乙醇通过激活叉头框蛋白 O 特异性信号部分抑制间充质干细胞向成骨软骨谱系分化。
Ethanol Inhibits Mesenchymal Stem Cell Osteochondral Lineage Differentiation Due in Part to an Activation of Forkhead Box Protein O-Specific Signaling.
机构信息
From the, Department of Orthopaedic Surgery and Rehabilitation, (FS, JME, PMR, JJC), Loyola University Medical Center, Maywood, Illinois.
Alcohol Research Program (ARP), (FS, JME, PMR, JJC), Loyola University Chicago Stritch School of Medicine, Maywood, Illinois.
出版信息
Alcohol Clin Exp Res. 2020 Jun;44(6):1204-1213. doi: 10.1111/acer.14337. Epub 2020 May 18.
BACKGROUND
During bone fracture repair, resident mesenchymal stem cells (MSCs) differentiate into chondrocytes, to form a cartilaginous fracture callus, and osteoblasts, to ossify the collagen matrix. Our laboratory previously reported that alcohol administration led to decreased cartilage formation within the fracture callus of rodents and this effect was mitigated by postfracture antioxidant treatment. Forkhead box protein O (FoxO) transcription factors are activated in response to intracellular reactive oxygen species (ROS), and alcohol has been shown to increase ROS. Activation of FoxOs has also been shown to inhibit canonical Wnt signaling, a necessary pathway for MSC differentiation. These findings have led to our hypothesis that alcohol exposure decreases osteochondrogenic differentiation of MSCs through the activation of FoxOs.
METHODS
Primary rat MSCs were treated with ethanol (EtOH) and assayed for FoxO expression, FoxO activation, and downstream target expression. Next, MSCs were differentiated toward osteogenic or chondrogenic lineages in the presence of 50 mM EtOH and alterations in osteochondral lineage marker expression were determined. Lastly, osteochondral differentiation experiments were repeated with FoxO1/3 knockdown or with FoxO1/3 inhibitor AS1842856 and osteochondral lineage marker expression was determined.
RESULTS
EtOH increased the expression of FoxO3a at mRNA and protein levels in primary cultured MSCs. This was accompanied by an increase in FoxO1 nuclear localization, FoxO1 activation, and downstream catalase expression. Moreover, EtOH exposure decreased expression of osteogenic and chondrogenic lineage markers. FoxO1/3 knockdown restored proosteogenic and prochondrogenic lineage marker expression in the presence of 50 mM EtOH. However, FoxO1/3 inhibitor only restored proosteogenic lineage marker expression.
CONCLUSIONS
These data show that EtOH has the ability to inhibit MSC differentiation, and this ability may rely, at least partially, on the activation of FoxO transcription factors.
背景
在骨骨折修复过程中,常驻间充质干细胞 (MSCs) 分化为软骨细胞,形成软骨性骨折痂,分化为成骨细胞,使胶原基质骨化。我们的实验室先前报道,酒精给药导致啮齿动物骨折痂内软骨形成减少,而骨折后抗氧化剂治疗减轻了这种影响。叉头框蛋白 O (FoxO) 转录因子在细胞内活性氧 (ROS) 响应下被激活,并且酒精已被证明会增加 ROS。FoxOs 的激活也被证明会抑制经典的 Wnt 信号通路,这是 MSC 分化所必需的途径。这些发现使我们假设,酒精暴露通过激活 FoxOs 减少 MSC 的成骨软骨分化。
方法
用乙醇 (EtOH) 处理原代大鼠 MSCs,并检测 FoxO 表达、FoxO 激活和下游靶基因表达。接下来,在存在 50mM EtOH 的情况下,将 MSCs 向成骨或软骨谱系分化,并确定成骨软骨谱系标志物表达的变化。最后,用 FoxO1/3 敲低或 FoxO1/3 抑制剂 AS1842856 重复成骨软骨分化实验,并确定成骨软骨谱系标志物表达。
结果
EtOH 在原代培养的 MSCs 中增加了 FoxO3a 的 mRNA 和蛋白水平表达。这伴随着 FoxO1 核定位、FoxO1 激活和下游过氧化氢酶表达的增加。此外,EtOH 暴露降低了成骨和软骨谱系标志物的表达。在存在 50mM EtOH 的情况下,FoxO1/3 敲低恢复了前成骨和成软骨谱系标志物的表达。然而,FoxO1/3 抑制剂仅恢复了前成骨谱系标志物的表达。
结论
这些数据表明,EtOH 具有抑制 MSC 分化的能力,这种能力至少部分依赖于 FoxO 转录因子的激活。
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