1 5582 109 ROLE OF NITRATIVE AND OXIDATIVE DNA DAMAGE IN INFLAMMATION-RELATED CARCINOGENESIS. CHRONIC INFLAMMATION INDUCED BY BIOLOGICAL, CHEMICAL, AND PHYSICAL FACTORS HAS BEEN FOUND TO BE ASSOCIATED WITH THE INCREASED RISK OF CANCER IN VARIOUS ORGANS. WE REVEALED THAT INFECTIOUS AGENTS INCLUDING LIVER FLUKE, HELICOBACTER PYLORI, AND HUMAN PAPILLOMA VIRUS AND NONINFECTIOUS AGENTS SUCH AS ASBESTOS FIBER INDUCED INOS-DEPENDENT FORMATION OF 8-NITROGUANINE AND 8-OXO-7, 8-DIHYDRO-2'-DEOXYGUANOSINE (8-OXODG) IN CANCER TISSUES AND PRECANCEROUS REGIONS. OUR RESULTS WITH THE COLOCALIZATION OF PHOSPHORYLATED ATM AND GAMMA-H2AX WITH 8-OXODG AND 8-NITROGUANINE IN INFLAMMATION-RELATED CANCER TISSUES SUGGEST THAT DNA BASE DAMAGE LEADS TO DOUBLE-STRANDED BREAKS. IT IS INTERESTING FROM THE ASPECT OF GENETIC INSTABILITY. WE ALSO DEMONSTRATED IL-6-MODULATED INOS EXPRESSION VIA STAT3 AND EGFR IN EPSTEIN-BARR-VIRUS-ASSOCIATED NASOPHARYNGEAL CARCINOMA AND FOUND PROMOTER HYPERMETHYLATION IN SEVERAL TUMOR SUPPRESSOR GENES. SUCH EPIGENETIC ALTERATION MAY OCCUR BY CONTROLLING THE DNA METHYLATION THROUGH IL-6-MEDIATED JAK/STAT3 PATHWAYS. COLLECTIVELY, 8-NITROGUANINE WOULD BE A USEFUL BIOMARKER FOR PREDICTING THE RISK OF INFLAMMATION-RELATED CANCERS. 2012 2 3671 54 INFLAMMATION AND CANCER. INFECTION AND INFLAMMATION ACCOUNT FOR APPROXIMATELY 25% OF CANCER-CAUSING FACTORS. INFLAMMATION-RELATED CANCERS ARE CHARACTERIZED BY MUTAGENIC DNA LESIONS, SUCH AS 8-OXO-7,8-DIHYDRO-2'-DEOXYGUANOSINE (8-OXODG) AND 8-NITROGUANINE. OUR PREVIOUS STUDIES DEMONSTRATED THE FORMATION OF 8-OXODG AND 8-NITROGUANINE IN THE TISSUES OF CANCER AND PRECANCEROUS LESIONS DUE TO INFECTION (E.G., OPISTHORCHIS VIVERRINI-RELATED CHOLANGIOCARCINOMA, SCHISTOSOMA HAEMATOBIUM-ASSOCIATED BLADDER CANCER, HELICOBACTER PYLORI-INFECTED GASTRIC CANCER, HUMAN PAPILLOMAVIRUS-RELATED CERVICAL CANCER, EPSTEIN-BARR VIRUS-INFECTED NASOPHARYNGEAL CARCINOMA) AND PRO-INFLAMMATORY FACTORS (E.G., ASBESTOS, NANOMATERIALS, AND INFLAMMATORY DISEASES SUCH AS BARRETT'S ESOPHAGUS AND ORAL LEUKOPLAKIA). INTERESTINGLY, SEVERAL OF OUR STUDIES SUGGESTED THAT INFLAMMATION-ASSOCIATED DNA DAMAGE IN CANCER STEM-LIKE CELLS LEADS TO CANCER DEVELOPMENT WITH AGGRESSIVE CLINICAL FEATURES. REACTIVE OXYGEN/NITROGEN SPECIES FROM INFLAMMATION DAMAGE NOT ONLY DNA BUT ALSO OTHER BIOMACROMOLECULES, SUCH AS PROTEINS AND LIPIDS, RESULTING IN THEIR DYSFUNCTION. WE IDENTIFIED OXIDATIVELY DAMAGED PROTEINS IN CANCER TISSUES BY 2D OXYBLOT FOLLOWED BY MALDI-TOF/TOF. AS AN EXAMPLE, OXIDATIVELY DAMAGED TRANSFERRIN RELEASED IRON ION, WHICH MAY MEDIATE FENTON REACTIONS AND GENERATE ADDITIONAL REACTIVE OXYGEN SPECIES. DYSFUNCTION OF ANTI-OXIDATIVE PROTEINS DUE TO THIS DAMAGE MIGHT INCREASE OXIDATIVE STRESS. SUCH DAMAGE IN BIOMACROMOLECULES MAY FORM A VICIOUS CYCLE OF OXIDATIVE STRESS, LEADING TO CANCER DEVELOPMENT. EPIGENETIC ALTERATIONS SUCH AS DNA METHYLATION AND MICRORNA DYSREGULATION PLAY VITAL ROLES IN CARCINOGENESIS, ESPECIALLY IN INFLAMMATION-RELATED CANCERS. WE EXAMINED EPIGENETIC ALTERATIONS, DNA METHYLATION AND MICRORNA DYSREGULATION, IN EPSTEIN-BARR VIRUS-RELATED NASOPHARYNGEAL CARCINOMA IN THE ENDEMIC AREA OF SOUTHERN CHINA AND FOUND SEVERAL DIFFERENTIALLY METHYLATED TUMOR SUPPRESSOR GENE CANDIDATES BY USING A NEXT-GENERATION SEQUENCER. AMONG THESE CANDIDATES, WE REVEALED HIGHER METHYLATION RATES OF RAS-LIKE ESTROGEN-REGULATED GROWTH INHIBITOR (RERG) IN BIOPSY SPECIMENS OF NASOPHARYNGEAL CARCINOMA MORE CONVENIENTLY BY USING RESTRICTION ENZYME-BASED REAL-TIME PCR. THIS RESULT MAY HELP TO IMPROVE CANCER SCREENING STRATEGIES. WE PROFILED MICRORNAS OF NASOPHARYNGEAL CARCINOMA TISSUES USING MICROARRAYS. QUANTITATIVE RT-PCR ANALYSIS CONFIRMED THE CONCORDANT DOWNREGULATION OF MIR-497 IN CANCER TISSUES AND PLASMA, SUGGESTING THAT PLASMA MIR-497 COULD BE USED AS A DIAGNOSTIC BIOMARKER FOR NASOPHARYNGEAL CARCINOMA. CHRONIC INFLAMMATION PROMOTES GENETIC AND EPIGENETIC ABERRATIONS, WITH VARIOUS PATHOGENESES. THESE CHANGES MAY BE USEFUL BIOMARKERS IN LIQUID BIOPSY FOR EARLY DETECTION AND PREVENTION OF CANCER. 