Adipose‐derived stem cells enriched with therapeutic mRNA TGF‐β3 and IL‐10 synergistically promote scar‐less wound healing in preclinical models

Wang, Wei; Chen, Liang; Zhang, Yuxin; Wang, Heng; Dong, Dong; Zhu, Jingjing; Fu, Wei; Liu, Tianyi

doi:10.1002/btm2.10620

Bioengineering & Transla Med

2023

DOI: 10.1002/btm2.10620

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Adipose‐derived stem cells enriched with therapeutic mRNA TGF‐β3 and IL‐10 synergistically promote scar‐less wound healing in preclinical models

Wei Wang,

Liang Chen,

Yuxin Zhang

et al.

Abstract: Skin wound healing often leads to scar formation, presenting physical and psychological challenges for patients. Advancements in messenger RNA (mRNA) modifications offer a potential solution for pulsatile cytokine delivery to create a favorable wound‐healing microenvironment, thereby preventing cutaneous fibrosis. This study aimed to investigate the effectiveness of human adipose‐derived stem cells (hADSCs) enriched with N1‐methylpseudouridine (m1ψ) modified transforming growth factor‐β3 (TGF‐β3) and interleuk… Show more

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Cited by 6 publications

References 73 publications

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Human adipose‐derived multipotent stromal cells enriched with IL‐10 modRNA improve diabetic wound healing: Trigger the macrophage phenotype shift

Zhang,

Wang,

Chen

et al. 2024

Bioengineering & Transla Med

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Diabetic wounds present a significant challenge in regenerative medicine due to impaired healing, characterized by prolonged inflammation and deficient tissue repair, primarily caused by a skewed pro‐inflammatory macrophage phenotype. This study investigates the therapeutic potential of interleukin‐10 (IL‐10) chemically modified mRNA (modRNA)‐enriched human adipose‐derived multipotent stromal cells (hADSCs) in a well‐established murine model of diabetic wounds. The modRNAs used in this study were chemically modified using N1‐methylpseudouridine‐5′‐triphosphate (m1Ψ) by substituting uridine‐5‐triphosphate. In vitro experiments demonstrated that IL‐10 modRNA‐transfected hADSCs effectively modulated macrophage polarization towards an anti‐inflammatory phenotype. In vivo experiments with a well‐established murine model demonstrated that transplantation of hADSCsmodIL‐10 on postoperative day 5 (POD5) significantly improved wound healing outcomes, including accelerated wound closure, enhanced re‐epithelialization, promoted M2 polarization, improved collagen deposition, and increased neovascularization. This study concludes that IL‐10 modRNA‐enriched hADSCs offer a promising therapeutic approach for diabetic wound healing, with the timing of IL‐10 administration playing a crucial role in its effectiveness. These cells modulate macrophage polarization and promote tissue repair, demonstrating their potential for improving the management of diabetic wounds.

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Human adipose‐derived multipotent stromal cells enriched with IL‐10 modRNA improve diabetic wound healing: Trigger the macrophage phenotype shift

Zhang,

Wang,

Chen

et al. 2024

Bioengineering & Transla Med

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show abstract

Enrichment of Fat Graft with Association of ASC and Nanofat in an Animal Model

Camargo,

Barbosa,

Chammas

et al. 2024

Aesth Plast Surg

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Emerging biomedical technologies for scarless wound healing

Cao,

Wu,

Zhang

et al. 2024

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Adipose‐derived stem cells enriched with therapeutic mRNA TGF‐β3 and IL‐10 synergistically promote scar‐less wound healing in preclinical models

Cited by 6 publications

References 73 publications

Human adipose‐derived multipotent stromal cells enriched with IL‐10 modRNA improve diabetic wound healing: Trigger the macrophage phenotype shift

Human adipose‐derived multipotent stromal cells enriched with IL‐10 modRNA improve diabetic wound healing: Trigger the macrophage phenotype shift

Enrichment of Fat Graft with Association of ASC and Nanofat in an Animal Model

Emerging biomedical technologies for scarless wound healing

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