Innate immune pathway activated mesenchymal stromal cells improve function and histologic outcomes in a rodent osteoarthritis model.

IF 4.3 3区工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Frontiers in Bioengineering and Biotechnology Pub Date : 2025-05-22 eCollection Date: 2025-01-01 DOI:10.3389/fbioe.2025.1525969

Cody Plaisance, Lyndah Chow, Renata Impastato, Zoë J Williams, Isabella Sabino, Katie J Sikes, Kelly S Santangelo, Steven Dow, Lynn M Pezzanite

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引用次数: 0

Abstract

Introduction: Intra-articular administration of mesenchymal stromal cells (MSC) has demonstrated anti-inflammatory and chondroprotective activity in both preclinical models and in randomized clinical trials in patients with osteoarthritis (OA). Nonetheless, precedent from MSC studies in non-OA models suggests that the overall anti-inflammatory effectiveness of MSC can be improved by prior immune activation through cytokines or innate immune pathways.

Methods: Therefore, in the current study, we determined whether activation of MSC by two different innate immune pathways (Toll-like receptor 3 (TLR3) pathway or Stimulator of Interferon Genes (STING) pathway could improve their effectiveness for intra-articular treatment of OA, using a murine destabilization of the medial meniscus (DMM) model. Outcome parameters included voluntary gait activity, joint histology and RNA transcriptomic analyses of synovial tissues.

Results: We found that activation of MSC via either innate immune pathway improved functional voluntary movement outcomes compared to treatment with non-activated MSC. Moreover, cartilage integrity, including cartilage preservation, was significantly improved in mice receiving activated MSC, with greater benefits observed in animals treated with STING pathway-activated MSC compared to animals treated with non-activated MSC alone. Transcriptomic analysis of joint tissues revealed that treatment with activated MSC upregulated pathways associated with tissue remodeling, angiogenesis, and wound healing compared to tissues from animals treated with non-activated MSC.

Discussion: These findings indicate therefore that innate immune activation of MSC prior to intra-articular delivery for treatment of OA can significantly improve functional gait activity and chondroprotective effects compared to non-activated MSC and suggest that this strategy could be evaluated clinically.

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先天免疫途径激活的间充质间质细胞改善啮齿动物骨关节炎模型的功能和组织学结果。

在骨关节炎（OA）患者的临床前模型和随机临床试验中，关节内给药间充质间质细胞（MSC）已显示出抗炎和软骨保护活性。尽管如此，来自非oa模型的MSC研究的先例表明，MSC的整体抗炎效果可以通过细胞因子或先天免疫途径的预先免疫激活来提高。方法：因此，在本研究中，我们通过小鼠内侧半月板不稳定（DMM）模型，确定两种不同的先天免疫途径（toll样受体3 （TLR3）途径或干扰素基因刺激剂（STING）途径）激活MSC是否可以提高其关节内治疗OA的有效性。结果参数包括自主步态活动、关节组织学和滑膜组织的RNA转录组分析。结果：我们发现，与未激活的MSC治疗相比，通过先天免疫途径激活MSC可改善功能性自主运动结果。此外，在接受活化MSC的小鼠中，软骨完整性（包括软骨保存）得到了显著改善，与单独接受未活化MSC的小鼠相比，接受STING途径活化MSC治疗的小鼠获得了更大的益处。关节组织的转录组学分析显示，与未激活的MSC处理的动物组织相比，活化的MSC处理上调了与组织重塑、血管生成和伤口愈合相关的通路。讨论：因此，这些研究结果表明，与未激活的MSC相比，在关节内输送治疗OA之前对MSC进行先天免疫激活可以显著改善功能性步态活动和软骨保护作用，并表明该策略可以在临床上进行评估。

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

Frontiers in Bioengineering and Biotechnology Chemical Engineering-Bioengineering

CiteScore

8.30

自引率

5.30%

发文量

2270

审稿时长

12 weeks

期刊介绍： The translation of new discoveries in medicine to clinical routine has never been easy. During the second half of the last century, thanks to the progress in chemistry, biochemistry and pharmacology, we have seen the development and the application of a large number of drugs and devices aimed at the treatment of symptoms, blocking unwanted pathways and, in the case of infectious diseases, fighting the micro-organisms responsible. However, we are facing, today, a dramatic change in the therapeutic approach to pathologies and diseases. Indeed, the challenge of the present and the next decade is to fully restore the physiological status of the diseased organism and to completely regenerate tissue and organs when they are so seriously affected that treatments cannot be limited to the repression of symptoms or to the repair of damage. This is being made possible thanks to the major developments made in basic cell and molecular biology, including stem cell science, growth factor delivery, gene isolation and transfection, the advances in bioengineering and nanotechnology, including development of new biomaterials, biofabrication technologies and use of bioreactors, and the big improvements in diagnostic tools and imaging of cells, tissues and organs. In today`s world, an enhancement of communication between multidisciplinary experts, together with the promotion of joint projects and close collaborations among scientists, engineers, industry people, regulatory agencies and physicians are absolute requirements for the success of any attempt to develop and clinically apply a new biological therapy or an innovative device involving the collective use of biomaterials, cells and/or bioactive molecules. “Frontiers in Bioengineering and Biotechnology” aspires to be a forum for all people involved in the process by bridging the gap too often existing between a discovery in the basic sciences and its clinical application.