Prediction of potential drivers connecting different dysfunctional levels in lung adenocarcinoma via a protein-protein interaction network.

Lung cancer is a serious disease that threatens an affected individual's life. Its pathogenesis has not yet to be fully described, thereby impeding the development of effective treatments and preventive measures. "Cancer driver" theory considers that tumor initiation can be associated with a number of specific mutations in genes called cancer driver genes. Four omics levels, namely, (1) methylation, (2) microRNA, (3) mutation, and (4) mRNA levels, are utilized to cluster cancer driver genes. In this study, the known dysfunctional genes of these four levels were used to identify novel driver genes of lung adenocarcinoma, a subtype of lung cancer. These genes could contribute to the initiation and progression of lung adenocarcinoma in at least two levels. First, random walk with restart algorithm was performed on a protein-protein interaction (PPI) network constructed with PPI information in STRING by using known dysfunctional genes as seed nodes for each level, thereby yielding four groups of possible genes. Second, these genes were further evaluated in a test strategy to exclude false positives and select the most important ones. Finally, after conducting an intersection operation in any two groups of genes, we obtained several inferred driver genes that contributed to the initiation of lung adenocarcinoma in at least two omics levels. Several genes from these groups could be confirmed according to recently published studies. The inferred genes reported in this study were also different from those described in a previous study, suggesting that they can be used as essential supplementary data for investigations on the initiation of lung adenocarcinoma. This article is part of a Special Issue entitled: Accelerating Precision Medicine through Genetic and Genomic Big Data Analysis edited by Yudong Cai & Tao Huang.

[1]  Sumio Sugano,et al.  Aberrant transcriptional regulations in cancers: genome, transcriptome and epigenome analysis of lung adenocarcinoma cell lines , 2014, Nucleic acids research.

[2]  D. Coppola,et al.  Inhibition of Shp2 suppresses mutant EGFR-induced lung tumors in transgenic mouse model of lung adenocarcinoma , 2015, Oncotarget.

[3]  Susumu Goto,et al.  KEGG: Kyoto Encyclopedia of Genes and Genomes , 2000, Nucleic Acids Res..

[4]  Thomas de Quincey [C] , 2000, The Works of Thomas De Quincey, Vol. 1: Writings, 1799–1820.

[5]  G. Mills,et al.  EVI1 splice variants modulate functional responses in ovarian cancer cells , 2013, Molecular oncology.

[6]  Lei Chen,et al.  Prediction of human genes' regulatory functions based on proteinprotein interaction network. , 2012, Protein and peptide letters.

[7]  D. Katsaros,et al.  Chordin is underexpressed in ovarian tumors and reduces tumor cell motility , 2006, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[8]  Yu-Dong Cai,et al.  Identification of Genes Associated with Breast Cancer Metastasis to Bone on a Protein-Protein Interaction Network with a Shortest Path Algorithm. , 2017, Journal of proteome research.

[9]  G. Mills,et al.  Whole-exome sequencing combined with functional genomics reveals novel candidate driver cancer genes in endometrial cancer , 2012, Genome research.

[10]  C. Croce,et al.  MicroRNA-224 promotes tumor progression in nonsmall cell lung cancer , 2015, Proceedings of the National Academy of Sciences.

[11]  Bentong Yu,et al.  Down-regulation of lipocalin 2 suppresses the growth of human lung adenocarcinoma through oxidative stress involving Nrf2/HO-1 signaling. , 2015, Acta biochimica et biophysica Sinica.

[12]  S. Engrola,et al.  Temperature affects methylation of the myogenin putative promoter, its expression and muscle cellularity in Senegalese sole larvae , 2013, Epigenetics.

[13]  V. Fulci,et al.  MiR-21 is an Ngf-Modulated MicroRNA That Supports Ngf Signaling and Regulates Neuronal Degeneration in PC12 Cells , 2014, NeuroMolecular Medicine.

[14]  Y. Maehara,et al.  Prognostic and Therapeutic Implications of Aromatase Expression in Lung Adenocarcinomas with EGFR Mutations , 2014, Clinical Cancer Research.

[15]  H. Cui,et al.  MicroRNA-663 targets TGFB1 and regulates lung cancer proliferation. , 2011, Asian Pacific journal of cancer prevention : APJCP.

[16]  Lei Chen,et al.  Application of the Shortest Path Algorithm for the Discovery of Breast Cancer-Related Genes , 2016 .

[17]  C. Deng,et al.  Characterization of the Methylation Status of Pax7 and Myogenic Regulator Factors in Cell Myogenic Differentiation , 2015, Asian-Australasian journal of animal sciences.

