Objective: To explore the function and mechanism of transcription factor En1 in esophageal squamous cell carcinoma (ESCC). Methods: The correlations of En1 with prognosis were analyzed using the overall survival data of 9 397 pan-cancer patients and progression-free survival data of 4 349 pan-cancer patients from The Cancer Genome Atlas (TCGA) database. The En1 expression data in 53 and 155 cases of ESCC and their paired adjacent tissues were from Gene Expression Omnibus (GEO) database and National Genomics Data Center-Genome Sequence Archive(NGDC-GSA)database. Lentivirus was used to generate En1 stable knockout cell lines KYSE180 and KYSE450. The proliferation ability of the cells was detected by cell counting kit 8 and clone formation assay. The migration ability of the cells was detected by Transwell assay. The effect of En1 on the proliferation of ESCC was detected by xenograft experiment in BALB/c-nu/nu mice. Real-time fluorescence quantitative polymerase chain reaction (RT-qPCR) was used to detect the expressions of En1, glioma-associated oncogene family zinc finger 1 (GLI1), glioma-associated oncogene family zinc finger 2 (GLI2) and smoothened (SMO). Results: Pan-cancer data from TCGA showed that patients with low En1 expression had longer overall survival and progression-free survival than patients with high En1 expression (P< 0.001). Data from GEO and GSA databases also showed a high expression level of En1 in ESCC tissues compared with paired tissues (P<0.001). Proliferation was inhibited after knockout of En1 in KYSE180 and KYSE450 cells (P<0.001). The colony formation numbers decreased. The colony formation numbers of KYSE180 cells in the shEn1#1 group and the shEn1#2 group were 138.33±23.07 and 127.00±19.70, respectively, significantly lower than that of the shNC group 340.67±12.06 (P<0.001). The colony formation numbers of KYSE450 cells in the shEn1#1 group and the shEn1#2 group were 65.33±2.52 and 9.00±3.00, respectively, significantly lower than that of the shNC group 139.00±13.00 (P<0.001). The migration numbers was inhibited after knockout of En1 [the Transwell numbers of KYSE180 cells in the shEn1#1 group and the shEn1#2 group were 66.67±12.66 and 71.33±11.02, respectively, significantly lower than that of the shNC group 334.67±16.56 (P<0.001). The Transwell numbers of KYSE450 cells in the shEn1#1 group and the shEn1#2 group were 112.33±14.57 and 54.33±5.51, respectively, significantly lower than that of the shNC group 253.33±21.03 (P<0.001)]. Xenograft model showed a slower growth rate of shEn1#1 and shEn1#2 cell lines (P<0.001). The tumor weights of KYSE450 cells in the shEn1#1 group and the shEn1#2 group were (0.046±0.026)g and (0.047±0.025)g, respectively, significantly lower than that of the shNC group (0.130±0.038)g (P<0.001). After knockdown of En1, the relative expression levels of GLI1 in KYSE180 cells of the shEn1#1 group and the shEn1#2 group were 0.326±0.162 and 0.322±0.133, and the relative expression levels of GLI1 in KYSE450 cells of the shEn1#1 and shEn1#2 groups were 0.131±0.006 and 0.352±0.050, respectively, which were all lower than that in the shNC group (P<0.01). After knockdown of En1, overexpression of GLI1 attenuated the inhibitory effect of knockdown of En1 on cell proliferation (P<0.001), colony formation[the colony formation numbers of the shEn1#1-GLI1 group were 151.00±9.54, higher than 102.33±10.02 (P=0.004) of the shEn1#1-vector group] and migration [the migration numbers of the shEn1#1-GLI1 group were 193.67±10.07, higher than 109.33±11.50 (P<0.001) in the shEn1#1-vector group]. In clinical samples of ESCC, major regulatory factors of the Hedgehog pathway were up-regulated and the pathway was activated. Conclusion: En1 promotes the proliferation and migration of ESCC cells by regulating the Hedgehog pathway and can be used as a new potential target for targeted therapy of ESCC.
