1 6068 184 THE DIET AS A CAUSE OF HUMAN PROSTATE CANCER. ASYMPTOMATIC PROSTATE INFLAMMATION AND PROSTATE CANCER HAVE REACHED EPIDEMIC PROPORTIONS AMONG MEN IN THE DEVELOPED WORLD. ANIMAL MODEL STUDIES IMPLICATE DIETARY CARCINOGENS, SUCH AS THE HETEROCYCLIC AMINES FROM OVER-COOKED MEATS AND SEX STEROID HORMONES, PARTICULARLY ESTROGENS, AS CANDIDATE ETIOLOGIES FOR PROSTATE CANCER. EACH ACTS BY CAUSING EPITHELIAL CELL DAMAGE, TRIGGERING AN INFLAMMATORY RESPONSE THAT CAN EVOLVE INTO A CHRONIC OR RECURRENT CONDITION. THIS MILIEU APPEARS TO SPAWN PROLIFERATIVE INFLAMMATORY ATROPHY (PIA) LESIONS, A TYPE OF FOCAL ATROPHY THAT REPRESENTS THE EARLIEST OF PROSTATE CANCER PRECURSOR LESIONS. RARE PIA LESIONS CONTAIN CELLS WHICH EXHIBIT HIGH C-MYC EXPRESSION, SHORTENED TELOMERE SEGMENTS, AND EPIGENETIC SILENCING OF GENES SUCH AS GSTP1, ENCODING THE PI-CLASS GLUTATHIONE S-TRANSFERASE, ALL CHARACTERISTIC OF PROSTATIC INTRAEPITHELIAL NEOPLASIA (PIN) AND PROSTATE CANCER. SUBSEQUENT GENETIC CHANGES, SUCH AS THE GENE TRANSLOCATIONS/DELETIONS THAT GENERATE FUSION TRANSCRIPTS BETWEEN ANDROGEN-REGULATED GENES (SUCH AS TMPRSS2) AND GENES ENCODING ETS FAMILY TRANSCRIPTION FACTORS (SUCH AS ERG1), ARISE IN PIN LESIONS AND MAY PROMOTE INVASIVENESS CHARACTERISTIC OF PROSTATIC ADENOCARCINOMA CELLS. LETHAL PROSTATE CANCERS CONTAIN MARKEDLY CORRUPTED GENOMES AND EPIGENOMES. EPIGENETIC SILENCING, WHICH SEEMS TO ARISE IN RESPONSE TO THE INFLAMED MICROENVIRONMENT GENERATED BY DIETARY CARCINOGENS AND/OR ESTROGENS AS PART OF AN EPIGENETIC "CATASTROPHE" AFFECTING HUNDREDS OF GENES, PERSISTS TO DRIVE CLONAL EVOLUTION THROUGH METASTATIC DISSEMINATION. THE CAUSE OF THE INITIAL EPIGENETIC "CATASTROPHE" HAS NOT BEEN DETERMINED BUT LIKELY INVOLVES DEFECTIVE CHROMATIN STRUCTURE MAINTENANCE BY OVER-EXUBERANT DNA METHYLATION OR HISTONE MODIFICATION. WITH DIETARY CARCINOGENS AND ESTROGENS DRIVING PRO-CARCINOGENIC INFLAMMATION IN THE DEVELOPED WORLD, IT IS TEMPTING TO SPECULATE THAT DIETARY COMPONENTS ASSOCIATED WITH DECREASED PROSTATE CANCER RISK, SUCH AS INTAKE OF FRUITS AND VEGETABLES, ESPECIALLY TOMATOES AND CRUCIFERS, MIGHT ACT TO ATTENUATE THE RAVAGES OF THE CHRONIC OR RECURRENT INFLAMMATORY PROCESSES. SPECIFICALLY, NUTRITIONAL AGENTS MIGHT PREVENT PIA LESIONS OR REDUCE THE PROPENSITY OF PIA LESIONS TO SUFFER "CATASTROPHIC" EPIGENOME CORRUPTION. 2014 2 3227 34 HELICOBACTER PYLORI INFECTION-INDUCED H3SER10 PHOSPHORYLATION IN STEPWISE GASTRIC CARCINOGENESIS AND ITS CLINICAL IMPLICATIONS. BACKGROUND: OUR PREVIOUS WORKS HAVE DEMONSTRATED THAT HELICOBACTER PYLORI (HP) INFECTION CAN ALTER HISTONE H3 SERINE 10 PHOSPHORYLATION STATUS IN GASTRIC EPITHELIAL CELLS. HOWEVER, WHETHER HELICOBACTER PYLORI-INDUCED HISTONE H3 SERINE 10 PHOSPHORYLATION PARTICIPATES IN GASTRIC CARCINOGENESIS IS UNKNOWN. WE INVESTIGATE THE EXPRESSION OF HISTONE H3 SERINE 10 PHOSPHORYLATION IN VARIOUS STAGES OF GASTRIC DISEASE AND EXPLORE ITS CLINICAL IMPLICATION. MATERIALS AND METHODS: STOMACH BIOPSY SAMPLES FROM 129 PATIENTS WERE COLLECTED AND STAINED WITH HISTONE H3 SERINE 10 PHOSPHORYLATION, KI67, AND HELICOBACTER PYLORI BY IMMUNOHISTOCHEMISTRY STAINING, EXPRESSED AS LABELING INDEX. THEY WERE CATEGORIZED INTO NONATROPHIC GASTRITIS, CHRONIC ATROPHIC GASTRITIS, INTESTINAL METAPLASIA, LOW-GRADE INTRAEPITHELIAL NEOPLASIA, HIGH-GRADE INTRAEPITHELIAL NEOPLASIA, AND INTESTINAL-TYPE GASTRIC CANCER GROUPS. HELICOBACTER PYLORI INFECTION WAS DETERMINED BY EITHER (13) C-UREA BREATH TEST OR IMMUNOHISTOCHEMISTRY STAINING. RESULTS: IN HELICOBACTER PYLORI-NEGATIVE PATIENTS, LABELING INDEX OF HISTONE H3 SERINE 10 PHOSPHORYLATION WAS GRADUALLY INCREASED IN NONATROPHIC GASTRITIS, CHRONIC ATROPHIC GASTRITIS, INTESTINAL METAPLASIA GROUPS, PEAKED AT LOW-GRADE