substance P (SP) was loaded, and this was employed as a cell-free scaffold for wound healing through the mobilization of human mesenchymal stem cells (hMSCs). SP release from the SP-loaded scaffold was 42% at 12 h and 51% at 24 h due to an initial burst of SP, but after 1 day, it exhibited a linear release profile and was released at a sustained rate for 21 days. The SP-loaded SIS/PCLA sheet exhibited higher in vitro and in vivo hMSC migration than did the PCLA and SIS/PCLA sheets. Large hMSCs injected into the tail vein of mice models migrated towards the wound to a greater extent in the presence of the SP-loaded SIS/PCLA sheet than with the PCLA and SIS/PCLA sheets, as confirmed by the CD44 and CD29 markers of recruited hMSCs. In animal wound models, significantly higher wound contraction (∼97%) in the group treated with the SP-loaded SIS/PCLA sheet was observed compared with the PCLA (∼74%) and SIS/PCLA (∼84%) groups at 3 weeks. In addition, SP-loaded SIS/PCLA-treated animals showed significant epidermal regeneration and collagen density (56%) in the mature granulation tissue at 3 weeks compared to the PCLA and SIS/PCLA groups. The wound area after SP-loaded SIS/PCLA sheet treatment also showed high blood vessel formation at the early stage, resulting in enhanced wound healing. Furthermore, the SP-loaded SIS/PCLA group exhibited a lower macrophage count (2.9%) than did the PCLA (7.7%) and SIS/PCLA (3.4%) groups. It was thus confirmed that the use of SP-loaded SIS/PCLA sheet as a cell-free scaffold could effectively enhance wound healing through MSC recruitment.

摘要

在这项工作中,我们制备了负载 P 物质(SP)的电纺小肠黏膜下层/聚(ε-己内酯)-ran-聚(L-乳酸)(SIS/PCLA)片,并将其用作无细胞支架,通过动员人骨髓间充质干细胞(hMSCs)促进伤口愈合。由于 SP 的初始突释,负载 SP 的支架在 12 小时时释放 42%,在 24 小时时释放 51%,但在 1 天后,其呈现出线性释放曲线,并以持续的速率释放 21 天。负载 SP 的 SIS/PCLA 片在体外和体内均表现出比 PCLA 和 SIS/PCLA 片更高的 hMSC 迁移率。在 SP 负载的 SIS/PCLA 片存在的情况下,注射到小鼠模型尾静脉中的大 hMSC 向伤口的迁移程度比 PCLA 和 SIS/PCLA 片更大,这一点得到了招募的 hMSC 的 CD44 和 CD29 标志物的证实。在动物伤口模型中,与 PCLA(约 74%)和 SIS/PCLA(约 84%)组相比,用负载 SP 的 SIS/PCLA 片治疗的组在 3 周时观察到显著更高的伤口收缩(约 97%)。此外,与 PCLA 和 SIS/PCLA 组相比,负载 SP 的 SIS/PCLA 治疗的动物在 3 周时在成熟肉芽组织中显示出显著的表皮再生和胶原密度(56%)。与 PCLA 和 SIS/PCLA 组相比,用负载 SP 的 SIS/PCLA 片处理后的伤口面积在早期也显示出较高的血管形成,从而增强了伤口愈合。此外,负载 SP 的 SIS/PCLA 组的巨噬细胞计数(2.9%)低于 PCLA 组(7.7%)和 SIS/PCLA 组(3.4%)。因此,证实了使用负载 SP 的 SIS/PCLA 片作为无细胞支架可通过募集 MSC 有效增强伤口愈合。

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