2018 3 3225 33 HELICOBACTER PYLORI INFECTION INTRODUCES DNA DOUBLE-STRAND BREAKS IN HOST CELLS. GASTRIC CANCER IS AN INFLAMMATION-RELATED MALIGNANCY RELATED TO LONG-STANDING ACUTE AND CHRONIC INFLAMMATION CAUSED BY INFECTION WITH THE HUMAN BACTERIAL PATHOGEN HELICOBACTER PYLORI. INFLAMMATION CAN RESULT IN GENOMIC INSTABILITY. HOWEVER, THERE ARE CONSIDERABLE DATA THAT H. PYLORI ITSELF CAN ALSO PRODUCE GENOMIC INSTABILITY BOTH DIRECTLY AND THROUGH EPIGENETIC PATHWAYS. OVERALL, THE MECHANISMS OF H. PYLORI-INDUCED HOST GENOMIC INSTABILITIES REMAIN POORLY UNDERSTOOD. WE USED MICROARRAY SCREENING OF H. PYLORI-INFECTED HUMAN GASTRIC BIOPSY SPECIMENS TO IDENTIFY CANDIDATE GENES INVOLVED IN H. PYLORI-INDUCED HOST GENOMIC INSTABILITIES. WE FOUND UPREGULATION OF ATM EXPRESSION IN VIVO IN GASTRIC MUCOSAL CELLS INFECTED WITH H. PYLORI. USING GASTRIC CANCER CELL LINES, WE CONFIRMED THAT THE H. PYLORI-RELATED ACTIVATION OF ATM WAS DUE TO THE ACCUMULATION OF DNA DOUBLE-STRAND BREAKS (DSBS). DSBS WERE OBSERVED FOLLOWING INFECTION WITH BOTH CAG PATHOGENICITY ISLAND (PAI)-POSITIVE AND -NEGATIVE STRAINS, BUT THE EFFECT WAS MORE ROBUST WITH CAG PAI-POSITIVE STRAINS. THESE RESULTS ARE CONSISTENT WITH THE FACT THAT INFECTIONS WITH BOTH CAG PAI-POSITIVE AND -NEGATIVE STRAINS ARE ASSOCIATED WITH GASTRIC CARCINOGENESIS, BUT THE RISK IS HIGHER IN INDIVIDUALS INFECTED WITH CAG PAI-POSITIVE STRAINS. 2014 4 2994 33 GENETIC PATHOGENESIS OF INFLAMMATION-ASSOCIATED CANCERS IN DIGESTIVE ORGANS. EPIDEMIOLOGICAL, CLINICAL, AND BIOLOGICAL STUDIES CONVINCINGLY DEMONSTRATE THAT CHRONIC INFLAMMATION PREDISPOSES TO THE DEVELOPMENT OF HUMAN CANCERS. IN DIGESTIVE ORGANS, INFLAMMATION-ASSOCIATED CANCERS INCLUDE COLITIS-ASSOCIATED COLORECTAL CANCERS, HELICOBACTER PYLORI-ASSOCIATED GASTRIC CANCER, AS WELL AS BARRETT'S ESOPHAGUS AND ESOPHAGEAL ADENOCARCINOMA ASSOCIATED WITH CHRONIC DUODENOGASTRIC-ESOPHAGEAL REFLUX. CANCER IS A GENOMIC DISEASE, AND STEPWISE ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR-RELATED GENES LEADS TO THE DEVELOPMENT OF TUMOR CELLS. RECENT GENOME ANALYSES SHOW THAT GENETIC ALTERATIONS, WHICH ARE EVOKED BY INFLAMMATION, ARE LATENTLY ACCUMULATED IN INFLAMED EPITHELIAL CELLS OF DIGESTIVE ORGANS. PRODUCTION OF REACTIVE OXYGEN AND ABERRANT EXPRESSION OF ACTIVATION-INDUCED CYTIDINE DEAMINASE, A NUCLEOTIDE-EDITING ENZYME, COULD BE INDUCED IN INFLAMED GASTROINTESTINAL EPITHELIAL CELLS AND PLAY A ROLE AS A GENOMIC MODULATOR OF INFLAMMATION-ASSOCIATED CARCINOGENESIS. UNDERSTANDING THE MOLECULAR LINKAGE BETWEEN INFLAMMATION AND GENETIC ALTERATIONS WILL OPEN UP A NEW FIELD OF TUMOR BIOLOGY AND PROVIDE A NOVEL STRATEGY FOR THE PREVENTION OF INFLAMMATION-ASSOCIATED TUMORIGENESIS. 2021 5 4114 34 MECHANISMS FOR THE INDUCTION OF GASTRIC CANCER BY HELICOBACTER PYLORI INFECTION: ABERRANT DNA METHYLATION PATHWAY. MULTIPLE PATHOGENIC MECHANISMS BY WHICH HELICOBACTER PYLORI INFECTION INDUCES GASTRIC CANCER HAVE BEEN ESTABLISHED IN THE LAST TWO DECADES. IN PARTICULAR, ABERRANT DNA METHYLATION IS INDUCED IN MULTIPLE DRIVER GENES, WHICH INACTIVATES THEM. METHYLATION PROFILES IN GASTRIC CANCER ARE ASSOCIATED WITH SPECIFIC SUBTYPES, SUCH AS MICROSATELLITE INSTABILITY. RECENT COMPREHENSIVE AND INTEGRATED ANALYSES SHOWED THAT MANY CANCER-RELATED PATHWAYS ARE MORE FREQUENTLY ALTERED BY ABERRANT DNA METHYLATION THAN BY MUTATIONS. ABERRANT DNA METHYLATION CAN EVEN BE PRESENT IN NONCANCEROUS GASTRIC MUCOSAE, PRODUCING AN "EPIGENETIC FIELD FOR CANCERIZATION." MECHANISTICALLY, H. PYLORI-INDUCED CHRONIC INFLAMMATION, BUT NOT H. PYLORI ITSELF, PLAYS A DIRECT ROLE IN THE INDUCTION OF ABERRANT DNA METHYLATION. THE EXPRESSION OF THREE INFLAMMATION-RELATED GENES, IL1B, NOS2, AND TNF, IS HIGHLY ASSOCIATED WITH THE INDUCTION OF ABERRANT DNA METHYLATION. IMPORTANTLY, THE DEGREE OF ACCUMULATED ABERRANT DNA METHYLATION IS STRONGLY CORRELATED WITH GASTRIC CANCER RISK. A RECENT MULTICENTER PROSPECTIVE COHORT STUDY DEMONSTRATED THE UTILITY OF EPIGENETIC CANCER RISK DIAGNOSIS FOR METACHRONOUS GASTRIC CANCER. SUPPRESSION OF ABERRANT DNA METHYLATION BY A DEMETHYLATING AGENT WAS SHOWN TO INHIBIT GASTRIC CANCER DEVELOPMENT IN AN ANIMAL MODEL. INDUCTION OF ABERRANT DNA METHYLATION IS THE MAJOR PATHWAY BY WHICH H. PYLORI INFECTION INDUCES GASTRIC CANCER, AND THIS CAN BE UTILIZED FOR TRANSLATIONAL OPPORTUNITIES. 