INTRAEPITHELIAL NEOPLASIA, AND DECLINED IN HIGH-GRADE INTRAEPITHELIAL NEOPLASIA AND GASTRIC CANCER GROUPS. IN HELICOBACTER PYLORI-INFECTED PATIENTS, LABELING INDEX OF HISTONE H3 SERINE 10 PHOSPHORYLATION FOLLOWED THE SIMILAR PATTERN AS ABOVE, WITH INCREASED EXPRESSION OVER THE CORRESPONDING HELICOBACTER PYLORI-NEGATIVE CONTROLS EXCEPT IN NONATROPHIC GASTRITIS PATIENT WHOSE LABELING INDEX WAS DECREASED WHEN COMPARED WITH HELICOBACTER PYLORI-NEGATIVE CONTROL. LABELING INDEX OF KI67 IN HELICOBACTER PYLORI-NEGATIVE GROUPS WAS HIGHER IN GASTRIC CANCER THAN CHRONIC ATROPHIC GASTRITIS AND LOW-GRADE INTRAEPITHELIAL NEOPLASIA GROUPS, AND HIGHER IN INTESTINAL METAPLASIA GROUP COMPARED WITH CHRONIC ATROPHIC GASTRITIS GROUP. IN HELICOBACTER PYLORI-POSITIVE GROUPS, KI67 LABELING INDEX WAS INCREASED STEPWISE FROM NONATROPHIC GASTRITIS TO GASTRIC CANCER EXCEPT SLIGHTLY DECREASE IN CHRONIC ATROPHIC GASTRITIS GROUP. IN ADDITION, WE NOTED THAT HISTONE H3 SERINE 10 PHOSPHORYLATION STAINING IS ACCOMPANIED WITH ITS LOCATION CHANGES FROM GASTRIC GLAND BOTTOM EXPANDED TO WHOLE GLAND AS DISEASE STAGE PROGRESS. CONCLUSIONS: THESE RESULTS INDICATE THAT STEPWISE GASTRIC CARCINOGENESIS IS ASSOCIATED WITH ALTERED HISTONE H3 SERINE 10 PHOSPHORYLATION, HELICOBACTER PYLORI INFECTION ENHANCES HISTONE H3 SERINE 10 PHOSPHORYLATION EXPRESSION IN THESE PROCESSES; IT IS ALSO ACCOMPANIED WITH HISTONE H3 SERINE 10 PHOSPHORYLATION LOCATION CHANGE FROM GLAND BOTTOM STAINING EXPAND TO WHOLE GLAND EXPRESSION. THE RESULTS SUGGEST THAT EPIGENETIC DYSREGULATION MAY PLAY IMPORTANT ROLES IN HELICOBACTER PYLORI-INDUCED GASTRIC CANCER. 2018 3 6201 39 THE INFLAMMATORY MICROENVIRONMENT AND MICROBIOME IN PROSTATE CANCER DEVELOPMENT. CHRONIC INFLAMMATION PROMOTES THE DEVELOPMENT OF SEVERAL TYPES OF SOLID CANCERS AND MIGHT CONTRIBUTE TO PROSTATE CARCINOGENESIS. THIS HYPOTHESIS PARTLY ORIGINATES IN THE FREQUENT OBSERVATION OF INFLAMMATORY CELLS IN THE PROSTATE MICROENVIRONMENT OF ADULT MEN. INFLAMMATION IS ASSOCIATED WITH PUTATIVE PROSTATE CANCER PRECURSOR LESIONS, TERMED PROLIFERATIVE INFLAMMATORY ATROPHY. INFLAMMATION MIGHT DRIVE PROSTATE CARCINOGENESIS VIA OXIDATIVE STRESS AND GENERATION OF REACTIVE OXYGEN SPECIES THAT INDUCE MUTAGENESIS. ADDITIONALLY, INFLAMMATORY STRESS MIGHT CAUSE EPIGENETIC ALTERATIONS THAT PROMOTE NEOPLASTIC TRANSFORMATION. PROLIFERATIVE INFLAMMATORY ATROPHY IS ENRICHED FOR PROLIFERATIVE LUMINAL EPITHELIAL CELLS OF INTERMEDIATE PHENOTYPE THAT MIGHT BE PRONE TO GENOMIC ALTERATIONS LEADING TO PROSTATIC INTRAEPITHELIAL NEOPLASIA AND PROSTATE CANCER. STUDIES IN ANIMALS SUGGEST THAT INFLAMMATORY CHANGES IN THE PROSTATE MICROENVIRONMENT CONTRIBUTE TO REPROGRAMMING OF PROSTATE EPITHELIAL CELLS, A POSSIBLE STEP IN TUMOUR INITIATION. PROSTATIC INFECTION, CONCURRENT WITH EPITHELIAL BARRIER DISRUPTION, MIGHT BE A KEY DRIVER OF AN INFLAMMATORY MICROENVIRONMENT; THE DISCOVERY OF A URINARY MICROBIOME INDICATES A POTENTIAL SOURCE OF FREQUENT EXPOSURE OF THE PROSTATE TO A DIVERSE NUMBER OF MICROORGANISMS. HENCE, CURRENT EVIDENCE SUGGESTS THAT INFLAMMATION AND ATROPHY ARE INVOLVED IN PROSTATE CARCINOGENESIS AND SUGGESTS A ROLE FOR THE MICROBIOME IN ESTABLISHING AN INFLAMMATORY PROSTATE MICROENVIRONMENT THAT MIGHT PROMOTE PROSTATE CANCER DEVELOPMENT AND PROGRESSION. 