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 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 3 672 22 BRAF, KRAS AND HELICOBACTER PYLORI EPIGENETIC CHANGES-ASSOCIATED CHRONIC GASTRITIS IN EGYPTIAN PATIENTS WITH AND WITHOUT GASTRIC CANCER. WE AIMED TO STUDY MLH1 AND MGMT METHYLATION STATUS IN HELICOBACTER PYLORI-ASSOCIATED CHRONIC GASTRITIS IN EGYPTIAN PATIENTS WITH AND WITHOUT GASTRIC CANCER. 39 PATIENTS WERE INCLUDED IN OUR STUDY. THEY WERE DIVIDED INTO 2 GROUPS; PATIENTS WITHOUT (GROUP I) AND WITH GASTRIC ADENOCARCINOMA (GROUP II). PATIENTS WERE SUBJECTED TO CLINICAL EXAMINATION, ABDOMINAL ULTRASOUND AND UPPER ENDOSCOPY FOR GASTRIC BIOPSY. BIOPSIES WERE SUBJECTED TO UREASE TEST, HISTOLOGICAL EXAMINATION, AND DNA PURIFICATION. H. PYLORI, BRAF, KRAS, MLH1 AND MGMT METHYLATION WERE ASSESSED BY QUANTITATIVE PCR. DNA SEQUENCING WAS PERFORMED TO ASSESS BRAF AND KRAS GENES MUTATION. QPCR OF H. PYLORI WAS SIGNIFICANTLY HIGHER IN PATIENTS WITH ADENOCARCINOMA (GROUP II) THAN THOSE WITHOUT ADENOCARCINOMA (GROUP I); WITH A P < 0.001 AS WELL AS IN PATIENTS WITH AGE ABOVE 50 YEARS WITH A P VALUE = 0.008. BY APPLYING LOGISTIC REGRESSION ANALYSIS IT WAS REPORTED THAT THE H. PYLORI QPCR IS A SIGNIFICANT PREDICTOR TO THE ADENOCARCINOMA WITH OR = 1.025 (95 % CI: 1. 002-1.048), WITH SENSITIVITY OF 90 % AND SPECIFICITY OF 100 %. ADENOCARCINOMA PATIENTS HAD A SIGNIFICANTLY HIGHER MEAN AGE AND LEVELS OF H. PYLORI, BRAF, K-RAS, METHYLATED MGMT AND METHYLATED MLH1 THAN THOSE OF GASTRITIS PATIENTS. DNA SEQUENCE ANALYSIS OF BRAF (CODON 12) AND KRAS (CODON 600) HAD GENES MUTATION IN GASTRIC ADENOCARCINOMA VERSUS CHRONIC GASTRITIS. CONCLUSION: H. PYLORI MAY CAUSE EPIGENETIC CHANGES PREDISPOSING THE PATIENTS TO CANCER STOMACH. ESTIMATION OF H. PYLORI BY QPCR CAN BE A GOOD PREDICTOR TO ADENOCARCINOMA. BRAF AND KRAS GENES MUTATION WERE REVELED IN GASTRITIS AND ADENOCARCINOMA PATIENTS. 2016 4 4904 37 P16INK4A GENE ALTERATIONS ARE NOT A PROGNOSTIC INDICATOR FOR SURVIVAL IN PATIENTS WITH HEPATOCELLULAR CARCINOMA UNDERGOING CURATIVE HEPATECTOMY. BACKGROUND AND AIM: HEPATOCELLULAR CARCINOMA (HCC) IS A COMMON MALIGNANCY WORLDWIDE THAT IS HIGHLY ASSOCIATED WITH CHRONIC HEPATITIS B OR C INFECTION AND CIRRHOSIS. THE TUMOR SUPPRESSOR GENE P16INK4A IS AN IMPORTANT COMPONENT OF THE CELL CYCLE AND INACTIVATION OF THE GENE HAS BEEN FOUND IN A VARIETY OF HUMAN CANCERS. THE PRESENT STUDY WAS PERFORMED TO DETERMINE GENETIC AND EPIGENETIC ALTERATIONS IN THE P16INK4A TUMOR SUPPRESSOR GENE AND THE EFFECT OF THESE ON HCC PROGRESSION. METHODS: THE STATUS OF P16INK4A WAS EVALUATED IN 117 HCC TUMORAL NODULES AND 110 CORRESPONDING PERITUMORAL TISSUES BY LOSS OF HETEROZIGOSITY (LOH) AT THE 9P21-22 REGION, HOMOZYGOUS DELETIONS, SINGLE-STRAND CONFORMATION POLYMORPHISM-POLYMERASE CHAIN REACTION (PCR) MUTATIONAL ANALYSIS AND METHYLATION SPECIFIC PCR. RESULTS: THE MOST FREQUENT INACTIVATION MECHANISM WAS HYPERMETHYLATION OF THE PROMOTER REGION, WHICH WAS FOUND IN 63.2% OF THE TUMOR SAMPLES AND IN 28.2% OF THE PERITUMORAL SAMPLES. LOSS OF HETEROZYGOSITY AT THE 9P21 REGION WAS DETECTED IN 27.3% AND 10% OF TUMOR AND PERITUMORAL TISSUES, RESPECTIVELY. HOMOZYGOUS DELETIONS AND MUTATIONS WERE LESS COMMON EVENTS IN HEPATOCARCINOGENESIS. THE AUTHORS FOUND 5.9% OF THE TUMOR CASES WITH EXON 2 HOMOZYGOUS DELETIONS AND 8.6% WITH MUTATIONS. TWO POLYMORPHISMS WERE DETECTED, ONE AT CODON 148 (GCG --> ACG, ALA --> THR) IN THREE CASES AND THE OTHER IN EXON 3 AT 540 BP (34.2% OF