2017 6 1540 37 DNA METHYLATION IN GASTRIC CANCER, RELATED TO HELICOBACTER PYLORI AND EPSTEIN-BARR VIRUS. GASTRIC CANCER IS A LEADING CAUSE OF CANCER DEATH WORLDWIDE, AND SIGNIFICANT EFFORT HAS BEEN FOCUSED ON CLARIFYING THE PATHOLOGY OF GASTRIC CANCER. IN PARTICULAR, THE DEVELOPMENT OF GENOME-WIDE ANALYSIS TOOLS HAS ENABLED THE DETECTION OF GENETIC AND EPIGENETIC ALTERATIONS IN GASTRIC CANCER; FOR EXAMPLE, ABERRANT DNA METHYLATION IN GENE PROMOTER REGIONS IS THOUGHT TO PLAY A CRUCIAL ROLE IN GASTRIC CARCINOGENESIS. THE ETIOLOGICAL VIEWPOINT IS ALSO ESSENTIAL FOR THE STUDY OF GASTRIC CANCERS, AND TWO DISTINCT PATHOGENS, HELICOBACTER PYLORI (H. PYLORI) AND EPSTEIN-BARR VIRUS (EBV), ARE KNOWN TO PARTICIPATE IN GASTRIC CARCINOGENESIS. CHRONIC INFLAMMATION OF THE GASTRIC EPITHELIUM DUE TO H. PYLORI INFECTION INDUCES ABERRANT POLYCLONAL METHYLATION THAT MAY LEAD TO AN INCREASED RISK OF GASTRIC CANCER. IN ADDITION, EBV INFECTION IS KNOWN TO CAUSE EXTENSIVE METHYLATION, AND EBV-POSITIVE GASTRIC CANCERS DISPLAY A HIGH METHYLATION EPIGENOTYPE, IN WHICH ABERRANT METHYLATION EXTENDS TO NOT ONLY POLYCOMB REPRESSIVE COMPLEX (PRC)-TARGET GENES IN EMBRYONIC STEM CELLS BUT ALSO NON-PRC-TARGET GENES. HERE, WE REVIEW ABERRANT DNA METHYLATION IN GASTRIC CANCER AND THE ASSOCIATION BETWEEN METHYLATION AND INFECTION WITH H. PYLORI AND EBV. 2014 7 2377 41 EPIGENETIC REGULATION OF TUMOR SUPPRESSORS BY HELICOBACTER PYLORI ENHANCES EBV-INDUCED PROLIFERATION OF GASTRIC EPITHELIAL CELLS. HELICOBACTER PYLORI AND EPSTEIN-BARR VIRUS (EBV) ARE TWO WELL-KNOWN CONTRIBUTORS TO CANCER AND CAN ESTABLISH LIFELONG PERSISTENT INFECTION IN THE HOST. THIS LEADS TO CHRONIC INFLAMMATION, WHICH ALSO CONTRIBUTES TO DEVELOPMENT OF CANCER. ASSOCIATION WITH H. PYLORI INCREASES THE RISK OF GASTRIC CARCINOMA, AND COEXISTENCE WITH EBV ENHANCES PROLIFERATION OF INFECTED CELLS. FURTHER, H. PYLORI-EBV COINFECTION CAUSES CHRONIC INFLAMMATION IN PEDIATRIC PATIENTS. WE HAVE ESTABLISHED AN H. PYLORI-EBV COINFECTION MODEL SYSTEM USING HUMAN GASTRIC EPITHELIAL CELLS. WE SHOWED THAT H. PYLORI INFECTION CAN INCREASE THE ONCOGENIC PHENOTYPE OF EBV-INFECTED CELLS AND THAT THE CYTOTOXIN-ASSOCIATED GENE (CAGA) PROTEIN ENCODED BY H. PYLORI STIMULATED EBV-MEDIATED CELL PROLIFERATION IN THIS COINFECTION MODEL SYSTEM. THIS LED TO INCREASED EXPRESSION OF DNA METHYL TRANSFERASES (DNMTS), WHICH REPROGRAMMED CELLULAR TRANSCRIPTIONAL PROFILES, INCLUDING THOSE OF TUMOR SUPPRESSOR GENES (TSGS), THROUGH HYPERMETHYLATION. THESE FINDINGS PROVIDE NEW INSIGHTS INTO A MOLECULAR MECHANISM WHEREBY COOPERATIVITY BETWEEN TWO ONCOGENIC AGENTS LEADS TO ENHANCED ONCOGENIC ACTIVITY OF GASTRIC CANCER CELLS.IMPORTANCE WE HAVE STUDIED THE COOPERATIVITY BETWEEN H. PYLORI AND EBV, TWO KNOWN ONCOGENIC AGENTS. THIS LED TO AN ENHANCED ONCOGENIC PHENOTYPE IN GASTRIC EPITHELIAL CELLS. WE NOW DEMONSTRATE THAT EBV-DRIVEN EPIGENETIC MODIFICATIONS ARE ENHANCED IN THE PRESENCE OF H. PYLORI, MORE SPECIFICALLY, IN THE PRESENCE OF ITS CAGA SECRETORY ANTIGEN. THIS RESULTS IN INCREASED PROLIFERATION OF THE INFECTED GASTRIC CELLS. OUR FINDINGS NOW ELUCIDATE A MOLECULAR MECHANISM WHEREBY EXPRESSION OF CELLULAR DNA METHYL TRANSFERASES IS INDUCED INFLUENCING INFECTION BY EBV. HYPERMETHYLATION OF THE REGULATORY GENOMIC REGIONS OF TUMOR SUPPRESSOR GENES RESULTS IN THEIR SILENCING. THIS DRASTICALLY AFFECTS THE EXPRESSION OF CELL CYCLE, APOPTOSIS, AND DNA REPAIR GENES, WHICH DYSREGULATES THEIR ASSOCIATED PROCESSES, AND PROMOTION OF THE ONCOGENIC PHENOTYPE. 2018 8 2943 27 GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES IN GASTRIC CANCER. BOTH GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES INVOLVED IN THE PATHOGENESIS OF GASTRIC CANCER ARE REVIEWED HERE, AND MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS ARE PROPOSED. GASTRIC CARCINOMAS ARE BELIEVED TO EVOLVE FROM NATIVE GASTRIC MUCOSA OR INTESTINAL METAPLASTIC MUCOSA THAT UNDERGOES GENETIC AND EPIGENETIC ALTERATIONS INVOLVING EITHER THE SUPPRESSOR PATHWAY (DEFECTS IN TUMOR SUPPRESSOR GENES) OR MUTATOR PATHWAY (DEFECTS IN DNA MISMATCH REPAIR GENES). METHYLATION OF E-CADHERIN IN NATIVE GASTRIC MUCOSA RESULTS IN UNDIFFERENTIATED CARCINOMAS (SUPPRESSOR PATHWAY), WHILE METHYLATION OF HMLHI RESULTS IN DIFFERENTIATED FOVEOLAR-TYPE CARCINOMAS (MUTATOR PATHWAY). THE MAJORITY OF