[1]郭宏果a,吴 楠b,陆婉玲a,等.LncRNA01004通过上调CPSF1蛋白表达促进上皮-间质转化加速乳腺癌细胞恶性进展的研究[J].现代检验医学杂志,2025,40(01):32-37+47.[doi:10.3969/j.issn.1671-7414.2025.01.06]
 GUO Hongguoa,WU Nanb,LU Wanlinga,et al.Study on LncRNA01004 Promoting Epithelial-mesenchymal Transformation and Accelerating Malignant Progression of Breast Cancer Cells through Up-regulation of CPSF1 Protein Expression[J].Journal of Modern Laboratory Medicine,2025,40(01):32-37+47.[doi:10.3969/j.issn.1671-7414.2025.01.06]
点击复制

LncRNA01004通过上调CPSF1蛋白表达促进上皮-间质转化加速乳腺癌细胞恶性进展的研究()
分享到:

《现代检验医学杂志》[ISSN:/CN:]

卷:
第40卷
期数:
2025年01期
页码:
32-37+47
栏目:
论著
出版日期:
2025-01-15

文章信息/Info

Title:
Study on LncRNA01004 Promoting Epithelial-mesenchymal Transformation and Accelerating Malignant Progression of Breast Cancer Cells through Up-regulation of CPSF1 Protein Expression
文章编号:
1671-7414(2025)01-032-07
作者:
郭宏果a吴 楠b陆婉玲a刘 军a程 才a
(中国人民解放军空军第九八六医院 a. 肿瘤血液科;b. 普通外科,西安710054)
Author(s):
GUO Hongguoa WU Nanb LU Wanlinga LIU Juna CHENG Caia
(a. Department of Oncology and Hematology;b. Department of General Surgery,the 986th Hospital of the Air Force of the Chinese People’s Liberation Army, Xi’an 710054,China)
关键词:
乳腺癌长链非编码RNA 01004剪切多聚腺苷酸化特异性因子1上皮- 间质转化增殖侵袭凋亡
分类号:
R737.9;R730.43
DOI:
10.3969/j.issn.1671-7414.2025.01.06
文献标志码:
A
摘要:
目的 研究长链非编码RNA 01004(LncRNA01004)加速乳腺癌细胞恶性进展的作用及潜在调节机制。方法 通过实时定量聚合酶链反应(qRT-PCR)检测乳腺癌组织和细胞中LncRNA01004 表达水平。通过StarBase 在线数据库预测LncRNA01004 的结合蛋白,通过RNA 结合蛋白免疫沉淀反应(RIP)分析进行验证。采用LncRNA01004 干扰序列(sh-LncRNA01004)或过表达载体(LncRNA01004)转染MCF-7细胞,或与剪切多聚腺苷酸化特异性因子1(CPSF1)干扰序列(sh-CPSF1)共转染MCF-7 细胞。CCK-8 法、Transwell 和流式细胞术(FCM)分别检测细胞活力、细胞侵袭和凋亡。qRT-PCR 检测LncRNA01004 和CPSF1 过表达和沉默效率;蛋白质印迹(WB)检测CPSF1 蛋白、凋亡相关蛋白[B 淋巴细胞瘤-2(Bcl-2),Bcl-2 相关X蛋白(Bax)],以及上皮- 间质转化(EMT)相关蛋白[ 上皮钙黏蛋白(E-cadherin)、神经钙黏蛋白(N-cadherin)、波形蛋白(Vimentin)、锌指转录因子(Snail)] 水平;ELISA 检测半胱天冬氨酸蛋白酶3(Caspase-3)活性。结果 与癌旁组织相比,LncRNA01004 在乳腺癌组织(5.14±0.33 vs 1.02±0.03)中显著上调,差异具有统计学意义(t=-78.637,P<0.001);乳腺癌细胞中LncRNA01004 表达亦明显高于正常人乳腺上皮细胞,组间差异具有统计学意义(F=142.248,P<0.001)。与Control 组相比,沉默LncRNA01004 显著抑制MCF-7 细胞活力(42.15±2.11 vs 100.02±0.65)和侵袭(18.65%±1.44% vs 41.36%±1.57%),诱导细胞凋亡(16.58%±1.52% vs5.24%±1.12%),升高Caspase-3 活性(2.93±0.71 vs 1.51±0.43)和Bax 蛋白(2.74±0.39 vs 1.01±0.02)表达,抑制BcL-2 蛋白(0.32±0.07 vs 1.02±0.03)表达,差异具有统计学意义(t=3.075 ~ 19.332,均P<0.05)。与Control 组相比,沉默LncRNA01004 显著升高E-cadherin(3.06±0.37 vs 1.01±0.02)蛋白水平,降低N-cadherin(0.44±0.11 vs 1.00±0.01),Vimentin(0.39±0.13 vs 1.02±0.03)和Snail(0.30±0.08 vs 1.01±0.03)蛋白水平,差异具有统计学意义(t=9.989 ~ 17.164,均P<0.05)。LncRNA01004 与CPSF1 结合并促进CPSF1 蛋白表达。沉默CPSF1 抑制MCF-7 细胞增殖和侵袭、诱导细胞凋亡,抵消LncRNA01004 过表达对MCF-7 细胞生物学功能的影响。结论 LncRNA01004 可能通过上调CPSF1 促进EMT,进而促进乳腺癌细胞增殖和侵袭,抑制细胞凋亡,参与乳腺癌的恶性进展。
Abstract:
