1 5969 135 TERT PROMOTER MUTATIONS IN PRIMARY LIVER TUMORS. NEXT-GENERATION SEQUENCING HAS DRAWN THE GENETIC LANDSCAPE OF HEPATOCELLULAR CARCINOMA AND SEVERAL SIGNALING PATHWAYS ARE ALTERED AT THE DNA LEVEL IN TUMORS: WNT/BETA-CATENIN, CELL CYCLE REGULATOR, EPIGENETIC MODIFIER, HISTONE METHYLTRANSFERASE, OXIDATIVE STRESS, RAS/RAF/MAP KINASE AND AKT/MTOR PATHWAYS. HEPATOCARCINOGENESIS IS A MULTISTEP PROCESS STARTING WITH THE EXPOSURE TO DIFFERENT RISK FACTORS, FOLLOWED BY THE DEVELOPMENT OF A CHRONIC LIVER DISEASE AND CIRRHOSIS PRECEDE IN THE VAST MAJORITY OF THE CASES THE DEVELOPMENT OF HCC. SEVERAL LINES OF EVIDENCE HAVE UNDERLINED THE PIVOTAL ROLE OF TELOMERE MAINTENANCE IN BOTH CIRRHOSIS AND HCC PATHOGENESIS. TERT PROMOTER MUTATIONS WERE IDENTIFIED AS THE MOST FREQUENT GENETIC ALTERATIONS IN HEPATOCELLULAR CARCINOMA WITH AN OVERALL FREQUENCY AROUND 60%. MOREOVER, IN CIRRHOSIS, TERT PROMOTER MUTATIONS ARE OBSERVED AT THE EARLY STEPS OF HEPATOCARCINOGENESIS SINCE THEY ARE RECURRENTLY IDENTIFIED IN LOW-GRADE AND HIGH-GRADE DYSPLASTIC NODULES. IN CONTRAST, ACQUISITION OF GENOMIC DIVERSITY THROUGH MUTATIONS OF CLASSICAL ONCOGENES AND TUMOR SUPPRESSOR GENES (TP53, CTNNB1, ARID1A...) OCCURRED ONLY IN PROGRESSED HCC. IN NORMAL LIVER, A SUBSET OF HCC CAN DERIVED FROM THE MALIGNANT TRANSFORMATION OF HEPATOCELLULAR ADENOMA (HCA). IN HCA, CTNNB1 MUTATIONS PREDISPOSE TO TRANSFORMATION OF HCA IN HCC AND TERT PROMOTER MUTATIONS ARE REQUIRED IN MOST OF THE CASES AS A SECOND HIT FOR A FULL MALIGNANT TRANSFORMATION. ALL THESE FINDINGS HAVE REFINED OUR KNOWLEDGE OF HCC PATHOGENESIS AND HAVE POINTED TELOMERASE AS A TARGET FOR TAILORED THERAPY IN THE FUTURE. 2016 2 5360 37 RECENT ADVANCEMENTS IN COMPREHENSIVE GENETIC ANALYSES FOR HUMAN HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) TYPICALLY DEVELOPS IN THE LIVER WITH CHRONIC HEPATITIS AND CIRRHOSIS, AND ACTIVATION OF ONCOGENES AND INACTIVATION OF TUMOR SUPPRESSOR GENES OCCURS DURING CARCINOGENESIS VIA GENETIC AND EPIGENETIC MECHANISMS. RECENT ADVANCEMENTS IN THE DEVELOPMENT OF ANALYSES FOR EXAMINING THE CANCER GENOME HAVE REVEALED INFORMATION REGARDING GENETIC ALTERATIONS IN HCC TISSUES. ACCORDING TO PREVIOUS STUDIES, THE INCIDENCE OF RECURRENT GENETIC ALTERATIONS IN INDIVIDUAL GENES WAS THOUGHT TO BE RELATIVELY RARE AND LIMITED TO A SUBSET OF A FEW CANCER-SPECIFIC GENES SUCH AS TUMOR SUPPRESSOR P53, RB GENES AND ONCOGENES SUCH AS CTNNB1. HOWEVER, RECENT WHOLE-GENOME ANALYSES AND EXOME SEQUENCING OF TUMOR DNA HAVE REVEALED NUMEROUS NOVEL ALTERATIONS OF CANCER-RELATED GENES AND PATHWAYS CRITICAL FOR HCC DEVELOPMENT. IN ADDITION, VARIOUS RISK FACTORS FOR HCC, SUCH AS THE PRESENCE OR ABSENCE OF HEPATITIS B AND C VIRUS, MAY AFFECT THE MUTATION PROFILE OF THE CORRESPONDING CANCER GENOME. ON THE OTHER HAND, GENOME-WIDE ASSOCIATION STUDIES HAVE ALSO IDENTIFIED IMPORTANT SINGLE-NUCLEOTIDE POLYMORPHISMS INVOLVED IN HCC DEVELOPMENT, WHICH MAY ALLOW DETECTION OF A GROUP AT HIGH RISK OF HCC EMERGENCE. SUCH ANALYSES WILL CLARIFY HOW THIS MALIGNANCY CAN BE TREATED, DIAGNOSED AND PREVENTED MORE EFFECTIVELY. 2013 3 1543 34 DNA METHYLATION IN HEPATOCELLULAR CARCINOMA. AS FOR MANY OTHER TUMORS, DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC) MUST BE UNDERSTOOD AS A MULTISTEP PROCESS WITH ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS IN REGULATORY GENES, LEADING TO ACTIVATION OF ONCOGENES AND INACTIVATION OR LOSS OF TUMOR SUPPRESSOR GENES (TSG). IN THE LAST DECADES, IN ADDITION TO GENETIC ALTERATIONS, EPIGENETIC INACTIVATION OF (TUMOR SUPPRESSOR) GENES BY PROMOTER HYPERMETHYLATION HAS BEEN RECOGNIZED AS AN IMPORTANT AND ALTERNATIVE MECHANISM IN TUMORIGENESIS. IN HCC, ABERRANT METHYLATION OF PROMOTER SEQUENCES OCCURS NOT ONLY IN ADVANCED TUMORS, IT HAS BEEN ALSO OBSERVED IN PREMALIGNANT CONDITIONS JUST AS CHRONIC VIRAL HEPATITIS B OR C AND CIRRHOTIC LIVER. THIS REVIEW DISCUSSES THE EPIGENETIC ALTERATIONS IN HEPATOCELLULAR CARCINOMA FOCUSING DNA METHYLATION. 