DIFFERENTIATED GASTRIC CARCINOMAS HOWEVER, ARISE FROM INTESTINAL METAPLASTIC MUCOSA AND EXHIBIT STRUCTURAL ALTERATIONS OF TUMOR SUPPRESSOR GENES, ESPECIALLY P53. THEY APPEAR TO BE RELATED TO CHRONIC INJURY, PERHAPS DUE TO HELICOBACTER PYLORI INFECTION. APPROXIMATELY 20% OF DIFFERENTIATED CARCINOMAS (ORDINARY-TYPE) HAVE EVIDENCE OF MUTATOR PATHWAY TUMORIGENESIS. MUTATIONS OF E-CADHERIN ARE MAINLY INVOLVED IN THE PROGRESSION OF DIFFERENTIATED CARCINOMAS TO UNDIFFERENTIATED TUMORS. THE MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS DEPEND ON THE HISTOLOGICAL BACKGROUND, AND GASTRIC CARCINOMAS SHOW DISTINCT BIOLOGICAL BEHAVIORS AS A RESULT OF DISCERNIBLE CELLULAR GENETIC AND EPIGENETIC ALTERATIONS. 2002 9 5491 32 REVIEW ARTICLE: INFLAMMATION-RELATED PROMOTION OF GASTROINTESTINAL CARCINOGENESIS--A PERIGENETIC PATHWAY. CHRONIC INFLAMMATION HAS BEEN REPORTED TO ACCELERATE NEOPLASMAS IN GASTROINTESTINAL TRACT. CERTAIN BACTERIA INCLUDING HELICOBACTER PYLORI DIRECTLY INTERACT WITH HOST CELLS, INDUCE PROINFLAMMATORY CYTOKINES AND STIMULATE PRODUCTION OF FREE RADICALS. FREE RADICALS CAUSE MUTATIONS IN TARGET CELLS SO THAT NEOPLASTIC CLONES ARE ESTABLISHED. ACCUMULATION OF SUCH GENETIC ALTERATIONS MAY CAUSE MALIGNANT TRANSFORMATION OF SOME ESTABLISHED CLONES. IN ADDITION, INFLAMMATORY ALTERATIONS MAY PROMOTE GROWTH, EXPANSION AND INVASION OF GASTROINTESTINAL EPITHELIAL CELLS. THE LATTER CHANGES CAUSED BY INFLAMMATION MAY OCCUR EVEN WITHOUT FURTHER GENETIC MUTATIONS OR EPIGENETIC ALTERATIONS, AND THEREFORE MAY BE CATEGORIZED AS 'PERIGENETIC ALTERATIONS' OF NEOPLASTIC CELLS. FOR AN EXAMPLE, TUMOUR NECROSIS FACTOR ALPHA (TNF-ALPHA) PLAYS PIVOTAL ROLES NOT ONLY IN THE REDUCTION BUT ALSO IN THE GROWTH, INVASION AND METASTASES OF CERTAIN NEOPLASMAS. OUR STUDIES SHOW THAT TNF-ALPHA INCREASES INTRACELLULAR RADICAL PRODUCTION, DEGRADATES E-CADHERIN / BETA-CATENIN COMPLEX AND PROMOTES DISPERSION AND MIGRATION IN EPITHELIAL CELLS TRANSFORMED WITH AN ACTIVATED SRC ONCOGENE (V-SRC). THESE DATA INDICATE THAT AN INFLAMMATORY CYTOKINE INDUCES THE MALIGNANT POTENTIAL OF SRC-ACTIVATED NEOPLASTIC CELLS. INTERESTINGLY, TNF-ALPHA ALSO INDUCED THESE PHENOTYPIC CHANGES IN NONMUTATED CELLS WHOSE C-SRC WAS ACTIVATED BY TGF-ALPHA, SUGGESTING THAT THE INVASIVE PROPERTIES OF THE CELL WERE NOT NECESSARILY RELATED TO GENE MUTATION. FURTHERMORE, CERTAIN RADICAL SCAVENGERS SUPPRESSED THE INVASIVE PHENOTYPE OF THE CELLS. THESE RESULTS INDICATE THAT PERIGENETIC ALTERATIONS ARE AN IMPORTANT TARGET OF PHARMACOLOGICAL INTERVENTION OF CARCINOGENESIS. 2003 10 2122 37 EPIGENETIC IMPACT OF INFECTION ON CARCINOGENESIS: MECHANISMS AND APPLICATIONS. VIRAL AND BACTERIAL INFECTIONS ARE INVOLVED IN THE DEVELOPMENT OF HUMAN CANCERS, SUCH AS LIVER, NASOPHARYNGEAL, CERVICAL, HEAD AND NECK, AND GASTRIC CANCERS. ABERRANT DNA METHYLATION IS FREQUENTLY PRESENT IN THESE CANCERS, AND SOME OF THE ABERRANTLY METHYLATED GENES ARE CAUSALLY INVOLVED IN CANCER DEVELOPMENT AND PROGRESSION. NOTABLY, ABERRANT DNA METHYLATION CAN BE PRESENT EVEN IN NON-CANCEROUS OR PRECANCEROUS TISSUES, AND ITS LEVELS CORRELATE WITH THE RISK OF CANCER DEVELOPMENT, PRODUCING A SO-CALLED 'EPIGENETIC FIELD FOR CANCERIZATION'. MECHANISTICALLY, MOST VIRAL OR BACTERIAL INFECTIONS INDUCE DNA METHYLATION INDIRECTLY VIA CHRONIC INFLAMMATION, BUT RECENT STUDIES HAVE INDICATED THAT SOME VIRUSES HAVE DIRECT EFFECTS ON THE EPIGENETIC MACHINERY OF HOST CELLS. FROM A TRANSLATIONAL VIEWPOINT, A RECENT MULTICENTER PROSPECTIVE COHORT STUDY DEMONSTRATED THAT ASSESSMENT OF THE EXTENT OF ALTERATIONS IN DNA METHYLATION IN NON-CANCEROUS TISSUES CAN BE USED TO PREDICT CANCER RISK. FURTHERMORE, SUPPRESSION OF ABERRANT DNA METHYLATION WAS SHOWN TO BE A USEFUL STRATEGY FOR CANCER PREVENTION IN AN ANIMAL MODEL. HERE, WE REVIEW THE INVOLVEMENT OF ABERRANT DNA METHYLATION IN VARIOUS TYPES OF INFECTION-ASSOCIATED CANCERS, ALONG WITH INDIVIDUAL INDUCTION MECHANISMS, AND WE DISCUSS THE APPLICATION OF THESE FINDINGS FOR CANCER PREVENTION, DIAGNOSIS, AND THERAPY. 