He Shuyang, Gleason Joseph, Fik-Rymarkiewicz Ewa, DiFiglia Andrea, Bharathan Mini, Morschauser Andrew, Djuretic Ivana, Xu Yan, Krakovsky Michael, Jankovic Vladimir, Buensuceso Charito, Edinger James, Herzberg Uri, Hofgartner Wolfgang, Hariri Robert
Celgene Cellular Therapeutics, Warren, New Jersey, USA.
Invivotek, Hamilton, New Jersey, USA.
Stem Cells. 2017 Jun;35(6):1603-1613. doi: 10.1002/stem.2598. Epub 2017 Mar 14.
Peripheral arterial disease (PAD) is a leading cause of limb loss and mortality worldwide with limited treatment options. Mesenchymal stromal cell (MSC) therapy has demonstrated positive effects on angiogenesis in preclinical models and promising therapeutic efficacy signals in early stage clinical studies; however, the mechanisms underlying MSC-mediated angiogenesis remain largely undefined. Here, we investigated the mechanism of action of human placenta-derived MSC-like cells (PDA-002) in inducing angiogenesis using mice hind limb ischemia model. We showed that PDA-002 improved blood flow and promoted collateral vessel formation in the injured limb. Histological analysis demonstrated that PDA-002 increased M2-like macrophages in ischemic tissue. Analysis of the changes in functional T cell phenotype in the draining lymph nodes revealed that PDA-002 treatment was associated with the induction of cytokine and gene expression signatures of Th2 response. Angiogenic effect of PDA-002 was markedly reduced in Balb/c nude mice compared with wild type. This reduction in efficacy was reversed by T cell reconstitution, suggesting T cells are essential for PDA-002-mediated angiogenesis. Furthermore, effect of PDA-002 on macrophage differentiation was also T cell-dependent as a PDA-002-mediated M2-like macrophage skewing was only observed in wild type and T cell reconstituted nude mice, but not in nude mice. Finally, we showed that PDA-002-treated animals had enhanced angiogenic recovery in response to the second injury when PDA-002 no longer persisted in vivo. These results suggest that PDA-002 enhances angiogenesis through an immunomodulatory mechanism involving T cell-dependent reprogramming of macrophage differentiation toward M2-like phenotype. Stem Cells 2017;35:1603-1613.
外周动脉疾病(PAD)是全球肢体丧失和死亡的主要原因,治疗选择有限。间充质基质细胞(MSC)疗法在临床前模型中已显示出对血管生成的积极作用,并且在早期临床研究中显示出有前景的治疗效果信号;然而,MSC介导血管生成的潜在机制在很大程度上仍不清楚。在此,我们使用小鼠后肢缺血模型研究了人胎盘来源的类MSC细胞(PDA - 002)诱导血管生成的作用机制。我们发现PDA - 002改善了血流并促进了受损肢体侧支血管的形成。组织学分析表明,PDA - 002增加了缺血组织中M2样巨噬细胞的数量。对引流淋巴结中功能性T细胞表型变化的分析显示,PDA - 002治疗与Th2反应的细胞因子和基因表达特征的诱导有关。与野生型相比,PDA - 002在Balb/c裸鼠中的血管生成作用明显降低。这种疗效降低通过T细胞重建得以逆转,表明T细胞对于PDA - 002介导的血管生成至关重要。此外,PDA - 002对巨噬细胞分化的作用也是T细胞依赖性的,因为仅在野生型和T细胞重建的裸鼠中观察到PDA - 002介导的M2样巨噬细胞偏向,而在裸鼠中未观察到。最后,我们表明,当PDA - 002不再在体内持续存在时,接受PDA - 002治疗的动物在应对第二次损伤时血管生成恢复增强。这些结果表明,PDA - 002通过一种免疫调节机制增强血管生成,该机制涉及T细胞依赖性地将巨噬细胞分化重编程为M2样表型。《干细胞》2017年;35卷:1603 - 1613页