2008 4 4134 43 MECHANISMS OF HUMAN HEPATOCARCINOGENESIS. THE MAJOR RISK FACTORS AND ETIOLOGICAL AGENTS RESPONSIBLE FOR DEVELOPMENT OF HEPATOCELLULAR CARCINOMA IN HUMANS HAVE BEEN IDENTIFIED AND CHARACTERIZED. AMONG THESE ARE CHRONIC INFECTION WITH HEPATITIS B VIRUS OR HEPATITIS C VIRUS, EXPOSURE TO AFLATOXIN B1, AND CIRRHOSIS OF ANY ETIOLOGY (INCLUDING ALCOHOLIC CIRRHOSIS AND CIRRHOSIS ASSOCIATED WITH GENETIC LIVER DISEASES). BOTH CHRONIC HEPATITIS AND CIRRHOSIS REPRESENT MAJOR PRENEOPLASTIC CONDITIONS OF THE LIVER AS THE MAJORITY OF HEPATOCELLULAR CARCINOMAS ARISE IN THESE PATHOLOGICAL SETTINGS. HEPATOCARCINOGENESIS REPRESENTS A LINEAR AND PROGRESSIVE PROCESS IN WHICH SUCCESSIVELY MORE ABERRANT MONOCLONAL POPULATIONS OF HEPATOCYTES EVOLVE. REGENERATIVE HEPATOCYTES IN FOCAL LESIONS IN THE INFLAMED LIVER (CHRONIC HEPATITIS OR CIRRHOSIS) GIVE RISE TO HYPERPLASTIC HEPATOCYTE NODULES, AND THESE PROGRESS TO DYSPLASTIC NODULES, WHICH ARE THOUGHT TO BE THE DIRECT PRECURSOR OF HEPATOCELLULAR CARCINOMA. IN MOST CASES, THE NEOPLASTIC TRANSFORMATION OF HEPATOCYTES RESULTS FROM ACCUMULATION OF GENETIC DAMAGE DURING THE REPETITIVE CELLULAR PROLIFERATION THAT OCCURS IN THE INJURED LIVER IN RESPONSE TO PARACRINE GROWTH FACTOR AND CYTOKINE STIMULATION. HEPATOCELLULAR CARCINOMAS EXHIBIT NUMEROUS GENETIC ABNORMALITIES (INCLUDING CHROMOSOMAL DELETIONS, REARRANGEMENTS, ANEUPLOIDY, GENE AMPLIFICATIONS, AND MUTATIONS), AS WELL AS EPIGENETIC ALTERATIONS (INCLUDING MODULATION OF DNA METHYLATION). THESE GENETIC AND EPIGENETIC ALTERATIONS COMBINE TO ACTIVATE POSITIVE MEDIATORS OF CELLULAR PROLIFERATION (INCLUDING CELLULAR PROTO-ONCOGENES AND THEIR MITOGENIC SIGNALING PATHWAYS) AND INACTIVATE NEGATIVE MEDIATORS OF CELLULAR PROLIFERATION (INCLUDING TUMOR SUPPRESSOR GENES), RESULTING IN CELLS WITH AUTONOMOUS GROWTH POTENTIAL. HOWEVER, HEPATOCELLULAR CARCINOMAS EXHIBIT A HIGH DEGREE OF GENETIC HETEROGENEITY, SUGGESTING THAT MULTIPLE MOLECULAR PATHWAYS MAY BE INVOLVED IN THE GENESIS OF SUBSETS OF HEPATOCELLULAR NEOPLASMS. CONTINUED INVESTIGATION OF THE MECHANISMS OF HEPATOCARCINOGENESIS WILL REFINE OUR CURRENT UNDERSTANDING OF THE MOLECULAR AND CELLULAR BASIS FOR NEOPLASTIC TRANSFORMATION IN LIVER, ENABLING THE DEVELOPMENT OF EFFECTIVE STRATEGIES FOR PREVENTION AND/OR MORE EFFECTIVE TREATMENT OF HEPATOCELLULAR CARCINOMA. 2003 5 3567 39 IMPACT OF HEPATITIS VIRUS AND AGING ON DNA METHYLATION IN HUMAN HEPATOCARCINOGENESIS. HEPATOCELLULAR CARCINOMA (HCC) USUALLY DEVELOPS ON THE BASIS OF CHRONIC HEPATITIS AND LIVER CIRRHOSIS, WHERE INACTIVATION OF SEVERAL TUMOR SUPPRESSOR GENES (TSGS) TAKES PLACE VIA METHYLATION OF THE PROMOTER. INTERESTINGLY, THESE METHYLATION EVENTS ARE MORE PREVALENT IN A BACKGROUND LIVER AT HIGH RISK OF HCC THAN ONE AT LOW RISK. ABNORMAL METHYLATION IS ALSO OBSERVED IN PRECANCEROUS NODULES SUCH AS DYSPLASTIC NODULES AND ADENOMAS, SUGGESTING THAT EPIGENETIC ALTERATION IS AN EARLY EVENT FOR HCC CARCINOGENESIS. IT IS POSSIBLE THAT INFECTION WITH THE HEPATITIS VIRUS INDUCES ALTERATION OF METHYLATION AT PROMOTERS OF TSGS. SOME STUDIES SUGGESTED THAT VIRAL PROTEINS INTERFERE WITH DNA METHYLTRANSFERASE IN CHRONIC HEPATITIS B. INDUCTION OF EPIGENETIC ALTERATION IN CHRONIC HEPATITIS C MIGHT, HOWEVER, MIGHT BE A CONSEQUENCE OF OXIDATIVE STRESS. IN ADDITION, WE PROPOSED AGE SHOULD BE TAKEN INTO CONSIDERATION FOR HCC DEVELOPMENT VIA EPIGENETIC PATHWAYS. FURTHER INVESTIGATIONS ARE REQUIRED TO UNDERSTAND THE MECHANISM OF INDUCING EPIGENETIC INSTABILITY DURING HEPATOCARCINOGENESIS. 