Objective To investigate the role of long non-coding RNA 01004 (LncRNA01004) in accelerating the malignant progression of breast cancer cells and its potential regulatory mechanism. Methods Quantitative real-time polymerase chain reaction (qRT-PCR) was used to detect the expression level of LncRNA01004 in breast cancer tissues and cells. The Starbase online database predicted the binding of LncRNA01004 to CPSF1 and verified it through RNA binding protein immunoprecipitation(RIP) analysis. MCF-7 cells were transfected with LncRNA01004 interference sequence (sh-LncRNA01004) or overexpressed vector (LncRNA01004), or co-transfected with Cleavage and Polyadenylation Specific Factor 1 (CPSF1) interference sequence (sh-CPSF1). Cell viability, invasion and apoptosis were detected with CCK-8, Transwell and flow cytometry (FCM). The overexpression and silencing efficiency of LINC01004 and CPSF1 were detected by qPCR. Western blot (WB) analysis of CPSF1 protein, apoptosis-related protein [B cell lymphoma/leukemia-2(Bcl-2), Bcl-2 Associated X(Bax)] and Epithelial-Mesenchymal transition (EMT) related protein[Epitheia-cadherin(E-cadherin), Nerve-cadherin(N-cadherin), Vimentin, zinc-finger transcription factor(Snail)], and the activity of Cysteinyl aspartate-specific proteinase-3 (Caspase-3) was determined by enzyme-linked immunosorbent assay. Results LncRNA01004 was significantly up-regulated in breast cancer tissues (5.14±0.33) compared with paracancer tissues (1.02±0.03), with the statistically significant difference (t=-78.637,P<0.001); LncRNA01004 expression in breast cancer cells was significantly higher than that in normal breast epithelial cells, the difference between groups is statistically significant (F=142.248,P<0.001). Compared with the Control group, LncRNA01004 significantly inhibited the proliferation (42.15±2.11 vs 100.02±0.65) and invasion (18.65%±1.44% vs 41.36%±1.57%) of MCF-7 cells, induced apoptosis (16.58%±1.52% vs 5.24%±1.12%), increased the activity of Caspase-3 (2.93±0.711. vs 51±0.43) and the expression of Bax (2.74±0.39 vs 1.01±0.02) protein, and inhibited the expression of BcL-2 (0.32±0.07 vs 1.02±0.03) protein, with the statistically significant difference (t=3.075 ~ 19.332,all P<0.05). Significantly increased compared with Control group, the silent LncRNA01004 E-cadherin (3.06±0.37 vs 1.01±0.02) protein levels, lower N-cadherin (0.44±0.11 vs 1.00±0.01), Vimentin (0.39±0.13 vs 1.02±0.03) and Snail(0.30±0.08 vs 1.01±0.03) protein levels, with the statistically significant difference (t=9.989 ~ 17.164,all P<0.05).LncRNA01004 binds to CPSF1 and promotes CPSF1 protein expression.Silencing CPSF1 inhibited the proliferation and invasion of MCF-7 cells, induced cell apoptosis, and counteracted the effect of LncRNA01004 overexpression on MCF-7 cells. Conclusion LncRNA01004 may promote EMT through up-regulation of CPSF1, and then promote proliferation and invasion of breast cancer cells, inhibit cell apoptosis, and participate in the malignant progression of breast cancer.