2018 4 3683 41 INFLAMMATION, MICROBIOTA, AND PROSTATE CANCER. CONTEXT: CHRONIC INFLAMMATION OF THE PROSTATE HAS BEEN ASSOCIATED WITH PRENEOPLASTIC LESIONS AND CANCER DEVELOPMENT. MULTIPLE CAUSES HAVE BEEN CONSIDERED FOR CHRONIC INFLAMMATION OF THE PROSTATE. INFLAMMATORY CYTOKINES SUCH AS INTERLEUKINS ARE IMPLICATED IN PROSTATE CARCINOGENESIS AND DEVELOPMENT. OBJECTIVE: TO EVALUATE LITERATURE PUBLISHED ON ETIOLOGICAL FACTORS, URINARY MICROBIOTA, MORPHOLOGICAL FEATURES OF PROLIFERATIVE INFLAMMATORY ATROPHY AND HIGH-GRADE PROSTATE INTRAEPITHELIAL NEOPLASIA, GENETIC POLYMORPHISMS, INFLAMMATORY STRESS, AND CYTOKINE SIGNALING. EVIDENCE ACQUISITION: WE SEARCHED LITERATURE FROM PUBMED FROM 2010 AND ALSO INCLUDED THE MOST IMPORTANT PUBLICATIONS FROM THE PREVIOUS PERIOD. EVIDENCE SYNTHESIS: PROSTATE CANCER INFLAMMATION AND PREMALIGNANT LESIONS HAVE BEEN FREQUENTLY DISCUSSED IN SCIENTIFIC LITERATURE. A LIMITED NUMBER OF MODELS ARE AVAILABLE FOR STUDYING INFLAMMATION AND PREMALIGNANT LESIONS. HOWEVER, MORPHOLOGICAL PATHOLOGY COULD BE COMPLEMENTED BY ANALYSIS OF GENE POLYMORPHISMS IN THESE PATIENTS AND APPROPRIATE FUNCTIONAL STUDIES. CONCLUSIONS: PROSTATITIS COULD BE CAUSED BY BACTERIAL OR VIRAL INFECTIONS, DIETARY COMPOUNDS, AND CHANGES IN TESTOSTERONE:ESTRADIOL RATIO. IN SOME CASES, THE MICROBIOTA CAN EXERT DIRECT EFFECTS ON CANCER DEVELOPMENT. PROSTATE INFLAMMATORY ATROPHY OR HIGH GRADE PROSTATE INTRAEPITHELIAL NEOPLASIA HAVE BEEN ASSOCIATED WITH RESPONSE TO CELLULAR STRESS AND HAVE BEEN DISCUSSED IN CONNECTION TO EARLY CANCER DEVELOPMENT. A LARGE NUMBER OF GENETIC POLYMORPHISMS HAVE BEEN IDENTIFIED IN INFLAMMATORY PROSTATE. GENETIC AND EPIGENETIC ALTERATIONS MAY BE A CONSEQUENCE OF THE PROINFLAMMATORY STRESS IN THE PROSTATE. PROINFLAMMATORY CYTOKINES INTERLEUKIN-6 AND -8 CONTRIBUTE TO PROSTATE MALIGNANCY; HOWEVER, THEIR FUNCTION WAS MORE FREQUENTLY INVESTIGATED IN CANCER TISSUE RATHER THAN IN INFLAMMATION. PATIENT SUMMARY: WE PERFORMED A REVIEW OF RECENT LITERATURE RELATED TO PROSTATE INFLAMMATION, MICROBIOTA, AND PROSTATE CANCER. NEW FUNCTIONAL APPROACHES ARE REQUIRED FOR A BETTER UNDERSTANDING OF THE ROLE OF INFLAMMATION AND CANCER DEVELOPMENT. 2016 5 6711 47 VIRTUES AND WEAKNESSES OF DNA METHYLATION AS A TEST FOR CERVICAL CANCER PREVENTION. EPIGENETICS IS THE STUDY OF HERITABLE AND NON-HERITABLE GENETIC CODING THAT IS ADDITIVE TO INFORMATION CONTAINED WITHIN CLASSICAL DNA BASE PAIR SEQUENCES. DIFFERENTIAL METHYLATION HAS A FUNDAMENTAL ROLE IN THE DEVELOPMENT AND OUTCOME OF MALIGNANCIES, CHRONIC AND DEGENERATIVE DISEASES AND AGING. DNA METHYLATION CAN BE MEASURED ACCURATELY AND EASILY VIA VARIOUS MOLECULAR METHODS AND HAS BECOME A KEY TECHNOLOGY FOR RESEARCH AND HEALTHCARE DELIVERY, WITH IMMEDIATE ROLES IN THE ELUCIDATION OF DISEASE NATURAL HISTORY, DIAGNOSTICS AND DRUG DISCOVERY. THIS REVIEW FOCUSES ON CANCERS OF THE LOWER GENITAL TRACT, FOR WHICH THE MOST EPIGENETIC INFORMATION EXISTS. DNA METHYLATION HAS BEEN PROPOSED AS A TRIAGE FOR WOMEN INFECTED WITH HUMAN PAPILLOMAVIRUS (HPV) AND MAY EVENTUALLY DIRECTLY COMPLEMENT OR REPLACE HPV SCREENING AS A ONE-STEP MOLECULAR DIAGNOSTIC AND PROGNOSTIC TEST. METHYLATION OF HUMAN GENES IS STRONGLY ASSOCIATED WITH CERVICAL INTRAEPITHELIAL NEOPLASIA (CIN) AND CANCER. OF THE MORE THAN 100 HUMAN METHYLATION BIOMARKER GENES TESTED SO FAR IN CERVICAL TISSUE, CLOSE TO 20 HAVE BEEN REPORTED IN DIFFERENT STUDIES, AND APPROXIMATELY 10 HAVE BEEN REPEATEDLY SHOWN TO HAVE ELEVATED METHYLATION IN CERVICAL CANCERS AND HIGH-GRADE CIN (CIN2 AND CIN3), MOST PROMINENTLY CADM1, EPB41L3, FAM19A4, MAL, MIR-124, PAX1 AND SOX1. OBTAINING CONSISTENT PERFORMANCE DATA FROM THE LITERATURE IS QUITE DIFFICULT BECAUSE MOST METHYLATION STUDIES USED A VARIETY OF DIFFERENT ASSAY METHODOLOGIES AND HAD INCOMPLETE AND/OR BIASED CLINICAL SPECIMEN SETS, VARYING ASSAY THRESHOLDS AND DISPARATE TARGET GENE REGIONS. THERE HAVE BEEN RELATIVELY FEW VALIDATION STUDIES OF DNA METHYLATION BIOMARKERS IN LARGE POPULATION-BASED SCREENING STUDIES, BUT AN ENCOURAGING DEVELOPMENT MORE RECENTLY IS THE EXECUTION OF WELL-DESIGNED STUDIES TO TEST THE TRUE PERFORMANCE OF THE MARKERS IN REAL-WORLD SETTINGS. METHYLATION OF HPV GENES, ESPECIALLY