2016 11 1615 34 DNA METHYLTRANSFERASE 3B PLAYS A PROTECTIVE ROLE AGAINST HEPATOCARCINOGENESIS CAUSED BY CHRONIC INFLAMMATION VIA MAINTAINING MITOCHONDRIAL HOMEOSTASIS. MOST HEPATOCELLULAR CARCINOMAS (HCCS) DEVELOP ON THE BASIS OF CHRONIC HEPATITIS, BUT THE MECHANISM OF EPIGENETIC REGULATION IN INFLAMMATORY HEPATOCARCINOGENESIS HAS YET TO BE ELUCIDATED. AMONG DE NOVO DNA METHYLTRANSFERASES (DNMTS), DNMT3B HAS LATELY BEEN REPORTED TO ACT SPECIFICALLY ON ACTIVELY TRANSCRIBED GENES, SUGGESTING THE POSSIBILITY THAT IT PLAYS A ROLE IN THE PATHOGENESIS OF CANCER. WE CONFIRMED THAT DNMT3B ISOFORMS LACKING ITS CATALYTIC DOMAIN WERE HIGHLY EXPRESSED IN HCCS COMPARED WITH NON-TUMOROUS LIVER TISSUE. TO ELUCIDATE THE ROLE OF DNMT3B IN HEPATOCARCINOGENESIS, WE GENERATED A GENETICALLY ENGINEERED MOUSE MODEL WITH HEPATOCYTE-SPECIFIC DNMT3B DELETION. THE LIVER OF THE DNMT3B-DEFICIENT MICE EXHIBITED AN EXACERBATION OF THIOACETAMIDE-INDUCED HEPATITIS, PROGRESSION OF LIVER FIBROSIS AND A HIGHER INCIDENCE OF HCC COMPARED WITH THE LIVER OF THE CONTROL MICE. WHOLE-GENOME BISULFITE SEQUENCING VERIFIED A LOWER CG METHYLATION LEVEL IN THE DNMT3B-DEFICIENT LIVER, DEMONSTRATING DIFFERENTIALLY METHYLATED REGIONS THROUGHOUT THE GENOME. TRANSCRIPTOME ANALYSIS REVEALED DECREASED EXPRESSION OF GENES RELATED TO OXIDATIVE PHOSPHORYLATION IN THE DNMT3B-DEFICIENT LIVER. MOREOVER, PRIMARY HEPATOCYTES ISOLATED FROM THE DNMT3B-DEFICIENT MICE SHOWED REDUCED MITOCHONDRIAL RESPIRATORY CAPACITY, LEADING TO THE ENHANCEMENT OF OXIDATIVE STRESS IN THE LIVER TISSUE. OUR FINDINGS SUGGEST THE PROTECTIVE ROLE OF DNMT3B AGAINST CHRONIC INFLAMMATION AND HCC DEVELOPMENT VIA MAINTAINING MITOCHONDRIAL HOMEOSTASIS. 2020 12 342 42 ALTERATIONS OF DNA METHYLATION ASSOCIATED WITH ABNORMALITIES OF DNA METHYLTRANSFERASES IN HUMAN CANCERS DURING TRANSITION FROM A PRECANCEROUS TO A MALIGNANT STATE. ALTERATIONS OF DNA METHYLATION ARE ONE OF THE MOST CONSISTENT EPIGENETIC CHANGES IN HUMAN CANCERS. HUMAN CANCERS GENERALLY SHOW GLOBAL DNA HYPOMETHYLATION ACCOMPANIED BY REGION-SPECIFIC HYPERMETHYLATION. ALTERATIONS OF DNA METHYLATION MAY RESULT IN CHROMOSOMAL INSTABILITY AS A RESULT OF CHANGES IN CHROMATIN STRUCTURE. DNA HYPERMETHYLATION OF CPG ISLANDS SILENCES VARIOUS TUMOR-RELATED GENES. ALTERATIONS OF DNA METHYLATION ARE FREQUENTLY OBSERVED IN CANCERS ASSOCIATED WITH CHRONIC INFLAMMATION AND/OR PERSISTENT INFECTION WITH VIRUSES OR OTHER PATHOGENIC MICROORGANISMS, SUCH AS HEPATITIS B OR C VIRUSES, EPSTEIN-BARR VIRUS, HUMAN PAPILLOMAVIRUS AND HELICOBACTER PYLORI, OR WITH CIGARETTE SMOKING. ACCUMULATING EVIDENCE SUGGESTS THAT ALTERATIONS OF DNA METHYLATION ARE INVOLVED EVEN IN THE EARLY AND PRECANCEROUS STAGES. ON THE OTHER HAND, IN PATIENTS WITH CANCERS, ABERRANT DNA METHYLATION IS SIGNIFICANTLY ASSOCIATED WITH POORER TUMOR DIFFERENTIATION, TUMOR AGGRESSIVENESS AND POOR PROGNOSIS. PRECANCEROUS CONDITIONS SHOWING ALTERATIONS OF DNA METHYLATION MAY PROGRESS RAPIDLY AND GENERATE MORE MALIGNANT CANCERS. DNA METHYLTRANSFERASE (DNMT) 1 OVER-EXPRESSION IS NOT A SECONDARY RESULT OF INCREASED CELL PROLIFERATIVE ACTIVITY BUT IS SIGNIFICANTLY CORRELATED WITH THE CPG ISLAND METHYLATOR PHENOTYPE, WHICH IS DEFINED AS FREQUENT DNA HYPERMETHYLATION OF C-TYPE CPG ISLANDS THAT ARE USUALLY METHYLATED IN A CANCER-SPECIFIC (NOT AGE-DEPENDENT) MANNER. SPLICING ALTERATION OF DNMT3B MAY RESULT IN CHROMOSOMAL INSTABILITY THROUGH DNA HYPOMETHYLATION OF PERICENTROMERIC SATELLITE REGIONS. ALTERATION OF DNA METHYLATION MAY BECOME AN INDICATOR FOR CARCINOGENETIC RISK ESTIMATION AND EARLY DIAGNOSIS OF CANCERS AND A BIOLOGICAL PREDICTOR OF POOR PROGNOSIS IN PATIENTS WITH CANCERS. CORRECTION OF DNA METHYLATION STATUS MAY OFFER A NEW STRATEGY FOR PREVENTION AND THERAPY OF CANCERS. 2007 13 5276 45 PROMOTER METHYLATION OF TUMOR-RELATED GENES IN GASTRIC CARCINOGENESIS. ABERRANT PROMOTER METHYLATION AND SUBSEQUENT SILENCING OF CANCER-RELATED GENES HAS BEEN RECOGNIZED AS AN IMPORTANT PATHWAY INVOLVED IN GASTRIC CARCINOGENESIS. IN FACT, SEVERAL FACTORS ARE BELIEVED TO CONTRIBUTE TO ITS INDUCTION IN GASTRIC EPITHELIA, INCLUDING AGING, DIET, CHRONIC INFLAMMATION AND INFECTION OF HELICOBACTER PYLORI (H. PYLORI) AND EPSTEIN-BARR VIRUS (EBV). HOWEVER, THE UNDERLING MECHANISMS ARE NOT COMPLETELY IDENTIFIED, DESPITE THE BELIEF THAT INCREASED EXPRESSION OR ACTIVITY OF DNA METHYLTRANSFERASES (DNMTS), OR DECREASED DEMETHYLATION ACTIVITY MAY CONTRIBUTE TO THE EXCESSIVE METHYLATION. A