THE SAMPLES). NO ASSOCIATION WAS FOUND BETWEEN INACTIVATION OF P16INK4A AND CLINICOPATHOLOGICAL CHARACTERISTICS OR PROGNOSIS. CONCLUSION: P16INK4A IS ALTERED FREQUENTLY AND EARLY IN HCC, BEING THE PREDOMINANT MECHANISM OF INACTIVATION PROMOTER HYPERMETHYLATION. THE PRESENT RESULTS SUGGEST THAT THE P16INK4A GENE PLAYS AN IMPORTANT ROLE IN THE PATHOGENESIS OF HCC. 2004 5 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 6 1431 23 DIFFERENTIAL FREQUENCIES OF P16(INK4A) PROMOTER HYPERMETHYLATION, P53 MUTATION, AND K-RAS MUTATION IN EXFOLIATIVE MATERIAL MARK THE DEVELOPMENT OF LUNG CANCER IN SYMPTOMATIC CHRONIC SMOKERS. PURPOSE: THE AIM OF THIS STUDY WAS TO INVESTIGATE THE FREQUENCY OF THREE (EPI)GENETIC ALTERATIONS (P53 AND K-RAS MUTATIONS AND P16(INK4A) PROMOTER HYPERMETHYLATION) IN SYMPTOMATIC CHRONIC SMOKERS COMPARED WITH PATIENTS WITH LUNG CANCER AND TO EVALUATE THE USE OF EXFOLIATIVE MATERIAL FOR SUCH ANALYSES. PATIENTS AND METHODS: FIFTY-ONE PATIENTS WITH HISTOLOGICALLY CONFIRMED LUNG CANCER AND 25 CHRONIC SMOKERS (> 20 PACK-YEARS) WERE INVESTIGATED FOR MUTATIONS IN THE K-RAS (CODON 12) AND P53 (CODONS 248, 249, AND 273) GENES AND FOR ALLELIC HYPERMETHYLATION OF THE P16(INK4A) GENE. DNA WAS ISOLATED FROM SPUTUM AND BILATERAL BRONCHIAL LAVAGE, AND BRUSHINGS WERE TAKEN AT BRONCHOSCOPY. RESULTS: FORTY-ONE GENETIC LESIONS WERE DETECTED WITHIN EXFOLIATIVE MATERIAL FROM THE GROUP OF 51 PATIENTS WITH LUNG CANCER AND 10 LESIONS IN THE CHRONIC SMOKER GROUP. K-RAS MUTATIONS OCCURRED EXCLUSIVELY IN THE LUNG CANCER GROUP, WHEREAS P53 MUTATIONS AND P16(INK4A) PROMOTER HYPERMETHYLATION WERE ALSO FOUND IN CHRONIC SMOKERS. THREE OF EIGHT CHRONIC SMOKERS WHO HARBORED AN (EPI)GENETIC ALTERATION WERE SUBSEQUENTLY DIAGNOSED WITH LUNG CANCER. ANALYSIS OF SPUTUM YIELDED INFORMATION EQUIVALENT TO THAT OF SAMPLES OBTAINED DURING BRONCHOSCOPY. CONCLUSION: P16(INK4A) PROMOTER HYPERMETHYLATION AND P53 MUTATIONS CAN OCCUR IN CHRONIC SMOKERS BEFORE ANY CLINICAL EVIDENCE OF NEOPLASIA AND MAY BE INDICATIVE OF AN INCREASED RISK OF DEVELOPING LUNG CANCER OR OF EARLY DISEASE. K-RAS MUTATIONS OCCUR EXCLUSIVELY IN THE PRESENCE OF CLINICALLY DETECTABLE NEOPLASTIC TRANSFORMATION. MOLECULAR ANALYSIS OF SPUTUM FOR SUCH MARKERS MAY PROVIDE AN EFFECTIVE MEANS OF SCREENING CHRONIC SMOKERS TO ENABLE EARLIER DETECTION AND THERAPEUTIC INTERVENTION OF LUNG CANCER. 2000 7 5435 30 RELATIVE ROLE OF METHYLATOR AND TUMOR SUPPRESSOR PATHWAYS IN ULCERATIVE COLITIS-ASSOCIATED COLON CANCER. BACKGROUND: CHRONIC ULCERATIVE COLITIS (UC) IS ASSOCIATED WITH AN INCREASED COLORECTAL CANCER RISK WHICH MAY BE SECONDARY TO REPETITIVE MUCOSAL INJURY. BOTH EPIGENETIC METHYLATION AND THE CLASSIC ADENOMA-TO-CARCINOMA SEQUENCE HAVE BEEN IMPLICATED IN THIS MALIGNANT TRANSFORMATION, BUT THE UNDERLYING MOLECULAR MECHANISMS REMAIN POORLY DEFINED. THIS STUDY COMPARES THE MOLECULAR CHARACTERISTICS OF COLITIS-ASSOCIATED AND COMMON COLORECTAL CANCERS. METHODS: NINETEEN PATIENTS WITH COLORECTAL ADENOCARCINOMAS ARISING WITHIN UC WERE MATCHED FOR AGE AND CANCER SITE WITH 54 PATIENTS WITH SPORADIC ADENOCARCINOMAS. TUMOR TISSUE WAS EXAMINED FOR BRAF MUTATIONS, CPG ISLAND METHYLATOR PHENOTYPE (CIMP), AND MLH1 PROMOTER METHYLATION. MUTATIONS OF KRAS AND P53 WERE ASSESSED BY SEQUENCING. RESULTS: PATIENT DEMOGRAPHICS WERE SIMILAR FOR THE TWO GROUPS. CIMP WAS OBSERVED IN 22% OF SPORADIC COLORECTAL CANCERS AND IN 5% OF UC CANCERS (P = 0.162). RATES OF BRAF MUTATION (4% VS 5%, P = 1.0), MLH1 METHYLATION (9% VERSUS 5%, P = 0.682), AND KRAS MUTATIONS (24% VERSUS 32%, P = 0.552) WERE SIMILAR BETWEEN THE GROUPS. HOWEVER, COLITIS-ASSOCIATED COLORECTAL CANCERS WERE MORE LIKELY TO HAVE A P53 MUTATION COMPARED TO SPORADIC ADENOCARCINOMAS (95% VERSUS 53%, P = 0.001). THE DOMINANT MUTATION FOR COLITIS-ASSOCIATED CANCERS WAS A MUTATION IN CODON 4, REPRESENTING HALF OF THE MUTATIONS. FURTHERMORE, COLITIS-ASSOCIATED CANCERS HAD A HIGHER RATE OF MUTATION IN CODON 8 (48% VERSUS 6%, P < 0.001) THAN SPORADIC COUNTERPARTS. CONCLUSIONS: UNLIKE OTHER INFLAMMATORY GASTROINTESTINAL CANCERS, COLITIS-ASSOCIATED COLORECTAL CANCERS DO NOT PREFERENTIALLY ARISE VIA A METHYLATOR PATHWAY WHEN COMPARED TO SPORADIC COLORECTAL CANCERS. CHROMOSOMAL INSTABILITY REMAINS AN IMPORTANT ETIOLOGY, BUT WITH A UNIQUE P53 FREQUENCY AND MUTATION PATTERN. 2011 8 3897 36 LARGE-SCALE ANALYSIS OF THE GENETIC AND EPIGENETIC ALTERATIONS IN HEPATOCELLULAR CARCINOMA FROM SOUTHEAST CHINA. OUR KNOWLEDGE ABOUT MOLECULAR ALTERATIONS DURING HEPATOCARCINOGENESIS IS STILL FRAGMENTARY, DUE TO LACK OF COMPREHENSIVE GENETIC AND EPIGENETIC ANALYSES IN THE SAME SET OF HEPATOCELLULAR CARCINOMAS (HCCS). IN THIS STUDY, WE CONDUCTED A LARGE-SCALE ANALYSIS, INCLUDING MUTATION SCREENING IN 50 GENES AND METHYLATION ASSAYS IN THREE GENES IN 54 PAIRS OF HCCS AND THEIR NEIGHBORING NON-CANCEROUS TISSUES. ALL SAMPLES WERE COLLECTED FROM THE RESIDENTS IN SOUTHEAST CHINA. WE FOUND HBV INFECTION AND CHRONIC HEPATITIS/CIRRHOSIS IN 83.3% AND 98.1% OF THE CASES, RESPECTIVELY. MUTATIONS WERE IDENTIFIED IN 18 OUT OF 54 (33.3%) SAMPLES, WITH P53 ALTERATIONS IN 14 CASES AND BETA-CATENIN MUTATIONS IN FOUR TUMORS. NO MUTATIONS WERE IDENTIFIED IN THE NEIGHBORING TISSUES. INTERESTINGLY, 9 OUT OF 14 (64.3%) TUMORS CARRYING P53 MUTATIONS DISPLAYED SUBSTITUTION OF SERINE BY ARGININE AT CODON 249, A CHARACTERISTIC CHANGE BELIEVED TO BE INDUCED BY AFLATOXIN-B1. FURTHERMORE, P53 MUTATION WAS SIGNIFICANTLY ASSOCIATED WITH SHORTER RECURRENCE-FREE SURVIVAL (P=0.004). THE RESULTS ALSO REVEALED ABERRANT METHYLATION IN TWO OR MORE GENES IN AS HIGH AS 90% OF TUMORS AND 40% OF ADJACENT TISSUES. THE FREQUENCY OF RASSF1A HYPERMETHYLATION WAS MUCH HIGHER THAN THAT OF P16INK4A AND HAI2 IN BOTH HCC AND NEIGHBORING TISSUES, INDICATING THAT DEREGULATION OF RASSF1A MAY PRECEDE THE OTHER TWO GENES. THESE DATA SUGGEST THAT ABERRANT METHYLATION OCCURS BEFORE MUTATION AND IS AN EARLY EVENT IN THE DEVELOPMENT OF THIS SET OF HCC. OUR FINDINGS HIGHLIGHT P53 AS A PROGNOSTIC FACTOR OF HCC AND RASSF1A AS A POTENTIAL TARGET IN PREVENTING MALIGNANT TRANSFORMATION OF HEPATOCYTES. 2008 9 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 10 4905 30 P16INK4A HYPERMETHYLATION IS ASSOCIATED WITH HEPATITIS VIRUS INFECTION, AGE, AND GENDER IN HEPATOCELLULAR CARCINOMA. PURPOSE: THE TUMOR SUPPRESSOR GENE P16INK4A IS MAINLY INACTIVATED BY AN EPIGENETIC CHANGE INVOLVING PROMOTER HYPERMETHYLATION IN HEPATOCARCINOGENESIS. THE POSSIBLE CLINICAL IMPACT OF P16INK4A METHYLATION AND THE POTENTIAL RISK FACTORS FOR THIS EPIGENETIC ALTERATION HAVE NOT BEEN THOROUGHLY INVESTIGATED. EXPERIMENTAL DESIGN: WE STUDIED THE METHYLATION STATUS AND MRNA AND PROTEIN EXPRESSION OF P16INK4A IN 50 HEPATOCELLULAR CARCINOMAS AND CORRESPONDING NONNEOPLASTIC LIVER LESIONS USING METHYLATION-SPECIFIC PCR, REVERSE TRANSCRIPTION-PCR, AND IMMUNOHISTOCHEMICAL TECHNIQUES. RESULTS: P16INK4A HYPERMETHYLATION WAS OBSERVED IN 58% (29 OF 50) OF THE HEPATOCELLULAR CARCINOMAS AND 16% (6 