低氧培养增强了羊膜间充质干细胞的抗菌活性，从而降低了糖尿病小鼠的细菌负荷并促进了伤口愈合。

Hypoxic culture enhances the antimicrobial activity of amnion-derived mesenchymal stem cells, thereby reducing bacterial load and promoting wound healing in diabetic mice.

机构信息

Department of Plastic and Reconstructive Surgery, Faculty of Medicine and Graduate School of Medicine, Hokkaido University, Kita 15, Nishi 7, Kita-ku, Sapporo, Hokkaido, 060-8638, Japan.

Laboratory of Molecular and Cellular Medicine, Faculty of Pharmaceutical Sciences, Hokkaido University, Kita 15, Nishi 7, Kita-ku, Sapporo, Hokkaido, 060-8638, Japan.

出版信息

Biochem Biophys Res Commun. 2024 Dec 20;739:150903. doi: 10.1016/j.bbrc.2024.150903. Epub 2024 Oct 26.

DOI:10.1016/j.bbrc.2024.150903

PMID:39531904

Abstract

BACKGROUND

Conditioned medium from amnion-derived mesenchymal stem cells (AMSCs) enhances wound healing, a process that is further improved under hypoxic culture conditions. Diabetic foot ulcers are difficult to treat and are frequently complicated by a high rate of bacterial infections, mainly Staphylococcus aureus, which can lead to limb amputation and death. Here, we topically applied conditioned medium from AMSCs cultured under hypoxic conditions to S. aureus-infected wounds in diabetic mice to investigate its effect on bacterial counts and wound healing.

METHODS

We prepared conditioned medium by culturing AMSCs under 21 % or 1 % O and investigated its effects on S. aureus. We infected skin wounds of diabetic mice with S. aureus and treated these with hydrogels containing the conditioned medium to examine its effect on bacterial inhibition and wound healing.

RESULTS

Conditioned medium from AMSCs cultured under 1 % O contained higher levels of the antimicrobial peptide LL-37. It significantly inhibited S. aureus growth in vitro, reduced bacterial counts in infected wounds, and facilitated wound closure in diabetic mice.

CONCLUSIONS

Hydrogels containing conditioned medium from hypoxically cultured AMSCs inhibited the growth of S. aureus and promoted wound healing in a mouse model of diabetic wounds.

摘要

背景

羊膜来源间充质干细胞（AMSCs）的条件培养基可促进伤口愈合，在低氧培养条件下，这一过程进一步得到改善。糖尿病足溃疡难以治疗，常伴有高细菌感染率，主要是金黄色葡萄球菌，可导致截肢和死亡。在这里，我们将在低氧条件下培养的 AMSC 条件培养基局部应用于糖尿病小鼠的金黄色葡萄球菌感染伤口，以研究其对细菌计数和伤口愈合的影响。

方法

我们通过在 21%或 1%O 下培养 AMSCs 来制备条件培养基，并研究其对金黄色葡萄球菌的影响。我们用金黄色葡萄球菌感染糖尿病小鼠的皮肤伤口，并使用含有该条件培养基的水凝胶来研究其对细菌抑制和伤口愈合的影响。

结果

在 1%O 下培养的 AMSC 条件培养基中含有更高水平的抗菌肽 LL-37。它可显著抑制金黄色葡萄球菌的体外生长，减少感染伤口中的细菌计数，并促进糖尿病小鼠的伤口闭合。

结论

含有低氧培养 AMSC 条件培养基的水凝胶可抑制金黄色葡萄球菌的生长，并促进糖尿病伤口模型中小鼠的伤口愈合。

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Hypoxic culture enhances the antimicrobial activity of amnion-derived mesenchymal stem cells, thereby reducing bacterial load and promoting wound healing in diabetic mice.低氧培养增强了羊膜间充质干细胞的抗菌活性，从而降低了糖尿病小鼠的细菌负荷并促进了伤口愈合。

Biochem Biophys Res Commun. 2024 Dec 20;739:150903. doi: 10.1016/j.bbrc.2024.150903. Epub 2024 Oct 26.

Topical Application of Conditioned Medium from Hypoxically Cultured Amnion-Derived Mesenchymal Stem Cells Promotes Wound Healing in Diabetic Mice.缺氧培养的羊膜间充质干细胞条件培养液的局部应用促进糖尿病小鼠伤口愈合。

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Tissue nano-transfection of antimicrobial genes drives bacterial biofilm killing in wounds and is potentially mediated by extracellular vesicles.组织纳米转染抗菌基因可促进伤口中细菌生物膜的清除，其可能是通过细胞外囊泡介导的。

J Control Release. 2024 Dec;376:1300-1315. doi: 10.1016/j.jconrel.2024.10.071. Epub 2024 Nov 13.

The mesenchymal stromal cell secretome promotes tissue regeneration and increases macrophage infiltration in acute and methicillin-resistant Staphylococcus aureus-infected skin wounds in vivo.间充质基质细胞分泌组促进组织再生，并增加体内急性和耐甲氧西林金黄色葡萄球菌感染皮肤伤口的巨噬细胞浸润。

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Human adipose-derived mesenchymal stem cell-conditioned medium ameliorates polyneuropathy and foot ulceration in diabetic BKS db/db mice.人脂肪间充质干细胞条件培养基改善糖尿病 BKS db/db 小鼠多发性神经病和足部溃疡。

Stem Cell Res Ther. 2020 May 1;11(1):168. doi: 10.1186/s13287-020-01680-0.

SA/G hydrogel containing hCAP-18/LL-37-engineered WJ-MSCs-derived conditioned medium promoted wound healing in rat model of excision injury.载 SA/G 水凝胶的 hCAP-18/LL-37 工程化 WJ-MSCs 条件培养基促进了切除损伤大鼠模型的伤口愈合。

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低氧培养增强了羊膜间充质干细胞的抗菌活性，从而降低了糖尿病小鼠的细菌负荷并促进了伤口愈合。

Hypoxic culture enhances the antimicrobial activity of amnion-derived mesenchymal stem cells, thereby reducing bacterial load and promoting wound healing in diabetic mice.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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