HPV16, HPV18, HPV31, HPV33 AND HPV45, IN DISEASE PROGRESSION HAS BEEN A MAJOR FOCUS OF RESEARCH. ELEVATED METHYLATION OF THE HPV16 L1 AND L2 OPEN READING FRAMES, IN PARTICULAR, IS ASSOCIATED WITH CIN2, CIN3 AND INVASIVE CANCER. ESSENTIALLY ALL CANCERS HAVE HIGH LEVELS OF METHYLATION FOR HUMAN GENES AND FOR DRIVER HPV TYPES, WHICH SUGGESTS THAT QUANTITATIVE METHYLATION TESTS MAY HAVE UTILITY IN PREDICTING CIN2 AND CIN3 THAT ARE LIKELY TO PROGRESS. IT IS STILL EARLY IN THE PROCESS OF DEVELOPMENT OF METHYLATION BIOMARKERS, BUT ALREADY THEY ARE SHOWING STRONG PROMISE AS A UNIVERSAL AND SYSTEMATIC APPROACH TO MOLECULAR TRIAGE, APPLICABLE TO ALL CANCERS, NOT JUST CANCER OF THE CERVIX. DNA METHYLATION TESTING IS BETTER THAN HPV GENOTYPING TRIAGE AND IS COMPETITIVE WITH OR COMPLEMENTARY TO OTHER APPROACHES SUCH AS CYTOLOGY AND P16 STAINING. GENOME-WIDE STUDIES ARE UNDERWAY TO SYSTEMATICALLY EXPAND METHYLATION CLASSIFIER PANELS AND FIND THE BEST COMBINATIONS OF BIOMARKERS. METHYLATION TESTING IS LIKELY TO SHOW BIG IMPROVEMENTS IN PERFORMANCE IN THE NEXT 5 YEARS. 2016 6 3232 26 HELICOBACTER PYLORI-INDUCED SIGNALING PATHWAYS CONTRIBUTE TO INTESTINAL METAPLASIA AND GASTRIC CARCINOGENESIS. HELICOBACTER PYLORI (H. PYLORI) INDUCES CHRONIC GASTRIC INFLAMMATION, ATROPHIC GASTRITIS, INTESTINAL METAPLASIA, AND CANCER. ALTHOUGH THE RISK OF GASTRIC CANCER INCREASES EXPONENTIALLY WITH THE EXTENT OF ATROPHIC GASTRITIS, THE PRECISE MECHANISMS OF GASTRIC CARCINOGENESIS HAVE NOT BEEN FULLY ELUCIDATED. H. PYLORI INDUCES GENETIC AND EPIGENETIC CHANGES IN GASTRIC EPITHELIAL CELLS THROUGH ACTIVATING INTRACELLULAR SIGNALING PATHWAYS IN A CAGPAI-DEPENDENT MANNER. H. PYLORI EVENTUALLY INDUCES GASTRIC CANCER WITH CHROMOSOMAL INSTABILITY (CIN) OR MICROSATELLITE INSTABILITY (MSI), WHICH ARE CLASSIFIED AS TWO MAJOR SUBTYPES OF GASTRIC CANCER. ELUCIDATION OF THE PRECISE MECHANISMS OF GASTRIC CARCINOGENESIS WILL ALSO BE IMPORTANT FOR CANCER THERAPY. 2015 7 5180 31 PREMALIGNANT CONDITIONS OF GASTRIC CANCER. PREMALIGNANT LESIONS OF GASTRIC CANCER ENCOMPASS A VARIETY OF CONDITIONS SUCH AS CHRONIC GASTRITIS, INTESTINAL METAPLASIA AND DYSPLASIA, IN WHICH ELEVATED RISK OF DEVELOPING GASTRIC CANCER HAVE BEEN DOCUMENTED. AMONG THEM, INTESTINAL METAPLASIA IS FREQUENTLY ENCOUNTERED IN OUR DAILY ENDOSCOPIC EXAMINATION, YET ITS CLINICAL SIGNIFICANCE IS OFTEN UNDERESTIMATED DESPITE OF A NUMBER OF REPORTS DEMONSTRATING GENETIC AND EPIGENETIC ALTERATIONS IN THE INTESTINAL METAPLASTIC MUCOSA. IN THIS REVIEW, I WILL DESCRIBE THE MOLECULAR MECHANISMS OF PHENOTYPIC CHANGES FROM GASTRIC MUCOSA TO INTESTINAL METAPLASIA BASED ON OUR ANALYSIS OF MOUSE MODEL OF INTESTINAL METAPLASIA GENERATED BY ECTOPIC EXPRESSION OF CDX2 IN CONJUNCTION WITH THE STUDIES WITH HUMAN INTESTINAL METAPLASIA. 2013 8 4960 31 PATHOGENESIS OF PRE-NEOPLASTIC LESIONS OF THE STOMACH: TARGETS FOR PREVENTION. GASTRIC ATROPHY AND INTESTINAL METAPLASIA ARE GENERALLY CONSIDERED TO BE PRECANCEROUS LESIONS OF THE STOMACH. CHRONIC HELICOBACTER PYLORI INFECTION IS ONE THE MOST IMPORTANT FACTORS IN THE DEVELOPMENT OF THESE PRE-MALIGNANT GASTRIC LESIONS. IN ADDITION TO BACTERIAL FACTORS, POLYMORPHISMS IN THE CYTOKINE GENES OF THE HOST THAT MODULATE INFLAMMATORY RESPONSES ARE FOUND TO HAVE A SYNERGISTIC EFFECT IN THE DEVELOPMENT OF GASTRIC CANCER AS WELL AS PRE-NEOPLASTIC LESIONS. RECENTLY, INAPPROPRIATE ACTIVATION OF THE INTESTINE-SPECIFIC TRANSCRIPTION FACTOR LIKE THE HOMEOBOX GENE COMPLEX CDX1 AND CDX2 ARE FOUND TO BE AN IMPORTANT CONTRIBUTING FACTOR IN THE INDUCTION OF INTESTINAL METAPLASIA IN THE STOMACH. ABERRANT EXPRESSION OF CYCLOOXYGENASE-2 AND EPIGENETIC CHANGES ARE ALSO FREQUENTLY DETECTED IN PRE-NEOPLASTIC GASTRIC LESIONS. ONE OF THE MOST IMPORTANT QUESTIONS RELATING TO THESE PRE-NEOPLASTIC GASTRIC LESIONS IS THAT WHETHER H. PYLORI ERADICATION COULD REVERSE THESE CHANGES. HOWEVER, MOST CONTROLLED STUDIES SHOWED NO OR JUST MODEST IMPROVEMENT IN INTESTINAL METAPLASIA AFTER H. PYLORI ERADICATION. FURTHER STUDIES SHOULD EVALUATE THE ROLE OF OTHER CHEMOPREVENTIVE AGENTS, PARTICULARLY CYCLOOXYGENASE-2 INHIBITOR, ON REGRESSION OF PRE-NEOPLASTIC LESIONS. 