OF 38) OF THE CORRESPONDING CHRONIC HEPATITIS AND CIRRHOSIS TISSUE SAMPLES. P16INK4A METHYLATION WAS SIGNIFICANTLY ASSOCIATED WITH MRNA AND PROTEIN EXPRESSION (P <0.001 AND P=0.003, RESPECTIVELY). ALL OF THE P16INK4A-METHYLATED TUMORS WERE POSITIVE FOR HEPATITIS B VIRUS OR HEPATITIS C VIRUS MARKERS, BUT NONE OF THE VIRUS-NEGATIVE TUMORS EXHIBITED P16INK4A METHYLATION (P=0.006). THE FREQUENCY OF P16INK4A HYPERMETHYLATION TENDED TO BE HIGHER IN HEPATITIS C VIRUS-RELATED TUMORS (23 OF 32, 72%) THAN IN HEPATITIS B VIRUS-RELATED TUMORS (6 OF 13, 46%; P=0.1). ABERRANT METHYLATION OF P16INK4A WAS ALSO RELATED SIGNIFICANTLY TO INCREASING AGE, FEMALE GENDER, AND NORMAL LEVELS OF SERUM PIVKA-II (P=0.02, 0.04, AND 0.04, RESPECTIVELY). NO STATISTICALLY SIGNIFICANT DIFFERENCE IN SURVIVAL WAS OBSERVED BETWEEN PATIENTS WITH P16INK4A HYPERMETHYLATION AND THOSE WITHOUT. CONCLUSIONS: OUR OBSERVATIONS SUGGEST THAT P16INK4A HYPERMETHYLATION MAY CONTRIBUTE TO HEPATOCARCINOGENESIS FROM AN EARLY STAGE AND THAT MULTIPLE RISK FACTORS, SUCH AS VIRAL INFECTIONS, AGE, AND GENDER, MAY BE ASSOCIATED WITH P16INK4A HYPERMETHYLATION IN HEPATOCARCINOGENESIS. 2004 11 6770 31 [ABERRANT METHYLATION OF MULTIPLE GENES AND ITS CLINICAL IMPLICATION IN HEPATOCELLULAR CARCINOMA]. OBJECTIVE: TO INVESTIGATE THE METHYLATION FREQUENCIES OF MULTIPLE TUMOR SUPPRESSOR GENES (TSGS) IN HEPATOCELLULAR CARCINOMA (HCC) AND THE CLINICAL IMPLICATION OF ABERRANT DNA METHYLATION IN MOLECULAR CARCINOGENESIS OF HCC. METHODS: SIXTY SAMPLES OF HCC AND THE PAIRED ADJACENT LIVER TISSUE, 16 SAMPLES FROM POST-HEPATITIS CIRRHOTIC LIVERS, 5 FROM LIVERS WITH CHRONIC HEPATITIS AND 5 FROM NORMAL LIVERS WERE COLLECTED. EIGHT TSGS FREQUENTLY SILENCED BY HYPERMETHYLATION OF THEIR PROMOTERS IN VARIOUS TYPES OF DIGESTIVE TUMORS WERE SELECTED, INCLUDING APC, RASSF1A, P16, GSTP1, MGMT, DAPK, SOCS-1 AND RIZ1. THE STATUS OF PROMOTER METHYLATION IN THESE 8 GENES WAS INVESTIGATED USING METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION. THE CLINICOPATHOLOGICAL DATA OF HCC WERE ALSO ANALYZED IN ORDER TO EVALUATE THE CLINICAL IMPLICATION OF ABERRANT METHYLATION IN HCC. RESULTS: METHYLATION OF THE 8 TSGS WAS QUITE FREQUENT IN HCC, WITH A METHYLATION RATE OF 95.0% IN RASSF1A, 90.0% IN APC, 73.3% IN GSTP1, 65.0% IN P16, 61.6% IN RIZ1 AND 60.0% IN MGMT. METHYLATION OF THE 6 GENES WAS MORE FREQUENT IN HCC THAN THAT IN ADJACENT TISSUES (P < 0.05). THE METHYLATION RATE OF MGMT, GSTP1 AND RIZ1 IN THE ADJACENT TISSUES WAS 41.6%, 40.0% AND 25.0%, RESPECTIVELY, SIGNIFICANTLY HIGHER THAN THAT IN CIRRHOTIC LIVER (P < 0.05). P16 METHYLATION WAS MORE FREQUENTLY OBSERVED IN HCC IN ELDERLY PATIENTS. THE FREQUENCY OF MGMT METHYLATION WAS TENDED TO BE HIGHER IN GIANT HCC THAN THAT IN THE OTHER TYPES OF HCC. PATIENTS WITH MGMT METHYLATION IN THE TUMOR WERE FOUND TO HAVE A SHORTER DISEASE FREE SURVIVAL. CONCLUSION: DIFFERENT FREQUENCY OF METHYLATION IN HEPATOCELLULAR CARCINOMAS, ADJACENT LIVER TISSUES AND CIRRHOTIC LIVERS IMPLIES THAT EPIGENETIC ALTERATION IN THE HEPATOCELLULAR CARCINOGENESIS MAY BE A GRADUALLY PROGRESSIVE PROCESS. METHYLATION STATUS OF MGMT, GSTP1 AND RIZ1 MAY BE PROMISING IN RISK ASSESSMENT OF HEPATOCELLULAR CARCINOMA AND IN EARLY DIAGNOSIS. FURTHERMORE, MGMT METHYLATION MIGHT BE ALSO USED AS A POTENTIAL PROGNOSTIC BIOMARKER FOR HEPATOCELLULAR CARCINOMA PATIENTS. 