参考文献/References:

[1] ROY M, FOWLER A M, ULANER G A, et al. Molecular classification of breast cancer[J]. PET Clinics, 2023, 18(4): 441-458.
[2] MICHAELS E, WORTHINGTON R O, RUSIECKI J. Breast cancer: risk assessment, screening, and primary prevention[J]. the Medical Clinics of North America, 2023, 107(2): 271-284.
[3] NOLAN E, LINDEMAN G J, VISVADER J E. Deciphering breast cancer: from biology to the clinic[J]. Cell, 2023, 186(8): 1708-1728.
[4] LONG Feng, ZHOU Xuan, ZHANG Jinhua, et al. The role of lncRNA HCG18 in human diseases[J]. Cell Biochemistry and Function, 2024, 42(2): e3961.
[5] HERMAN A B, TSITSIPATIS D, GOROSPE M. Integrated lncRNA function upon genomic and epigenomic regulation[J]. Molecular Cell, 2022, 82(12): 2252-2266.
[6] 刘霄,黄晓燕,王建华.长链非编码RNA SNHG9在不同肿瘤中的最新研究进展[J].现代检验医学杂志,2021,36(4):176-180. LIU Xiao, HUANG Xiaoyan, WANG Jianhua. Reasearch progress of long non-coding RNA SNHG9 in different tumors[J]. Journal of Modern Laboratory Medicine, 2021, 36(4): 176-180.
[7] MALAKOTI F, TARGHAZEH N, KARIMZADEH H, et al. Multiple function of lncRNA MALAT1 in cancer occurrence and progression[J]. Chemical Biology & Drug Design, 2023, 101(5): 1113-1137.
[8] LI Jingxuan, WANG Jiying, WANG Yanping, et al. E2F1 combined with LINC01004 super-enhancer to promote hepatocellular carcinoma cell proliferation and metastasis[J]. Clinical Epigenetics, 2023, 15(1): 17.
[9] ZHAO Fen, TIAN Hui, WANG Yungang, et al. LINC01004-SPI1 axis-activated SIGLEC9 in tumorassociated macrophages induces radioresistance and the formation of immunosuppressive tumor microenvironment in esophageal squamous cell carcinoma[J]. Cancer Immunology, Immunotherapy, 2023, 72(6): 1835-1851.
[10] QIU Peng, BI Jiancheng, LIU Jia, et al. Long non-coding RNA LINC01004 promotes malignant behaviors of pituitary adenoma via miR-323a-3p/136-5p/RCN2 axis[J]. Pathology Research and Practice, 2022, 234: 153884.
[11] REN Fanggang, ZHANG Na, ZHANG Lan, et al. Alternative polyadenylation: a new frontier in post transcriptional regulation[J]. Biomarker Research, 2020, 8(1): 67.
[12] XIA Lei, HAN Qing, DUAN Xuehui, et al. M6Ainduced repression of SIAH1 facilitates alternative splicing of androgen receptor variant 7 by regulating CPSF1 [J]. Molecular Therapy- Nucleic Acids, 2022, 28: 219-230.
[13] CHEN Shilu, ZHU Zhongxu, YANG Xia, et al. Cleavage and polyadenylation specific factor 1 promotes tumor progression via alternative polyadenylation and splicing in hepatocellular carcinoma [J]. Frontiers in Cell and Developmental Biology, 2021, 9: 616835.
