Objective: To investigate the expression of programmed death protein-ligand 1 (PD-L1) in liver cancer stem-like cells (LCSLC) and its effect on the characteristics of tumor stem cells and tumor biological function, to explore the upstream signaling pathway regulating PD-L1 expression in LCSLC and the downstream molecular mechanism of PD-L1 regulating stem cell characteristics, also tumor biological functions. Methods: HepG2 was cultured by sphere-formating method to obtain LCSLC. The expressions of CD133 and other stemness markers were detected by flow cytometry, western blot and real-time quantitative polymerase chain reaction (RT-qPCR) were used to detect the expressions of stemness markers and PD-L1. The biological functions of the LCSLC were tested by cell function assays, to confirm that the LCSLC has the characteristics of tumor stem cells. LCSLC was treated with cell signaling pathway inhibitors to identify relevant upstream signaling pathways mediating PD-L1 expression changes. The expression of PD-L1 in LCSLC was down regulated by small interfering RNA (siRNA), the expression of stem cell markers, tumor biological functions of LCSLC, and the changes of cell signaling pathways were detected. Results: Compared with HepG2 cells, the expression rate of CD133 in LCSLC was upregulated [(92.78±6.91)% and (1.40±1.77)%, P<0.001], the expressions of CD133, Nanog, Oct4A and Snail in LCSLC were also higher than those in HepG2 cells (P<0.05), the number of sphere-formating cells increased on day 7 [(395.30±54.05) and (124.70±19.30), P=0.001], cell migration rate increased [(35.41±6.78)% and (10.89±4.34)%, P=0.006], the number of transmembrane cells increased [(75.77±10.85) and (20.00±7.94), P=0.002], the number of cloned cells increased [(120.00±29.51) and (62.67±16.77), P=0.043]. Cell cycle experiments showed that LCSLC had significantly more cells in the G(0)/G(1) phase than those in HepG2 [(54.89±3.27) and (32.36±1.50), P<0.001]. The tumor formation experiment of mice showed that the weight of transplanted tumor in LCSLC group was (1.32±0.17)g, the volume is (1 779.0±200.2) mm(3), were higher than those of HepG2 cell [(0.31±0.06)g and (645.6±154.9)mm(3), P<0.001]. The expression level of PD-L1 protein in LCSLC was 1.88±0.52 and mRNA expression level was 2.53±0.62, both of which were higher than those of HepG2 cells (P<0.05). The expression levels of phosphorylation signal transduction and transcription activation factor 3 (p-STAT3) and p-Akt in LCSLC were higher than those in HepG2 cells (P<0.05). After the expression of p-STAT3 and p-Akt was down-regulated by inhibitor treatment, the expression of PD-L1 was also down-regulated (P<0.05). In contrast, the expression level of phosphorylated extracellular signal-regulated protein kinase 1/2 (p-ERK1/2) in LCSLC was lower than that in HepG2 cells (P<0.01), there was no significant change in PD-L1 expression after down-regulated by inhibitor treatment (P>0.05). After the expression of PD-L1 was knockdown by siRNA, the expressions of CD133, Nanog, Oct4A and Snail in LCSLC were decreased compared with those of siRNA-negative control (NC) group (P<0.05). The number of sphere-formating cells decreased [(45.33±12.01) and (282.00±29.21), P<0.001], the cell migration rate was lower than that in siRNA-NC group [(20.86±2.74)% and (46.73±15.43)%, P=0.046], the number of transmembrane cells decreased [(39.67±1.53) and (102.70±11.59), P=0.001], the number of cloned cells decreased [(57.67±14.57) and (120.70±15.04), P=0.007], the number of cells in G(0)/G(1) phase decreased [(37.68±2.51) and (57.27±0.92), P<0.001], the number of cells in S phase was more than that in siRNA-NC group [(30.78±0.52) and (15.52±0.83), P<0.001]. Tumor formation in mice showed that the tumor weight of shRNA-PD-L1 group was (0.47±0.12)g, the volume is (761.3±221.4)mm(3), were lower than those of shRNA-NC group [(1.57±0.45)g and (1 829.0±218.3)mm(3), P<0.001]. Meanwhile, the expression levels of p-STAT3 and p-Akt in siRNA-PD-L1 group were decreased (P<0.05), while the expression levels of p-ERK1/2 and β-catenin did not change significantly (P>0.05). Conclusion: Elevated PD-L1 expression in CD133(+) LCSLC is crucial to maintain stemness and promotes the tumor biological function of LCSLC.