2008 12 817 28 CHARACTERISTIC PATTERNS OF ALTERED DNA METHYLATION PREDICT EMERGENCE OF HUMAN HEPATOCELLULAR CARCINOMA. WE AIMED TO IDENTIFY THE SPECIFIC SUBSET OF TUMOR SUPPRESSOR GENES (TSGS) THAT ARE METHYLATION-SILENCED DURING THE EARLIEST STEPS OF HEPATOCARCINOGENESIS, AND TO FURTHER EVALUATE WHETHER THESE GENES CAN SERVE AS PREDICTIVE BIOMARKERS OF HEPATOCELLULAR CARCINOMA (HCC) EMERGENCE. A TOTAL OF 482 LIVER TISSUES INCLUDING 177 PAIRS OF HCCS AND MATCHED NONTUMOR LIVERS AND 128 LIVER BIOPSIES FROM CHRONIC HEPATITIS C (CHC) PATIENTS WERE ANALYZED FOR QUANTITATIVE METHYLATION ANALYSIS IN 24 TSG PROMOTERS AND THREE MINT LOCI. THE TUMORS WERE CLASSIFIED AS EARLY, LESS-PROGRESSED, AND HIGHLY PROGRESSED HCCS USING HISTOLOGY AND RADIOLOGICAL APPROACHES. A SUBSET OF TSGS THAT HARBORED DISTINCTLY HIGH LEVELS OF METHYLATION IN EARLY HCCS WERE SELECTED. BASED ON THE METHYLATION PROFILES OF THESE GENES, KAPLAN-MEIER ANALYSES WERE PERFORMED TO DETERMINE TIME-TO-HCC OCCURRENCE IN CHC PATIENTS. SUBSEQUENTLY, MULTIVARIATE ANALYSIS WAS PERFORMED USING AGE, GENDER, FIBROSIS STAGE, AND NUMBER OF METHYLATED TSGS AS COVARIATES. AMONG TSGS ANALYZED, A SUBSET OF EIGHT TSGS (HIC1, GSTP1, SOCS1, RASSF1, CDKN2A, APC, RUNX3, AND PRDM2) DEMONSTRATED A DISTINCT CLUSTER BY HIERARCHICAL CLUSTERING AND RECEIVER OPERATING CHARACTERISTIC ANALYSES. THIS SUBSET OF TSGS SHOWED SIGNIFICANTLY HIGHER METHYLATION LEVELS IN THE EARLY HCCS (P < 0.0001). IN THE CHC PATIENTS, METHYLATION FREQUENCIES IN THESE TSGS WERE ASSOCIATED WITH SHORTER TIME-TO-HCC OCCURRENCE (P < 0.0001), AND NUMBER OF METHYLATED GENES WAS AN INDEPENDENT RISK FACTOR FOR HCC (HAZARD RATIO = 5.21, 95% CONFIDENCE INTERVAL = 2.25-11.76, P = 0.0002). CONCLUSION: EPIGENETIC INACTIVATION OF A SUBSET OF TSGS PLAYS A CRITICAL ROLE IN THE EARLIEST STEPS OF HEPATOCARCINOGENESIS. FURTHERMORE, EPIGENETIC INACTIVATION OF THESE GENES IN CHC PROVIDES A PROGNOSTIC VALUE FOR DETERMINING THE RISK FOR DEVELOPING HCC LATER IN LIFE. 2012 13 2842 33 FREQUENT CONCOMITANT EPIGENETIC SILENCING OF SOX1 AND SECRETED FRIZZLED-RELATED PROTEINS (SFRPS) IN HUMAN HEPATOCELLULAR CARCINOMA. BACKGROUND AND AIM: EXCEPT FOR GENETIC MUTATIONS, EPIGENETIC CHANGES ARE ALSO INVOLVED IN THE DEVELOPMENT OF HUMAN CANCERS. RECENTLY, WE HAVE IDENTIFIED SOX1, SRY (SEX DETERMINING REGION Y)-BOX 1, IS HYPERMETHYLATED IN CERVICAL CANCER AND OVARIAN CANCER. THEREFORE, WE INVESTIGATED WHETHER PROMOTER HYPERMETHYLATION OF SOX1 IS COMMON IN HEPATOCELLULAR CARCINOMA (HCC). METHODS: WE USED METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MS-PCR) AND BISULFITE SEQUENCING TO ANALYZE THE METHYALTION LEVEL OF THE SOX1 PROMOTER IN SEVEN HCC CELL LINES, 54 CLINICAL HCCS, 42 CIRRHOTIC LIVERS, 21 LIVERS WITH CHRONIC HEPATITIS, AND 15 CONTROL LIVERS. THEN, WE EMPLOYED QUANTITATIVE MS-PCR (QMSP) TO VALIDATE IN AN INDEPENDENT SET OF SAMPLES (60 PAIRED HCCS AND 30 CONTROL LIVERS). FINALLY, WE USED LUCIFERASE REPORTER AND COLONY FORMATION ASSAY TO CHECK THE EFFECT OF SOX1 IN HCC. RESULTS: PROMOTER METHYLATION OF SOX1 WAS SIGNIFICANTLY FREQUENT IN HCC CELL LINES AND CLINICAL HCCS, CIRRHOTIC LIVERS, BUT NOT IN CONTROL LIVERS (P < 0.0001). THERE IS A SIGNIFICANT CORRELATION BETWEEN DOWNREGULATION OF SOX1 EXPRESSION AND PROMOTER METHYLATION. QMSP RESULTS CONFIRMED THAT PROMOTER HYPERMETHYLATION OF SOX1 IS SIGNIFICANTLY MORE FREQUENT IN HCCS THAN CONTROL LIVERS (P < 0.0001). THE FREQUENCY OF SOX1 METHYLATION IN PATIENTS WITH SECRETED FRIZZLED-RELATED PROTEINS (SFRPS) METHYLATION IS SIGNIFICANTLY HIGHER THAN IN PATIENTS WITHOUT SFRPS METHYLATION (P < 0.0001). FURTHERMORE, ECTOPIC EXPRESSION OF SOX1 COULD SUPPRESS T-CELL FACTOR-DEPENDENT TRANSCRIPTIONAL ACTIVITY AND COLONY FORMATION NUMBER IN HCCS. CONCLUSIONS: CONCOMITANT EPIGENETIC SILENCING OF SOX1 AND SFRPS THROUGH PROMOTER HYPERMETHYLATION IS FREQUENT IN HCCS, AND THIS MIGHT CONTRIBUTE TO ABNORMAL ACTIVATION OF CANONICAL WNT SIGNAL PATHWAY. 