Ryan Caroline M, Brown James A L, Bourke Emer, Prendergast Áine M, Kavanagh Claire, Liu Zhonglin, Owens Peter, Shaw Georgina, Kolch Walter, O'Brien Timothy, Barry Frank P
Regenerative Medicine Institute (REMEDI), Biosciences, National University of Ireland Galway, University Road, Galway, Ireland.
Systems Biology Ireland, UCD Conway Institute, University College Dublin, Belfield, Dublin 4, Ireland.
Stem Cell Res Ther. 2015 Jul 24;6:136. doi: 10.1186/s13287-015-0125-y.
Bone marrow-derived stromal cells (BMSCs), also known as mesenchymal stem cells, are the focus of intensive efforts worldwide to elucidate their function and biology. Despite the importance of BMSC migration for their potential therapeutic uses, the mechanisms and signalling governing stem cell migration are still not fully elucidated.
We investigated and detailed the effects of MCP-1 activation on BMSCs by using inhibitors of G protein-coupled receptor alpha beta (GPCR αβ), ROCK (Rho-associated, coiled-coil containing protein kinase), and PI3 kinase (PI3K). The effects of MCP-1 stimulation on intracellular signalling cascades were characterised by using immunoblotting and immunofluorescence. The effectors of MCP-1-mediated migration were investigated by using migration assays (both two-dimensional and three-dimensional) in combination with inhibitors.
We established the kinetics of the MCP-1-activated signalling cascade and show that this cascade correlates with cell surface re-localisation of chemokine (C motif) receptor 2 (CCR2) (the MCP-1 receptor) to the cell periphery following MCP-1 stimulation. We show that MCP-1-initiated signalling is dependent on the activation of βγ subunits from the GPCR αβγ complex. In addition, we characterise a novel role for PI3Kγ signalling for the activation of both PAK and ERK following MCP-1 stimulation. We present evidence that the Gβγ complex is responsible for PI3K/Akt, PAK, and ERK signalling induced by MCP-1 in BMSCs. Importantly, we found that, in BMSCs, inhibition of ROCK significantly inhibits MCP-1-induced chemotactic migration, in contrast to previous reports in other systems.
Our results indicate differential chemotactic signalling in mouse BMSCs, which has important implications for the translation of in vivo mouse model findings into human trials. We identified novel components and interactions activated by MCP-1-mediated signalling, which are important for stem cell migration. This work has identified additional potential therapeutic targets that could be manipulated to improve BMSC delivery and homing.
骨髓来源的基质细胞(BMSCs),也被称为间充质干细胞,是全球范围内深入研究其功能和生物学特性的重点对象。尽管BMSC迁移对于其潜在治疗用途很重要,但干细胞迁移的机制和信号传导仍未完全阐明。
我们通过使用G蛋白偶联受体αβ(GPCRαβ)、ROCK(Rho相关的含卷曲螺旋蛋白激酶)和PI3激酶(PI3K)的抑制剂,研究并详细阐述了MCP-1激活对BMSCs的影响。通过免疫印迹和免疫荧光对MCP-1刺激对细胞内信号级联反应的影响进行了表征。通过结合抑制剂使用迁移试验(二维和三维)研究了MCP-1介导迁移的效应器。
我们确定了MCP-1激活的信号级联反应的动力学,并表明该级联反应与趋化因子(C基序)受体2(CCR2)(MCP-1受体)在MCP-1刺激后向细胞周边的细胞表面重新定位相关。我们表明MCP-1启动的信号传导依赖于GPCRαβγ复合物中βγ亚基的激活。此外,我们表征了PI3Kγ信号传导在MCP-1刺激后对PAK和ERK激活的新作用。我们提供证据表明Gβγ复合物负责MCP-1在BMSCs中诱导的PI3K/Akt、PAK和ERK信号传导。重要的是,我们发现,与之前在其他系统中的报道相反,在BMSCs中,抑制ROCK可显著抑制MCP-1诱导的趋化性迁移。
我们的结果表明小鼠BMSCs中存在不同的趋化信号传导,这对于将体内小鼠模型的研究结果转化为人体试验具有重要意义。我们确定了由MCP-1介导的信号传导激活的新成分和相互作用,这对干细胞迁移很重要。这项工作确定了其他潜在的治疗靶点,可对其进行调控以改善BMSC的递送和归巢。
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