1 6486 146 TP53 AND LIVER CARCINOGENESIS. PRIMARY HEPATOCELLULAR CARCINOMA (HCC) IS ONE OF THE MOST COMMON MALIGNANCIES AND HAS THE FOURTH HIGHEST MORTALITY RATE WORLDWIDE. THE MAJOR RISK FACTORS, INCLUDING CHRONIC INFECTIONS WITH THE HEPATITIS B OR C VIRUS, ARE EXPOSURE TO DIETARY AFLATOXIN B1(AFB1), VINYL CHLORIDE, OR ALCOHOL CONSUMPTION. SOUTHERN CHINA AND SUB-SAHARAN AFRICA HAVE THE HIGHEST DIETARY AFB1 EXPOSURE, MAKING IT AND HEPATITIS B VIRUS (HBV) THE MAJOR CAUSES OF CANCER MORTALITY IN THESE GEOGRAPHIC AREAS. RECENT STUDIES HAVE DISCOVERED GENETIC AND EPIGENETIC CHANGES INVOLVED IN THE MOLECULAR PATHOGENESIS OF HCC, INCLUDING SOMATIC MUTATIONS IN THE P53 TUMOR SUPPRESSOR GENE (TP53). AFB1 INDUCES TYPICAL G:C TO T:A TRANSVERSIONS AT THE THIRD BASE IN CODON 249 OF P53. CHRONIC ACTIVE HEPATITIS B AND C (HCV) INFECTION, AND FURTHER INFLAMMATORY AND OXYRADICAL DISORDERS INCLUDING WILSON DISEASE (WD) OR HEMOCHROMATOSIS, GENERATE REACTIVE OXYGEN/NITROGEN SPECIES THAT CAN DAMAGE DNA AND MUTATE THE P53 GENE. THE X GENE OF HBV (HBX) IS THE MOST COMMON OPEN READING FRAME INTEGRATED INTO THE HOST GENOME IN HCC. THE INTEGRATED HBX IS FREQUENTLY MUTATED AND HAS A DIMINISHED ABILITY TO FUNCTION AS A TRANSCRIPTIONAL COTRANSACTIVATOR AND TO ACTIVATE THE NF-KAPPA B PATHWAY. HOWEVER, THE MUTANT HBX PROTEINS STILL RETAIN THEIR ABILITY TO BIND TO AND ABROGATE P53-MEDIATED APOPTOSIS. IN SUMMARY, BOTH VIRUSES AND CHEMICALS ARE IMPLICATED IN THE ETIOLOGY AND MOLECULAR PATHOGENESIS OF HCC. THE RESULTANT MOLECULAR CHANGES IN THE RAS AND WNT SIGNAL-TRANSDUCTION PATHWAYS, AND THE P53 AND RB TUMOR SUPPRESSOR PATHWAYS SIGNIFICANTLY CONTRIBUTE TO LIVER CARCINOGENESIS 2003 2 6487 104 TP53 MUTATIONS AND HEPATOCELLULAR CARCINOMA: INSIGHTS INTO THE ETIOLOGY AND PATHOGENESIS OF LIVER CANCER. HEPATOCELLULAR CARCINOMA (HCC) IS ONE OF THE MOST COMMON MALIGNANCIES WORLDWIDE AND THE MAJOR RISK FACTORS INCLUDE CHRONIC INFECTIONS WITH THE HEPATITIS B (HBV) OR C (HCV) VIRUS, AND EXPOSURE TO DIETARY AFLATOXIN B(1) (AFB(1)) OR ALCOHOL CONSUMPTION. MULTIPLE GENETIC AND EPIGENETIC CHANGES ARE INVOLVED IN THE MOLECULAR PATHOGENESIS OF HCC, FOR EXAMPLE, SOMATIC MUTATIONS IN THE P53 TUMOR SUPPRESSOR GENE (TP53) AND THE ACTIVATION OF THE WNT SIGNAL TRANSDUCTION PATHWAY. AFB(1) FREQUENTLY INDUCES G:C TO T:A TRANSVERSIONS AT THE THIRD BASE IN CODON 249 OF TP53 AND COOPERATES WITH HBV IN CAUSING P53 MUTATIONS IN HCC. THE DETECTION OF TP53 MUTANT DNA IN PLASMA IS A BIOMARKER OF BOTH AFB(1) EXPOSURE AND HCC RISK. CHRONIC INFECTION WITH HBV AND HCV VIRUSES, AND OXYRADICAL DISORDERS INCLUDING HEMOCHROMATOSIS, ALSO GENERATE REACTIVE OXYGEN/NITROGEN SPECIES THAT CAN BOTH DAMAGE DNA AND MUTATE CANCER-RELATED GENES SUCH AS TP53. CERTAIN MUTANT P53 PROTEINS MAY EXHIBIT A 'GAIN OF ONCOGENIC FUNCTION'. THE P53 BIOLOGICAL NETWORK IS A KEY RESPONDER TO THIS OXIDATIVE AND NITROSATIVE STRESS. DEPENDING ON THE EXTENT OF THE DNA DAMAGE, P53 REGULATES THE TRANSCRIPTION OF PROTECTIVE ANTIOXIDANT GENES AND WITH EXTENSIVE DNA DAMAGE, TRANSACTIVATES PRO-OXIDANT GENES THAT CONTRIBUTE TO APOPTOSIS. THE X GENE OF HBV (HBX) IS THE MOST COMMON OPEN READING FRAME INTEGRATED INTO THE HOST GENOME IN HCC AND THE INTEGRATED HBX IS FREQUENTLY MUTATED. MUTANT HBX PROTEINS STILL RETAIN THEIR ABILITY TO BIND TO P53, AND ATTENUATE DNA REPAIR AND P53-MEDIATED APOPTOSIS. IN SUMMARY, BOTH VIRUSES AND CHEMICALS ARE IMPLICATED IN THE ETIOLOGY OF TP53 MUTATIONS DURING THE MOLECULAR PATHOGENESIS OF HCC. 2007 3 5789 24 SRSF2(P95H/+) CO-OPERATES WITH LOSS OF TET2 TO PROMOTE MYELOID BIAS AND INITIATE A CHRONIC MYELOMONOCYTIC LEUKEMIA-LIKE DISEASE IN MICE. RECURRENT MUTATIONS IN RNA SPLICING PROTEINS AND EPIGENETIC REGULATORS CONTRIBUTE TO THE DEVELOPMENT OF MYELODYSPLASTIC SYNDROME (MDS) AND RELATED MYELOID NEOPLASMS. IN CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), SRSF2 MUTATIONS OCCUR IN ~50% OF PATIENTS AND TET2 MUTATIONS IN ~60%. CLONAL ANALYSIS INDICATES