2010 6 4477 35 MOLECULAR PATHOGENESIS OF HUMAN HEPATOCELLULAR CARCINOMA. HEPATOCARCINOGENESIS IS A SLOW PROCESS DURING WHICH GENOMIC CHANGES PROGRESSIVELY ALTER THE HEPATOCELLULAR PHENOTYPE TO PRODUCE CELLULAR INTERMEDIATES THAT EVOLVE INTO HEPATOCELLULAR CARCINOMA. DURING THE LONG PRENEOPLASTIC STAGE, IN WHICH THE LIVER IS OFTEN THE SITE OF CHRONIC HEPATITIS, CIRRHOSIS, OR BOTH, HEPATOCYTE CYCLING IS ACCELERATED BY UPREGULATION OF MITOGENIC PATHWAYS, IN PART THROUGH EPIGENETIC MECHANISMS. THIS LEADS TO THE PRODUCTION OF MONOCLONAL POPULATIONS OF ABERRANT AND DYSPLASTIC HEPATOCYTES THAT HAVE TELOMERE EROSION AND TELOMERASE RE-EXPRESSION, SOMETIMES MICROSATELLITE INSTABILITY, AND OCCASIONALLY STRUCTURAL ABERRATIONS IN GENES AND CHROMOSOMES. DEVELOPMENT OF DYSPLASTIC HEPATOCYTES IN FOCI AND NODULES AND EMERGENCE OF HEPATOCELLULAR CARCINOMA ARE ASSOCIATED WITH THE ACCUMULATION OF IRREVERSIBLE STRUCTURAL ALTERATIONS IN GENES AND CHROMOSOMES, BUT THE GENOMIC BASIS OF THE MALIGNANT PHENOTYPE IS HETEROGENEOUS. THE MALIGNANT HEPATOCYTE PHENOTYPE MAY BE PRODUCED BY THE DISRUPTION OF A NUMBER OF GENES THAT FUNCTION IN DIFFERENT REGULATORY PATHWAYS, PRODUCING SEVERAL MOLECULAR VARIANTS OF HEPATOCELLULAR CARCINOMA. NEW STRATEGIES SHOULD ENABLE THESE VARIANTS TO BE CHARACTERIZED. 2002 7 2970 50 GENETIC AND EPIGENETIC SIGNATURES IN HUMAN HEPATOCELLULAR CARCINOMA: A SYSTEMATIC REVIEW. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD MOST COMMON CAUSE OF CANCER DEATHS WORLDWIDE, AND THE INCIDENCE OF THIS FATAL DISEASE IS STILL ON RISE. THE MAJORITY OF HCCS EMERGE IN THE BACKGROUND OF A CHRONIC LIVER DISEASE, SUCH AS CHRONIC HEPATITIS AND LIVER CIRRHOSIS. THE CURRENT UNDERSTANDING IS THAT MAJORITY OF HCCS EVOLVE AS A CONSEQUENCE OF CHRONIC INFLAMMATION AND DUE TO THE PRESENCE OF INFECTION WITH HEPATITIS VIRUSES. THESE UNDERLYING PATHOGENIC STIMULI SUBSEQUENTLY INDUCE A SPECTRUM OF GENETIC AND EPIGENETIC ALTERATIONS IN SEVERAL CANCER-RELATED GENES, WHICH ARE INVOLVED IN CELL-CYCLE REGULATION, CELL GROWTH AND ADHESION. SUCH WIDESPREAD GENOMIC ALTERATIONS CAUSE DISRUPTION OF NORMAL CELLULAR SIGNALING AND FINALLY LEAD TO THE ACQUISITION OF A MALIGNANT PHENOTYPE IN HCC. IN GENERAL, THE TYPE OF GENE ALTERATIONS, SUCH AS POINT MUTATIONS, DELETION OF CHROMOSOMAL REGIONS AND ABNORMAL METHYLATION OF GENE PROMOTERS DIFFER ACCORDING TO THE INDIVIDUAL TARGETED GENE. IN HCC, INCIDENCE OF GENETIC ALTERATIONS IS RELATIVELY RARE AND IS LIMITED TO A SUBSET OF FEW CANCER-SPECIFIC GENES, SUCH AS THE TUMOR SUPPRESSOR P53, RB GENES AND ONCOGENES SUCH AS THE CTNNB1. IN CONTRAST, EPIGENETIC CHANGES THAT INVOLVE ABERRANT METHYLATION OF GENES AND OTHER POST-TRANSCRIPTIONAL HISTONE MODIFICATIONS OCCUR FAR MORE FREQUENTLY, AND SOME OF THESE EPIGENETIC ALTERATIONS ARE NOW BEING EXPLOITED FOR THE DEVELOPMENT OF MOLECULAR DIAGNOSTIC SIGNATURES FOR HCC. IN ADDITION, RECENT FINDINGS OF UNIQUE MICRORNA EXPRESSION PROFILES ALSO PROVIDE AN EVIDENCE FOR THE EXISTENCE OF NOVEL MECHANISMS FOR GENE EXPRESSION REGULATION IN HCC. IN THIS REVIEW ARTICLE, WE WILL REVIEW THE CURRENT STATE OF KNOWLEDGE ON THE ACTIVATION OF VARIOUS ONCOGENIC PATHWAYS AND THE INACTIVATION OF TUMOR SUPPRESSOR PATHWAYS IN HCC THAT RESULT IN THE DISRUPTION OF CANCER-RELATED GENE FUNCTION. IN ADDITION, WE WILL SPECIFICALLY EMPHASIZE THE CLINICAL IMPLICATION OF SOME OF THESE GENETIC AND EPIGENETIC ALTERATIONS IN THE MANAGEMENT OF HEPATOCARCINOGENESIS. 2011 8 4476 35 MOLECULAR PATHOGENESIS OF HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) IS THE FIFTH MOST COMMON CANCER AND THE THIRD LEADING CAUSE OF CANCER DEATH WORLDWIDE. HEPATOCARCINOGENESIS IS A MULTISTEP PROCESS EVOLVING FROM NORMAL THROUGH CHRONIC HEPATITIS/CIRRHOSIS AND DYSPLASTIC NODULES TO HCC. WITH ADVANCES IN MOLECULAR METHODS, THERE IS A GROWING UNDERSTANDING OF THE MOLECULAR MECHANISMS IN HEPATOCARCINOGENESIS. HEPATOCARCINOGENESIS IS STRONGLY LINKED TO INCREASES IN ALLELIC LOSSES, CHROMOSOMAL CHANGES, GENE MUTATIONS, EPIGENETIC ALTERATIONS AND ALTERATIONS IN MOLECULAR CELLULAR PATHWAYS. SOME OF THESE ALTERATIONS ARE ACCOMPANIED BY A