[14] KANG Weibiao, YANG Yang, CHEN Changyu, et al. CPSF1 positively regulates NSDHL by alternative polyadenylation and promotes gastric cancer progression[J]. American Journal of Cancer Research, 2022, 12(10): 4566-4583.
[15] GUO Qianying, WANG Hao, DUAN Jiahao, et al. An alternatively spliced p62 isoform confers resistance to chemotherapy in breast cancer[J]. Cancer Research, 2022, 82(21): 4001-4015.
[16] WEKKING D, PORCU M, DE SILVA P, et al. Breast MRI: clinical indications, recommendations, and future applications in breast cancer diagnosis[J]. Current Oncology Reports, 2023, 25(4): 257-267.
[17] AHMADPOUR S T, ORRE C, BERTEVELLO P S, et al. Breast cancer chemoresistance: insights into the regulatory role of lncRNA[J]. International Journal of Molecular Sciences, 2023, 24(21): 15897.
[18] YIP C W, SIVARAMAN D M, PRABHU A V, et al. Functional annotation of lncRNA in high-throughput screening[J]. Essays in Biochemistry, 2021, 65(4): 761-773.
[19] BRIDGES M C, DAULAGALA A C, KOURTIDIS A. LNCcation: lncRNA localization and function[J]. Journal of Cell Biology, 2021, 220(2): e202009045.
[20] TAN Yuetao, LIN Jinfei, LI Ting, et al. LncRNA-mediated posttranslational modifications and reprogramming of energy metabolism in cancer[J]. Cancer Communications (London, England), 2021, 41(2): 109-120.
[21] MAYRO B, HOJ J P, CERDA-SMITH C G, et al. ABL kinases regulate the stabilization of HIF-1α and MYC through CPSF1[J]. Proceedings of the National Academy of Sciences of the United States of America, 2023, 120(16): e2210418120.
[22] SAKAI A, ANDO M, FUKUSUMI T, et al. Aberrant expression of CPSF1 promotes head and neck squamous cell carcinoma via regulating alternative splicing[J]. PLoS One, 2020, 15(5): e0233380.
[23] MANFIOLETTI G, FEDELE M. Epithel ial -mesenchymal transition (EMT)[J]. International Journal of Molecular Sciences, 2023, 24(14): 11386.
[24] 陈偲, 李忠辉, 王颖.miR-198 通过靶向ZEB2 调控EMT 过程抑制肝癌细胞增殖和迁移的机制研究[J].现代检验医学杂志,2022,37(4):23-29. CHEN Cai, LI Zhonghui, WANG Ying. Study on the mechanism of miR-198 inhibiting the proliferation and migration of hepatoma cells by regulating EMT process by targeting ZEB2[J]. Journal of Modern Laboratory Medicine, 2022, 37(4): 23-29.
[25] MORTEZAEE K, MAJIDPOOR J, KHARAZINEJAD E. Epithelial-mesenchymal transition in cancer stemness and heterogeneity: updated[J]. Medical Oncology, 2022, 39(12): 193.
[26] SEO J, HA J, KANG E, et al. The role of epithelialmesenchymal transition-regulating transcription factors in anti-cancer drug resistance[J]. Archives of Pharmacal Research, 2021, 44(3): 281-292.
[27] MCCABE E M, RASMUSSEN T P.LncRNA involvement in cancer stem cell function and epithelialmesenchymal transitions [J].Seminars in Cancer Biology, 2021, 75: 38-48.