THAT EITHER MUTATION CAN ARISE AS THE FOUNDER LESION. BASED ON HUMAN CANCER GENETICS WE CROSSED AN INDUCIBLE SRSF2(P95H/+) MUTANT MODEL WITH TET2(FL/FL) MICE TO MUTATE BOTH CONCOMITANTLY IN HEMATOPOIETIC STEM CELLS. AT 20-24 WEEKS POST MUTATION INDUCTION, WE OBSERVED SUBTLE DIFFERENCES IN THE SRSF2/TET2 MUTANTS COMPARED TO EITHER SINGLE MUTANT. UNDER CONDITIONS OF NATIVE HEMATOPOIESIS WITH AGING, WE SEE A DISTINCT MYELOID BIAS AND MONOCYTOSIS IN THE SRSF2/TET2 MUTANTS. A SUBSET OF THE COMPOUND SRSF2/TET2 MUTANTS DISPLAY AN INCREASED GRANULOCYTIC AND DISTINCTIVE MONOCYTIC PROLIFERATION (MYELOMONOCYTIC HYPERPLASIA), WITH INCREASED IMMATURE PROMONOCYTES AND MONOBLASTS AND BINUCLEATE PROMONOCYTES. EXOME ANALYSIS OF PROGRESSED DISEASE DEMONSTRATED MUTATIONS IN GENES AND PATHWAYS SIMILAR TO THOSE REPORTED IN HUMAN CMML. UPON TRANSPLANTATION, RECIPIENTS DEVELOPED LEUKOCYTOSIS, MONOCYTOSIS, AND SPLENOMEGALY. WE REPRODUCE SRSF2/TET2 CO-OPERATIVITY IN VIVO, YIELDING A DISEASE WITH CORE CHARACTERISTICS OF CMML, UNLIKE SINGLE SRSF2 OR TET2 MUTATION. THIS MODEL REPRESENTS A SIGNIFICANT STEP TOWARD BUILDING HIGH FIDELITY AND GENETICALLY TRACTABLE MODELS OF CMML. 2022 4 6848 58 [MOLECULAR GENETIC AND EPIGENETIC MECHANISMS OF HEPATOCARCINOGENESIS]. HEPATOCELLULAR CARCINOMA (HCC) IS A MAJOR TYPE OF PRIMARY LIVER CANCER AND ONE OF THE MOST FREQUENT HUMAN MALIGNANT NEOPLASMS. COMMON RISK FACTORS OF HUMAN HCC INCLUDE CHRONIC HEPATITIS VIRUS (HBV AND HCV) INFECTION, DIETARY AFLATOXIN B1 (AFB1) INGESTION, CHRONIC ALCOHOL ABUSE, AND CIRRHOSIS ASSOCIATED WITH GENETIC LIVER DISEASES. HEPATOCARCINOGENESIS IS THE RESULT OF INTERACTION BETWEEN HEREDITARY AND ENVIRONMENTAL FACTORS. INHERITANCE DETERMINES INDIVIDUAL SUSCEPTIBILITY TO CANCER; ENVIRONMENT DETERMINES WHICH SUSCEPTIBLE INDIVIDUALS EXPRESS CANCER. STUDIES OF GENETIC AND EPIGENETIC MECHANISMS OF HEPATOCARCINOGENESIS SHOWED THAT HCC DEVELOPMENT IS A COMPLEX POLYGENE AND MULTIPATHWAY PROCESS; THE ACTIVATION OF PROTO-ONCOGENES AND THE INACTIVATION OF TUMOR SUPPRESSOR GENES INDUCED BY GENETIC AND EPIGENETIC ALTERATIONS ARE CORE BIOLOGICAL PROCESSES OF HEPATOCARCINOGENESIS; RB1, P53, AND WNT PATHWAYS ARE COMMONLY AFFECTED IN HCCS OF DIFFERENT ETIOLOGIES, WHICH MAY REFLECT COMMON PATHOLOGIC SEQUENCE OF HCC: CHRONIC LIVER INJURY, CIRRHOSIS, ATYPICAL HYPERPLASTIC NODULES, AND HCC OF EARLY STAGES. HEPATITIS VIRUS INFECTION-ASSOCIATED HCCS HAVE FREQUENT ALTERATIONS IN RB1 PATHWAY, INCLUDING METHYLATION OF P16INK4A AND RB1 GENES AND AMPLIFICATION OF CYCLIN D1. AFB1 EXPOSURE-ASSOCIATED HCCS HAVE FREQUENT ALTERATIONS IN P53 PATHWAY; THE G-->T MUTATION OF P53 GENE AT CODON 249 HAS BEEN IDENTIFIED AS A GENETIC HALLMARK OF HCC CAUSED BY AFB1. ALCOHOLISM-ASSOCIATED HCCS HAVE FREQUENT ALTERATIONS IN BOTH RB1 AND P53 PATHWAYS. THE ROLES OF SOME IMPORTANT GENES RELATED TO CELL APOPTOSIS, DNA REPAIR, DRUG METABOLISM, AND TUMOR METASTASIS IN HEPATOCARCINOGENESIS HAD BEEN DISCUSSED. 2005 5 6753 39 WILD TYPE HBX AND TRUNCATED HBX: PLEIOTROPIC REGULATORS DRIVING SEQUENTIAL GENETIC AND EPIGENETIC STEPS OF HEPATOCARCINOGENESIS AND PROGRESSION OF HBV-ASSOCIATED NEOPLASMS. HEPATITIS B VIRUS (HBV) IS ONE OF THE CAUSATIVE AGENTS OF HEPATOCELLULAR CARCINOMA. THE MOLECULAR MECHANISMS OF TUMORIGENESIS ARE COMPLEX. ONE OF THE HOST FACTORS INVOLVED IS APPARENTLY THE LONG-LASTING INFLAMMATORY REACTION WHICH ACCOMPANIES CHRONIC HBV INFECTION. ALTHOUGH HBV LACKS A TYPICAL VIRAL ONCOGENE, THE HBX GENE ENCODING A PLEIOTROPIC REGULATORY PROTEIN EMERGED AS A MAJOR PLAYER IN LIVER CARCINOGENESIS. HERE WE REVIEW THE TUMORIGENIC FUNCTIONS OF HBX WITH AN EMPHASIS ON WILD TYPE AND TRUNCATED HBX VARIANTS, AND THEIR ROLE IN THE TRANSCRIPTIONAL DYSREGULATION AND EPIGENETIC REPROGRAMMING OF THE HOST CELL GENOME. WE SUGGEST THAT HBX ACQUIRED BY THE HBV GENOME DURING EVOLUTION ACTS LIKE A CELLULAR PROTO-ONC GENE THAT IS ACTIVATED BY DELETION DURING HEPATOCARCINOGENESIS. THE RESULTING VIRAL