STEPWISE INCREASE IN THE DIFFERENT PATHOLOGICAL DISEASE STAGES IN HEPATOCARCINOGENESIS. OVERALL, A DETAILED UNDERSTANDING OF THE UNDERLYING MOLECULAR MECHANISMS INVOLVED IN THE PROGRESSION OF HCC IS OF FUNDAMENTAL IMPORTANCE TO THE DEVELOPMENT OF EFFECTIVE PREVENTION AND TREATMENT REGIMES FOR HCC. 2008 9 332 41 ALTERATION OF EPIGENETIC PROFILE IN HUMAN HEPATOCELLULAR CARCINOMA AND ITS CLINICAL IMPLICATIONS. HEPATOCELLULAR CARCINOMA (HCC) IS A COMMON CANCER WORLDWIDE AND DEVELOPS AGAINST A BACKGROUND OF CHRONIC LIVER DAMAGE. A VARIETY OF HCC-RELATED GENES ARE KNOWN TO BE ALTERED BY GENETIC AND EPIGENETIC MECHANISMS. THEREFORE, INFORMATION REGARDING ALTERATION OF THE GENETIC AND EPIGENETIC PROFILES IN HCC IS ESSENTIAL FOR UNDERSTANDING THE BIOLOGY OF THIS TYPE OF TUMOR. METHYLATION AT CPG SITES IN GENE PROMOTERS IS KNOWN TO AFFECT THE TRANSCRIPTION OF THE CORRESPONDING GENES. ABNORMAL REGIONAL HYPERMETHYLATION IS OBSERVED IN THE 5' REGION OF SEVERAL TUMOR SUPPRESSOR GENES (TSGS) IN HCC, AND THIS HYPERMETHYLATION MAY PROMOTE CARCINOGENESIS THROUGH THE TRANSCRIPTIONAL INACTIVATION OF DOWNSTREAM TSGS. THE DNA DAMAGE INDUCED BY OXIDATION IS A TRIGGER OF ABNORMAL DNA METHYLATION AND INACTIVATION OF TSGS THROUGH RECRUITMENT OF THE POLYCOMB REPRESSIVE COMPLEX TO THE PROMOTER SEQUENCE. THUS, OXIDATIVE STRESS MAY BE RESPONSIBLE FOR THE EMERGENCE OF HCC FROM CHRONIC HEPATITIS AND LIVER CIRRHOSIS THROUGH THE EPIGENETIC ALTERATION OF TSGS. THERE HAVE BEEN SEVERAL ATTEMPTS TO APPLY EPIGENETIC INFORMATION TO THE DIAGNOSIS AND TREATMENT OF HCC. THE PREDICTIVE VALUE OF SELECTED METHYLATION EVENTS ON SURVIVAL IN HCC PATIENTS HAS BEEN REPORTED, AND THE METHYLATION PROFILE OF BACKGROUND LIVER COULD BE ASSOCIATED WITH RECURRENCE-FREE SURVIVAL OF HCC PATIENTS WHO HAVE UNDERGONE HEPATECTOMY. ANOTHER STUDY DETECTED METHYLATED DNA FROM HCC CELLS IN SERUM, AND THE CIRCULATING TUMOR DNA WAS REGARDED AS A POTENTIAL TUMOR MARKER. IN ADDITION, SEVERAL TRIALS OF HCC THERAPY HAVE TARGETED THE EPIGENETIC MACHINERY AND WERE BASED UPON COMPREHENSIVE ANALYSES OF DNA METHYLATION OF THIS TYPE OF TUMOR. HERE, WE PRESENT AN OVERVIEW OF RESEARCH REGARDING DNA METHYLATION STATUS IN HUMAN HCC AND DESCRIBE THE CLINICAL APPLICATION OF EPIGENETIC INFORMATION TO HCC. 2014 10 4920 32 PARALLEL EPIGENETIC AND GENETIC CHANGES IN THE PATHOGENESIS OF HEPATITIS VIRUS-ASSOCIATED HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) IS ONE OF THE MOST FREQUENT TUMOR TYPES IN THE WORLD, WITH SHORT SURVIVAL TIMES AND FEW TREATMENT OPTIONS. HEPATITIS B VIRUS (HBV) AND HEPATITIS C VIRUS (HCV) ARE MAJOR ETIOLOGIC AGENTS OF HCC, ALTHOUGH THE ASSOCIATED MECHANISMS ARE INCOMPLETELY UNDERSTOOD. THE AVAILABLE EVIDENCE SUGGESTS THAT BOTH VIRUSES PROMOTE TUMORIGENESIS BY UP-REGULATING GENES THAT PROMOTE HEPATOCELLULAR GROWTH AND SURVIVAL, AND BY DOWN-REGULATING OTHER GENES THAT ACT AS TUMOR SUPPRESSORS AND NEGATIVE GROWTH REGULATORY MOLECULES. SIGNIFICANTLY, A NUMBER OF THE PATHWAYS THAT ARE ALTERED BY THESE VIRUSES ARE THE SAME ONES THAT ACCUMULATE GENETIC ALTERATIONS DURING TUMOR PROGRESSION. THIS SUGGESTS THAT THE PATHWAYS THAT PROMOTE VIRUS PERSISTENCE AND REPLICATION MAY ALSO PROMOTE CELL GROWTH AND SURVIVAL. FROM THE PERSPECTIVE OF THE VIRUS, THIS PROMOTES CHRONIC INFECTION, WHILE FROM THE PERSPECTIVE OF THE HOST, THIS PROMOTES TUMORIGENESIS. 