2004 9 5181 29 PREMALIGNANT LESIONS IN GASTRIC CANCER. DESPITE A PLATEAU IN INCIDENCE, GASTRIC CANCER IS ONE OF THE MOST COMMON CANCERS WORLDWIDE AND CAUSES CONSIDERABLE MORBIDITY AND MORTALITY. PREMALIGNANT GASTRIC LESIONS ARE WELL KNOWN RISK FACTORS FOR THE DEVELOPMENT OF INTESTINAL-TYPE GASTRIC ADENOCARCINOMAS. IN THIS MULTISTEP MODEL OF GASTRIC CARCINOGENESIS, HELICOBACTER PYLORI CAUSES CHRONIC ACTIVE INFLAMMATION OF THE GASTRIC MUCOSA, WHICH SLOWLY PROGRESSES THROUGH THE PREMALIGNANT STAGES OF ATROPHIC GASTRITIS, INTESTINAL METAPLASIA, AND ADENOMA/DYSPLASIA TO GASTRIC CARCINOMA. THIS PROGRESSION IS PARALLELED BY A STEPWISE ACCUMULATION OF MULTIPLE GENETIC AND EPIGENETIC ABNORMALITIES. DETECTION, TREATMENT, AND MOLECULAR ANALYSES OF PREMALIGNANT LESIONS MAY THUS PROVIDE A BASIS FOR GASTRIC CANCER PREVENTION. THIS REVIEW DESCRIBES AN OVERVIEW OF CURRENT KNOWLEDGE ON PREMALIGNANT GASTRIC LESIONS. IT ALSO REVIEWS THE ISSUE OF SURVEILLANCE OF PATIENTS WITH PREMALIGNANT LESIONS IN ORDER TO IMPROVE THE SURVIVAL OF PATIENTS WITH GASTRIC CANCER. 2010 10 5292 36 PROSTATIC INFLAMMATION ENHANCES BASAL-TO-LUMINAL DIFFERENTIATION AND ACCELERATES INITIATION OF PROSTATE CANCER WITH A BASAL CELL ORIGIN. CHRONIC INFLAMMATION HAS BEEN SHOWN TO PROMOTE THE INITIATION AND PROGRESSION OF DIVERSE MALIGNANCIES BY INDUCING GENETIC AND EPIGENETIC ALTERATIONS. IN THIS STUDY, WE INVESTIGATE AN ALTERNATIVE MECHANISM THROUGH WHICH INFLAMMATION PROMOTES THE INITIATION OF PROSTATE CANCER. ADULT MURINE PROSTATE EPITHELIA ARE COMPOSED PREDOMINANTLY OF BASAL AND LUMINAL CELLS. PREVIOUS STUDIES REVEALED THAT THE TWO LINEAGES ARE LARGELY SELF-SUSTAINED WHEN RESIDING IN THEIR NATIVE MICROENVIRONMENT. TO INTERROGATE WHETHER TISSUE INFLAMMATION ALTERS THE DIFFERENTIATION PROGRAM OF BASAL CELLS, WE CONDUCTED LINEAGE TRACING OF BASAL CELLS USING A K14-CREER;MTMG MODEL IN CONCERT WITH A MURINE MODEL OF PROSTATITIS INDUCED BY INFECTION FROM THE UROPATHOGENIC BACTERIA CP9. WE SHOW THAT ACUTE PROSTATITIS CAUSES TISSUE DAMAGE AND CREATES A TISSUE MICROENVIRONMENT THAT INDUCES THE DIFFERENTIATION OF BASAL CELLS INTO LUMINAL CELLS, AN ALTERATION THAT RARELY OCCURS UNDER NORMAL PHYSIOLOGICAL CONDITIONS. PREVIOUSLY WE SHOWED THAT A MOUSE MODEL WITH PROSTATE BASAL CELL-SPECIFIC DELETION OF PHOSPHATASE AND TENSIN HOMOLOG (K14-CREER;PTEN(FL/FL)) DEVELOPS PROSTATE CANCER WITH A LONG LATENCY, BECAUSE DISEASE INITIATION IN THIS MODEL REQUIRES AND IS LIMITED BY THE DIFFERENTIATION OF TRANSFORMATION-RESISTANT BASAL CELLS INTO TRANSFORMATION-COMPETENT LUMINAL CELLS. HERE, WE SHOW THAT CP9-INDUCED PROSTATITIS SIGNIFICANTLY ACCELERATES THE INITIATION OF PROSTATIC INTRAEPITHELIAL NEOPLASIA IN THIS MODEL. OUR RESULTS DEMONSTRATE THAT INFLAMMATION RESULTS IN A TISSUE MICROENVIRONMENT THAT ALTERS THE NORMAL PROSTATE EPITHELIAL CELL DIFFERENTIATION PROGRAM AND THAT THROUGH THIS CELLULAR PROCESS INFLAMMATION ACCELERATES THE INITIATION OF PROSTATE CANCER WITH A BASAL CELL ORIGIN. 