目的: 探讨转录因子En1在食管鳞状细胞癌(ESCC)细胞中的功能及机制。 方法: 利用癌症基因组图谱数据库(TCGA)中9 397例泛癌患者的En1表达和总生存资料、4 349例泛癌患者的En1表达和无进展生存资料,分析泛癌中En1表达水平与患者预后的关系。利用基因表达综合数据库(GEO)的53对和国家基因组科学数据中心-组学原始数据归档库(NGDC-GSA)的155对ESCC组织和配对癌旁组织的基因表达资料分析ESCC组织中En1的表达水平。以慢病毒系统介导ESCC细胞KYSE180和KYSE450中En1基因敲降,采用细胞计数试剂盒8法和克隆形成实验检测细胞的增殖能力,Transwell实验检测细胞的迁移能力,采用裸鼠皮下移植瘤实验检测En1对ESCC细胞体内肿瘤生长的影响。采用实时荧光定量聚合酶链反应(RT-qPCR)检测细胞中En1及Hedgehog通路主要调控因子胶质瘤相关癌基因家族锌指1(GLI1)、GLI2和平滑蛋白(SMO)的表达。 结果: 来自TCGA数据库的泛癌样本资料显示,En1低表达患者的总生存时间和无进展生存时间均比En1高表达患者更长(均P<0.001)。来自GEO和NGDC-GSA数据库的资料显示,ESCC组织中En1的表达水平高于配对癌旁组织(均P<0.001)。功能研究显示,与shNC组相比,敲降En1能显著抑制KYSE180和KYSE450细胞的增殖(均P<0.001)、抑制克隆形成[KYSE180细胞:shEn1#1组和shEn1#2组的克隆形成数分别为(138.33±23.07)个和(127.00±19.70)个,均低于shNC组的(340.67±12.06)个(均P<0.001);KYSE450细胞:shEn1#1组和shEn1#2组的克隆形成数分别为(65.33±2.52)个和(9.00±3.00)个,均低于shNC组的(139.00±13.00)个(均P<0.001)]、抑制迁移[KYSE180细胞:shEn1#1组和shEn1#2组的迁移细胞数分别为(66.67±12.66)和(71.33±11.02)个,均低于shNC组的(334.67±16.56)个(均P<0.001);KYSE450细胞:shEn1#1组和shEn1#2组的迁移细胞数分别为(112.33±14.57)和(54.33±5.51)个,均低于shNC组的(253.33±21.03)个(均P<0.001)]。裸鼠皮下移植瘤实验显示,敲降En1肿瘤的生长速度减慢,shEn1#1组和shEn1#2组小鼠的移植瘤重量分别为(0.046±0.026)g和(0.047±0.025)g,均低于shNC组[(0.130±0.038)g,均P<0.001]。RT-qPCR检测结果显示,shEn1#1组和shEn1#2组KYSE180细胞中GLI1 mRNA表达量分别为0.326±0.162和0.322±0.133,shEn1#1组和shEn1#2组KYSE450细胞中GLI1 mRNA表达量分别为0.131±0.006和0.352±0.050,均低于shNC组(均P<0.01)。在敲降En1的KYSE450细胞中过表达GLI1,能减弱敲降En1对细胞增殖(P<0.001)、克隆形成[shEn1#1-GLI1组的克隆形成数为(151.00±9.54)个,高于shEn1#1-vector组的(102.33±10.02)个(P=0.004)]和迁移[shEn1#1-GLI1组的迁移细胞数为(193.67±10.07)个,高于shEn1#1-vector组的(109.33±11.50)个(P<0.001)]的抑制作用。ESCC组织中GLI1、GLI2、GLI3、音猬因子、SMO和补缀同源物1的表达水平均高于配对癌旁组织,Hedgehog通路被激活。 结论: En1在ESCC组织中高表达,其通过调节Hedgehog信号通路在促进ESCC细胞增殖和迁移中发挥重要作用。.