Kang Inkyung, Barth Jeremy L, Sproul Erin P, Yoon Dong Won, Workman Gail A, Braun Kathleen R, Argraves W Scott, Wight Thomas N
From the Matrix Biology Program, Benaroya Research Institute at Virginia Mason, Seattle, Washington 98101 and.
the Department of Cell Biology and Anatomy, Medical University of South Carolina, Charleston, South Carolina 29425.
J Biol Chem. 2015 Aug 28;290(35):21629-41. doi: 10.1074/jbc.M115.657486. Epub 2015 Jul 7.
Arterial smooth muscle cells (ASMCs) undergo phenotypic changes during development and pathological processes in vivo and during cell culture in vitro. Our previous studies demonstrated that retrovirally mediated expression of the versican V3 splice variant (V3) by ASMCs retards cell proliferation and migration in vitro and reduces neointimal thickening and macrophage and lipid accumulation in animal models of vascular injury and atherosclerosis. However, the molecular pathways induced by V3 expression that are responsible for these changes are not yet clear. In this study, we employed a microarray approach to examine how expression of V3 induced changes in gene expression and the molecular pathways in rat ASMCs. We found that forced expression of V3 by ASMCs affected expression of 521 genes by more than 1.5-fold. Gene ontology analysis showed that components of the extracellular matrix were the most significantly affected by V3 expression. In addition, genes regulating the formation of the cytoskeleton, which also serve as markers of contractile smooth muscle cells (SMCs), were significantly up-regulated. In contrast, components of the complement system, chemokines, chemokine receptors, and transcription factors crucial for regulating inflammatory processes were among the genes most down-regulated. Consistently, we found that the level of myocardin, a key transcription factor promoting contractile SMC phenotype, was greatly increased, and the proinflammatory transcription factors NFκB1 and CCAAT/enhancer-binding protein β were significantly attenuated in V3-expressing SMCs. Overall, these findings demonstrate that V3 expression reprograms ASMCs promoting differentiated and anti-inflammatory phenotypes.
动脉平滑肌细胞(ASMCs)在体内发育和病理过程中以及体外细胞培养过程中会发生表型变化。我们之前的研究表明,ASMCs通过逆转录病毒介导表达多功能蛋白聚糖V3剪接变体(V3)可在体外延缓细胞增殖和迁移,并减少血管损伤和动脉粥样硬化动物模型中的内膜增厚以及巨噬细胞和脂质积聚。然而,由V3表达诱导的导致这些变化的分子途径尚不清楚。在本研究中,我们采用微阵列方法来研究V3表达如何诱导大鼠ASMCs基因表达的变化以及分子途径。我们发现,ASMCs强制表达V3会使521个基因的表达变化超过1.5倍。基因本体分析表明,细胞外基质成分受V3表达的影响最为显著。此外,调节细胞骨架形成的基因(这些基因也是收缩性平滑肌细胞(SMCs)的标志物)显著上调。相比之下,补体系统成分、趋化因子、趋化因子受体以及对调节炎症过程至关重要的转录因子是下调最为明显的基因。一致地,我们发现,在表达V3的SMC中,促进收缩性SMC表型的关键转录因子心肌肌动蛋白水平大幅增加,而促炎转录因子NFκB1和CCAAT/增强子结合蛋白β显著减弱。总体而言,这些发现表明V3表达可对ASMCs进行重编程,促进其分化和抗炎表型。