2013 14 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 15 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 16 1342 37 DETECTING ABNORMAL METHYLATION OF TUMOR SUPPRESSOR GENES GSTP1, P16, RIZ1, AND RASSF1A IN HEPATOCELLULAR CARCINOMA AND ITS CLINICAL SIGNIFICANCE. HEPATOCELLULAR CARCINOMA (HCC) HAS A HIGH RATE OF MORTALITY. FURTHER STUDIES INTO EPIGENETIC CHANGES IN HCC, PARTICULARLY THE ABNORMAL METHYLATION OF TUMOR SUPPRESSOR GENES (TSGS), ARE REQUIRED, SINCE THESE CHANGES MAY PROVIDE NOVEL BIOMARKERS FOR EARLY SCREENING AND DIAGNOSIS OF HCC. BY USING METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP), THE PRESENT STUDY DETECTED THE METHYLATION STATUS IN THE PROMOTER REGION OF 4 CANDIDATE TSGS, GSTP1, P16, RIZ1, AND RASSF1A, RESPECTIVELY, IN 35 PAIRED HCC AND TUMOR-ADJACENT LIVER TISSUES IN ADDITION TO 20 NORMAL LIVER TISSUES. THEIR EFFECT ON THE INITIATION AND PROGRESSION OF HCC WAS ALSO INVESTIGATED BY ANALYZING THE CLINICOPATHOLOGICAL DATA. THE RESULTS OF THE PRESENT STUDY REVEALED THAT THE METHYLATION LEVEL OF RIZ1 AND GSTP1 GENES IN HCC WAS SIGNIFICANTLY INCREASED COMPARED WITH THAT IN THE ADJACENT TISSUES (P<0.01) AND THE NORMAL LIVER TISSUES (P<0.01). THE METHYLATION FREQUENCY OF P16 AND RASSF1A GENES WAS NOT SIGNIFICANTLY INCREASED COMPARED WITH THAT OBSERVED IN THE ADJACENT TISSUES (P>0.05) BUT WAS SIGNIFICANTLY INCREASED COMPARED WITH THE NORMAL TISSUES (P<0.01). IN HCC TISSUES, THE METHYLATION FREQUENCY OF THE GSTP1 GENE IN TUMORS WITH CAPSULAR INVASION WAS SIGNIFICANTLY INCREASED COMPARED WITH THAT IN TUMORS WITHOUT CAPSULAR INVASION (P<0.05). THE METHYLATION FREQUENCY OF P16 GENE IN HEPATITIS B SURFACE ANTIGEN (HBSAG)-POSITIVE HCC PATIENTS WAS SIGNIFICANTLY INCREASED COMPARED WITH THAT IN HBSAG-NEGATIVE PATIENTS (P<0.05). THE METHYLATION STATUS OF RIZ1 AND RASSF1A GENES WAS NOT SIGNIFICANTLY CORRELATED WITH THE CLINICOPATHOLOGICAL DATA (P>0.05). PREVIOUS STUDIES HAVE DEMONSTRATED THAT THE METHYLATION STATUS OF RIZ1 AND GSTP1 GENES IS HCC-SPECIFIC, AND THUS MAY BE USED AS A BIOMARKER TO ASSIST THE CLINICAL DIAGNOSIS OF HCC. WHILE THE METHYLATION OF GSTP1 GENE PROMOTER MAY ASSOCIATE WITH THE INVASIVENESS OF HCC, CHRONIC HEPATITIS B VIRUS INFECTION MAY BE THE CAUSE OF METHYLATION-INDUCED P16 INACTIVATION. 2015 17 2439 19 EPIGENETIC SILENCING OF THE MLH1 PROMOTER IN RELATION TO THE DEVELOPMENT OF GASTRIC CANCER AND ITS USE AS A BIOMARKER FOR PATIENTS WITH MICROSATELLITE INSTABILITY: A SYSTEMATIC ANALYSIS. BACKGROUND/AIMS: HUMAN MUTL HOMOLOG 1 (MLH1) PROMOTER METHYLATION WAS REPORTED IN GASTRIC CANCER (GC). THIS STUDY DETERMINED THE CLINICOPATHOLOGICAL, PROGNOSTIC, AND DIAGNOSTIC EFFECTS OF MLH1 PROMOTER METHYLATION IN GC. METHODS: THE COMBINED ODDS RATIO (OR) OR HAZARD RATIO (HR) AND THEIR CORRESPONDING 95% CONFIDENCE INTERVALS (95% CI) WERE CALCULATED. THE POOLED SENSITIVITY, SPECIFICITY, AND AREA UNDER THE CURVE (AUC) WERE ANALYZED. RESULTS: A TOTAL OF 4654 GC PATIENTS AND 3669 NON-MALIGNANT CONTROLS WERE IDENTIFIED IN THIS SYSTEMATIC ANALYSIS. MLH1 PROMOTER METHYLATION WAS SIGNIFICANTLY HIGHER IN GC SAMPLES THAN IN GASTRIC ADENOMAS, CHRONIC GASTRITIS, ADJACENT TISSUES, NORMAL