ONCOGENE (V-ONC GENE) CODES FOR A TRUNCATED HBX PROTEIN THAT FACILITATES TUMOR PROGRESSION. COPYRIGHT (C) 2015 JOHN WILEY & SONS, LTD. 2016 6 1700 41 DYNAMIC EXPRESSION OF ZNF382 AND ITS TUMOR-SUPPRESSOR ROLE IN HEPATITIS B VIRUS-RELATED HEPATOCELLULAR CARCINOGENESIS. HEPATITIS B VIRUS (HBV) INFECTION IS THE PRIMARY CAUSE OF HEPATOCELLULAR CARCINOMA (HCC). ZINC-FINGER PROTEIN 382 (ZNF382), WHICH BELONGS TO ZINC-FINGER PROTEIN FAMILY, HAS BEEN DOCUMENTED TO BE DOWNREGULATED IN CERTAIN TYPES OF CANCER. HOWEVER, ITS ROLE IN HCC REMAINS LARGELY UNKNOWN. IN THIS STUDY, WE DEMONSTRATED THAT ZNF382 EXPRESSION WAS SIGNIFICANTLY ELEVATED IN HBV-INFECTED LIVER CIRRHOSIS TISSUES RELATIVE TO HBV-NEGATIVE NORMAL LIVER TISSUES AT PROTEIN LEVELS, BUT NOT AT MRNA LEVELS, AND WAS POSITIVELY CORRELATED WITH THE LEVELS OF HBV DNA AND HEPATITIS B VIRUS X PROTEIN (HBX). FURTHER STUDIES REVEALED THAT ZNF382 WAS A TARGET OF MIR-6867, AND HBX PROMOTED THE TRANSLATION OF ZNF382 DURING HBV CHRONIC INFECTION THROUGH ERK-MEDIATED MIR-6867 INHIBITION. IN ADDITION, OUR DATA SHOWED THAT ZNF382 WAS FREQUENTLY DOWNREGULATED BY PROMOTER METHYLATION IN HBV-RELATED HCCS RELATIVE TO HBV-INFECTED LIVER CIRRHOSIS TISSUES, AND DECREASED EXPRESSION OF ZNF382 WAS STRONGLY CORRELATED WITH POOR SURVIVAL IN EARLY-STAGE HCC PATIENTS. FUNCTIONAL STUDIES DEMONSTRATED THAT ZNF382 WAS A POTENT TUMOR SUPPRESSOR IN HCC CELLS THROUGH INHIBITING CELL PROLIFERATION, COLONY FORMATION, MIGRATION, INVASION, AND TUMORIGENIC POTENTIAL IN NUDE MICE, AND INDUCING CELL APOPTOSIS. MECHANISTICALLY, ZNF382 EXERTED ITS TUMOR-SUPPRESSOR FUNCTIONS IN HCC THROUGH TRANSCRIPTIONALLY REPRESSING ITS DOWNSTREAM TARGETS SUCH AS FOS PROTO-ONCOGENE (FOS), JUN PROTO-ONCOGENE (JUN), DISHEVELED SEGMENT POLARITY PROTEIN 2 (DVL2), AND FRIZZLED CLASS RECEPTOR 1 (FZD1), THEREBY IMPAIRING THE ACTIVITIES OF ACTIVATING PROTEIN 1 (AP-1) AND WNT/BETA-CATENIN PATHWAYS AND ACTIVATING P53 SIGNALING. ALTOGETHER, OUR DATA SHOW THAT ZNF382 ACTS AS A TUMOR SUPPRESSOR, AND IS CO-REGULATED BY HBX AND EPIGENETIC MECHANISM IN HBV-RELATED HEPATOCELLULAR CARCINOGENESIS. 2019 7 3253 41 HEPATITIS B VIRUS X PROTEIN ACCELERATES THE DEVELOPMENT OF HEPATOMA. THE CHRONIC INFECTION OF HEPATITIS B VIRUS (HBV) IS CLOSELY RELATED TO THE OCCURRENCE AND DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC). ACCUMULATED EVIDENCE HAS SHOWN THAT HBV X PROTEIN (HBX PROTEIN) IS A MULTIFUNCTIONAL REGULATOR WITH A CRUCIAL ROLE IN HEPATOCARCINOGENESIS. HOWEVER, INFORMATION ON THE MECHANISM BY WHICH HBV INDUCES HCC IS LACKING. THIS REVIEW FOCUSES ON THE PATHOLOGICAL FUNCTIONS OF HBX IN HBV-INDUCED HEPATOCARCINOGENESIS. AS A TRANSACTIVATOR, HBX CAN MODULATE NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB) AND TRANSCRIPTION FACTOR AP-2. MOREOVER, HBX CAN AFFECT REGULATORY NON-CODING RNAS (NCRNAS) INCLUDING MICRORNAS AND LONG NCRNAS (LNCRNAS), SUCH AS MIRNA-205 AND HIGHLY UPREGULATED IN LIVER CANCER (HULC), RESPECTIVELY. HBX IS ALSO INVOLVED IN EPIGENETIC MODIFICATION, INCLUDING METHYLATION AND ACETYLATION. HBX INTERACTS WITH VARIOUS SIGNAL-TRANSDUCTION PATHWAYS, SUCH AS PROTEIN KINASE B/AKT, WNT/BETA-CATENIN, SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION, AND NF-KAPPAB PATHWAYS. MOREOVER, HBX AFFECTS CELLULAR FATE BY SHIFTING THE BALANCE TOWARD CELL SURVIVAL. HBX MAY LEAD TO THE LOSS OF APOPTOTIC FUNCTIONS OR DIRECTLY CONTRIBUTES TO ONCOGENESIS BY ACHIEVING TRANSFORMING FUNCTIONS, WHICH INDUCE HEPATOCARCINOGENESIS. ADDITIONALLY, HBX CAN MODULATE APOPTOSIS AND IMMUNE RESPONSE BY DIRECT OR INDIRECT INTERACTION WITH HOST FACTORS. WE CONCLUDE THAT HBX HASTENS THE DEVELOPMENT OF HEPATOMA. 