Department of Molecular Science and Technology, Ajou University, Suwon 16499, Republic of Korea.
Department of Biomedical Sciences, College of Medicine, Korea University, Seoul 02841, Republic of Korea.
J Control Release. 2023 Dec;364:420-434. doi: 10.1016/j.jconrel.2023.10.047. Epub 2023 Nov 7.
Endogenous stem cell-based in-situ tissue regeneration has recently gained considerable attention. In this study, we investigated the potential of a chemokine, SDF-1-mimic peptide (SMP), to promote endogenous stem cell-based in-situ wound healing. Our approach involved the development of a click crosslinked hyaluronic acid scaffold loaded with SMP (Cx-HA + SMP) to release SMP in a wound site. The Cx-HA scaffold maintained its structural integrity throughout the wound healing process and also captured endogenous stem cells. Gradual SMP release from the Cx-HA + SMP scaffold established a concentration gradient at the wound site. In animal wound experiments, Cx-HA + SMP exhibited faster wound contraction compared to Cx-HA + SDF-1. Additionally, Cx-HA + SMP resulted in approximately 1.2-1.6 times higher collagen formation compared to Cx-HA + SDF-1. SMP released from the Cx-HA + SMP scaffold promoted endogenous stem cell migration to the wound site 1.5 times more effectively than Cx-HA + SDF-1. Moreover, compared to Cx-HA + SDF-1, Cx-HA + SMP exhibited higher expression of CXCR4 and CD31, as well as the positive markers CD29 and CD44 for endogenous stem cells. The endogenous stem cells that migrated through Cx-HA + SMP regenerated into wound skin with minimal scar granule formation, similar to the normal tissue. In conclusion, SMP peptide offers greater convenience, while efficiently attracting migrating endogenous stem cells compared to the SDF protein. Our findings suggest that Cx-HA + SMP scaffolds hold promise as a strategy to enhance endogenous stem cell-based in-situ wound healing.
内源性干细胞原位组织再生最近受到了广泛关注。在这项研究中,我们研究了趋化因子 SDF-1 模拟肽(SMP)促进内源性干细胞原位伤口愈合的潜力。我们的方法涉及开发一种载有 SMP 的点击交联透明质酸支架(Cx-HA+SMP),以在伤口部位释放 SMP。Cx-HA 支架在整个伤口愈合过程中保持其结构完整性,并且还捕获内源性干细胞。Cx-HA+SMP 支架中 SMP 的逐渐释放在伤口部位建立了浓度梯度。在动物伤口实验中,Cx-HA+SMP 与 Cx-HA+SDF-1 相比表现出更快的伤口收缩。此外,与 Cx-HA+SDF-1 相比,Cx-HA+SMP 导致胶原形成增加约 1.2-1.6 倍。Cx-HA+SMP 支架释放的 SMP 比 Cx-HA+SDF-1 更有效地促进内源性干细胞迁移到伤口部位,效率提高了 1.5 倍。此外,与 Cx-HA+SDF-1 相比,Cx-HA+SMP 表现出更高的 CXCR4 和 CD31 表达,以及内源性干细胞的阳性标记物 CD29 和 CD44。通过 Cx-HA+SMP 迁移的内源性干细胞再生为伤口皮肤,几乎没有形成疤痕颗粒,类似于正常组织。总之,与 SDF 蛋白相比,SMP 肽提供了更大的便利性,同时有效地吸引了迁移的内源性干细胞。我们的研究结果表明,Cx-HA+SMP 支架作为增强内源性干细胞原位伤口愈合的策略具有潜力。
