MicroRNA-137 inhibits tumor growth and sensitizes chemosensitivity to paclitaxel and cisplatin in lung cancer

Chemotherapy resistance frequently drives tumour progression. However, the underlying molecular mechanisms are poorly characterized. In this study, we explored miR-137's role in the chemosensitivity of lung cancer. We found that the expression level of miR-137 is down-regulated in the human lung cancer tissues and the resistant cells strains: A549/paclitaxel(A549/PTX) and A549/cisplatin (A549/CDDP) when compared with lung cancer A549 cells. Moreover, we found that overe-expression of miR-137 inhibited cell proliferation, migration, cell survival and arrest the cell cycle in G1 phase in A549/PTX and A549/CDDP. Furthermore, Repression of miR-137 significantly promoted cell growth, migration, cell survival and cell cycle G1/S transition in A549 cells. We further demonstrated that the tumor suppressive role of miR-137 was mediated by negatively regulating Nuclear casein kinase and cyclin-dependent kinase substrate1(NUCKS1) protein expression. Importantly, miR-137 inhibits A549/PTX, A549/CDDP growth and angiogenesis in vivo. Our study is the first to identify the tumor suppressive role of over-expressed miR-137 in chemosensitivity. Identification of a novel miRNA-mediated pathway that regulates chemosensitivity in lung cancer will facilitate the development of novel therapeutic strategies in the future.

[1]  D. Amadori,et al.  MicroRNA-21 induces resistance to 5-fluorouracil by down-regulating human DNA MutS homolog 2 (hMSH2) , 2010, Proceedings of the National Academy of Sciences.

[2]  J. Wiśniewski,et al.  High mobility group I/Y: multifunctional chromosomal proteins causally involved in tumor progression and malignant transformation (review). , 2000, International journal of molecular medicine.

[3]  H. Dressman,et al.  MicroRNAs and their target messenger RNAs associated with ovarian cancer response to chemotherapy. , 2009, Gynecologic oncology.

[4]  Xiao-Cheng Wu,et al.  Annual Report to the Nation on the Status of Cancer, 1975–2005, Featuring Trends in Lung Cancer, Tobacco Use, and Tobacco Control , 2008, Journal of the National Cancer Institute.

[5]  Hao Li,et al.  miR‐137 inhibits the proliferation of lung cancer cells by targeting Cdc42 and Cdk6 , 2013, FEBS letters.

[6]  J. Massagué,et al.  Cancer Metastasis: Building a Framework , 2006, Cell.

[7]  L. Meijer,et al.  High-mobility-group proteins P1, I and Y as substrates of the M-phase-specific p34cdc2/cyclincdc13 kinase. , 1991, European journal of biochemistry.

[8]  Y. Xi,et al.  MiR-200, a new star miRNA in human cancer. , 2014, Cancer letters.

[9]  Renato Martins,et al.  Non-small cell lung cancer, version 2.2013. , 2013, Journal of the National Comprehensive Cancer Network : JNCCN.

[10]  Stephen T. C. Wong,et al.  Microenvironmental regulation of epithelial-mesenchymal transitions in cancer. , 2012, Cancer research.

[11]  T. Jiang,et al.  miR-137 is frequently down-regulated in glioblastoma and is a negative regulator of Cox-2. , 2012, European journal of cancer.

[12]  B. Jiang,et al.  Endothelial p70 S6 kinase 1 in regulating tumor angiogenesis. , 2008, Cancer research.

[13]  E. Bandrés,et al.  MicroRNA‐451 Is Involved in the Self‐renewal, Tumorigenicity, and Chemoresistance of Colorectal Cancer Stem Cells , 2011, Stem cells.

[14]  S. Walaas,et al.  Phosphorylation of P1, a high mobility group‐like protein, catalyzed by casein kinase II, protein kinase C, cyclic AMP‐dependent protein kinase and calcium/calmodulin‐dependent protein kinase II , 1989, FEBS letters.

[15]  C. Kittas,et al.  NUCKS overexpression in breast cancer , 2009, Cancer Cell International.

[16]  M. Ashley,et al.  The carcinogenic and toxic effects of tobacco smoke: are women particularly susceptible? , 1999, The journal of gender-specific medicine : JGSM : the official journal of the Partnership for Women's Health at Columbia.

[17]  K. Struhl,et al.  Loss of miR-200 inhibition of Suz12 leads to polycomb-mediated repression required for the formation and maintenance of cancer stem cells. , 2010, Molecular cell.

[18]  A. Jemal,et al.  Cancer statistics, 2013 , 2013, CA: a cancer journal for clinicians.