[18]  B. Kopnin,et al.  E-Cadherin repression increases amount of cancer stem cells in human A549 lung adenocarcinoma and stimulates tumor growth , 2016, Cell cycle.

[19]  Nerve Growth Factor Decreases in Sympathetic and Sensory Nerves of Rats with Chronic Heart Failure , 2014, Neurochemical Research.

[20]  L. Tanoue,et al.  Lung cancer screening. , 2015, American journal of respiratory and critical care medicine.

[21]  J. Bateman,et al.  Why mice have lost genes for COL21A1, STK17A, GPR145 and AHRI: evidence for gene deletion at evolutionary breakpoints in the rodent lineage. , 2004, Trends in genetics : TIG.

[22]  K. Chou,et al.  Identification of Colorectal Cancer Related Genes with mRMR and Shortest Path in Protein-Protein Interaction Network , 2012, PloS one.

[23]  Tao Huang,et al.  A network-based method using a random walk with restart algorithm and screening tests to identify novel genes associated with Menière's disease , 2017, PloS one.

[24]  T. Jacks,et al.  Modulation of tumor induction and progression of oncogenic K-ras-positive tumors in the presence of TGF- b1 haploinsufficiency. , 2007, Carcinogenesis.

[25]  Y. Sia,et al.  Effects of the Demethylating Agent, 5-Azacytidine, on Expression of the Kallikrein-Kinin Genes in Carcinoma Cells of the Lung and Pleura , 2011, Pathology research international.

[26]  Heber MacMahon,et al.  Comprehensive genetic testing identifies targetable genomic alterations in most patients with non-small cell lung cancer, specifically adenocarcinoma, single institute investigation , 2016, Oncotarget.

[27]  Guangpu Li,et al.  Biogenesis and function of the NGF/TrkA signaling endosome. , 2015, International review of cell and molecular biology.

[28]  A. Sawa,et al.  The diverse functions of GAPDH: views from different subcellular compartments. , 2011, Cellular signalling.

[29]  Jian Zhang,et al.  Identification of novel proliferative diabetic retinopathy related genes on protein-protein interaction network , 2016, Neurocomputing.

[30]  P. Laird,et al.  Distinct DNA methylation profiles in malignant mesothelioma, lung adenocarcinoma, and non-tumor lung. , 2003, Lung cancer.

[31]  Jianguo Song,et al.  Epigenetic regulation of Smad2 and Smad3 by profilin-2 promotes lung cancer growth and metastasis , 2015, Nature Communications.

[32]  The Role of Inflammation and COX-Derived Prostanoids in the Effects of Bradykinin on Isolated Rat Aorta and Urinary Bladder , 2012, Inflammation.

[33]  Yu-Dong Cai,et al.  Discovery of New Candidate Genes Related to Brain Development Using Protein Interaction Information , 2015, PloS one.

[34]  A. Yoshimura,et al.  Reduced transcription of the Smad4 gene during pulmonary carcinogenesis in idiopathic pulmonary fibrosis. , 2009, Molecular medicine reports.

[35]  Feng-Hou Gao,et al.  [EGFR-ERK signaling pathway down-regulates miRNA-145 in lung cancer cells]. , 2013, Zhonghua zhong liu za zhi [Chinese journal of oncology].

[36]  Lei Chen,et al.  Analysis of Tumor Suppressor Genes Based on Gene Ontology and the KEGG Pathway , 2014, PloS one.

[37]  The impact of radiologists’ expertise on screen results decisions in a CT lung cancer screening trial , 2015, European Radiology.

[38]  Avram Hershko,et al.  Regulation of the Action of Early Mitotic Inhibitor 1 on the Anaphase-promoting Complex/Cyclosome by Cyclin-dependent Kinases* , 2011, The Journal of Biological Chemistry.

[39]  Jian Wang,et al.  Identification of lymph node metastasis-related microRNAs in lung adenocarcinoma and analysis of the underlying mechanisms using a bioinformatics approach , 2017, Experimental biology and medicine.

[40]  Christian von Mering,et al.  STRING: a database of predicted functional associations between proteins , 2003, Nucleic Acids Res..

[41]  Kenji Suzuki,et al.  Correlation of EGFR or KRAS mutation status with 18F-FDG uptake on PET-CT scan in lung adenocarcinoma , 2017, PloS one.

[42]  J. Ma,et al.  Gene expression profiling analysis of lung adenocarcinoma , 2016, Brazilian journal of medical and biological research = Revista brasileira de pesquisas medicas e biologicas.