GASTRIC MUCOSA, AND NORMAL HEALTHY BLOOD SAMPLES, BUT IT EXHIBITED A SIMILAR FREQUENCY IN GC VS. INTESTINAL METAPLASIA AND DYSPLASIA SAMPLES. MLH1 PROMOTER METHYLATION CORRELATED WITH AGE AND MICROSATELLITE INSTABILITY (MSI), BUT IT WAS NOT ASSOCIATED WITH GENDER, H. PYLORI INFECTION, SMOKING, DRINKING BEHAVIORS, PATHOLOGICAL HISTOLOGY, TUMOR DIFFERENTIATION, CLINICAL STAGE, LYMPH NODE STATUS, DISTANT METASTASIS, OR OVERALL SURVIVAL OF GC. MLH1 PROMOTER METHYLATION EXHIBITED A POOR SENSITIVITY VALUE (< 0.5) IN PATIENTS WITH GC COMPARED WITH ADJACENT TISSUES, GASTRIC ADENOMAS, CHRONIC GASTRITIS, NORMAL GASTRIC MUCOSA, AND NORMAL HEALTHY BLOOD SAMPLES. THE POOLED SENSITIVITY, SPECIFICITY, AND AUC OF MLH1 PROMOTER METHYLATION IN GC WITH MSI VS. GC WITH MICROSATELLITE STABILITY (MSS) SAMPLES WERE 0.64, 0.96, AND 0.90, RESPECTIVELY. CONCLUSIONS: OUR RESULTS SUGGEST THAT THE DETECTION OF MLH1 PROMOTER METHYLATION MAY BE A POTENTIAL PROGNOSTIC BIOMARKER FOR GC PATIENTS WITH MSI. 2018 18 5960 33 TELOMERE LENGTH IN HEPATOCELLULAR CARCINOMA AND PAIRED ADJACENT NON-TUMOR TISSUES BY QUANTITATIVE PCR. TELOMERE SHORTENING LIMITS THE PROLIFERATIVE CAPACITY OF HUMAN CELLS, RESTRAINS THE REGENERATIVE CAPACITY OF ORGAN SYSTEMS DURING CHRONIC DISEASES AND AGING AND ALSO INDUCES CHROMOSOMAL INSTABILITY AS WELL AS INITIATION OF CANCER. PREVIOUS STUDIES DEMONSTRATED THAT TELOMERES ARE OFTEN SIGNIFICANTLY SHORTER IN TUMOR TISSUE, INCLUDING HEPATOCELLULAR CARCINOMA (HCC), COMPARED TO THE SURROUNDING TISSUE, BUT TELOMERE LENGTH IN HCC TISSUES WAS NOT CORRELATED WITH SEVERAL CLINICAL PARAMETERS, SUCH AS AGE, SEX, HBV OR HCV INFECTIONS AND TUMOR SIZE. IN THE PRESENT STUDY, THE TELOMERE LENGTH RATIO OF 36 PAIRED HCC, AND THEIR ADJACENT NON-TUMOR TISSUES WAS MEASURED BY QUANTITATIVE PCR (Q-PCR). THE MEAN TELOMERE LENGTHS (SD) FOR HCC AND ADJACENT NON-TUMOR TISSUES WERE 0.26 (0.10) AND 0.47 (0.20) RESPECTIVELY (T = 6.22, P < 0.0001). THERE WAS A LARGE DIFFERENCE IN THE DISTRIBUTION OF SUBJECTS BASED ON TELOMERE LENGTH IN TUMOR AND ADJACENT NON-TUMOR TISSUES. THE NUMBER OF TUMORS WITH TELOMERE LENGTH SHORTER THAN 0.50 WAS MUCH HIGHER THAN THAT OF ADJACENT NON-TUMOR TISSUES; MORE THAN 90% OF THE TISSUES WITH TELOMERE LENGTH > OR = 0.50 WERE ADJACENT NON-TUMOR TISSUES. THE CORRELATIONS BETWEEN TELOMERE LENGTH AND AFLATOXIN B1- AND POLYCYCLIC AROMATIC HYDROCARBON-DNA ADDUCTS LEVEL, P53 MUTATIONS AND P16 HYPERMETHYLATION STATUS WERE ALSO TESTED, BUT NO SIGNIFICANT ASSOCIATIONS WERE FOUND. THE RELATIONSHIP BETWEEN TELOMERE LENGTH SHORTENING, CHEMICAL CARCINOGEN EXPOSURE, AND GENETIC AND EPIGENETIC CHANGES IN HEPATOCARCINOGENESIS NEEDS FURTHER INVESTIGATION. 2007 19 3294 20 HIGH INCIDENCE OF MGMT AND RARBETA PROMOTER METHYLATION IN PRIMARY GLIOBLASTOMAS: ASSOCIATION WITH HISTOPATHOLOGICAL CHARACTERISTICS, INFLAMMATORY MEDIATORS AND CLINICAL OUTCOME. GLIOBLASTOMAS, THE MOST FREQUENT PRIMARY BRAIN TUMORS IN ADULTS, ARE CHARACTERIZED BY A HIGHLY AGGRESSIVE, INFLAMMATORY AND ANGIOGENIC PHENOTYPE. METHYLATION OF CPG ISLANDS IN CANCER-RELATED GENES MAY SERVE AS AN EPIGENETIC BIOMARKER FOR GLIOBLASTOMA DIAGNOSIS AND PROGNOSIS. THE AIM OF THIS STUDY WAS TO ANALYZE THE METHYLATION STATUS OF FOUR CRITICAL TUMOR-ASSOCIATED GENES (MGMT, RARBETA, RASSF1A, CDH13), AND INVESTIGATE POSSIBLE LINKS WITH INFLAMMATORY (INTERLEUKIN [IL]-6, IL-8) AND ANGIOGENIC MEDIATORS (VASCULAR ENDOTHELIAL GROWTH FACTOR [VEGF], CYCLOOXYGENASE [COX]-2) AND CLINICAL OUTCOME IN 23 GLIOMA