Synergistic effect of ex-vivo quality and quantity cultured mononuclear cells and mesenchymal stem cell therapy in ischemic hind limb model mice

IF 3.4 3区 环境科学与生态学 Q3 CELL & TISSUE ENGINEERING Regenerative Therapy Pub Date : 2024-06-01 DOI:10.1016/j.reth.2024.08.013
Taro Fukuta , Satomi Furukawa , Rie Hirano , Hiroshi Mizuno , Rica Tanaka
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Abstract

Introduction

Chronic limb-threatening ischemia (CLTI) is a condition characterized by peripheral arterial disease and tissue damage caused by reduced blood flow. New therapies using various cell types, such as mesenchymal stem cells (MSCs) and mononuclear cells (MNCs), have been developed for the patients unresponsive to conventional therapies. MSCs are promising because of their ability to secrete growth factors essential for vascularization, whereas MNCs contain endothelial progenitor cells that are important for blood vessel formation. However, conventional methods for isolating these cells have limitations, especially in patients with diabetes with dysfunctional cells. To overcome this problem, a culture method called quality and quantity cultured peripheral blood MNCs (MNC-QQ) was developed to efficiently produce high-quality cells from small amounts of peripheral blood. Combining MSCs with MNC-QQs has been hypothesized to enhance therapeutic outcomes. This study aimed to examine the angiogenic efficacy of MSCs with MNC-QQs in models with severe lower limb ischemia.

Methods

MNC-QQ was manufactured from the peripheral blood of healthy volunteers, while human bone marrow derived MSCs were purchased. To verify the effects of the MSC and MNC-QQs combination in angiogenesis, we conducted the HUVEC tube formation assay. For in vivo experiments, we created an ischemic limb model using BALB/c nude mice. Saline, MSCs alone, and a combination of MSCs and MNC-QQs were administered intramuscularly into the ischemic limbs. Blood flow was measured over time using laser doppler, and the ischemic limbs were harvested 21 days later for HE staining and immunostaining for histological assessment.

Results

In-vitro studies demonstrated increased angiogenesis when MSCs were combined with MNC-QQs compared with MSCs alone. In vivo experiments using a mouse model of severe lower limb ischemia showed that combination therapy significantly improved blood flow recovery and limb salvage compared with MSCs alone or saline treatment. Histological analysis revealed enhanced vessel density, arteriogenesis, muscle regeneration, and reduced fibrosis in the MSC + MNC-QQ group compared with those in the saline group. Although the specific interactions between MSCs and MNC-QQs have not been fully elucidated, combined therapy leverages the benefits of both cell types, resulting in improved outcomes for vascular regeneration.

Conclusions

This study highlights the potential of the simultaneous transplantation of MSCs and MNC-QQs as a promising therapeutic approach for CLTI, offering sustained long-term benefits for patients.

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在缺血后肢模型小鼠体内进行体外质和量培养的单核细胞与间充质干细胞疗法的协同作用
导言:慢性肢体缺血(CLTI)是一种以外周动脉疾病和血流减少导致的组织损伤为特征的疾病。目前已开发出使用间充质干细胞(MSCs)和单核细胞(MNCs)等各种细胞类型的新疗法,用于治疗对传统疗法无反应的患者。间充质干细胞能够分泌血管形成所必需的生长因子,而单核细胞含有对血管形成非常重要的内皮祖细胞,因此很有前景。然而,分离这些细胞的传统方法存在局限性,尤其是对细胞功能失调的糖尿病患者而言。为了克服这一问题,我们开发了一种名为 "外周血 MNCs 质和量培养法(MNC-QQ)"的培养方法,可从少量外周血中有效地培养出高质量的细胞。据推测,将间叶干细胞与 MNC-QQs 结合可提高治疗效果。本研究旨在检验间充质干细胞与 MNC-QQs 在严重下肢缺血模型中的血管生成功效。为了验证间充质干细胞和 MNC-QQs 组合对血管生成的影响,我们进行了 HUVEC 管形成试验。在体内实验中,我们使用 BALB/c 裸鼠建立了缺血肢体模型。缺血肢体肌肉注射生理盐水、间充质干细胞、间充质干细胞和 MNC-QQs 组合。结果体外研究表明,与单独使用间充质干细胞相比,间充质干细胞与 MNC-QQs 结合可增加血管生成。使用小鼠严重下肢缺血模型进行的体内实验表明,与单独使用间充质干细胞或生理盐水治疗相比,联合疗法可显著改善血流恢复和肢体挽救。组织学分析显示,与生理盐水组相比,间充质干细胞+MNC-QQ 组的血管密度、动脉生成、肌肉再生和纤维化程度均有所提高。虽然间充质干细胞和 MNC-QQs 之间的具体相互作用尚未完全阐明,但联合疗法充分利用了两种细胞类型的优势,从而改善了血管再生的效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Regenerative Therapy
Regenerative Therapy Engineering-Biomedical Engineering
CiteScore
6.00
自引率
2.30%
发文量
106
审稿时长
49 days
期刊介绍: Regenerative Therapy is the official peer-reviewed online journal of the Japanese Society for Regenerative Medicine. Regenerative Therapy is a multidisciplinary journal that publishes original articles and reviews of basic research, clinical translation, industrial development, and regulatory issues focusing on stem cell biology, tissue engineering, and regenerative medicine.
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