2014 11 3803 41 INTESTINAL METAPLASIA OF THE STOMACH. A STATUS REPORT. INTESTINAL METAPLASIA IN THE STOMACH INCREASES THE RISK OF GASTRIC CANCER, AND THE INCREASED RISK IS PROPORTIONAL TO THE EXTENT OF THE METAPLASIA. THIS RISK COULD BE GENERATED BY ONE OR MORE MECHANISMS: (1) THE METAPLASTIC TISSUE IS AN EARLY STEP IN A MULTISTEP INDUCTION PROCESS; (2) THE METAPLASTIC TISSUE IS AN EPIGENETIC CHANGE THAT RAISES THE PH OF GASTRIC JUICE BY REPLACING OXYNTIC MUCOSA, FAVORING THE GROWTH OF A BACTERIA CAPABLE OF GENERATING ENDOGENOUS MUTAGENS; AND/OR (3) THE METAPLASIA IS ONLY A MARKER FOR CHRONIC GASTRITIS DUE TO H. PYLORI INFECTION OR PERNICIOUS ANEMIA. WITH THE LAST MECHANISM, THE INFLAMMATORY RESPONSE FAVORS INTRAMURAL MUTAGENESIS THAT MIGHT RESULT IN METAPLASIA OR NEOPLASIA AS INDEPENDENT EVENTS. FINDING GENE REARRANGEMENTS COMMON TO BOTH METAPLASTIC AND NEOPLASTIC TISSUE MAY ESTABLISH A DIRECT LINK BETWEEN THEM, BUT TOO FEW HAVE BEEN IDENTIFIED TO ACCOUNT FOR THE LARGE NUMBER OF STOMACH CANCERS THAT DEVELOP IN HIGH RISK POPULATIONS. HISTOCHEMICAL AND IMMUNOCHEMICAL STAINS THAT IDENTIFY ENZYMES OR MUCOSUBSTANCES MAY SUGGEST THAT METAPLASTIC EPITHELIAL CELLS RESEMBLE SMALL OR LARGE INTESTINAL CELLS, BUT THEY ARE DISTINCTLY DIFFERENT FROM BOTH. MOREOVER, THESE STAINS DO NOT INDICATE WHETHER A GIVEN CYTOLOGIC CHANGE IS GENETIC OR EPIGENETIC; THEREFORE, THEY CANNOT BE USED TO DEFINE THE RELATIONSHIP BETWEEN METAPLASIA AND NEOPLASIA. IT IS UNNECESSARY FOR PRACTICING PHYSICIANS TO AWAIT RESOLUTION OF THIS QUESTION. IT CAN BE ASSUMED THAT ANY PERSON WITH EXTENSIVE METAPLASIA IS AT HIGH RISK FOR GASTRIC CANCER AND SHOULD BE SUBJECT TO PERIODIC SCREENING. THE EXTENT OF THE METAPLASTIC PROCESS IS PROBABLY MORE IMPORTANT THAN THE METAPLASTIC SUBTYPE. 1994 12 6539 28 TRANSCRIPTIONAL VARIATIONS IN THE WIDER PERITUMORAL TISSUE ENVIRONMENT OF PANCREATIC CANCER. TRANSCRIPTIONAL PROFILING WAS PERFORMED ON 452 RNA PREPARATIONS ISOLATED FROM VARIOUS TYPES OF PANCREATIC TISSUE FROM TUMOUR PATIENTS AND HEALTHY DONORS, WITH A PARTICULAR FOCUS ON PERITUMORAL SAMPLES. PANCREATIC DUCTAL ADENOCARCINOMAS (PDAC) AND CYSTIC TUMOURS WERE MOST DIFFERENT IN THESE NON-TUMOROUS TISSUES SURROUNDING THEM, WHEREAS THE ACTUAL TUMOURS EXHIBITED RATHER SIMILAR TRANSCRIPT PATTERNS. THE ENVIRONMENT OF CYSTIC TUMOURS WAS TRANSCRIPTIONALLY NEARLY IDENTICAL TO NORMAL PANCREAS TISSUE. IN CONTRAST, THE TISSUE AROUND PDAC BEHAVED A LOT LIKE THE TUMOUR, INDICATING SOME KIND OF FIELD DEFECT, WHILE SHOWING FAR LESS MOLECULAR RESEMBLANCE TO BOTH CHRONIC PANCREATITIS AND HEALTHY TISSUE. THIS SUGGESTS THAT THE MAJOR PATHOGENIC DIFFERENCE BETWEEN CYSTIC AND DUCTAL TUMOURS MAY BE DUE TO THEIR CELLULAR ENVIRONMENT RATHER THAN THE FEW VARIATIONS BETWEEN THE TUMOURS. LACK OF CORRELATION BETWEEN DNA METHYLATION AND TRANSCRIPT LEVELS MAKES IT UNLIKELY THAT THE OBSERVED FIELD DEFECT IN THE PERITUMORAL TISSUE OF PDAC IS CONTROLLED TO A LARGE EXTENT BY SUCH EPIGENETIC REGULATION. FUNCTIONALLY, A STRIKINGLY LARGE NUMBER OF AUTOPHAGY-RELATED TRANSCRIPTS WAS CHANGED IN BOTH PDAC AND ITS PERITUMORAL TISSUE, BUT NOT IN OTHER PANCREATIC TUMOURS. A TRANSCRIPTION SIGNATURE OF 15 AUTOPHAGY-RELATED GENES WAS ESTABLISHED THAT PERMITS A PROGNOSIS OF SURVIVAL WITH HIGH ACCURACY AND INDICATES THE ROLE OF AUTOPHAGY IN TUMOUR BIOLOGY. 2018 13 1435 41 DIFFERENTIAL METHYLATION LANDSCAPE OF PANCREATIC DUCTAL ADENOCARCINOMA AND ITS PRECANCEROUS LESIONS. BACKGROUND: PANCREATIC CANCER IS ONE OF THE MOST LETHAL DISEASES WITH AN INCIDENCE ALMOST EQUAL TO THE MORTALITY. IN ADDITION TO HAVING GENETIC CAUSES, CANCER CAN ALSO BE CONSIDERED AN EPIGENETIC DISEASE. DNA METHYLATION IS THE PREMIER EPIGENETIC MODIFICATION AND PATTERNS OF ABERRANT DNA METHYLATION ARE RECOGNIZED TO BE A COMMON HALLMARK OF HUMAN TUMOR. IN THE MULTISTAGE CARCINOGENESIS OF PANCREAS STARTING FROM PRECANCEROUS LESIONS TO PANCREATIC DUCTAL ADENOCARCINOMA (PDAC), THE EPIGENETIC CHANGES PLAY A SIGNIFICANT ROLE. DATA SOURCES: RELEVANT STUDIES FOR THIS REVIEW WERE DERIVED VIA AN EXTENSIVE LITERATURE SEARCH IN PUBMED VIA USING VARIOUS KEYWORDS SUCH AS