SAMPLES (6 GRADE II ASTROCYTOMAS, 17 GRADE IV GLIOBLASTOMAS). RARBETA AND MGMT GENES WERE MORE FREQUENTLY METHYLATED IN 70.58% AND 58.8% OF GLIOBLASTOMAS, RESPECTIVELY. RASSF1A AND CDH13 DISPLAYED A SIMILAR METHYLATION FREQUENCY (23.52%) IN GLIOBLASTOMAS. NO GENE METHYLATION WAS OBSERVED IN GRADE II ASTROCYTOMAS. TUMOR GRADE CORRELATED POSITIVELY WITH MGMT AND RARBETA METHYLATION (P = 0.005 AND P = 0.019, RESPECTIVELY) AND THE EXTENT OF NECROSIS (P = 0.001 AND P = 0.003). INTERESTINGLY, THE MARKER OF CHRONIC INFLAMMATION, IL-6, WAS POSITIVELY ASSOCIATED WITH METHYLATION OF MGMT (P = 0.004), RARBETA (P = 0.002), AND RASSF1A (P = 0.0081) AS WELL AS THE TOTAL NUMBER OF METHYLATED GENES (P < 0.0001), INDICATING THE IMPORTANT ROLE OF IL-6 IN MAINTAINING PROMOTER METHYLATION OF THESE GENES. VEGF EXPRESSION CORRELATED POSITIVELY WITH MGMT AND RARBETA METHYLATION ALTHOUGH THESE RELATIONSHIPS WERE OF MARGINAL SIGNIFICANCE (P = 0.0679 AND P = 0.0757). KAPLAN-MEIER UNIVARIATE SURVIVAL ANALYSIS INDICATED AN UNFAVORABLE SURVIVAL PERIOD IN PATIENTS WITH MGMT METHYLATION COMPARED WITH THOSE WITHOUT METHYLATION (P = 0.0474). OUR STUDY HIGHLIGHTS THE IMPLICATION OF MGMT AND RARBETA METHYLATION IN THE AGGRESSIVE PHENOTYPE OF PRIMARY GLIOBLASTOMAS. THE ASSOCIATION OF MGMT METHYLATION WITH CLINICAL OUTCOME INDICATES ITS POTENTIAL PROGNOSTIC VALUE. 2010 20 153 37 ABERRANT METHYLATION OF MULTIPLE TUMOR SUPPRESSOR GENES IN AGING LIVER, CHRONIC HEPATITIS, AND HEPATOCELLULAR CARCINOMA. ABERRANT DNA METHYLATION IS AN IMPORTANT EPIGENETIC ALTERATION IN HEPATOCELLULAR CARCINOMA (HCC). HOWEVER, THE MOLECULAR PROCESSES UNDERLYING THE METHYLATOR PHENOTYPE AND THE CONTRIBUTION OF HEPATITIS VIRUSES ARE POORLY UNDERSTOOD. THE CURRENT STUDY IS A COMPREHENSIVE METHYLATION ANALYSIS OF HUMAN LIVER TISSUE SPECIMENS. A TOTAL OF 176 LIVER TISSUES, INCLUDING 77 PAIRS OF HCCS AND MATCHING NONCANCEROUS LIVER AND 22 NORMAL LIVERS, WERE ANALYZED FOR METHYLATION. METHYLATION OF 19 EPIGENETIC MARKERS WAS QUANTIFIED, AND THE RESULTS WERE CORRELATED WITH DIFFERENT DISEASE STATES AND THE PRESENCE OR ABSENCE OF HEPATITIS B VIRUS (HBV) AND HEPATITIS C VIRUS (HCV) INFECTIONS. BASED ON METHYLATION PROFILES, THE 19 LOCI WERE CATEGORIZED INTO 3 GROUPS. NORMAL LIVER TISSUES SHOWED METHYLATION PRIMARILY IN GROUP 1 LOCI (HIC-1, CASP8, GSTP1, SOCS1, RASSF1A, P16, APC), WHICH WAS SIGNIFICANTLY HIGHER THAN GROUP 2 (CDH1, RUNX3, RIZ1, SFRP2, MINT31) AND GROUP 3 MARKERS (COX2, MINT1, CACNA1G, RASSF2, MINT2, REPRIMO, DCC) (P < 0.0001). NONCANCEROUS LIVERS DEMONSTRATED INCREASED METHYLATION IN BOTH GROUP 1 AND GROUP 2 LOCI. METHYLATION WAS SIGNIFICANTLY MORE ABUNDANT IN HCV-POSITIVE LIVERS COMPARED WITH NORMAL LIVER TISSUES. CONVERSELY, HCC SHOWED FREQUENT METHYLATION AT EACH LOCUS INVESTIGATED IN ALL 3 GROUPS. HOWEVER, THE GROUP 3 LOCI SHOWED MORE DENSE AND FREQUENT METHYLATION IN HCV-POSITIVE CANCERS COMPARED WITH BOTH HBV-POSITIVE CANCERS AND VIRUS-NEGATIVE CANCERS (P < 0.0001). CONCLUSION: METHYLATION IN HCC IS FREQUENT BUT OCCURS IN A GENE-SPECIFIC AND DISEASE-SPECIFIC MANNER. METHYLATION PROFILING ALLOWED US TO DETERMINE THAT ABERRANT METHYLATION IS COMMONLY PRESENT IN NORMAL AGING LIVERS, AND SEQUENTIALLY PROGRESSES WITH ADVANCING STAGES OF CHRONIC VIRAL INFECTION. FINALLY, OUR DATA PROVIDE EVIDENCE THAT HCV INFECTION MAY ACCELERATE THE METHYLATION PROCESS AND SUGGESTS A CONTINUUM OF INCREASING METHYLATION WITH PERSISTENT VIRAL INFECTION AND CARCINOGENESIS IN THE LIVER. 2008