GREAT NUMBER OF GENES WITH PROMOTER METHYLATION HAVE BEEN OBSERVED IN GASTRIC CANCER (GC), AMONG WHICH P16INK4A (P16), MUT L HOMOLOGUE 1 (MLH1), EPITHELIAL-CADHERIN (E-CADHERIN), RUNT-RELATED TRANSCRIPTION FACTOR 3 (RUNX3), ADENOMATOUS POLYPOSIS COLI (APC), O(6)-METHYLGUANINE-DNA METHYLTRANSFERASE (MGMT), RAS ASSOCIATION DOMAIN FAMILY 1A (RASSF1A) AND DEATH-ASSOCIATED PROTEIN KINASE (DAPK) HAVE BEEN EXTENSIVELY STUDIED. UNLIKE THE DISTINCT METHYLATION CHARACTERIZATION IN SINGLE GENES, METHYLATION ANALYSIS OF MULTIPLE GENES MAY PROVIDE MORE INFORMATION IN RISK PREDICTION, EARLY DETECTION, PROGNOSIS ASSESSMENT AND CHEMOTHERAPY CHOICE FOR GC. SPECIFICALLY, PARTICULAR MONITORING AND SCREENING SHOULD BE PERFORMED ON THOSE OVER 45 YEARS OLD, WITH PRECANCEROUS GASTRIC DISEASE OR INFECTION OF H. PYLORI OR EBV. AS AN ALTERNATIVE TO TUMOR TISSUES, METHYLATION DETECTION IN PATIENT SERA OR GASTRIC WASHES MAY ALSO BE USED IN RISK PREDICTION AND EARLY DETECTION. HOWEVER, WHAT STILL POSES A GREAT CHALLENGE AS WELL AS A PUZZLE IS THE DETERMINATION OF THE VERY GENES THAT SHOULD BE USED IN METHYLATION ANALYSIS. BECAUSE EPIGENETIC ALTERATIONS ARE NORMALLY REVERSIBLE, DRUGS OR CHEMICAL COMPOUNDS WITH DEMETHYLATING ACTIVITY, SUCH AS 5-AZA-2'-DEOXYCYTIDINE (5-AZA-DC) COULD BE USED IN THE TREATMENT OF PATIENTS WITH MULTIPLE GENE METHYLATION. IN VIEW OF THE ADVERSE EFFECTS OF 5-AZA-DC, DNMT-TARGETED STRATEGY HAS BEEN PROPOSED AND MAY PROVE TO BE MORE EFFECTIVE THAN DEMETHYLATING AGENTS. 2012 14 4994 36 PERFORMANCE OF DNA METHYLATION ON THE MOLECULAR PATHOGENESIS OF HELICOBACTER PYLORI IN GASTRIC CANCER; TARGETED THERAPY APPROACH. GASTRIC CANCER (GC) IS A SIGNIFICANT CAUSE OF CANCER MORTALITY WHICH HAS LED TO FOCUSED EXPLORATION OF THE PATHOLOGY OF GC. THE ADVENT OF GENOME-WIDE ANALYSIS METHODS HAS MADE IT POSSIBLE TO UNCOVER GENETIC AND EPIGENETIC FLUCTUATION SUCH AS ABNORMAL DNA METHYLATION IN GENE PROMOTER REGIONS THAT IS EXPECTED TO PLAY A KEY ROLE IN GC. THE STUDY OF GASTRIC MALIGNANCIES REQUIRES AN ETIOLOGICAL PERSPECTIVE, AND HELICOBACTER PYLORI (H. PYLORI) WAS IDENTIFIED TO PLAY A ROLE IN GC. H. PYLORI INFECTION CAUSES CHRONIC INFLAMMATION OF THE GASTRIC EPITHELIUM CAUSING ABNORMAL POLYCLONAL METHYLATION, WHICH MIGHT RAISE THE RISK OF GC. IN THE LAST TWO DECADES, VARIOUS PATHOGENIC FACTORS BY WHICH H. PYLORI INFECTION CAUSES GC HAVE BEEN DISCOVERED. ABNORMAL DNA METHYLATION IS TRIGGERED IN SEVERAL GENES, RENDERING THEM INACTIVE. IN GC, METHYLATION PATTERNS ARE LINKED TO CERTAIN SUBTYPES INCLUDING MICROSATELLITE INSTABILITY. MULTIPLE CANCER-RELATED PROCESSES ARE MORE USUALLY CHANGED BY ABNORMAL DNA METHYLATION THAN THROUGH MUTATIONS, ACCORDING TO CURRENT GENERAL AND COMBINED INVESTIGATIONS. FURTHERMORE, THE AMOUNT OF ACQUIRED ABNORMAL DNA METHYLATION IS HEAVILY LINKED TO THE CHANCES OF DEVELOPING GC. THEREFORE, WE INVESTIGATED ABNORMAL DNA METHYLATION IN GC AND THE LINK BETWEEN METHYLATION AND H. PYLORI INFECTION. 2022 15 3221 35 HELICOBACTER PYLORI AND THE MOLECULAR PATHOGENESIS OF INTESTINAL-TYPE GASTRIC CARCINOMA. GASTRIC CARCINOMA IS AN INFLAMMATION-RELATED CANCER CAUSED BY LONG-TERM INFECTION WITH THE HUMAN BACTERIAL PATHOGEN, HELICOBACTER PYLORI. THE PATTERN OF ACUTE-ON-CHRONIC INFLAMMATION CAUSES PROGRESSIVE MUCOSAL DAMAGE WHICH MAY RESULT IN ATROPHY WITH METAPLASTIC EPITHELIA AND EVENTUALLY GASTRIC CANCER. RECENTLY, IT HAS BEEN RECOGNIZED THAT H. PYLORI CAN ALSO CAUSE GENETIC INSTABILITY SUCH AS DOUBLE-STRANDED DNA BREAKS AND CAN PRODUCE GENE ACTIVATION AND SILENCING VIA EPIGENETIC PATHWAYS. AS GENETIC INSTABILITY IS THE HALLMARK OF CANCER, WE HIGHLIGHT RECENT PROGRESS IN UNDERSTANDING THE GASTRIC CARCINOGENESIS IN RELATION TO H. PYLORI-RELATED INFLAMMATION, H. PYLORI-INDUCED DOUBLE-STRANDED DNA BREAKAGE AND ABERRANT GENE EXPRESSION AS WELL AS THE MECHANISMS AND ROLE OF H. PYLORI-ASSOCIATED EPIGENETIC CHANGE IN GENE EXPRESSION. 