相似文献/References:

[1]党小军,张华,王欣.人附睾蛋白4(HE4)在乳腺癌诊断中的价值[J].现代检验医学杂志,2015,30(06):84.[doi:10.3969/j.issn.1671-7414.2015.06.024]
 DANG Xiao-jun,ZHANG Hua,WANG Xin.Value of Human Epididymis Protein 4(HE4) in Diagnosis of Breast Cancer[J].Journal of Modern Laboratory Medicine,2015,30(01):84.[doi:10.3969/j.issn.1671-7414.2015.06.024]
[2]张 萍,任世云,张 雷.乳腺癌患者血清脂质运载蛋白-2 和基质金属蛋白酶-9的表达及临床意义[J].现代检验医学杂志,2015,30(01):72.[doi:10.3969/j.issn.1671-7414.2015.01.019]
 ZHANG Ping,REN Shi-yun,ZHANG Lei.Expression and Clinical Significance of Serum LCN-2 and MMP-9 in Patients with Breast Cancer[J].Journal of Modern Laboratory Medicine,2015,30(01):72.[doi:10.3969/j.issn.1671-7414.2015.01.019]
[3]乔雪峰a,黄志平b,张 宁c,等.IL-18基因启动子区-137G/C,-607G/T 2个位点基因多态性与女性乳腺癌易感性Meta分析[J].现代检验医学杂志,2016,31(04):65.[doi:10.3969/j.issn.16717-414.2016.04.017]
 QIAO Xue-fenga,HUANG Zhi-pingb,ZHANG Ningc,et al.Association Analysis of IL-18 Gene Promoter Region -137G/C,-607G/T Polymorphisms and Susceptibility to Sporadic Breast Cancer:Meta-Analysis[J].Journal of Modern Laboratory Medicine,2016,31(01):65.[doi:10.3969/j.issn.16717-414.2016.04.017]
[4]刘延梅,马少君,张月浪,等.人类表皮生长因子受体2在乳腺癌表达与临床的相关病理特征分析[J].现代检验医学杂志,2016,31(05):91.[doi:10.3969/j.issn.1671-7414.2016.05.024]
 LIU Yan-mei,MA Shao-jun,ZHANG Yue-lang,et al.Expression of Human Epidermal Growth Factor Receptor 2 and Correlation with Clinical Pathological Features in Breast Cancer[J].Journal of Modern Laboratory Medicine,2016,31(01):91.[doi:10.3969/j.issn.1671-7414.2016.05.024]
[5]陈雨欣,谭婷婷,宁明哲.乳腺癌患者血清中白介素35(IL-35)的表达及其临床意义[J].现代检验医学杂志,2017,32(02):92.[doi:10.3969/j.issn.1671-7414.2017.02.025]
 CHEN Yu-xin,TAN Ting-ting,NING Ming-zhe.Serological Interleukin-35 Level in Patients with Breast Cancer and Its Clinical Significance[J].Journal of Modern Laboratory Medicine,2017,32(01):92.[doi:10.3969/j.issn.1671-7414.2017.02.025]
[6]唐努尔·艾尔肯,阿孜古·祖农.盐酸罗哌卡因对人乳腺癌细胞运动作用的研究[J].现代检验医学杂志,2017,32(03):128.[doi:10.3969/j.issn.1671-7414.2017.03.035]
 TANGNUER·Aierken,AZIGU·Zunong.Study on Effect of Ropivacaine on Migration of Breast Cancer Cell s[J].Journal of Modern Laboratory Medicine,2017,32(01):128.[doi:10.3969/j.issn.1671-7414.2017.03.035]
[7]靳庆娥,苏建荣.北京地区汉族女性人群SYK基因启动子区-803A>Trs290987单核苷酸多态性与乳腺癌易感性分析[J].现代检验医学杂志,2018,33(02):5.[doi:10.3969/j.issn.1671-7414.2018.02.001]
 JIN Qing-e,SU Jian-rong.Associations of SYK Promoter-803A >T(rs290987)Single Nucleotide Polymorphisms with Susceptibility to Breast Cancer of Han Female Population in Beijing Area[J].Journal of Modern Laboratory Medicine,2018,33(01):5.[doi:10.3969/j.issn.1671-7414.2018.02.001]
[8]高 华a,李玉柱b,韩龙才c,等.Logistic回归和ROC工作曲线评价联合检测血清CA153,TPS,CYFRA21-1在乳腺癌诊断中的临床价值[J].现代检验医学杂志,2018,33(03):60.[doi:10.3969/j.issn.1671-7414.2018.03.016]
 GAO Huaa,LI Yu-zhub,HAN Long-caic,et al.Clinical Value of Logistic Regression and ROC Work Curve Evaluating Serum CA153,TPS and Cyfra21-1 for Diagnosis of Breast Cancer[J].Journal of Modern Laboratory Medicine,2018,33(01):60.[doi:10.3969/j.issn.1671-7414.2018.03.016]
[9]李 娜a,赵晓娟b,苏晓明a.乳腺组织中SMG-1mRNA和SOX4mRNA检测在乳腺癌监测中的应用[J].现代检验医学杂志,2019,34(02):35.[doi:10.3969/j.issn.1671-7414.2019.02.010]
 LI Naa,ZHAO Xiao-juanb,SU Xiao-minga.Application of Detection of SMG-1mRNA and SOX4mRNAin Breast Tissue in Surveillance for Breast Cancer[J].Journal of Modern Laboratory Medicine,2019,34(01):35.[doi:10.3969/j.issn.1671-7414.2019.02.010]
[10]王 碧,吉茂礼.乳腺癌组织长链非编码RNA UCA1和BCAR4表达与辅助化疗效果的相关性研究[J].现代检验医学杂志,2019,34(05):77.[doi:10.3969/j.issn.1671-7414.2019.05.019]
 WANG Bi,JI Mao-li.Correlational Research on the Expressionof Long-Chain Non-Coding RNA UCA1 and BCAR4in Breast Cancer Tissues for the Effect of Adjuvant Chemotherapy[J].Journal of Modern Laboratory Medicine,2019,34(01):77.[doi:10.3969/j.issn.1671-7414.2019.05.019]

备注/Memo

备注/Memo:
作者简介:郭宏果(1979-),女,硕士研究生,主治医师,研究方向:乳腺癌、妇科肿瘤,E-mail:guohongguo_986@163.com.
通讯作者:吴楠(1991-),女,硕士研究生,主治医师,研究方向:乳腺癌、甲状腺癌治疗,E-mail:617302210@qq.com.
更新日期/Last Update: 2025-01-15