目的: 探讨肝癌干样细胞(LCSLC)中程序性死亡蛋白配体1(PD-L1)的表达及其对LCSLC肿瘤干细胞特性和肿瘤生物学功能的影响,探索LCSLC中调控PD-L1表达变化的上游信号通路和PD-L1调控干细胞特性和肿瘤生物学功能的下游分子机制。 方法: 采用无血清球培养法培养肝癌细胞HepG2,获得LCSLC。采用流式细胞术检测LCSLC中CD133等干性标志物分子的表达,Western blot和实时荧光定量聚合酶链反应(RT-qPCR)检测其干性特征分子和PD-L1的表达,细胞功能实验检测其肿瘤生物学功能,确认所获得的LCSLC具备肿瘤干细胞特性。以细胞信号通路抑制剂处理LCSLC,明确介导PD-L1表达变化的相关上游信号通路。利用小干扰RNA(siRNA)下调LCSLC中PD-L1的表达,检测干性特征分子的表达变化、LCSLC体内外肿瘤生物学功能变化以及下游细胞信号通路的变化。 结果: 与普通HepG2细胞比较,LCSLC中CD133的表达率升高[分别为(92.78±6.91)%和(1.40±1.77)%,P<0.001],干性特征分子CD133、Nanog、Oct4A和Snai1的表达水平升高(均P<0.05),第7天的成球细胞数增多[分别为(395.30±54.05)个和(124.70±19.30)个,P=0.001],细胞迁移率升高[分别为(35.41±6.78)%和(10.89±4.34)%,P=0.006],穿膜细胞数增多[分别为(75.77±10.85)个/视野和(20.00±7.94)个/视野,P=0.002],克隆细胞数增多[分别为(120.00±29.51)个和(62.67±16.77)个,P=0.043],G(0)/G(1)期细胞数增多[分别为(54.89±3.27)个和(32.36±1.50)个,P<0.001]。小鼠成瘤实验显示,LCSLC组移植瘤的重量为(1.32±0.17)g,体积为(1 779.0±200.2)mm(3),均高于HepG2细胞组[分别为(0.31±0.06)g和(645.6±154.9)mm(3),均P<0.001]。LCSLC中PD-L1蛋白表达水平为1.88±0.52,mRNA的表达水平为2.53±0.62,均高于HepG2细胞(均P<0.05)。细胞信号通路相关蛋白磷酸化信号传导及转录活化因子3(p-STAT3)和p-Akt在LCSLC中的表达水平高于HepG2细胞(均P<0.05),经抑制剂处理下调p-STAT3和p-Akt的表达后,PD-L1的表达亦随之下调(均P<0.05);相反,磷酸化细胞外信号调节蛋白激酶1/2(p-ERK1/2)在LCSLC中的表达水平低于HepG2细胞(P<0.01),经抑制剂处理下调其表达后,PD-L1的表达无明显变化(P>0.05)。siRNA敲低PD-L1的表达后,与siRNA-NC组比较,siRNA-PD-L1组LCSLC中CD133、Nanog、Oct4A和Snai1的表达均降低(均P<0.05),成球细胞数减少[分别为(45.33±12.01)个和(282.00±29.21)个,P<0.001],细胞迁移率降低[分别为(20.86±2.74)%和(46.73±15.43)%,P=0.046],穿膜细胞数减少[分别为(39.67±1.53)个/视野和(102.70±11.59)个/视野,P=0.001],克隆细胞数下降[分别为(57.67±14.57)个和(120.70±15.04)个,P=0.007],G(0)/G(1)期细胞数减少[分别为(37.68±2.51)个和(57.27±0.92)个,P<0.001],S期细胞数增多[分别为(30.78±0.52)个和(15.52±0.83)个,P<0.001]。小鼠成瘤实验显示,shRNA-PD-L1组的肿瘤重量为(0.47±0.12)g,体积为(761.3±221.4)mm(3),均低于shRNA-NC组[分别为(1.57±0.45)g和(1 829.0±218.3)mm(3),均P<0.001 ]。同时,siRNA-PD-L1组LCSLC中p-STAT3和p-Akt的表达水平降低(均P<0.05),而p-ERK1/2和β-catenin的表达水平无明显变化(均P>0.05)。 结论: CD133(+) LCSLC中PD-L1高表达,对于维持其干性特征、促进其肿瘤生物学功能具有重要意义。.
Keywords: CD133; Cancer stem cell; Liver cancer stem-like cells; Liver neoplasms; Programmed death-ligand 1.