2014 8 1646 39 DOES THE HEPATITIS B ANTIGEN HBX PROMOTE THE APPEARANCE OF LIVER CANCER STEM CELLS? HEPATITIS B VIRUS (HBV) IS A MAJOR ETIOLOGIC AGENT OF CHRONIC LIVER DISEASE AND HEPATOCELLULAR CARCINOMA (HCC). HBV-ENCODED X ANTIGEN, HBX, AND PATHWAYS IMPLICATED IN THE SELF-RENEWAL OF STEM CELLS CONTRIBUTE TO HCC, BUT IT IS NOT CLEAR WHETHER HBX EXPRESSION PROMOTES "STEMNESS." THUS, EXPERIMENTS WERE DESIGNED TO TEST THE HYPOTHESIS THAT HBX TRIGGERS MALIGNANT TRANSFORMATION BY PROMOTING PROPERTIES THAT ARE CHARACTERISTIC OF CANCER STEM CELLS (CSC). TO TEST THIS HYPOTHESIS, HEPG2 CELLS WERE STABLY TRANSDUCED WITH HBX AND THEN ASSAYED FOR PHENOTYPIC AND MOLECULAR CHARACTERISTICS OF "STEMNESS." THE RELATIONSHIP BETWEEN HBX AND "STEMNESS"-ASSOCIATED MARKERS WAS ALSO EVALUATED BY IMMUNOHISTOCHEMICAL STAINING OF LIVER AND TUMOR TISSUE SECTIONS FROM HBV-INFECTED PATIENTS. THE RESULTS SHOWED THAT OCT-4, NANOG, KLF-4, BETA-CATENIN, AND EPITHELIAL CELL ADHESION MOLECULE (EPCAM) WERE ACTIVATED BY HBX IN VITRO AND IN VIVO. EPCAM WAS DETECTED IN THE NUCLEI OF HUMAN HCC CELLS FROM INFECTED PATIENTS. HBX PROMOTES "STEMNESS" BY ACTIVATING BETA-CATENIN AND EPIGENETIC UPREGULATION OF MIR-181, BOTH OF WHICH TARGET EPCAM. HBX EXPRESSION WAS ALSO ASSOCIATED WITH DEPRESSED LEVELS OF E-CADHERIN. MOREOVER, HBX STIMULATED CELL MIGRATION, GROWTH IN SOFT AGAR, AND SPHEROID FORMATION. THIS WORK IS THE FIRST TO PROPOSE THAT HBV PROMOTES "STEMNESS" IN THE PATHOGENESIS OF HCC. HBX-ASSOCIATED UPREGULATED EXPRESSION OF MULTIPLE "STEMNESS" MARKERS SUPPORTS THE HYPOTHESIS THAT HBX CONTRIBUTES TO HEPATOCARCINOGENESIS, AT LEAST IN PART, BY PROMOTING CHANGES IN GENE EXPRESSION THAT ARE CHARACTERISTICS OF CSCS. 2011 9 6868 42 [PATHOGENESIS OF HEPATITIS B VIRUS-RELATED HEPATOCELLULAR CARCINOMA]. HEPATOCELLULAR CARCINOMA (HCC) IS ONE OF THE MOST COMMON CANCER WORLDWIDE. MOST OF THE HCC OCCUR IN DEVELOPING COUNTRIES. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS AN IMPORTANT RISK FACTOR FOR HCC DEVELOPMENT. HBV INDUCES IMMUNE-MEDIATED CHRONIC HEPATITIS, LIVER INJURY, REGENERATION AND SCAR FORMING RESPONSES, LEADING TO AN INFLAMMATORY, FIBROTIC AND IMMUNE DEFICIENT MICROENVIRONMENT. HBV MAY INTEGRATE INTO HOST GENOME, INDUCING GENETIC ABNORMALITY AND ALTERING THE EXPRESSION OF HCC-RELATED GENES. HBV ALSO EXPRESSES ACTIVE PROTEINS SUCH AS X (HBX) AND S PROTEINS, WHICH MAY TRANS-ACTIVATE HCC-RELATED PROTEINS EXPRESSION, INTERACT WITH INTRACELLULAR SPECIFIC PROTEINS, ACTIVATE A VARIETY OF SIGNALING PATHWAYS, AND INDUCE ABERRANT EPIGENETIC MODIFICATIONS. HBV MUTATION ALSO HAS IMPACT ON HBV RELATED HCC DEVELOPMENT. 2016 10 4890 40 OXIDATIVE STRESS AND HEPATIC NOX PROTEINS IN CHRONIC HEPATITIS C AND HEPATOCELLULAR CARCINOMA. HEPATOCELLULAR CARCINOMA (HCC) IS THE MOST COMMON LIVER CANCER AND A LEADING CAUSE OF CANCER-RELATED MORTALITY IN THE WORLD. HEPATITIS C VIRUS (HCV) IS A MAJOR ETIOLOGIC AGENT OF HCC. A MAJORITY OF HCV INFECTIONS LEAD TO CHRONIC INFECTION THAT CAN PROGRESS TO CIRRHOSIS AND, EVENTUALLY, HCC AND LIVER FAILURE. A COMMON PATHOGENIC FEATURE PRESENT IN HCV INFECTION, AND OTHER CONDITIONS LEADING TO HCC, IS OXIDATIVE STRESS. HCV DIRECTLY INCREASES SUPEROXIDE AND H2O2 FORMATION IN HEPATOCYTES BY ELEVATING NOX PROTEIN EXPRESSION AND SENSITIZING MITOCHONDRIA TO REACTIVE OXYGEN SPECIES GENERATION WHILE DECREASING GLUTATHIONE. NITRIC OXIDE SYNTHESIS AND HEPATIC IRON ARE ALSO ELEVATED. FURTHERMORE, ACTIVATION OF PHAGOCYTIC NADPH OXIDASE (NOX) 2 OF HOST IMMUNE CELLS IS LIKELY TO EXACERBATE OXIDATIVE STRESS IN HCV-INFECTED PATIENTS. KEY MECHANISMS OF HCC INCLUDE GENOME INSTABILITY, EPIGENETIC REGULATION, INFLAMMATION WITH CHRONIC TISSUE INJURY AND SUSTAINED CELL PROLIFERATION, AND MODULATION OF CELL GROWTH AND DEATH. OXIDATIVE STRESS, OR NOX PROTEINS, PLAYS VARIOUS ROLES IN THESE MECHANISMS. NOX PROTEINS ALSO FUNCTION IN HEPATIC FIBROSIS, WHICH COMMONLY PRECEDES HCC, AND NOX4 ELEVATION BY HCV IS MEDIATED BY TRANSFORMING GROWTH FACTOR BETA. THIS REVIEW SUMMARIZES MECHANISMS OF ONCOGENESIS BY HCV, HIGHLIGHTING THE ROLES OF OXIDATIVE STRESS AND HEPATIC NOX ENZYMES IN HCC. 2014 11 4131 50 MECHANISMS OF HBV-INDUCED HEPATOCELLULAR CARCINOMA. HEPATITIS B VIRUS (HBV) CONTRIBUTES TO HEPATOCELLULAR CARCINOMA (HCC) DEVELOPMENT THROUGH DIRECT AND INDIRECT MECHANISMS. HBV DNA INTEGRATION INTO THE HOST GENOME OCCURS AT EARLY STEPS OF CLONAL TUMOR EXPANSION AND INDUCES BOTH GENOMIC INSTABILITY AND DIRECT INSERTIONAL MUTAGENESIS OF DIVERSE CANCER-RELATED GENES. PROLONGED EXPRESSION OF THE VIRAL REGULATORY PROTEIN HBX AND/OR ALTERED VERSIONS OF THE PRES/S ENVELOPE PROTEINS DYSREGULATES CELL TRANSCRIPTION AND PROLIFERATION CONTROL AND SENSITIZES LIVER CELLS TO CARCINOGENIC FACTORS. ACCUMULATION OF PRES1 LARGE ENVELOPE PROTEINS AND/OR PRES2/S MUTANT PROTEINS ACTIVATES THE UNFOLD PROTEINS RESPONSE, THAT CAN CONTRIBUTE TO HEPATOCYTE TRANSFORMATION. EPIGENETIC CHANGES TARGETING THE EXPRESSION OF TUMOR SUPPRESSOR GENES OCCUR EARLY IN THE DEVELOPMENT OF HCC. A MAJOR ROLE IS PLAYED BY THE HBV PROTEIN, HBX, WHICH IS RECRUITED ON CELLULAR CHROMATIN AND MODULATES CHROMATIN DYNAMICS AT SPECIFIC GENE LOCI. COMPARED WITH TUMORS ASSOCIATED WITH OTHER RISK FACTORS, HBV-RELATED TUMORS HAVE A HIGHER RATE OF CHROMOSOMAL ALTERATIONS, P53 INACTIVATION BY MUTATIONS AND OVEREXPRESSION OF FETAL LIVER/HEPATIC PROGENITOR CELLS GENES. THE WNT/BETA-CATENIN PATHWAY IS ALSO OFTEN ACTIVATED BUT HBV-RELATED TUMORS DISPLAY A LOW RATE OF ACTIVATING BETA-CATENIN MUTATIONS. HBV-RELATED HCCS MAY ARISE ON NON-CIRRHOTIC LIVERS, FURTHER SUPPORTING THE NOTION THAT HBV PLAYS A DIRECT ROLE IN LIVER TRANSFORMATION BY TRIGGERING BOTH COMMON AND ETIOLOGY SPECIFIC ONCOGENIC PATHWAYS IN ADDITION TO STIMULATING THE HOST IMMUNE RESPONSE AND DRIVING LIVER CHRONIC NECRO-INFLAMMATION. 2016 12 268 27 AFLATOXIN B1 INDUCES PERSISTENT EPIGENOMIC EFFECTS IN PRIMARY HUMAN HEPATOCYTES ASSOCIATED WITH HEPATOCELLULAR CARCINOMA. CHRONIC EXPOSURE TO AFLATOXIN B1 (AFB1) HAS, IN CERTAIN REGIONS IN THE WORLD, BEEN STRONGLY ASSOCIATED WITH HEPATOCELLULAR CARCINOMA (HCC) DEVELOPMENT. AFB1 IS A VERY POTENT HEPATOTOXIC AND CARCINOGENIC MYCOTOXIN WHICH IS FREQUENTLY REPORTED AS A FOOD CONTAMINANT. EPIGENETIC MODIFICATIONS PROVOKED BY ENVIRONMENTAL EXPOSURES, SUCH AS AFB1, MAY CREATE A PERSISTENT EPIGENETIC FOOTPRINT. DEREGULATION OF EPIGENETIC MECHANISMS HAS ACTUALLY BEEN REPORTED IN HCC PATIENTS FOLLOWING AFB1 EXPOSURE; HOWEVER, NO ATTEMPTS HAVE YET BEEN MADE TO INVESTIGATE EARLY EFFECTS ON THE EPIGENOME LEVEL WHICH MAY BE PERSISTENT ON LONGER TERM, THEREBY POSSIBLY INITIATING CARCINOGENIC EVENTS. IN THIS STUDY, WE AIM TO IDENTIFY METHYL DNA-MRNA-INTERACTIONS REPRESENTATIVE FOR A PERSISTENT EPIGENETIC FOOTPRINT ASSOCIATED WITH THE EARLY ONSET OF AFB1-INDUCED HCC. FOR THIS, PRIMARY HUMAN HEPATOCYTES WERE EXPOSED TO 0.3MUM OF AFB1 FOR 5 DAYS. PERSISTENT EPIGENETIC EFFECTS WERE MEASURED 3 DAYS AFTER TERMINATING THE CARCINOGENIC EXPOSURE. WHOLE GENOME DNA METHYLATION CHANGES AND WHOLE GENOME TRANSCRIPTOMIC ANALYSIS WERE ANALYZED APPLYING MICROARRAY TECHNOLOGIES, AND CROSS-OMICS INTERACTIONS WERE EVALUATED. UPON COMBINING TRANSCRIPTOMICS DATA WITH RESULTS ON DNA METHYLATION, A RANGE OF PERSISTENT HYPER- AND HYPO-METHYLATED GENES WAS IDENTIFIED WHICH ALSO APPEARED AFFECTED ON THE TRANSCRIPTOME LEVEL. FOR SIX OF THE HYPO-METHYLATED AND UP-REGULATED GENES, NAMELY TXNRD1, PCNA, CCNK, DIAPH3, RAB27A AND HIST1H2BF, A CLEAR ROLE IN CARCINOGENIC EVENTS COULD BE IDENTIFIED. THIS STUDY IS THE FIRST TO REPORT ON A CARCINOGEN-INDUCED PERSISTENT IMPACT ON THE EPIGENETIC FOOTPRINT IN RELATION WITH THE TRANSCRIPTOME WHICH COULD BE INDICATIVE FOR THE EARLY ONSET OF AFB1-RELATED DEVELOPMENT OF HCC. 2016 13 3272 65 HEPATOCELLULAR CARCINOMA: AN UPDATE. HEPATOCELLULAR CARCINOMA (HCC) IS THE MOST COMMON MALIGNANT TUMOR OF MALES IN THE WORLD, WITH AN INCIDENCE OF 1,000,000 NEW CASES A YEAR. IT IS ENDEMIC IN SOUTHEAST ASIA AND SUB-SAHARAN AFRICA. RISK FACTORS INCLUDE CHRONIC INFECTION WITH HEPATITIS B VIRUS (HBV) AND HEPATITIS C VIRUS (HCV), AFLATOXIN B1 UPTAKE, HEMOCHROMATOSIS, AND ALPHA1 -ANTITRIPSIN DEFICIENCY. EPIDEMIOLOGICAL STUDIES PROVIDE EVIDENCE FOR THE ASSOCIATION OF HCC WITH HBV