2014 16 3659 36 INDUCTION OF EPIGENETIC ALTERATIONS BY CHRONIC INFLAMMATION AND ITS SIGNIFICANCE ON CARCINOGENESIS. CHRONIC INFLAMMATION IS DEEPLY INVOLVED IN DEVELOPMENT OF HUMAN CANCERS, SUCH AS GASTRIC AND LIVER CANCERS. INDUCTION OF CELL PROLIFERATION, PRODUCTION OF REACTIVE OXYGEN SPECIES, AND DIRECT STIMULATION OF EPITHELIAL CELLS BY INFLAMMATION-INDUCING FACTORS HAVE BEEN CONSIDERED AS MECHANISMS INVOLVED. INFLAMMATION-RELATED CANCERS ARE KNOWN FOR THEIR MULTIPLE OCCURRENCES, AND ABERRANT DNA METHYLATION IS KNOWN TO BE PRESENT EVEN IN NONCANCEROUS TISSUES. IMPORTANTLY, FOR SOME CANCERS, THE DEGREE OF ACCUMULATION HAS BEEN DEMONSTRATED TO BE CORRELATED WITH RISK OF DEVELOPING CANCERS. THIS INDICATES THAT INFLAMMATION INDUCES ABERRANT EPIGENETIC ALTERATIONS IN A TISSUE EARLY IN THE PROCESS OF CARCINOGENESIS, AND ACCUMULATION OF SUCH ALTERATIONS FORMS "AN EPIGENETIC FIELD FOR CANCERIZATION." THIS ALSO SUGGESTS THAT INHIBITION OF INDUCTION OF EPIGENETIC ALTERATIONS AND REMOVAL OF THE ACCUMULATED ALTERATIONS ARE NOVEL APPROACHES TO CANCER PREVENTION. DISTURBANCES IN CYTOKINE AND CHEMOKINE SIGNALS AND INDUCTION OF CELL PROLIFERATIONS ARE IMPORTANT MECHANISMS OF HOW INFLAMMATION INDUCES ABERRANT DNA METHYLATION. ABERRANT DNA METHYLATION IS INDUCED IN SPECIFIC GENES, AND GENE EXPRESSION LEVELS, THE PRESENCE OF RNA POLYMERASE II (ACTIVE OR STALLED), AND TRIMETHYLATION OF H3K4 ARE INVOLVED IN THE SPECIFICITY. EXPRESSION OF DNA METHYLTRANSFERASES (DNMTS) IS NOT NECESSARILY INDUCED BY INFLAMMATION, AND LOCAL IMBALANCE BETWEEN DNMTS AND FACTORS THAT PROTECT GENES FROM DNA METHYLATION SEEMS TO BE IMPORTANT. 2010 17 1545 37 DNA METHYLATION IN LIVER TUMORIGENESIS IN FISH FROM THE ENVIRONMENT. THE LINK BETWEEN ENVIRONMENT, ALTERATION IN DNA METHYLATION AND CANCER HAS BEEN WELL ESTABLISHED IN HUMANS; YET, IT IS UNDER-STUDIED IN UNSEQUENCED NON-MODEL ORGANISMS. THE OCCURRENCE OF LIVER TUMORS IN THE FLATFISH DAB COLLECTED AT CERTAIN UK SAMPLING SITES EXCEEDS 20%, YET THE CAUSATIVE AGENTS AND THE MOLECULAR MECHANISMS OF TUMOR FORMATION ARE NOT KNOWN, ESPECIALLY REGARDING THE BALANCE BETWEEN EPIGENETIC AND GENETIC FACTORS. METHYLATED DNA IMMUNOPRECIPITATION (MEDIP) COMBINED WITH DE NOVO HIGH-THROUGHPUT DNA SEQUENCING WERE USED TO INVESTIGATE DNA METHYLATION CHANGES IN DAB HEPATOCELLULAR ADENOMA TUMORS FOR THE FIRST TIME IN AN UNSEQUENCED SPECIES. NOVEL CUSTOM-MADE DAB GENE EXPRESSION ARRAYS WERE DESIGNED AND USED TO DETERMINE THE RELATIONSHIP BETWEEN DNA METHYLATION AND GENE EXPRESSION. IN ADDITION, THE CONFIRMATORY TECHNIQUES OF BISULFITE SEQUENCING PCR (BSP) AND RT-PCR WERE APPLIED. GENES INVOLVED IN PATHWAYS RELATED TO CANCER, INCLUDING APOPTOSIS, WNT/BETA-CATENIN SIGNALING AND GENOMIC AND NON-GENOMIC ESTROGEN RESPONSES, WERE ALTERED BOTH IN METHYLATION AND TRANSCRIPTION. GLOBAL METHYLATION WAS STATISTICALLY SIGNIFICANTLY 1.8-FOLD REDUCED IN HEPATOCELLULAR ADENOMA AND NON-CANCEROUS SURROUNDING TISSUES COMPARED WITH LIVER FROM NON-CANCER BEARING DAB. BASED ON THE IDENTIFIED CHANGES AND CHEMICAL EXPOSURE DATA, OUR STUDY SUPPORTS THE EPIGENETIC MODEL OF CANCER. WE HYPOTHESIZE THAT CHRONIC EXPOSURE TO A MIXTURE OF ENVIRONMENTAL CONTAMINANTS CONTRIBUTES TO A GLOBAL HYPOMETHYLATION FOLLOWED BY FURTHER EPIGENETIC AND GENOMIC CHANGES. THE FINDINGS SUGGEST A LINK BETWEEN ENVIRONMENT, EPIGENETICS AND CANCER IN FISH TUMORS IN THE WILD AND SHOW THE UTILITY OF THIS METHODOLOGY FOR STUDIES IN NON-MODEL ORGANISMS. 2011 18 3220 41 HELICOBACTER PYLORI AND MICRORNAS: RELATION WITH INNATE IMMUNITY AND PROGRESSION OF PRENEOPLASTIC CONDITIONS. THE ACCEPTED PARADIGM FOR INTESTINAL-TYPE GASTRIC CANCER PATHOGENESIS IS A MULTISTEP PROGRESSION FROM CHRONIC GASTRITIS INDUCED BY HELICOBACTER PYLORI (H. PYLORI) TO GASTRIC ATROPHY, INTESTINAL METAPLASIA, DYSPLASIA AND ULTIMATELY GASTRIC CANCER. THE GENETIC AND MOLECULAR MECHANISMS UNDERLYING DISEASE PROGRESSION ARE STILL NOT COMPLETELY UNDERSTOOD AS ONLY A FRACTION OF COLONIZED INDIVIDUALS EVER DEVELOP NEOPLASIA SUGGESTING THAT BACTERIAL, HOST AND ENVIRONMENTAL FACTORS ARE INVOLVED. MICRORNAS ARE NONCODING RNAS THAT MAY INFLUENCE H. PYLORI-RELATED PATHOLOGY THROUGH THE REGULATION OF THE TRANSCRIPTION AND EXPRESSION OF VARIOUS GENES, PLAYING AN IMPORTANT ROLE IN INFLAMMATION, CELL PROLIFERATION, APOPTOSIS AND DIFFERENTIATION. INDEED, H. PYLORI HAVE BEEN SHOWN TO MODIFY MICRORNA EXPRESSION IN THE GASTRIC MUCOSA AND MICRORNAS ARE INVOLVED IN THE IMMUNE HOST RESPONSE TO THE BACTERIA AND IN THE REGULATION OF THE INFLAMMATORY RESPONSE. MICRORNAS HAVE A KEY ROLE IN THE REGULATION OF INFLAMMATORY