PANCREATIC DUCTAL ADENOCARCINOMA, PRECANCEROUS LESIONS, METHYLATION PROFILE, EPIGENETIC BIOMARKERS THAT ARE RELEVANT DIRECTLY OR CLOSELY ASSOCIATED WITH THE CONCERNED AREA OF OUR INTEREST. THE LITERATURE SEARCH WAS INTENSIVELY DONE CONSIDERING A TIME FRAME OF 20 YEARS (1998-2018). RESULT: IN THIS REVIEW WE HAVE HIGHLIGHTED THE HYPERMETHYLATION AND HYPOMETHYLATION OF THE PRECANCEROUS PDAC LESIONS (PANCREATIC INTRA-EPITHELIAL NEOPLASIA, INTRADUCTAL PAPILLARY MUCINOUS NEOPLASM, MUCINOUS CYSTIC NEOPLASM AND CHRONIC PANCREATITIS) AND PDAC ALONG WITH THE POTENTIAL BIOMARKERS. WE HAVE ALSO ACHIEVED THE EARLY EPIGENETIC DRIVER THAT LEADS TO PROGRESSION FROM PRECANCEROUS LESIONS TO PDAC. A BUNCH OF EPIGENETIC DRIVER GENES LEADS TO PROGRESSION OF PRECANCEROUS LESIONS TO PDAC (PPENK, APC, P14/5/16/17, HMLH1 AND MGMT) ARE ALSO DOCUMENTED. WE SUMMARIZED THE IMPORTANCE OF THESE OBSERVATIONS IN THERAPEUTICS AND DIAGNOSIS OF PDAC HENCE IDENTIFYING THE POTENTIAL USE OF EPIGENETIC BIOMARKERS IN EPIGENETIC TARGETED THERAPY. EPIGENETIC INACTIVATION OCCURS BY HYPERMETHYLATION OF CPG ISLANDS IN THE PROMOTER REGIONS OF TUMOR SUPPRESSOR GENES. WE LISTED ALL HYPER- AND HYPOMETHYLATION OF CPG ISLANDS OF SEVERAL GENES IN PDAC INCLUDING ITS PRECANCEROUS LESIONS. CONCLUSIONS: THE CONCEPT OF THE REVIEW WOULD HELP TO UNDERSTAND THEIR BIOLOGICAL EFFECTS, AND TO DETERMINE WHETHER THEY MAY BE SUCCESSFULLY COMBINED WITH OTHER EPIGENETIC DRUGS. HOWEVER, WE NEED TO CONTINUE OUR RESEARCH TO DEVELOP MORE SPECIFIC DNA-DEMETHYLATING AGENTS, WHICH ARE THE TARGETS FOR HYPERMETHYLATED CPG METHYLATION SITES. 2020 14 4334 22 MICRORNAS: NOVEL DIAGNOSTIC AND THERAPEUTIC TOOLS FOR PANCREATIC DUCTAL ADENOCARCINOMA? PANCREATIC DUCTAL ADENOCARCINOMA (PDAC) IS KNOWN FOR ITS VERY POOR OVERALL PROGNOSIS, MAKING TOOLS FOR EARLY DIAGNOSIS AND NEW THERAPEUTIC MODALITIES URGENTLY NEEDED. MICRORNAS (MIRNAS), ENDOGENOUS NONCODING RNA MOLECULES OF APPROXIMATELY 22 NT, HAVE GAINED ATTENTION AS AN EPIGENETIC COMPONENT INVOLVED IN THE DEVELOPMENT OF MANY CANCERS, INCLUDING PDAC. MIRNA EXPRESSION PROFILES OF VARYING PANCREATIC TISSUES HAVE IDENTIFIED A NUMBER OF DIFFERENTIALLY EXPRESSED MIRNAS AND SEEM TO BE ABLE TO DIFFERENTIATE BETWEEN THREE TISSUES OF CLINICAL IMPORTANCE: NORMAL PANCREAS, CHRONIC PANCREATITIS, AND PDAC. THIS ARTICLE GATHERS OUR CURRENT KNOWLEDGE OF DIFFERENTIALLY EXPRESSED MIRNAS IN PANCREATIC TISSUES WITH RELEVANCE TO PDAC AND PRESENTS POTENTIAL DIAGNOSTIC AND THERAPEUTIC OPPORTUNITIES. 2009 15 563 35 BARRETT'S ESOPHAGUS: CAN BIOMARKERS PREDICT PROGRESSION TO MALIGNANCY? BARRETT'S ESOPHAGUS (BE) IS ONE OF THE MOST COMMON PREMALIGNANT LESIONS AND CAN PROGRESS TO ESOPHAGEAL ADENOCARCINOMA. IT IS CHARACTERIZED HISTOLOGICALLY BY A SPECIALIZED INTESTINAL METAPLASIA THAT REPLACES THE SQUAMOUS EPITHELIUM OF THE DISTAL ESOPHAGUS, AND IS ASSOCIATED WITH CHRONIC GASTROESOPHAGEAL REFLUX DISEASE AND OBESITY. SIMILAR TO THE ADENOMA-CARCINOMA SEQUENCE OF COLORECTAL CARCINOMAS, ESOPHAGEAL ADENOCARCINOMA DEVELOPS THROUGH PROGRESSION FROM BE TO LOW- AND HIGH-GRADE DYSPLASIA, THEN TO ADENOCARCINOMA WITH ACCUMULATION OF GENETIC AND EPIGENETIC ABNORMALITIES. THE EXACT MALIGNANCY POTENTIAL OF BE IS UNCERTAIN. DYSPLASIA IS THE MOST PREDICTIVE MARKER FOR RISK OF ESOPHAGEAL ADENOCARCINOMA, WHEREAS ENDOSCOPIC AND HISTOLOGICAL DIAGNOSES ARE STILL THE GOLD STANDARD FOR SURVEILLANCE OF PATIENTS WITH BE. HOWEVER, BOTH ARE LIMITED, EITHER BY SAMPLING ERRORS IN BIOPSIES OR BY DIFFERENCES IN HISTOLOGICAL INTERPRETATION. SEVERAL STUDIES HAVE IDENTIFIED CANDIDATE BIOMARKERS THAT MAY HAVE PREDICTIVE VALUE AND MAY SERVE AS ADDITIONAL FACTORS FOR THE RISK ASSESSMENT OF ESOPHAGEAL ADENOCARCINOMA. THIS REVIEW DISCUSSES THE ROLE OF BIOMARKERS IN THE PROGRESSION FROM BE TO ADENOCARCINOMA, FOCUSING ON CLINICAL AND MOLECULAR MARKERS. 