INFECTION. THE INCIDENCE OF HCC IS HIGH IN REGIONS HYPERENDEMIC FOR HBV. CHRONIC CARRIER STATE AND MATERNAL-INFANT TRANSMISSION ARE IMPORTANT FACTORS IN THE DEVELOPMENT OF HCC. EVIDENCE OF DIRECT ONCOGENIC EFFECT OF H BV IS WELL ESTABLISHED, HCCS CONTAIN VIRAL DNA SEQUENCES INTEGRATED INTO HEPATOCYTE DNA THAT ACT AS RANDOM INSERTIONAL MUTAGENS, AND THESE SITES ARE NEAR GENES INVOLVED IN THE CONTROL OF PROLIFERATION AND DIFFERENTIATION. THE MECHANISM OF HEPATITIS C VIRUS IN HEPATOCARCINOGENESIS IS STILL IMPRECISE BUT A HIGH PERCENTAGE OF CASES ARE RELATED TO THIS VIRUS. CHRONIC ALCOHOL CONSUMPTION AND CIRRHOSIS ARE COFACTORS THAT INCREASE THE DEVELOPMENT OF HCC IN PATIENTS WITH CHRONIC VIRAL INFECTION. IN EXPERIMENTAL CARCINOGENESIS A MULTIPOTENTIAL ELEMENT CALLED OVAL CELL PROLIFERATES IN THE EARLY STAGES. THE CELLULAR EVENTS ARE ACCOMPANIED BY INCREASED EXPRESSION OF SEVERAL GROWTH FACTORS THAT ENHANCE THE SURVIVAL OF CARCINOGEN-ACTIVATED CELLS BY SUPPRESSING APOPTOSIS AND INCREASING ELEMENTS ENTERING THE CELL CYCLE. HEPATIC CARCINOGENESIS IS A COMPLEX PROCESS ASSOCIATED WITH ACCUMULATION OF GENETIC AND EPIGENETIC CHANGES THAT RUN THROUGH STEPS OF INITIATION, PROMOTION AND PROGRESSION. ACTIVATION OF ONCOGENES OF THE "RAS" FAMILY AND OTHERS HAS BEEN DETECTED DURING CHEMICALLY-INDUCED HCC IN RODENTS, BUT THERE IS LITTLE EVIDENCE OF SUCH ACTIVATION IN HUMAN TUMORS. THE ROLE OF TUMOR SUPRESSOR GENES SUCH AS RETINOBLASTOMA (RB) AND P53 GENES HAS BEEN DOCUMENTED. AFLATOXIN B1 THAT CONTAMINATES FOODS IN ENDEMIC AREAS HAS A CLEAR ROLE IN HEPATOCARCINOGENESIS. METABOLITES OF THIS TOXIN PROMOTE APURINIC SITES AND G TO T MUTATIONS IN CHROMOSOMAL DNA, THE THIRD BASE OF CODON 249 OF THE P53 GENE IS PREFERENTIALLY TARGETED TO FORM ADUCTS WITH AFLATOXIN B1, AND THIS MUTATION HAS BEEN SPECIFICALLY IDENTIFIED IN HBV INFECTION. HISTOLOGICAL AND CYTOLOGICAL CRITERIA FOR THE DIAGNOSIS OF HCC ARE WELL ESTABLISHED AND ARE BASED IN ARCHITECTURAL AND CYTOLOGICAL CHANGES. AN IMPORTANT ISSUE IS THE DIAGNOSIS OF LIVER "NODULES" DETECTED BY IMAGE, FROM WHICH SMALL BIOPSIES OR ASPIRATION MATERIAL IS OBTAINED. SPECIAL STUDIES SUCH AS RETICULIN, CD34, CYTOKERATIN PROFILE, AND MOC-31 CAN BE VERY USEFUL FOR THE DIFFERENTIAL DIAGNOSIS OF PRIMARY AND METASTATIC TUMORS. TELOMERASE ACTIVITY HAS BEEN FOUND IN HCC AND NEGATIVE IN PERICANCEROUS TISSUE. IT IS MORE PRONOUNCED IN POORLY DIFFERENTIATED TUMORS AND CORRELATES WITH FACTORS OF CLINICAL IMPORTANCE, SUCH AS PROGNOSIS AND RECURRENCES. CELLS OF WELL-DIFFERENTIATED HCC HAVE AN ULTRASTRUCTURAL APPEARANCE SIMILAR TO NORMAL HEPATOCYTES. DURING THE PROCESS OF DEDIFFERENTIATION, THERE IS PROGRESSIVE LOSS OF ORGANIZATION OF INTRACELLULAR ORGANELLES. THE CELL COHESION IS LOST, INTERCELLULAR GAPS WITH MICROVILLI APPEAR, THE SINUSOIDS BECOME CAPILLARIZED, AND REPARATIVE CHANGES ARE SEEN IN THE SPACES OF DISSE. A VARIETY OF INCLUSIONS, SUCH AS MALLORY BODIES, GRANULAR MATERIAL, SECONDARY LYSOSOMES, AND DUBIN-JOHNSON PIGMENT, HAVE BEEN DESCRIBED. FIBROLAMELLAR CARCINOMA HAS A CHARACTERISTIC HISTOLOGICAL PICTURE AND ULTRASTRUCTURALLY ONCOCYTIC FEATURES. NEUROENDOCRINE GRANULES AND COMBINATION OF HCC WITH BILE DUCT CARCINOMA ARE SEEN BY ELECTRON MICROSCOPY. 2001 14 4903 30 P16 PROMOTER HYPERMETHYLATION IN HUMAN HEPATOCELLULAR CARCINOMA WITH OR WITHOUT HEPATITIS VIRUS INFECTION. BACKGROUND: EPIGENETIC ALTERATION THROUGH METHYLATION IS ONE OF THE MOST IMPORTANT STEPS IN CARCINOGENESIS. HOWEVER, THE RELATION BETWEEN HEPATITIS VIRUS INFECTION AND EPIGENETIC ALTERATIONS IS POORLY UNDERSTOOD. METHODS: SIXTEEN PATIENTS WITHOUT HEPATITIS B VIRUS (HBV) AND HEPATITIS C VIRUS (HCV) AND 35 PATIENTS WITH HBV OR HCV WHO UNDERWENT LIVER RESECTION FOR HEPATOCELLULAR CARCINOMA (HCC) WERE STUDIED. MUTATION OF P53 WAS DETECTED BY DIRECT SEQUENCING. METHYLATION STATUS OF P16 WAS EVALUATED IN TUMOR AND NONCANCEROUS LIVER TISSUES BY METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION. RESULTS: IN HCC WITHOUT HBV AND HCV, P53 MUTATIONS WERE DETECTED IN 5 (31%) OF 16 HCCS. METHYLATION OF P16 PROMOTER WAS DETECTED IN 2 (25%) OF 8 MODERATELY DIFFERENTIATED HCCS, 6 (75%) OF 8 POORLY DIFFERENTIATED HCCS, AND NONE OF 16 NONCANCEROUS TISSUE SPECIMENS. IN HCC WITH HBV OR HCV, P53 MUTATIONS WERE DETECTED IN 8 (23%) OF 35 HCCS. METHYLATION OF P16 PROMOTER WAS DETECTED IN 2 (100%) OF 2 WELL-DIFFERENTIATED HCCS, 13 (76%) OF 17 MODERATELY DIFFERENTIATED HCCS, 12 (75%) OF 16 POORLY DIFFERENTIATED HCCS, AND 9 (26%) OF 35 NONCANCEROUS LIVER TISSUE SPECIMENS. CONCLUSIONS: OUR RESULTS SUGGEST THAT HEPATITIS VIRUSES MIGHT INDUCE METHYLATION OF P16 PROMOTER IN LIVER WITH CHRONIC INFLAMMATION, BEFORE APPEARANCE OF HCC. 2004 15 3267 32 HEPATOCELLULAR CARCINOMA AND POSSIBLE CHEMICAL AND BIOLOGICAL CAUSES: A REVIEW. THE DEVELOPMENT OF HEPATOCELLULAR CARCINOMA (HCC) IS A MULTISTEP PROCESS. IN HCC, PROGRESSIVE AND MORPHOLOGICALLY DISTINCT PRENEOPLASTIC LESIONS/ALTERATIONS ASSOCIATED WITH CHRONIC LIVER INJURY, INFLAMMATION, HEPATOCELLULAR DEGENERATION/REGENERATION, NECROSIS, AND SMALL-CELL DYSPLASIA CAN BE OBSERVED. THE INCIDENCE OF HCC EXHIBITS REGIONAL AND ETHNIC DIFFERENCES. SEVERAL CYTOTOXIC AND DNA-DAMAGING CHEMICALS ARE SUGGESTED TO BE THE UNDERLYING CAUSES OF HCC-FOR EXAMPLE, ACRYLAMIDE, PERFLUOROOCTANOIC ACID (PFOA), POLYCHLORINATED BIPHENYLS (PCBS), BENZO(A)PYRENE (BAP), PERFLUORINATED CHEMICALS (PFCS), VINYL CHLORIDE MONOMER (VCM), AND DIETARY CONTAMINANTS (AFLATOXINS, OCHRATOXINS). ALSO SUGGESTED ARE SUBSTANCES OF ABUSE (ALCOHOL) AND BIOLOGICAL AGENTS, SUCH AS HEPATITIS B AND C AND HUMAN IMMUNODEFICIENCY VIRUS 1 (HIV-1). THESE CAN ACT THROUGH GENETIC AND/OR EPIGENETIC MECHANISMS. THIS REVIEW WILL SHORTLY ADDRESS THE GENETIC AND EPIGENETIC MECHANISMS OF HCC AND FOCUS ON CYTOTOXIC AND DNA-DAMAGING CHEMICALS AND BIOLOGICAL AGENTS, EXPOSURE TO WHICH ARE SUGGESTED TO LEAD TO HCC INITIATION, PROMOTION, AND/OR PROGRESSION. 2017 16 3255 31 HEPATITIS B VIRUS X PROTEIN MEDIATED EPIGENETIC ALTERATIONS IN THE PATHOGENESIS OF HEPATOCELLULAR CARCINOMA. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS A WORLDWIDE HEALTH PROBLEM. HEPATITIS B VIRUS X PROTEIN (HBX), A PLEIOTROPIC REGULATORY PROTEIN ENCODED BY HBV, IS NECESSARY FOR THE TRANSCRIPTION OF HBV COVALENTLY CLOSED CIRCULAR DNA (CCCDNA) MINICHROMOSOMES, AND AFFECTS THE EPIGENETIC REGULATION OF HOST CELLS. THE EPIGENETIC REPROGRAMMING OF HBX ON HOST CELL GENOME IS STRONGLY INVOLVED IN HBV-RELATED HCC CARCINOGENESIS. HERE, WE REVIEW THE LATEST FINDINGS OF THE EPIGENETIC REGULATION INDUCED BY HBX PROTEIN IN HEPATOCELLULAR CARCINOMA (HCC), INCLUDING DNA METHYLATION, HISTONE MODIFICATION AND NON-CODING RNA EXPRESSION. THE INFLUENCE OF HBX ON THE EPIGENETIC REGULATION OF CCCDNA IS ALSO SUMMARIZED. IN ADDITION, PRELIMINARY STUDIES OF TARGETED DRUGS FOR EPIGENETIC CHANGES INDUCED BY HBX ARE ALSO DISCUSSED. THE EXPLORATION OF EPIGENETIC MARKERS AS POTENTIAL TARGETS WILL HELP TO DEVELOP NEW PREVENTION AND/OR TREATMENT METHODS FOR HBX-RELATED HCC. 2022 17 1478 35 DIVERSE ROLES OF HEPATITIS B VIRUS IN LIVER CANCER. HEPATITIS B VIRUS (HBV) IS A WIDESPREAD HUMAN PATHOGEN RESPONSIBLE FOR ACUTE AND CHRONIC LIVER DISEASES. THE HEPATITIS B BURDEN IS PARTICULARLY HEAVY IN ENDEMIC COUNTRIES, WHERE LIVER CIRRHOSIS AND HEPATOCELLULAR CARCINOMA ARE LEADING CAUSES OF DEATH. HOWEVER, THE ONCOGENIC ROLE OF HBV REMAINS ENIGMATIC. AS THE VIRUS HAS NO CYTOPATHIC EFFECT, LIVER DAMAGE IS ATTRIBUTED TO IMMUNE RESPONSES THAT INDUCE INFLAMMATION, APOPTOSIS AND REGENERATION, FOSTERING THE ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS. IN A MORE DIRECT ACTION, FREQUENT INTEGRATION OF HBV DNA INTO HOST CHROMOSOMES MAY LEAD TO INSERTIONAL MUTAGENESIS OF CANCER-RELATED GENES AND CHROMOSOMAL INSTABILITY. HBV PROTEINS, NOTABLY THE HBX TRANSACTIVATOR, PARTICIPATE AS CO-FACTORS IN ONCOGENESIS. BETTER UNDERSTANDING OF HEPATITIS B PATHOGENESIS IS MANDATORY FOR IMPROVING DISEASE MANAGEMENT. 