PATHWAYS AND H. PYLORI MAY INFLUENCE INFLAMMATION-MEDIATED GASTRIC CARCINOGENESIS POSSIBLY THROUGH DNA METHYLATION AND EPIGENETIC SILENCING OF TUMOR SUPPRESSOR MICRORNAS. FURTHERMORE, MICRORNAS INFLUENCED BY H. PYLORI ALSO HAVE BEEN FOUND TO BE INVOLVED IN CELL CYCLE REGULATION, APOPTOSIS AND EPITHELIAL-MESENCHYMAL TRANSITION. ALTOGETHER, MICRORNAS SEEM TO HAVE AN IMPORTANT ROLE IN THE PROGRESSION FROM GASTRITIS TO PRENEOPLASTIC CONDITIONS AND NEOPLASTIC LESIONS AND SINCE EACH MICRORNA CAN CONTROL THE EXPRESSION OF HUNDREDS TO THOUSANDS OF GENES, KNOWLEDGE OF MICRORNAS TARGET GENES AND THEIR FUNCTIONS ARE OF PARAMOUNT IMPORTANCE. IN THIS ARTICLE WE PRESENT A COMPREHENSIVE REVIEW ABOUT THE ROLE OF MICRORNAS IN H. PYLORI GASTRIC CARCINOGENESIS, IDENTIFYING THE MICRORNAS DOWNREGULATED AND UPREGULATED IN THE INFECTION AND CLARIFYING THEIR BIOLOGICAL ROLE IN THE LINK BETWEEN IMMUNE HOST RESPONSE, INFLAMMATION, DNA METHYLATION AND GASTRIC CARCINOGENESIS. 2015 19 3824 28 INVESTIGATING THE EPIGENETIC EFFECTS OF A PROTOTYPE SMOKE-DERIVED CARCINOGEN IN HUMAN CELLS. GLOBAL LOSS OF DNA METHYLATION AND LOCUS/GENE-SPECIFIC GAIN OF DNA METHYLATION ARE TWO DISTINCT HALLMARKS OF CARCINOGENESIS. ABERRANT DNA METHYLATION IS IMPLICATED IN SMOKING-RELATED LUNG CANCER. IN THIS STUDY, WE HAVE COMPREHENSIVELY INVESTIGATED THE MODULATION OF DNA METHYLATION CONSEQUENT TO CHRONIC EXPOSURE TO A PROTOTYPE SMOKE-DERIVED CARCINOGEN, BENZO[A]PYRENE DIOL EPOXIDE (B[A]PDE), IN GENOMIC REGIONS OF SIGNIFICANCE IN LUNG CANCER, IN NORMAL HUMAN CELLS. WE HAVE USED A PULLDOWN ASSAY FOR ENRICHMENT OF THE CPG METHYLATED FRACTION OF CELLULAR DNA COMBINED WITH MICROARRAY PLATFORMS, FOLLOWED BY EXTENSIVE VALIDATION THROUGH CONVENTIONAL BISULFITE-BASED ANALYSIS. HERE, WE DEMONSTRATE STRIKINGLY SIMILAR PATTERNS OF DNA METHYLATION IN NON-TRANSFORMED B[A]PDE-TREATED CELLS VS CONTROL USING HIGH-THROUGHPUT MICROARRAY-BASED DNA METHYLATION PROFILING CONFIRMED BY CONVENTIONAL BISULFITE-BASED DNA METHYLATION ANALYSIS. THE ABSENCE OF ABERRANT DNA METHYLATION IN OUR MODEL SYSTEM WITHIN A TIMEFRAME THAT PRECEDES CELLULAR TRANSFORMATION SUGGESTS THAT FOLLOWING CARCINOGEN EXPOSURE, OTHER AS YET UNKNOWN FACTORS (SECONDARY TO CARCINOGEN TREATMENT) MAY HELP INITIATE GLOBAL LOSS OF DNA METHYLATION AND REGION-SPECIFIC GAIN OF DNA METHYLATION, WHICH CAN, IN TURN, CONTRIBUTE TO LUNG CANCER DEVELOPMENT. UNVEILING THE INITIATING EVENTS THAT CAUSE ABERRANT DNA METHYLATION IN LUNG CANCER HAS TREMENDOUS PUBLIC HEALTH RELEVANCE, AS IT CAN HELP DEFINE FUTURE STRATEGIES FOR EARLY DETECTION AND PREVENTION OF THIS HIGHLY LETHAL DISEASE. 2010 20 4539 24 MULTISTAGE CARCINOGENESIS IN MOUSE SKIN. THE MOUSE SKIN MODEL OF MULTISTAGE CARCINOGENESIS HAS FOR MANY YEARS PROVIDED A CONCEPTUAL FRAMEWORK FOR STUDYING CARCINOGENESIS MECHANISMS AND POTENTIAL MEANS FOR INHIBITING SPECIFIC STAGES OF CARCINOGENESIS. THE PROCESS OF SKIN CARCINOGENESIS INVOLVES THE STEPWISE ACCUMULATION OF GENETIC CHANGE ULTIMATELY LEADING TO MALIGNANCY. INITIATION, THE FIRST STEP IN MULTISTAGE SKIN CARCINOGENESIS INVOLVES CARCINOGEN-INDUCED GENETIC CHANGES. A TARGET GENE IDENTIFIED FOR SOME SKIN TUMOR INITIATORS IS C-HA-RAS. THE SECOND STEP, THE PROMOTION STAGE, INVOLVES PROCESSES WHEREBY INITIATED CELLS UNDERGO SELECTIVE CLONAL EXPANSION TO FORM VISIBLE PREMALIGNANT LESIONS TERMED PAPILLOMAS. THE PROCESS OF TUMOR PROMOTION INVOLVES THE PRODUCTION AND MAINTENANCE OF A SPECIFIC AND CHRONIC HYPERPLASIA CHARACTERIZED BY A SUSTAINED CELLULAR PROLIFERATION OF EPIDERMAL CELLS. THESE CHANGES ARE BELIEVED TO RESULT FROM EPIGENETIC MECHANISMS SUCH AS ACTIVATION OF THE CELLULAR RECEPTOR, PROTEIN KINASE C, BY SOME CLASSES OF TUMOR PROMOTERS. THE PROGRESSION STAGE INVOLVES THE CONVERSION OF PAPILLOMAS TO MALIGNANT TUMORS, SQUAMOUS CELL CARCINOMAS. THE ACCUMULATION OF ADDITIONAL GENETIC CHANGES IN CELLS COMPRISING PAPILLOMAS HAS BEEN CORRELATED WITH TUMOR PROGRESSION, INCLUDING TRISOMIES OF CHROMOSOMES 6 AND 7 AND LOSS OF HETEROZYGOSITY. THE CURRENT REVIEW FOCUSES ON THE MECHANISMS INVOLVED IN MULTISTAGE SKIN CARCINOGENESIS, A SUMMARY OF KNOWN INHIBITORS OF SPECIFIC STAGES AND THEIR PROPOSED MECHANISMS OF ACTION, AND THE RELEVANCE OF THIS MODEL SYSTEM TO HUMAN CANCER. 1992