2006 11 3018 34 GENETICS AND EPIGENETICS OF LIVER CANCER. HEPATOCELLULAR CARCINOMA (HCC) REPRESENTS A MAJOR FORM OF PRIMARY LIVER CANCER IN ADULTS. CHRONIC INFECTIONS WITH HEPATITIS B (HBV) AND C (HCV) VIRUSES AND ALCOHOL ABUSE ARE THE MAJOR FACTORS LEADING TO HCC. THIS DEADLY CANCER AFFECTS MORE THAN 500,000 PEOPLE WORLDWIDE AND IT IS QUITE RESISTANT TO CONVENTIONAL CHEMO- AND RADIOTHERAPY. GENETIC AND EPIGENETIC STUDIES ON HCC MAY HELP TO UNDERSTAND BETTER ITS MECHANISMS AND PROVIDE NEW TOOLS FOR EARLY DIAGNOSIS AND THERAPY. RECENT LITERATURE ON WHOLE GENOME ANALYSIS OF HCC INDICATED A HIGH NUMBER OF MUTATED GENES IN ADDITION TO WELL-KNOWN GENES SUCH AS TP53, CTNNB1, AXIN1 AND CDKN2A, BUT THEIR FREQUENCIES ARE MUCH LOWER. APART FROM CTNNB1 MUTATIONS, MOST OF THE OTHER MUTATIONS APPEAR TO RESULT IN LOSS-OF-FUNCTION. THUS, HCC-ASSOCIATED MUTATIONS CANNOT BE EASILY TARGETED FOR THERAPY. EPIGENETIC ABERRATIONS THAT APPEAR TO OCCUR QUITE FREQUENTLY MAY SERVE AS NEW TARGETS. GLOBAL DNA HYPOMETHYLATION, PROMOTER METHYLATION, ABERRANT EXPRESSION OF NON-CODING RNAS AND DYSREGULATED EXPRESSION OF OTHER EPIGENETIC REGULATORY GENES SUCH AS EZH2 ARE THE BEST-KNOWN EPIGENETIC ABNORMALITIES. FUTURE RESEARCH IN THIS DIRECTION MAY HELP TO IDENTIFY NOVEL BIOMARKERS AND THERAPEUTIC TARGETS FOR HCC. 2013 12 5622 35 SEARCH FOR USEFUL BIOMARKERS IN HEPATOCELLULAR CARCINOMA, TUMOR FACTORS AND BACKGROUND LIVER FACTORS (REVIEW). HEPATOCARCINOGENESIS IS A COMPLEX AND MULTISTEP PROCESS THAT INVOLVES THE ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS IN REGULATORY GENES. TO UNDERSTAND THE DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC), CURRENT RESEARCH HAS UTILIZED IMPROVED ARRAY TECHNOLOGIES. THE IDENTIFICATION OF CANCER-RELATED MOLECULES COULD LEAD TO THE DEVELOPMENT OF NOVEL MOLECULAR TARGETS FOR TREATMENT AND BIOMARKERS FOR PREDICTING PROGNOSIS. HOWEVER, PROGNOSTIC PREDICTION IS INSUFFICIENT WHEN CONSIDERING ONLY TUMOR FACTORS, SINCE HEPATOCARCINOGENESIS IS ALSO GREATLY INFLUENCED BY THE STATUS OF THE BACKGROUND LIVER. CLINICAL BACKGROUND LIVER FACTORS, SUCH AS THE PRESENCE OF CHRONIC ACTIVE HEPATITIS OR CIRRHOSIS, ARE WELL KNOWN AS RISK FACTORS FOR DEVELOPING HCC. IN CONTRAST, GENETIC OR EPIGENETIC BACKGROUND LIVER FACTORS REMAIN UNKNOWN, ALBEIT THOSE ARE IMPORTANT TO UNDERSTAND THE DEVELOPING PROCESS OF HCC. INVESTIGATING BACKGROUND LIVER FACTORS COULD CONTRIBUTE TO THE DEVELOPMENT OF CARCINOGENIC MARKERS OF HCC AND TO THE PREVENTION OF THE DEVELOPMENT OF HCC. IN THE PRESENT STUDY, WE REVIEW THE CURRENTLY IDENTIFIED TUMOR FACTORS AND BACKGROUND LIVER FACTORS FROM A MOLECULAR BIOLOGICAL VIEWPOINT AND ALSO INTRODUCE OUR COMBINATION ARRAY ANALYSIS. 2017 13 4687 32 NEW TOOLS FOR MOLECULAR THERAPY OF HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) IS THE MOST COMMON TYPE OF LIVER CANCER, ARISING FROM NEOPLASTIC TRANSFORMATION OF HEPATOCYTES OR LIVER PRECURSOR/STEM CELLS. HCC IS OFTEN ASSOCIATED WITH PRE-EXISTING CHRONIC LIVER PATHOLOGIES OF DIFFERENT ORIGIN (MAINLY SUBSEQUENT TO HBV AND HCV INFECTIONS), SUCH AS FIBROSIS OR CIRRHOSIS. CURRENT THERAPIES ARE ESSENTIALLY STILL INEFFECTIVE, DUE BOTH TO THE TUMOR HETEROGENEITY AND THE FREQUENT LATE DIAGNOSIS, MAKING NECESSARY THE CREATION OF NEW THERAPEUTIC STRATEGIES TO INHIBIT TUMOR ONSET AND PROGRESSION AND IMPROVE THE SURVIVAL OF PATIENTS. A PROMISING STRATEGY FOR TREATMENT OF HCC IS THE TARGETED MOLECULAR THERAPY BASED ON THE RESTORATION OF TUMOR SUPPRESSOR PROTEINS LOST DURING NEOPLASTIC TRANSFORMATION. IN PARTICULAR, THE DELIVERY OF MASTER GENES OF EPITHELIAL/HEPATOCYTE DIFFERENTIATION, ABLE TO TRIGGER AN EXTENSIVE REPROGRAMMING OF GENE EXPRESSION, COULD ALLOW THE INDUCTION OF AN EFFICIENT ANTITUMOR RESPONSE THROUGH THE SIMULTANEOUS ADJUSTMENT OF MULTIPLE GENETIC/EPIGENETIC ALTERATIONS CONTRIBUTING TO TUMOR DEVELOPMENT. HERE, WE REPORT RECENT LITERATURE DATA SUPPORTING THE USE OF MEMBERS OF THE LIVER ENRICHED TRANSCRIPTION FACTOR (LETF) FAMILY, IN PARTICULAR HNF4ALPHA, AS TOOLS FOR GENE THERAPY OF HCC. 2015 14 3277 34 HEPATOCYTE PLOIDY AND PATHOLOGICAL MUTATIONS IN HEPATOCELLULAR CARCINOMA: IMPACT ON ONCOGENESIS AND THERAPEUTICS. HEPATOCELLULAR CARCINOMA (HCC) OCCURS IN THE CHRONIC LIVER INFLAMMATION SUCH AS VIRAL HEPATITIS, ALCOHOLIC AND NON-ALCOHOLIC STEATOHEPATITIS. WHILE ANTI-VIRAL TREATMENT HAS BEEN SIGNIFICANTLY IMPROVED, THE PREVALENCE OF HCC