2012 18 4462 48 MOLECULAR MECHANISMS OF HBV-ASSOCIATED HEPATOCARCINOGENESIS. HEPATITIS B VIRUS (HBV) CONTRIBUTES TO HEPATOCELLULAR CARCINOMA (HCC) DEVELOPMENT THROUGH DIRECT AND INDIRECT MECHANISMS. HBV-DNA INTEGRATION INTO THE HOST GENOME OCCURS AT EARLY STEPS OF CLONAL TUMOR EXPANSION AND INDUCES BOTH GENOMIC INSTABILITY AND DIRECT INSERTIONAL MUTAGENESIS OF DIVERSE CANCER-RELATED GENES. PROLONGED EXPRESSION OF THE VIRAL REGULATORY PROTEIN HBX AND THE LARGE ENVELOPE PROTEIN DEREGULATE THE CELLULAR TRANSCRIPTION PROGRAM AND PROLIFERATION CONTROL AND SENSITIZE LIVER CELLS TO CARCINOGENIC FACTORS. EPIGENETIC CHANGES TARGETING THE EXPRESSION OF TUMOR SUPPRESSOR GENES OCCUR EARLY IN THE DEVELOPMENT OF HCC. A MAJOR ROLE IS PLAYED BY HBX THAT IS RECRUITED ON CELLULAR CHROMATIN AND MODULATES CHROMATIN DYNAMICS AT SPECIFIC GENE LOCI. COMPARED WITH TUMORS ASSOCIATED WITH OTHER RISK FACTORS, HBV-RELATED TUMORS HAVE A HIGHER RATE OF CHROMOSOMAL ALTERATIONS AND P53 INACTIVATION BY MUTATIONS, OVEREXPRESS FETAL LIVER/HEPATIC PROGENITOR CELLS GENES, AND SHOW A SPECIFIC ACTIVATION OF THE AKT PATHWAY. THE WNT/BETA-CATENIN PATHWAY IS ALSO OFTEN ACTIVATED, BUT HBV-RELATED TUMORS DISPLAY A LOW RATE OF ACTIVATING BETA-CATENIN MUTATIONS. ALL AVAILABLE EVIDENCE STRONGLY SUPPORTS THE NOTION THAT CHRONIC HBV INFECTION TRIGGERS BOTH COMMON AND ETIOLOGY-SPECIFIC ONCOGENIC PATHWAYS, THUS PLAYING A DIRECT ROLE BEYOND STIMULATION OF HOST IMMUNE RESPONSES AND CHRONIC NECROINFLAMMATORY LIVER DISEASE. 2013 19 3254 33 HEPATITIS B VIRUS X PROTEIN AND HEPATOCARCINOGENESIS. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION IS ONE OF THE MOST ASSOCIATED FACTORS IN HEPATOCARCINOGENESIS. HBV IS ABLE TO INTEGRATE INTO THE HOST GENOME AND ENCODE THE MULTI-FUNCTIONAL HEPATITIS B VIRUS X PROTEIN (HBX). ALTHOUGH THE MECHANISM BETWEEN HBX AND CARCINOGENESIS IS STILL ELUSIVE, RECENT STUDIES HAVE SHOWN THAT HBX WAS ABLE TO INFLUENCE VARIOUS SIGNALING PATHWAYS, AS WELL AS EPIGENETIC AND GENETIC PROCESSES. THIS REVIEW WILL EXAMINE AND SUMMARIZE RECENT LITERATURE ABOUT HBX'S ROLE IN THESE VARIOUS PROCESSES. 2016 20 3825 42 INVESTIGATION OF CTNNB1 GENE MUTATIONS AND EXPRESSION IN HEPATOCELLULAR CARCINOMA AND CIRRHOSIS IN ASSOCIATION WITH HEPATITIS B VIRUS INFECTION. HEPATITIS B VIRUS (HBV), ALONG WITH HEPATITIS C VIRUS CHRONIC INFECTION, REPRESENTS A MAJOR RISK FACTOR FOR HEPATOCELLULAR CARCINOMA (HCC) DEVELOPMENT. HOWEVER, MOLECULAR MECHANISMS INVOLVED IN THE DEVELOPMENT OF HCC ARE NOT YET COMPLETELY UNDERSTOOD. RECENT STUDIES HAVE INDICATED THAT MUTATIONS IN CTNNB1 GENE ENCODING FOR BETA-CATENIN PROTEIN LEAD TO ABERRANT ACTIVATION OF THE WNT/ BETA-CATENIN PATHWAY. THE MUTATIONS IN TURN ACTIVATE SEVERAL DOWNSTREAM GENES, INCLUDING C-MYC, PROMOTING THE NEOPLASTIC PROCESS. THE PRESENT STUDY EVALUATED THE MUTATIONAL PROFILE OF THE CTNNB1 GENE AND EXPRESSION LEVELS OF CTNNB1 AND C-MYC GENES IN HBV-RELATED HCC, AS WELL AS IN CIRRHOTIC AND CONTROL TISSUES. MUTATIONAL ANALYSIS OF THE BETA-CATENIN GENE AND HBV GENOTYPING WERE CONDUCTED BY DIRECT SEQUENCING. EXPRESSION OF BETA-CATENIN AND C-MYC GENES WAS ASSESSED USING REAL-TIME PCR. AMONG THE HCC CASES, 18.1% SHOWED MISSENSE POINT MUTATION IN EXON 3 OF CTNNB1, MORE FREQUENTLY IN CODONS 32, 33, 38 AND 45. THE FREQUENCY OF MUTATION IN THE HOTSPOTS OF EXON 3 WAS SIGNIFICANTLY HIGHER IN NON-VIRAL HCCS (29.4%) RATHER THAN HBV-RELATED CASES (12.7%, P = 0.021). THE EXPRESSION OF BETA-CATENIN AND C-MYC GENES WAS FOUND UPREGULATED IN CIRRHOTIC TISSUES IN ASSOCIATION WITH HBV INFECTION. MUTATIONS AT BOTH PHOSPHORYLATION AND NEIGHBORING SITES WERE ASSOCIATED WITH INCREASED ACTIVITY OF THE WNT PATHWAY. THE RESULTS DEMONSTRATED THAT MUTATED BETA-CATENIN CAUSED ACTIVATION OF THE WNT PATHWAY, BUT THE RATE OF CTNNB1 GENE MUTATIONS WAS NOT RELATED TO HBV INFECTION. HBV FACTORS MAY DEREGULATE THE WNT PATHWAY BY CAUSING EPIGENETIC ALTERATIONS IN THE HBV-RELATED HCC. 2020