[19]  Thomas J. Smith,et al.  美国临床肿瘤学会Ⅳ期非小细胞肺癌化疗的临床实践指南更新 , 2010, Zhongguo fei ai za zhi = Chinese journal of lung cancer.

[20]  Renato Martins,et al.  Non-small cell lung cancer, version 2.2013: Featured updates to the NCCN guidelines , 2013 .

[21]  T. Jiang,et al.  MiR-124 governs glioma growth and angiogenesis and enhances chemosensitivity by targeting R-Ras and N-Ras. , 2014, Neuro-oncology.

[22]  Bruce Goldman,et al.  Multidrug resistance: can new drugs help chemotherapy score against cancer? , 2003, Journal of the National Cancer Institute.

[23]  Wenshu Chen,et al.  Receptor-interacting Protein 1 Increases Chemoresistance by Maintaining Inhibitor of Apoptosis Protein Levels and Reducing Reactive Oxygen Species through a microRNA-146a-mediated Catalase Pathway* , 2014, The Journal of Biological Chemistry.

[24]  H. Hermeking,et al.  Repression of c-Kit by p53 is mediated by miR-34 and is associated with reduced chemoresistance, migration and stemness , 2013, Oncotarget.

[25]  Fenghua Wang,et al.  Overexpression of paxillin induced by miR-137 suppression promotes tumor progression and metastasis in colorectal cancer , 2012, Carcinogenesis.

[26]  J. Norum,et al.  Molecular cloning of a mammalian nuclear phosphoprotein NUCKS, which serves as a substrate for Cdk1 in vivo. , 2001, European journal of biochemistry.

[27]  J. Minna,et al.  Focus on lung cancer. , 2002, Cancer cell.

[28]  A. Jemal,et al.  Cancer Statistics, 2010 , 2010, CA: a cancer journal for clinicians.

[29]  D. Stewart Tumor and host factors that may limit efficacy of chemotherapy in non-small cell and small cell lung cancer. , 2010, Critical reviews in oncology/hematology.

[30]  Timothy W Corson,et al.  KIF14 is a candidate oncogene in the 1q minimal region of genomic gain in multiple cancers , 2005, Oncogene.

[31]  Trevor Hastie,et al.  Gene expression patterns in ovarian carcinomas. , 2003, Molecular biology of the cell.

[32]  G. Maelandsmo,et al.  Phosphorylation of the high-mobility-group-like protein P1 by casein kinase-2. , 1989, European journal of biochemistry.

[33]  M. Saha,et al.  miR-137 and miR-197 Induce Apoptosis and Suppress Tumorigenicity by Targeting MCL-1 in Multiple Myeloma , 2015, Clinical Cancer Research.

[34]  J. Rehwinkel,et al.  MicroRNAs silence gene expression by repressing protein expression and/or by promoting mRNA decay. , 2006, Cold Spring Harbor symposia on quantitative biology.

[35]  Hiroshi Tanaka,et al.  Identification of NUCKS1 as a colorectal cancer prognostic marker through integrated expression and copy number analysis , 2013, International journal of cancer.

[36]  J. Yun,et al.  FoxD3-regulated microRNA-137 suppresses tumour growth and metastasis in human hepatocellular carcinoma by targeting AKT2 , 2014, Oncotarget.

[37]  S. Quake,et al.  Identification and confirmation of a module of coexpressed genes. , 2002, Genome research.

[38]  Jian Wen,et al.  miR‐145 sensitizes ovarian cancer cells to paclitaxel by targeting Sp1 and Cdk6 , 2014, International journal of cancer.

[39]  B. Jiang,et al.  MicroRNA-143 inhibits tumor growth and angiogenesis and sensitizes chemosensitivity to oxaliplatin in colorectal cancers , 2013, Cell cycle.

[40]  J. Minna,et al.  A Translational View of the Molecular Pathogenesis of Lung Cancer , 2007, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[41]  Liu Hong,et al.  miR‐15b and miR‐16 modulate multidrug resistance by targeting BCL2 in human gastric cancer cells , 2008, International journal of cancer.

[42]  L. Ellisen,et al.  A microRNA-dependent program controls p 53-independent survival and chemosensitivity in human and murine squamous cell carcinoma , 2018 .

[43]  F. Tyson,et al.  Chromosomal changes in high- and low-invasive mouse lung adenocarcinoma cell strains derived from early passage mouse lung adenocarcinoma cell strains. , 2008, Toxicology and applied pharmacology.

[44]  N. Dubrawsky Cancer statistics , 1989, CA: a cancer journal for clinicians.