[43]  C. Croce,et al.  MicroRNA-31 Predicts the Presence of Lymph Node Metastases and Survival in Patients with Lung Adenocarcinoma , 2013, Clinical Cancer Research.

[44]  Zhen Wang,et al.  Identification of Hepatocellular Carcinoma-Related Genes with a Machine Learning and Network Analysis , 2015, J. Comput. Biol..

[45]  Shaolei Li,et al.  MicroRNA let-7c inhibits migration and invasion of human non-small cell lung cancer by targeting ITGB3 and MAP4K3. , 2014, Cancer letters.

[46]  R. Govindan,et al.  Genomic alterations in lung adenocarcinoma. , 2015, The Lancet. Oncology.

[47]  Ka-Lok Ng,et al.  Prediction of protein functions based on function-function correlation relations , 2010, Comput. Biol. Medicine.

[48]  K. Miyazono,et al.  RNA-binding motif protein 47 inhibits Nrf2 activity to suppress tumor growth in lung adenocarcinoma , 2016, Oncogene.

[49]  A. Ekmekçi,et al.  The comparison between dual inhibition of mTOR with MAPK and PI3K signaling pathways in KRAS mutant NSCLC cell lines , 2015, Tumor Biology.

[50]  E. Campo,et al.  Integrated genomic and expression profiling in mantle cell lymphoma: identification of gene‐dosage regulated candidate genes , 2008, British journal of haematology.

[51]  J. Jassem,et al.  Prognostic value of microRNA expression in operable non-small cell lung cancer patients , 2014, British Journal of Cancer.

[52]  Yu-Dong Cai,et al.  Identifying novel protein phenotype annotations by hybridizing protein–protein interactions and protein sequence similarities , 2016, Molecular Genetics and Genomics.

[53]  Jun Yang,et al.  Identification of novel driver mutations of the discoidin domain receptor 2 (DDR2) gene in squamous cell lung cancer of Chinese patients , 2014, BMC Cancer.

[54]  H. Saji,et al.  A worldwide trend of increasing primary adenocarcinoma of the lung , 2014, Surgery Today.

[55]  Yeul-Hong Kim,et al.  Genomic alterations of chromosome region 11p as predictive marker by array comparative genomic hybridization in lung adenocarcinoma patients. , 2010, Cancer genetics and cytogenetics.

[56]  Glucose , 2018, Reactions Weekly.

[57]  J. W. Kim,et al.  EGF Induced RET Inhibitor Resistance in CCDC6-RET Lung Cancer Cells , 2016, Yonsei medical journal.

[58]  M. Tang,et al.  Chromium induces chromosomal instability, which is partly due to deregulation of BubR1 and Emi1, two APC/C inhibitors , 2011, Cell cycle.

[59]  M. Yerle,et al.  Identification of SNPs, mapping and analysis of allele frequencies in two candidate genes for meat production traits: the porcine myosin heavy chain 2B (MYH4) and the skeletal muscle myosin regulatory light chain 2 (HUMMLC2B). , 2003, Animal genetics.

[60]  S. Truant,et al.  Autocrine induction of invasion and metastasis by tumor-associated trypsin inhibitor in human colon cancer cells , 2008, Oncogene.

[61]  R. Wang,et al.  MiR-224 promotes the chemoresistance of human lung adenocarcinoma cells to cisplatin via regulating G1/S transition and apoptosis by targeting p21WAF1/CIP1 , 2014, British Journal of Cancer.

[62]  M. Katoh,et al.  Integrative genomic analyses on HES/HEY family: Notch-independent HES1, HES3 transcription in undifferentiated ES cells, and Notch-dependent HES1, HES5, HEY1, HEY2, HEYL transcription in fetal tissues, adult tissues, or cancer. , 2007, International journal of oncology.

[63]  M. Nakazato,et al.  Ghrelin relieves cancer cachexia associated with the development of lung adenocarcinoma in mice. , 2014, European journal of pharmacology.

[64]  Yu-Dong Cai,et al.  Identification of novel candidate drivers connecting different dysfunctional levels for lung adenocarcinoma using protein-protein interactions and a shortest path approach , 2016, Scientific Reports.

[65]  S. Finkelstein,et al.  Cytogenetics, Immunostaining for Fibroblast Growth Factors, p53 Sequencing, and Clinical Features of Two Cases of Cystosarcoma Phyllodes , 2000, Molecular Diagnosis.

