白细胞介素-10 基因修饰的临床级间充质基质细胞通过定向巨噬细胞的替代激活显著增强脊髓损伤后的功能恢复。

Interleukin-10 genetically modified clinical-grade mesenchymal stromal cells markedly reinforced functional recovery after spinal cord injury via directing alternative activation of macrophages.

机构信息

Center for Clinic Stem Cell Research, the Affiliated Drum Tower Hospital of Nanjing University Medical School, Nanjing, 210008, Jiangsu, China.

出版信息

Cell Mol Biol Lett. 2022 Mar 17;27(1):27. doi: 10.1186/s11658-022-00325-9.

DOI:10.1186/s11658-022-00325-9

PMID:35300585

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8931978/

Abstract

BACKGROUND

After spinal cord injury (SCI), dysregulated or nonresolving inflammatory processes can severely disturb neuronal homeostasis and drive neurodegeneration. Although mesenchymal stromal cell (MSC)-based therapies have showed certain therapeutic efficacy, no MSC therapy has reached its full clinical goal. In this study, we examine interleukin-10 (IL10) genetically modified clinical-grade MSCs (IL10-MSCs) and evaluate their clinical safety, effectiveness, and therapeutic mechanism in a completely transected SCI mouse model.

METHODS

We established stable IL10-overexpressing human umbilical-cord-derived MSCs through electric transduction and screened out clinical-grade IL10-MSCs according to the criteria of cell-based therapeutic products, which were applied to mice with completely transected SCI by repeated tail intravenous injections. Then we comprehensively investigated the motor function, histological structure, and nerve regeneration in SCI mice, and further explored the potential therapeutic mechanism after IL10-MSC treatment.

RESULTS

IL10-MSC treatment markedly reinforced locomotor improvement, accompanied with decreased lesion volume, regeneration of axons, and preservation of neurons, compared with naïve unmodified MSCs. Further, IL10-MSC transplantation increased the ratio of microglia to infiltrated alternatively activated macrophages (M2), and reduced the ratio of classically activated macrophages (M1) at the injured spinal cord, meanwhile increasing the percentage of Treg and Th2 cells, and reducing the percentage of Th1 cells in the peripheral circulatory system. In addition, IL10-MSC administration could prevent apoptosis and promote neuron differentiation of neural stem cells (NSCs) under inflammatory conditions in vitro.

CONCLUSIONS

IL10-MSCs exhibited a reliable safety profile and demonstrated promising therapeutic efficacy in SCI compared with naïve MSCs, providing solid support for future clinical application of genetically engineered MSCs.

摘要

背景

脊髓损伤（SCI）后，失调或无法解决的炎症过程会严重扰乱神经元内环境平衡并导致神经退行性病变。虽然间充质基质细胞（MSC）为基础的治疗方法已经显示出一定的治疗效果，但没有一种 MSC 治疗方法能够达到其全部的临床目标。在这项研究中，我们研究了白细胞介素 10（IL10）基因修饰的临床级 MSC（IL10-MSC），并在完全横断 SCI 小鼠模型中评估了它们的临床安全性、有效性和治疗机制。

方法

我们通过电转导建立了稳定的过表达人脐带 MSC 的 IL10，根据细胞治疗产品的标准筛选出临床级的 IL10-MSC，并通过重复尾静脉注射将其应用于完全横断 SCI 的小鼠。然后，我们全面研究了 SCI 小鼠的运动功能、组织学结构和神经再生，并进一步探讨了 IL10-MSC 治疗后的潜在治疗机制。

结果

与未修饰的 MSC 相比，IL10-MSC 治疗明显增强了运动功能的改善，同时伴随着损伤体积的减小、轴突的再生和神经元的保存。进一步的研究表明，IL10-MSC 移植增加了小胶质细胞向浸润的替代性激活巨噬细胞（M2）的比例，减少了经典激活的巨噬细胞（M1）的比例，同时增加了外周循环系统中 Treg 和 Th2 细胞的比例，减少了 Th1 细胞的比例。此外，IL10-MSC 给药可以防止神经干细胞（NSCs）在炎症条件下的凋亡和促进神经元分化。

结论

与未修饰的 MSC 相比，IL10-MSC 在 SCI 中表现出可靠的安全性和有希望的治疗效果，为基因工程 MSC 的未来临床应用提供了坚实的支持。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f9a/8931978/335fae08db85/11658_2022_325_Fig1_HTML.jpg

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白细胞介素-10 基因修饰的临床级间充质基质细胞通过定向巨噬细胞的替代激活显著增强脊髓损伤后的功能恢复。

Interleukin-10 genetically modified clinical-grade mesenchymal stromal cells markedly reinforced functional recovery after spinal cord injury via directing alternative activation of macrophages.

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