比较人尿液来源干细胞与同个体来源骨髓间充质干细胞的软骨生成相关生物学行为。

Comparison of chondrogenesis-related biological behaviors between human urine-derived stem cells and human bone marrow mesenchymal stem cells from the same individual.

机构信息

Department of Orthopedics, West China Hospital, Sichuan University, Chengdu, Sichuan, 610041, People's Republic of China.

Department of Orthopedics, NO. 1 People's Hospital of Chengdu, Chengdu, Sichuan, 610016, People's Republic of China.

出版信息

Stem Cell Res Ther. 2021 Jun 28;12(1):366. doi: 10.1186/s13287-021-02370-1.

DOI:10.1186/s13287-021-02370-1

PMID:34183056

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8240221/

Abstract

BACKGROUND

Stem cells are the main choice for seed cells in tissue engineering, but using most traditional stem cells requires invasive and complicated procedures. Human urine-derived stem cells (hUSCs) are an alternative stem cell source with the advantages of being isolated noninvasively and repetitively from the same individual. The aim of this study was to compare chondrogenesis-related biological behaviors between hUSCs and human bone marrow mesenchymal stem cells (hBMSCs) from the same individual.

METHODS

hUSCs and hBMSCs were isolated from six patients who underwent iliac bone grafting. Cell morphology, proliferation, colony-forming, migration, and multidifferentiation analyses were performed in vitro. Then, acellular cartilage extracellular matrix (ACM) scaffolds were fabricated for in vivo implantation. The comparisons of cell viability, morphology, proliferation, and chondrogenesis between hUSCs and hBMSCs cultured on scaffolds were performed before implantation. The scaffolds loaded with hUSCs or hBMSCs were implanted into a rabbit knee model to repair cartilage defects. Magnetic resonance imaging (MRI) and micro-computed tomography (μCT) Analyses, inflammation and toxicity assays, gross observation, and histological evaluation were performed to evaluate the cartilage repair effects.

RESULTS

In in vitro experiments, hUSCs had better capacity for proliferation, colony-forming, and migration compared to hBMSCs in the same passage, while hBMSCs had greater osteogenic, adipogenic, and chondrogenic abilities compared to hUSCs in the same passage. Both hUSCs and hBMSCs at passage 3 had the strongest potential for proliferation, colony-forming, and multilineage differentiation compared to cells in other passages. The ACM scaffolds loaded with hUSCs or hBMSCs both significantly promoted the repair of cartilage defects in the rabbit knee model at 12 weeks' postimplantation, and the new tissue was mainly hyaline cartilage. However, there was no significant difference in cartilage repair effects between hUSCs and hBMSCs.

CONCLUSIONS

In in vitro experiments, hUSCs presented better capacity for proliferation, while hBMSCs had greater chondrogenic ability. However, hUSCs and hBMSCs had similar cartilage repair effects in vivo. Results indicated that hUSCs can be a stem cell alternative for cartilage regeneration and provide a powerful platform for cartilage tissue engineering and clinical transformation.

摘要

背景

干细胞是组织工程中种子细胞的主要选择，但使用大多数传统干细胞需要侵入性和复杂的程序。人尿源性干细胞（hUSCs）是一种替代干细胞来源，具有从同一个体中无创和重复分离的优势。本研究的目的是比较来源于同一供体的 hUSCs 和人骨髓间充质干细胞（hBMSCs）的软骨形成相关生物学行为。

方法

从 6 例行髂骨移植术的患者中分离 hUSCs 和 hBMSCs。在体外进行细胞形态、增殖、集落形成、迁移和多向分化分析。然后，制备无细胞软骨细胞外基质（ACM）支架进行体内植入。在植入前，比较 hUSCs 和 hBMSCs 在支架上培养的细胞活力、形态、增殖和软骨形成情况。将负载 hUSCs 或 hBMSCs 的支架植入兔膝关节模型以修复软骨缺损。进行磁共振成像（MRI）和微计算机断层扫描（μCT）分析、炎症和毒性测定、大体观察和组织学评估，以评估软骨修复效果。

结果

在体外实验中，与同一传代的 hBMSCs 相比，hUSCs 的增殖、集落形成和迁移能力更强，而与同一传代的 hUSCs 相比，hBMSCs 的成骨、成脂和成软骨能力更强。与其他传代细胞相比，第 3 代的 hUSCs 和 hBMSCs 增殖、集落形成和多谱系分化的潜力最强。负载 hUSCs 或 hBMSCs 的 ACM 支架均能显著促进兔膝关节模型中软骨缺损的修复，在植入后 12 周，新组织主要为透明软骨。然而，hUSCs 和 hBMSCs 在软骨修复效果方面无显著差异。

结论

在体外实验中，hUSCs 表现出更强的增殖能力，而 hBMSCs 具有更强的成软骨能力。然而，hUSCs 和 hBMSCs 在体内具有相似的软骨修复效果。结果表明，hUSCs 可为软骨再生提供一种替代干细胞，并为软骨组织工程和临床转化提供有力平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ff1/8240221/17d8f372052b/13287_2021_2370_Fig1_HTML.jpg

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比较人尿液来源干细胞与同个体来源骨髓间充质干细胞的软骨生成相关生物学行为。

Comparison of chondrogenesis-related biological behaviors between human urine-derived stem cells and human bone marrow mesenchymal stem cells from the same individual.

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出版信息

BACKGROUND

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