[66]  Lei Chen,et al.  An integrated method for the identification of novel genes related to oral cancer , 2017, PloS one.

[67]  Tao Huang,et al.  Identification of compound–protein interactions through the analysis of gene ontology, KEGG enrichment for proteins and molecular fragments of compounds , 2016, Molecular Genetics and Genomics.

[68]  You Zhou,et al.  Identifying novel genes and chemicals related to nasopharyngeal cancer in a heterogeneous network , 2016, Scientific Reports.

[69]  S. Duffy,et al.  Translation of research results to simple estimates of the likely effect of a lung cancer screening programme in the United Kingdom , 2014, British Journal of Cancer.

[70]  P. Verde,et al.  miR-340 inhibits tumor cell proliferation and induces apoptosis by targeting multiple negative regulators of p27 in non-small cell lung cancer , 2014, Oncogene.

[71]  Yu-Dong Cai,et al.  A Hybrid Computational Method for the Discovery of Novel Reproduction-Related Genes , 2015, PloS one.

[72]  N. Pećina-Šlaus,et al.  Molecular alterations of E-cadherin and beta-catenin in brain metastases. , 2011, Frontiers in bioscience.

[73]  Dean P. Jones,et al.  The redox regulation of intermediary metabolism by a superoxide-aconitase rheostat. , 2004, BioEssays : news and reviews in molecular, cellular and developmental biology.

[74]  Yang Jiang,et al.  Identifying and Analyzing Novel Epilepsy-Related Genes Using Random Walk with Restart Algorithm , 2017, BioMed research international.

[75]  David K. Finlay,et al.  Glucose, glycolysis and lymphocyte responses. , 2015, Molecular immunology.

[76]  A. Fowler,et al.  Lung Cancer Screening With Low-dose Computed Tomography: An Analysis of the MEDCAC Decision , 2015, Journal of thoracic imaging.

[77]  K. Edlund,et al.  Genomic and Transcriptional Alterations in Lung Adenocarcinoma in Relation to EGFR and KRAS Mutation Status , 2013, PloS one.

[78]  Yu-Dong Cai,et al.  Gene Ontology and KEGG Enrichment Analyses of Genes Related to Age-Related Macular Degeneration , 2014, BioMed research international.

[79]  S. Knuutila,et al.  Driver Gene Mutations of Non-Small-Cell Lung Cancer are Rare in Primary Carcinoids of the Lung: NGS Study by Ion Torrent , 2015, Lung.

[80]  H. Aburatani,et al.  A Smad3 and TTF-1/NKX2-1 complex regulates Smad4-independent gene expression , 2014, Cell Research.

[81]  A. Gemma,et al.  MiR-134/487b/655 Cluster Regulates TGF-β–Induced Epithelial–Mesenchymal Transition and Drug Resistance to Gefitinib by Targeting MAGI2 in Lung Adenocarcinoma Cells , 2013, Molecular Cancer Therapeutics.

[82]  I. Prior,et al.  Phosphatome profiling reveals PTPN2, PTPRJ and PTEN as potent negative regulators of PKB/Akt activation in Ras-mutated cancer cells. , 2010, The Biochemical journal.

[83]  Haishan Zhang,et al.  Identification of key genes in colorectal cancer using random walk with restart. , 2017, Molecular medicine reports.

[84]  Yuhang Zhang,et al.  Determination of Genes Related to Uveitis by Utilization of the Random Walk with Restart Algorithm on a Protein–Protein Interaction Network , 2017, International journal of molecular sciences.

[85]  Shiying Li,et al.  Let-7 microRNAs Regenerate Peripheral Nerve Regeneration by Targeting Nerve Growth Factor , 2014, Molecular therapy : the journal of the American Society of Gene Therapy.

[86]  M. Flentje,et al.  Absence of GAPDH regulation in tumor-cells of different origin under hypoxic conditions in – vitro , 2009, BMC Research Notes.

[87]  E. Wang,et al.  Expression of ERCC1, TYMS, RRM1, TUBB3, non-muscle myosin II, myoglobin and MyoD1 in lung adenocarcinoma pleural effusions predicts survival in patients receiving platinum-based chemotherapy. , 2015, Molecular medicine reports.

[88]  E. Leproust,et al.  Myofibrillar myopathy caused by a mutation in the motor domain of mouse MyHC IIb. , 2012, Human molecular genetics.

[89]  L. Pan,et al.  MiR-21 and MiR-155 promote non-small cell lung cancer progression by downregulating SOCS1, SOCS6, and PTEN , 2016, Oncotarget.