REMAINS HIGH AND TREATMENT IS STILL CHALLENGING. THE CONTINUATION OF HEPATOCYTE DEATH, INFLAMMATION, AND FIBROSIS LEADS TO THE ACCUMULATION OF GENE ALTERATIONS, WHICH MAY TRIGGER CARCINOGENESIS. HEPATOCYTES ARE A UNIQUE CELL TYPE HAVING MORE THAN ONE COMPLETE SET OF 23 CHROMOSOMES, TERMED POLYPLOIDY. DUE TO GENE REDUNDANCY, HEPATOCYTES MAY TOLERATE LETHAL MUTATIONS. NEXT GENERATION SEQUENCING TECHNOLOGY HAS REVEALED GENE ALTERATIONS IN HCC RELATED TO TELOMERE MAINTENANCE, WNT/BETA-CATENIN PATHWAY, P53 CELL-CYCLE PATHWAY, EPIGENETIC MODIFIERS, OXIDATIVE STRESS PATHWAY, PI3K/AKT/MTOR, AND RAS/RAF/MAPK PATHWAY WITH OR WITHOUT A CHROMOSOMAL INSTABILITY. SOME TYPE OF DRIVER GENE MUTATIONS ACCUMULATES IN HEPATOCYTES AND BREAKS THE ORCHESTRATION OF EXCESSIVE COPIES OF CHROMOSOMES, WHICH MAY LEAD TO UNFAVORABLE GENE EXPRESSIONS AND FUEL TUMORIGENESIS. RECENTLY, MOLECULAR TARGETED DRUGS, DEVELOPED WITH THE AIM OF INTERFERING WITH THESE SIGNALING PATHWAYS, ARE BEING USED FOR HCC PATIENTS IN THE CLINICS. THEREFORE, A DEEPER UNDERSTANDING OF HEPATOCYTE PLOIDY AND GENETIC OR EPIGENETIC ALTERATIONS IS INDISPENSABLE FOR THE ESTABLISHMENT OF NOVEL THERAPEUTIC STRATEGIES AGAINST HCC. 2020 15 4677 37 NEW LNCRNAS IN CHRONIC HEPATITIS C PROGRESSION: FROM FIBROSIS TO HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD LEADING CAUSE OF CANCER-RELATED DEATH IN THE WORLD, AND ABOUT 80% OF THE CASES ARE ASSOCIATED WITH HEPATITIS B OR C. GENETIC AND EPIGENETIC ALTERATIONS ARE ACCUMULATED OVER DECADES OF CHRONIC INJURY AND MAY AFFECT THE FUNCTIONING OF TUMOR SUPPRESSOR GENES AND PROTOONCOGENES. STUDIES HAVE EVIDENCED THE ROLE OF LONG NON-CODING RNAS (LNCRNA) WITH ONCOGENIC OR TUMOR SUPPRESSOR ACTIVITIES, SUGGESTING A GREAT POTENTIAL IN THE TREATMENT, DIAGNOSIS OR INDICATOR OF PROGNOSIS IN CANCER. IN THIS CONTEXT, THE AIM OF THIS STUDY WAS TO EVALUATE THE GLOBAL EXPRESSION PROFILE LNCRNA IN HEPATIC TISSUE SAMPLES WITH DIFFERENT STAGES OF FIBROSIS ASSOCIATED WITH CHRONIC HEPATITIS C, HCC AND NORMAL LIVER, IN ORDER TO IDENTIFY NEW LNCRNAS THAT COULD CONTRIBUTE TO STUDY THE PROGRESSION OF HEPATIC FIBROSIS TO HCC ASSOCIATED WITH CHRONIC HEPATITIS C. RNA-SEQ WAS PERFORMED ON ILLUMINA NEXTSEQ PLATFORM TO IDENTIFY LNCRNAS EXPRESSED DIFFERENTLY IN 15 PATIENTS WITH CHRONIC HEPATITIS C, THREE PATIENTS WITH HCC AND THREE NORMAL LIVER SPECIMENS. WHEN THE PATHOLOGICAL TISSUES (FIBROSIS AND CARCINOMA) WERE COMPARED TO NORMAL HEPATIC TISSUE, WERE IDENTIFIED 2, 6 E 34 DIFFERENTIALLY EXPRESSED LNCRNAS IN MODERATE FIBROSIS, ADVANCED FIBROSIS AND HCC, RESPECTIVELY. THE CARCINOMA GROUP HAD THE HIGHEST PROPORTION OF DIFFERENTIALLY EXPRESSED LNCRNA (34) AND OF THESE, 29 WERE EXCLUSIVE IN THIS TYPE OF TISSUE. A HEAT MAP OF THE DEREGULATED LNCRNA REVEALED DIFFERENT EXPRESSION PATTERNS ALONG THE PROGRESSION OF FIBROSIS TO HCC. THE RESULTS SHOWED THE DEREGULATION OF SOME LNCRNA ALREADY CLASSIFIED AS TUMOR SUPPRESSORS IN HCC AND OTHER CANCERS, AS WELL AS SOME UNPUBLISHED LNCRNA WHOSE FUNCTION IS UNKNOWN. SOME OF THESE LNCRNAS ARE DYSREGULATED SINCE THE EARLY STAGES OF LIVER INJURY IN PATIENTS WITH HEPATITIS C, OTHERS OVEREXPRESSED ONLY IN TUMOR TISSUE, INDICATING THEMSELVES AS CANDIDATES OF MARKERS OF FIBROSIS PROGRESSION OR TUMOR, WITH POTENTIAL CLINICAL APPLICATIONS IN PROGNOSIS AS WELL AS A THERAPEUTIC TARGET. ALTHOUGH THERE ARE ALREADY STUDIES ON LNCRNA IN HEPATOCELLULAR CARCINOMA, THIS IS THE FIRST STUDY CONDUCTED IN SAMPLES EXCLUSIVELY OF HCV-RELATED LIVER AND HCV HCC. 2020 16 3265 37 HEPATOCARCINOMA: GENETIC AND EPIGENETIC FEATURES. HCC IS THE THIRD LEADING CAUSE OF CANCER-RELATED DEATHS WORLDWIDE, ACCOUNTING FOR ABOUT 1 MILLION DEATHS ANNUALLY. THE INCIDENCE OF HCC IS HIGHEST IN ASIA AND AFRICA, WHERE THE ENDEMIC HIGH PREVALENCE OF HEPATITIS B AND HEPATITIS C STRONGLY PREDISPOSES TO THE DEVELOPMENT OF CHRONIC LIVER DISEASE AND SUBSEQUENT