[1]杨登科,黄 智,张 帅,等.miR- 23b直接靶向IL- 11抑制SMMC- 7721细胞增殖研究[J].介入放射学杂志,2019,28(04):358-366.
 YANG Dengke,HUANG Zhi,ZHANG Shuai,et al.The inhibition effect of microRNA- 23b on proliferation of SMMC- 7721 cells through directly targeting IL- 11: a clinical study[J].journal interventional radiology,2019,28(04):358-366.
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miR- 23b直接靶向IL- 11抑制SMMC- 7721细胞增殖研究()

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《介入放射学杂志》[ISSN:1008-794X/CN:31-1796/R]

卷:
28
期数:
2019年04期
页码:
358-366
栏目:
实验研究
出版日期:
2019-04-25

文章信息/Info

Title:
The inhibition effect of microRNA- 23b on proliferation of SMMC- 7721 cells through directly targeting IL- 11: a clinical study
作者:
杨登科 黄 智 张 帅 向 雷 周 石 李 兴 蒋天鹏
Author(s):
YANG Dengke HUANG Zhi ZHANG Shuai XIANG Lei ZHOU Shi LI Xing JIANG Tianpeng.
School of Medical Imaging, Guizhou Medical University, Guiyang, Guizhou Province 550004, China
关键词:
【关键词】 肝细胞肝癌 微小RNA- 23b 白细胞介素- 11 白细胞介素- 11受体α 增殖
文献标志码:
A
摘要:
【摘要】 目的 探讨肝细胞肝癌(HCC)组织微小RNA(miR)- 23b表达与癌症进展的关系,miR- 23b是否通过靶向白细胞介素(IL)- 11影响肝癌细胞增殖。方法 采用免疫组化分析和逆转录-定量聚合酶链反应(RT- qPCR)检测HCC和相邻正常肝组织中IL- 11和IL- 11受体(R)α表达水平,RT- qPCR和蛋白印迹法检测不同HCC细胞株SMMC- 7721、LM3、Hep3B中miR- 23b表达水平,随后检测转染miR- 23b激动剂、拮抗剂和对照组SMMC- 7721细胞中miR- 23b、IL- 11、IL- 11Rα表达水平。采用集落形成和细胞凋亡分析检测转染miR- 23b激动剂和拮抗剂的SMMC- 7721细胞增殖和凋亡。采用荧光素酶测定系统了解IL- 11是否为miR- 23b直接作用靶标。采用集落形成和流式细胞仪检测pcDNA- IL- 11转染miR- 23b激动剂及小干扰RNA(siRNA)转染miR- 23b拮抗剂对SMMC- 7721细胞增殖和凋亡的影响。结果 HCC组织miR- 23b表达与癌症进展呈负相关。与邻近正常肝组织相比,HCC组织miR- 23b表达显著下调,IL- 11、IL- 11Rα表达显著上调,miR- 23b表达与IL- 11、IL- 11Rα表达呈负相关。IL- 11是miR- 23b调节HCC进展直接靶标,miR- 23b可通过靶向IL- 11抑制SMMC- 7721细胞增殖并促进其凋亡。结论 miR- 23b可通过调节IL- 11、IL- 11Rα表达抑制肝癌进展,可能直接下调IL- 11表达而在HCC进展中起抑癌作用。miR- 23b可能是未来肝癌治疗的潜在靶点。

参考文献/References:

[1] Altekruse SF, McGlynn KA, Dickie LA, et al. Hepatocellular carcinoma confirmation, treatment and survival in surveillance,epidemiology and end results registries, 1992- 2008[J]. Hepatology, 2012, 55: 476- 482.
[2] Fong ZV, Tanabe KK. The clinical management of hepatocellular carcinoma in the United States, Europe, and Asia: a comprehensive and evidence- based comparison and review[J]. Cancer, 2014, 120: 2824- 2838.
[3] Shen J, Wang A, Wang Q, et al. Exploration of genome- wide circulating microRNA in hepatocellular carcinoma: MiR- 483- 5p as a potential biomarker[J]. Cancer Epidemiol Biomarkers Prev, 2013, 22: 2364- 2373.
[4] Harding JJ, Abou- Alfa GK. Treating advanced hepatocellular carcinoma: how to get out of first gear[J]. Cancer, 2014, 120: 3122- 3130.
[5] 江 旭, 李 慧, 刘 航, 等. 影响肝细胞癌切除术后早期复发及生存的危险因素分析[J]. 介入放射学杂志, 2018, 27: 215- 222.
[6] 陈德连, 胡坚超, 江会红, 等. TACE联合调强放疗治疗晚期肝癌的疗效观察[J]. 介入放射学杂志, 2017, 26: 799- 802.
[7] Yang JX, Rastetter RH, Wilhelm D. Non- coding RNAs: an introduction[J]. Adv Exp Med Biol, 2016, 886: 13- 32.
[8] Beermann J, Piccoli MT, Viereck J, et al. Non- coding RNAs in development and disease: background, mechanisms, and therapeutic approaches[J]. Physiol Rev, 2016, 96: 1297- 1325.
[9] Peschansky VJ, Wahlestedt C. Non- coding RNAs as direct and indirect modulators of epigenetic regulation[J]. Epigenetics, 2014, 9: 3- 12.
[10] Kovarikova A, Hezova R, Srovnal J, et al. The role of microRNAs in molecular pathology of esophageal cancer and their potential usage in clinical oncology[J]. Klin Onkol, 2014, 27: 87- 96.
[11] Ono K. Regulation of lipid metabolism by miRNAs and transcription factors[J]. Seikagaku, 2015, 87: 733- 735.
[12] Grossi I, Arici B, Portolani N, et al. Clinical and biological significance of miR23b and miR193a in human hepatocellular carcinoma[J]. Oncotarget, 2017, 8: 6955- 6969.
[13] Nakayama T, Yoshizaki A, Izumida S, et al. Expression of interleukin- 11(IL- 11)and IL- 11 receptor alpha in human gastric carcinoma and IL- 11 upregulates the invasive activity of human gastric carcinoma cells[J]. Int J Oncol, 2007, 30: 825- 833.
[14] Lay V, Yap J, Sonderegger S, et al. Interleukin 11 regulates endometrial cancer cell adhesion and migration via STAT3[J]. Int J Oncol, 2012, 41: 759- 764.
[15] Livak KJ, Schmittgen TD. Analysis of relative gene expression data using real- time quantitative PCR and the 2-ΔΔCT Method[J]. Methods, 2001, 25: 402- 408.
[16] Ayub A, Ashfaq UA, Haque A. HBV induced HCC: major risk factors from genetic to molecular level[J]. Biomed Res Int, 2013, 2013: 810461.
[17] Parkin DM. The global health burden of infection- associated cancers in the year 2002[J]. Int J Cancer, 2006, 118: 3030- 3044.
[18] Sanyal A, Poklepovic A, Moyneur E, et al. Population- based risk factors and resource utilization for HCC: US perspective[J]. Curr Med Res Opin, 2010, 26: 2183- 2191.
[19] Banaudha K, Kaliszewski M, Korolnek T, et al. MicroRNA silencing of tumor suppressor DLC1 promotes efficient hepatitis C virus replication in primary human hepatocytes[J]. Hepatology, 2011, 53: 53- 61.
[20] Houzet L, Yeung ML, de Lame V, et al. MicroRNA profile changes in human immunodeficiency virus type 1(HIV- 1) seropositive individuals[J]. Retrovirology, 2008, 5: 118.