[90]  Lei Chen,et al.  Identification of hepatocellular carcinoma related genes with k-th shortest paths in a protein-protein interaction network. , 2013, Molecular bioSystems.

[91]  Quan Zou,et al.  A network-based method for the identification of putative genes related to infertility. , 2016, Biochimica et biophysica acta.

[92]  Yu-Dong Cai,et al.  Exploring Mouse Protein Function via Multiple Approaches , 2016, PloS one.

[93]  Damian Szklarczyk,et al.  STRING v9.1: protein-protein interaction networks, with increased coverage and integration , 2012, Nucleic Acids Res..

[94]  J. Hayes,et al.  The Nrf2 regulatory network provides an interface between redox and intermediary metabolism. , 2014, Trends in biochemical sciences.

[95]  P. Robinson,et al.  Walking the interactome for prioritization of candidate disease genes. , 2008, American journal of human genetics.

[96]  Juancarlos Chan,et al.  Gene Ontology Consortium: going forward , 2014, Nucleic Acids Res..

[97]  R. Graham,et al.  Sensory nerves promote ozone-induced lung inflammation in mice. , 2001, American journal of respiratory and critical care medicine.

[98]  Yu-Dong Cai,et al.  Mining for novel tumor suppressor genes using a shortest path approach , 2016, Journal of biomolecular structure & dynamics.

[99]  Pearlly Yan,et al.  Antimitogenic and chemosensitizing effects of the methylation inhibitor zebularine in ovarian cancer , 2005, Molecular Cancer Therapeutics.

[100]  Tsuyoshi Murata,et al.  {m , 1934, ACML.

[101]  Daehyun Baek,et al.  Genomic Alterations in the RB Pathway Indicate Prognostic Outcomes of Early-Stage Lung Adenocarcinoma , 2014, Clinical Cancer Research.

[102]  Kuo-Chen Chou,et al.  Predicting Functions of Proteins in Mouse Based on Weighted Protein-Protein Interaction Network and Protein Hybrid Properties , 2011, PloS one.

[103]  S. Kuang,et al.  Park7 Expression Influences Myotube Size and Myosin Expression in Muscle , 2014, PloS one.

[104]  D. Mooney,et al.  Genome-wide DNA methylation analysis identifies a metabolic memory profile in patient-derived diabetic foot ulcer fibroblasts , 2014, Epigenetics.

[105]  S. Dimmeler,et al.  Long Noncoding RNA MALAT1 Regulates Endothelial Cell Function and Vessel Growth , 2014, Circulation Research.

[106]  R. Deberardinis,et al.  NRF2 regulates serine biosynthesis in non-small cell lung cancer , 2015, Nature Genetics.

[107]  Xianghua Yi,et al.  Bioinformatics Approach Reveals Systematic Mechanism Underlying Lung Adenocarcinoma , 2015, Tumori.

[108]  A prognostic predictor panel with DNA methylation biomarkers for early-stage lung adenocarcinoma in Asian and Caucasian populations , 2016, Journal of Biomedical Science.

[109]  A. Jemal,et al.  Lung Cancer Statistics. , 2016, Advances in experimental medicine and biology.

[110]  L. Crinò,et al.  Gene identification for risk of relapse in stage I lung adenocarcinoma patients: a combined methodology of gene expression profiling and computational gene network analysis , 2016, Oncotarget.

[111]  P. Pérez-Piñera,et al.  The Trk tyrosine kinase inhibitor K252a regulates growth of lung adenocarcinomas , 2006, Molecular and Cellular Biochemistry.

[112]  B. Qian,et al.  Polymorphisms in miR-135a-2, miR-219-2 and miR-211 as well as their interaction with cooking oil fume exposure on the risk of lung cancer in Chinese nonsmoking females: a case–control study , 2016, BMC Cancer.

[113]  Lei Shi,et al.  MicroRNA-128 targets myostatin at coding domain sequence to regulate myoblasts in skeletal muscle development. , 2015, Cellular signalling.

[114]  Lijing Yao,et al.  Inferring regulatory element landscapes and transcription factor networks from cancer methylomes , 2015, Genome Biology.

[115]  M. Kirschner,et al.  Emi1 preferentially inhibits ubiquitin chain elongation by the anaphase promoting complex , 2013, Nature Cell Biology.

[116]  Qing‐Yu He,et al.  Inhibition of Nrf2 enhances the anticancer effect of 6‐O‐angeloylenolin in lung adenocarcinoma , 2017, Biochemical pharmacology.