DEVELOPMENT OF HCC. PATIENTS WITH HCC GENERALLY PRESENT AT AN ADVANCED STAGE DUE TO COMPENSATED CIRRHOSIS DEFINED BY THE ABSENCE OF PATHOGNOMONIC SYMPTOMS, RESULTING IN DEATH WITHIN 6 TO 20 MONTHS, SUGGESTING AN URGENT NEED IN TREATMENT MODALITIES THAT WILL DRAMATICALLY DECREASE THE MORTALITY RATE OF HCC. THE MOLECULAR HEPATOCARCINOGENESIS IS, HOWEVER, A GRADUAL PROCESS DURING WHICH GENETIC ALTERATIONS PROGRESSIVELY ACCUMULATE AND LEAD TO HCC THROUGH INTERMEDIATE PRENEOPLASTIC STAGES. WITH THE ADVENT OF WHOLE GENOME SEQUENCING TOOLS, VARIOUS MUTATIONS ASSOCIATED WITH HCC HAVE BEEN IDENTI FI ED, WHICH HAVE ADVANCED OUR MOLECULAR UNDERSTANDING OF HCC. HOWEVER, THE FREQUENCY OF THESE MUTATIONS IS RARE, AND THESE GENETIC MUTATIONS ONLY PARTLY EXPLAIN THE ETIOLOGY OF THE DISEASE. BETTER UNDERSTANDING AND CHARACTERIZATION OF NOVEL GENETIC AND EPIGENETIC ALTERATIONS, WHICH ARE IMPORTANT TO HEPATOCARCINOGENESIS, MAY HELP UNDERSTAND THE MOLECULAR PATHOGENESIS OF HCC, AS WELL AS PROVIDING NOVEL THERAPEUTIC TARGETS FOR HCC TREATMENT. FURTHER CONSIDERATION SHOULD BE GIVEN TO DEVELOPING MORE EFFECTIVE MOLECULAR DIAGNOSTIC MARKERS AND TARGETED DRUG THERAPY. 2018 17 3244 38 HEPATIC STELLATE CELLS AND EXTRACELLULAR MATRIX IN HEPATOCELLULAR CARCINOMA: MORE COMPLICATED THAN EVER. HEPATOCELLULAR CARCINOMA (HCC) IS THE FIFTH MOST COMMON CANCER WORLDWIDE AND THE THIRD LEADING CAUSE OF CANCER DEATH. RECENT EPIDEMIOLOGICAL DATA INDICATE THAT THE MORTALITY RATE OF HCC WILL DOUBLE OVER THE NEXT DECADES IN THE USA AND EUROPE. LIVER CANCER PROGRESSES IN A LARGE PERCENTAGE OF CASES DURING THE CLINICAL COURSE OF CHRONIC FIBRO-INFLAMMATORY LIVER DISEASES LEADING TO CIRRHOSIS. THEREFORE, HCC DEVELOPMENT IS REGARDED AS THE RESULT OF DIFFERENT ENVIRONMENTAL RISK FACTORS EACH INVOLVING DIFFERENT GENETIC, EPIGENETIC- AND CHROMOSOMAL ALTERATIONS AND GENE MUTATIONS. DURING TUMOUR PROGRESSION, THE MALIGNANT HEPATOCYTES AND THE ACTIVATED HEPATIC STELLATE CELLS ARE ACCOMPANIED BY CANCER-ASSOCIATED FIBROBLASTS, MYOFIBROBLASTS AND IMMUNE CELLS GENERALLY CALLED TUMOUR STROMAL CELLS. THIS NEW AND DYNAMIC MILIEU FURTHER ENHANCES THE RESPONSIVENESS OF TUMOUR CELLS TOWARDS SOLUBLE MEDIATORS SECRETED BY TUMOUR STROMAL CELLS, THUS DIRECTLY AFFECTING THE MALIGNANT HEPATOCYTES. THIS RESULTS IN ALTERED MOLECULAR PATHWAYS WITH CELL PROLIFERATION AS THE MOST IMPORTANT MECHANISM OF LIVER CANCER PROGRESSION. GIVEN THIS CONTEXTUAL COMPLEXITY, IT IS OF UTMOST IMPORTANCE TO CHARACTERIZE THE MOLECULAR PATHOGENESIS OF HCC, AND TO IDENTIFY THE DOMINANT PATHWAYS/DRIVERS AND ABERRANT SIGNALLING PATHWAYS. THIS WILL ALLOW AN EFFECTIVE THERAPY FOR HCC THAT SHOULD COMBINE STRATEGIES AFFECTING BOTH CANCER AND THE TUMOUR STROMAL CELLS. THIS REVIEW PROVIDES AN OVERVIEW OF THE RECENT CHALLENGES AND ISSUES REGARDING HEPATIC STELLATE CELLS, EXTRACELLULAR MATRIX DYNAMICS, LIVER FIBROSIS/CIRRHOSIS AND THERAPY, TUMOUR MICROENVIRONMENT AND HCC. 2014 18 2172 35 EPIGENETIC MECHANISMS INVOLVED IN HCV-INDUCED HEPATOCELLULAR CARCINOMA (HCC). HEPATOCELLULAR CARCINOMA (HCC), IS THE THIRD LEADING CAUSE OF CANCER-RELATED DEATHS, WHICH IS LARGELY CAUSED BY VIRUS INFECTION. ABOUT 80% OF THE VIRUS-INFECTED PEOPLE DEVELOP A CHRONIC INFECTION THAT EVENTUALLY LEADS TO LIVER CIRRHOSIS AND HEPATOCELLULAR CARCINOMA (HCC). WITH APPROXIMATELY 71 MILLION HCV CHRONIC INFECTED PATIENTS WORLDWIDE, THEY STILL HAVE A HIGH RISK OF HCC IN THE NEAR FUTURE. HOWEVER, THE MECHANISMS OF CARCINOGENESIS IN CHRONIC HCV INFECTION HAVE NOT BEEN STILL FULLY UNDERSTOOD, WHICH INVOLVE A COMPLEX EPIGENETIC REGULATION AND CELLULAR SIGNALING PATHWAYS. HERE, WE SUMMARIZE 18 SPECIFIC GENE TARGETS AND DIFFERENT SIGNALING PATHWAYS INVOLVED IN RECENT FINDINGS. WITH THESE EPIGENETIC ALTERATIONS REQUIRING HISTONE MODIFICATIONS AND DNA HYPER OR HYPO-METHYLATION OF THESE SPECIFIC GENES, THE DYSREGULATION OF GENE