[21] Pedersen IM, Cheng G, Wieland S, et al. Interferon modulation of cellular microRNAs as an antiviral mechanism[J]. Nature, 2007, 449: 919- 922.
[22] Xie KL, Zhang YG, Liu J, et al. MicroRNAs associated with HBV infection and HBV- related HCC[J]. Theranostics, 2014, 4: 1176- 1192.
[23] Ge Y, Yan X, Jin Y, et al. MiRNA- 192 and miRNA- 204 directly suppress lncRNA HOTTIP and interrupt GLS1- mediated glutaminolysis in hepatocellular carcinoma[J]. PLoS Genet, 2015, 11: e1005726.
[24] Gao B, Gao K, Li L, et al. MiR- 184 functions as an oncogenic regulator in hepatocellular carcinoma(HCC)[J]. Biomed Pharma- cother, 2014, 68: 143- 148.
[25] Liu H, Li W, Chen C, et al. MiR- 335 acts as a potential tumor suppressor miRNA via downregulating ROCK1 expression in hepatocellular carcinoma[J]. Tumour Biol, 2015, 36: 6313- 6319.
[26] Jin L, Wessely O, Marcusson EG, et al. Prooncogenic factors miR- 23b and miR- 27b are regulated by Her2/Neu, EGF, and TNF- α in breast cancer[J]. Cancer Res, 2013, 73: 2884- 2896.
[27] Rice MA, Ishteiwy RA, Magani F, et al. The microRNA- 23b/-27b cluster suppresses prostate cancer metastasis via Huntingtin- interacting protein 1- related[J]. Oncogene, 2016, 35: 4752- 4761.
[28] Permyakov EA, Uversky VN, Permyakov SE. Interleukin- 11: a multifunctional cytokine with intrinsically disordered regions[J]. Cell Biochem Biophys, 2016, 74: 285- 296.
[29] Teicher BA, Ara G, Northey D. Interaction of interleukin- 11 (rhIL- 11) with cytotoxic therapies in the human HT- 29 colon carcinoma[J]. Int J Oncol, 1997, 10: 1081- 1085.
[30] Furugaki K, Moriya Y, Iwai T, et al. Erlotinib inhibits osteolytic bone invasion of human non- small- cell lung cancer cell line NCI- H292[J]. Clin Exp Metastasis, 2011, 28: 649- 659.
[31] Morinaga Y, Fujita N, Ohishi K, et al. Suppression of interleukin- 11- mediated bone resorption by cyclooxygenases inhibitors[J]. J Cell Physiol, 1998, 175: 247- 254.
[32] Buchert M, Burns CJ, Ernst M. Targeting JAK kinase in solid tumors: emerging opportunities and challenges[J]. Oncogene, 2016, 35: 939- 951.
[33] Zurita AJ, Troncoso P, Cardo- Vila M, et al. Combinatorial screenings in patients: the interleukin- 11 receptor alpha as a candidate target in the progression of human prostate cancer[J]. Cancer Res, 2004, 64: 435- 439.
[34] Lewis VO, Ozawa MG, Deavers MT, et al. The interleukin- 11 receptor a as a candidate ligand- directed target in osteosarcoma: consistent data from cell lines, orthotopic models, and human tumor samples[J]. Cancer Res, 2009, 69: 1995- 1999.
[35] Chen Q, Rabach L, Noble P, et al. IL- 11 receptor alpha in the pathogenesis of IL- 13- induced inflammation and remodeling[J]. J Immunol, 2005, 174: 2305- 2313.
[36] Nicoletti F, Zaccone P, Conget I, et al. Early prophylaxis with recombinant human interleukin- 11 prevents spontaneous diabetes in NOD mice[J]. Diabetes, 1999, 48: 2333- 2339.
[37] Lgssiar A, Hassan M, Schott- Ohly P, et al. Interleukin- 11 inhibits NF- kappaB and AP- 1 activation in islets and prevents diabetes induced with streptozotocin in mice[J]. Exp Biol Med (Maywood), 2004, 229: 425- 436.

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备注/Memo

备注/Memo:
(收稿日期:2018-07-19)
(本文编辑:边 佶)
更新日期/Last Update: 2019-04-09