持续 PGE 释放基质可改善后肢缺血模型中的血管新生和骨骼肌再生。

The sustained PGE release matrix improves neovascularization and skeletal muscle regeneration in a hindlimb ischemia model.

机构信息

Nankai University School of Medicine, Tianjin, China.

The Key Laboratory of Bioactive Materials, Ministry of Education, The College of Life Sciences, Nankai University, Tianjin, China.

出版信息

J Nanobiotechnology. 2022 Feb 24;20(1):95. doi: 10.1186/s12951-022-01301-3.

DOI:10.1186/s12951-022-01301-3

PMID:35209908

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8867652/

Abstract

BACKGROUND

The promising therapeutic strategy for the treatment of peripheral artery disease (PAD) is to restore blood supply and promote regeneration of skeletal muscle regeneration. Increasing evidence revealed that prostaglandin E (PGE), a lipid signaling molecule, has significant therapeutic potential for tissue repair and regeneration. Though PGE has been well reported in tissue regeneration, the application of PGE is hampered by its short half-life in vivo and the lack of a viable system for sustained release of PGE.

RESULTS

In this study, we designed and synthesized a new PGE release matrix by chemically bonding PGE to collagen. Our results revealed that the PGE matrix effectively extends the half-life of PGE in vitro and in vivo. Moreover, the PGE matrix markedly improved neovascularization by increasing angiogenesis, as confirmed by bioluminescence imaging (BLI). Furthermore, the PGE matrix exhibits superior therapeutic efficacy in the hindlimb ischemia model through the activation of MyoD1-mediated muscle stem cells, which is consistent with accelerated structural recovery of skeletal muscle, as evidenced by histological analysis.

CONCLUSIONS

Our findings highlight the chemical bonding strategy of chemical bonding PGE to collagen for sustained release and may facilitate the development of PGE-based therapies to significantly improve tissue regeneration.

摘要

背景

治疗外周动脉疾病（PAD）的有前途的治疗策略是恢复血液供应和促进骨骼肌再生。越来越多的证据表明，前列腺素 E（PGE）作为一种脂质信号分子，在组织修复和再生方面具有显著的治疗潜力。尽管 PGE 在组织再生中已有很好的报道，但由于其体内半衰期短以及缺乏可行的 PGE 持续释放系统，PGE 的应用受到了阻碍。

结果

在本研究中，我们通过将 PGE 化学结合到胶原蛋白上来设计和合成了一种新的 PGE 释放基质。我们的结果表明，PGE 基质可有效延长 PGE 在体外和体内的半衰期。此外，PGE 基质通过增加血管生成，如生物发光成像（BLI）所证实的，显著改善了新生血管形成。此外，PGE 基质通过激活 MyoD1 介导的肌肉干细胞，在下肢缺血模型中表现出优异的治疗效果，这与骨骼肌结构恢复加速一致，组织学分析证实了这一点。

结论

我们的研究结果强调了将 PGE 化学结合到胶原蛋白上以实现持续释放的化学结合策略，这可能有助于开发基于 PGE 的治疗方法，从而显著改善组织再生。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5fa/8867652/5df461a982d1/12951_2022_1301_Fig1_HTML.jpg

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持续 PGE 释放基质可改善后肢缺血模型中的血管新生和骨骼肌再生。

The sustained PGE release matrix improves neovascularization and skeletal muscle regeneration in a hindlimb ischemia model.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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