EXPRESSION IS ALSO ASSOCIATED WITH DIFFERENT SIGNALING PATHWAYS FOR THE HCV LIFE CYCLE AND HCC. THESE FINDINGS PROVIDE A NOVEL INSIGHT INTO A CORRELATION BETWEEN HCV INFECTION AND HCC TUMORIGENESIS, AS WELL AS POTENTIALLY PREVENTABLE APPROACHES. HEPATITIS C VIRUS (HCV) INFECTION LARGELY CAUSES HEPATOCELLULAR CARCINOMA (HCC) WORLDWIDE WITH 3 TO 4 MILLION NEWLY INFECTED CASES DIAGNOSED EACH YEAR. IT IS URGENT TO EXPLORE ITS UNDERLYING MOLECULAR MECHANISMS FOR THERAPEUTIC TREATMENT AND BIOMARKER DISCOVERY. HOWEVER, THE MECHANISMS OF CARCINOGENESIS IN CHRONIC HCV INFECTION HAVE NOT BEEN STILL FULLY UNDERSTOOD, WHICH INVOLVE A COMPLEX EPIGENETIC REGULATION AND CELLULAR SIGNALING PATHWAYS. HERE, WE SUMMARIZE 18 SPECIFIC GENE TARGETS AND DIFFERENT SIGNALING PATHWAYS INVOLVED IN RECENT FINDINGS. WITH THESE EPIGENETIC ALTERATIONS REQUIRING HISTONE MODIFICATIONS AND DNA HYPER OR HYPO-METHYLATION OF THESE SPECIFIC GENES, THE DYSREGULATION OF GENE EXPRESSION IS ALSO ASSOCIATED WITH DIFFERENT SIGNALING PATHWAYS FOR THE HCV LIFE CYCLE AND HCC. THESE FINDINGS PROVIDE A NOVEL INSIGHT INTO A CORRELATION BETWEEN HCV INFECTION AND HCC TUMORIGENESIS, AS WELL AS POTENTIALLY PREVENTABLE APPROACHES. 2021 19 6850 30 [MOLECULAR PATHOGENESIS OF HEPATOCELLULAR CARCINOMA]. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD LEADING CAUSE OF CANCER DEATH WORLDWIDE. HCC NEARLY ALMOST ALWAYS DEVELOPS IN CONNECTION WITH CHRONIC HEPATITIS OR LIVER CIRRHOSIS, MAINLY DUE TO HEPATITIS B VIRUS OR HEPATITIS C VIRUS INFECTION. SEVERAL FACTORS ARE SUPPOSED TO PLAY KEY ROLES IN THE DEVELOPMENT OF HCC, SUCH AS ABERRANT VIRAL PROTEIN EXPRESSION, GENOMIC INSTABILITY WITH/WITHOUT INSERTIONS OF VIRAL DNAS, GENE MUTATIONS, EPIGENETIC GENE MODIFICATION, OXIDATIVE STRESS, AND ALTERATION OF THE MICROENVIRONMENT INCLUDING INFLAMMATION, FIBROSIS, AND EMERGENCE OF STEM/PROGENITOR CELLS AS A RESULT OF REPEATED NECROSIS AND REGENERATION OF HEPATOCYTES. THE ELUCIDATION OF MOLECULAR MECHANISMS OF HEPATOCARCINOGENESIS HAS SUCCESSFULLY PROVIDED SMALL MOLECULE INHIBITORS TARGETING ABERRANTLY ACTIVATED SIGNALING IN HCC. DEVELOPMENT OF NOVEL CLASSIFICATION SYSTEMS BASED ON THE MOLECULAR PROFILES AND DRUG SENSITIVITIES AGAINST MOLECULARLY TARGETED COMPOUNDS IS CURRENTLY UNDERWAY TO FACILITATE NOVEL STRATEGIES FOR EFFECTIVE ERADICATION OF HCC. 2010 20 5770 26 SPECIFIC MOLECULAR SIGNATURES OF NON-TUMOR LIVER TISSUE MAY PREDICT A RISK OF HEPATOCARCINOGENESIS. HEPATOCELLULAR CARCINOMA (HCC) IS ONE OF THE MOST COMMON HUMAN CANCERS AND A MAJOR CAUSE OF CANCER-RELATED DEATH WORLDWIDE. THE BLEAK OUTCOMES OF HCC PATIENTS EVEN AFTER CURATIVE TREATMENT HAVE BEEN, AT LEAST PARTIALLY, ATTRIBUTED TO ITS MULTICENTRIC ORIGIN. THEREFORE, IT IS NECESSARY TO EXAMINE NOT ONLY TUMOR TISSUE BUT ALSO NON-TUMOR LIVER TISSUE TO INVESTIGATE THE MOLECULAR MECHANISMS OPERATING DURING HEPATOCARCINOGENESIS BASED ON THE CONCEPT OF "FIELD CANCERIZATION". SEVERAL STUDIES PREVIOUSLY INVESTIGATED THE ASSOCIATION OF MOLECULAR ALTERATIONS IN NON-TUMOR LIVER TISSUE WITH CLINICAL FEATURES AND PROGNOSIS IN HCC PATIENTS ON A GENOME-WIDE SCALE. IN PARTICULAR, SPECIFIC ALTERATIONS OF DNA METHYLATION PROFILES HAVE BEEN CONFIRMED IN NON-TUMOR LIVER TISSUE. THIS REVIEW FOCUSES ON THE POSSIBLE CLINICAL VALUE OF ARRAY-BASED COMPREHENSIVE ANALYSES OF MOLECULAR ALTERATIONS, ESPECIALLY ABERRANT DNA METHYLATION, IN NON-TUMOR LIVER TISSUE TO CLARIFY THE RISK OF HEPATOCARCINOGENESIS. CARCINOGENETIC RISK ESTIMATION BASED ON SPECIFIC METHYLATION SIGNATURES MAY BE ADVANTAGEOUS FOR CLOSE FOLLOW-UP OF PATIENTS WHO ARE AT HIGH RISK OF HCC DEVELOPMENT. FURTHERMORE, EPIGENETIC THERAPIES FOR PATIENTS WITH CHRONIC LIVER DISEASES MAY BE HELPFUL TO REDUCE THE RISK OF HCC DEVELOPMENT BECAUSE EPIGENETIC ALTERATIONS ARE POTENTIALLY REVERSIBLE, AND THUS PROVIDE PROMISING MOLECULAR TARGETS FOR THERAPEUTIC INTERVENTION. 2014