2008 16 6132 38 THE EPIGENETIC REGULATORS BMI1 AND RING1B ARE DIFFERENTIALLY REGULATED IN PANCREATITIS AND PANCREATIC DUCTAL ADENOCARCINOMA. CHRONIC PANCREATITIS AND PANCREATIC DUCTAL ADENOCARCINOMA (PDAC) ARE ASSOCIATED WITH MAJOR CHANGES IN CELL DIFFERENTIATION. THESE CHANGES MAY BE AT THE BASIS OF THE INCREASED RISK FOR PDAC AMONG PATIENTS WITH CHRONIC PANCREATITIS. POLYCOMB PROTEINS ARE EPIGENETIC SILENCERS EXPRESSED IN ADULT STEM CELLS; UP-REGULATION OF POLYCOMB PROTEINS HAS BEEN REPORTED TO OCCUR IN A VARIETY OF SOLID TUMOURS SUCH AS COLON AND BREAST CANCER. WE HYPOTHESIZED THAT POLYCOMB MIGHT PLAY A ROLE IN PRENEOPLASTIC STATES IN THE PANCREAS AND IN TUMOUR DEVELOPMENT/PROGRESSION. TO TEST THESE IDEAS, WE DETERMINED THE EXPRESSION OF PRC1 COMPLEX PROTEINS (BMI1 AND RING1B) DURING PANCREATIC DEVELOPMENT AND IN PANCREATIC TISSUE FROM MOUSE MODELS OF DISEASE: ACUTE AND CHRONIC PANCREATIC INJURY, DUCT LIGATION, AND IN K-RAS(G12V) CONDITIONAL KNOCK-IN AND CAERULEIN-TREATED K-RAS(G12V) MICE. THE STUDY WAS EXTENDED TO HUMAN PANCREATIC TISSUE SAMPLES. TO OBTAIN MECHANISTIC INSIGHTS, BMI1 EXPRESSION IN CELLS UNDERGOING IN VITRO EXOCRINE CELL METAPLASIA AND THE EFFECTS OF BMI1 DEPLETION IN AN ACINAR CANCER CELL LINE WERE STUDIED. WE FOUND THAT BMI1 AND RING1B ARE EXPRESSED IN PANCREATIC EXOCRINE PRECURSOR CELLS DURING EARLY DEVELOPMENT AND IN DUCTAL AND ISLET CELLS-BUT NOT ACINAR CELLS-IN THE ADULT PANCREAS. BMI1 EXPRESSION WAS INDUCED IN ACINAR CELLS DURING ACUTE INJURY, IN ACINAR-DUCTAL METAPLASTIC LESIONS, AS WELL AS IN PANCREATIC INTRAEPITHELIAL NEOPLASIA (PANIN) AND PDAC. IN CONTRAST, RING1B EXPRESSION WAS ONLY SIGNIFICANTLY AND PERSISTENTLY UP-REGULATED IN HIGH-GRADE PANINS AND IN PDAC. BMI1 KNOCKDOWN IN CULTURED ACINAR TUMOUR CELLS LED TO CHANGES IN THE EXPRESSION OF VARIOUS DIGESTIVE ENZYMES. OUR RESULTS SUGGEST THAT BMI1 AND RING1B ARE MODULATED IN PANCREATIC DISEASES AND COULD CONTRIBUTE DIFFERENTLY TO TUMOUR DEVELOPMENT. 2009 17 2938 26 GENETIC AND EPIGENETIC ALTERATIONS IN BARRETT'S ESOPHAGUS AND ESOPHAGEAL ADENOCARCINOMA. ESOPHAGEAL ADENOCARCINOMA (EAC) DEVELOPS FROM BARRETT'S ESOPHAGUS (BE), WHEREIN NORMAL SQUAMOUS EPITHELIA IS REPLACED BY SPECIALIZED INTESTINAL METAPLASIA IN RESPONSE TO CHRONIC GASTROESOPHAGEAL ACID REFLUX. BE CAN PROGRESS TO LOW- AND HIGH-GRADE DYSPLASIA, INTRAMUCOSAL, AND INVASIVE CARCINOMA. BOTH BE AND EAC ARE CHARACTERIZED BY LOSS OF HETEROZYGOSITY, ANEUPLOIDY, SPECIFIC GENETIC MUTATIONS, AND CLONAL DIVERSITY. GIVEN THE LIMITATIONS OF HISTOPATHOLOGY, GENOMIC AND EPIGENOMIC ANALYSES MAY IMPROVE THE PRECISION OF RISK STRATIFICATION. ASSAYS TO DETECT MOLECULAR ALTERATIONS ASSOCIATED WITH NEOPLASTIC PROGRESSION COULD BE USED TO IMPROVE THE PATHOLOGIC ASSESSMENT OF BE/EAC AND TO SELECT HIGH-RISK PATIENTS FOR MORE INTENSIVE SURVEILLANCE. 2015 18 4984 36 PATHWAYS OF GASTRIC CARCINOGENESIS, HELICOBACTER PYLORI VIRULENCE AND INTERACTIONS WITH ANTIOXIDANT SYSTEMS, VITAMIN C AND PHYTOCHEMICALS. HELICOBACTER PYLORI IS A CLASS ONE CARCINOGEN WHICH CAUSES CHRONIC ATROPHIC GASTRITIS, GASTRIC INTESTINAL METAPLASIA, DYSPLASIA AND ADENOCARCINOMA. THE MECHANISMS BY WHICH H. PYLORI INTERACTS WITH OTHER RISK AND PROTECTIVE FACTORS, PARTICULARLY VITAMIN C IN GASTRIC CARCINOGENESIS ARE COMPLEX. GASTRIC CARCINOGENESIS INCLUDES METABOLIC, ENVIRONMENTAL, EPIGENETIC, GENOMIC, INFECTIVE, INFLAMMATORY AND ONCOGENIC PATHWAYS. THE MOLECULAR CLASSIFICATION OF GASTRIC CANCER SUBTYPES HAS REVOLUTIONIZED THE UNDERSTANDING OF GASTRIC CARCINOGENESIS. THIS INCLUDES THE TUMOUR MICROENVIRONMENT, GERMLINE MUTATIONS, AND THE ROLE OF HELICOBACTER PYLORI BACTERIA, EPSTEIN BARR VIRUS AND EPIGENETICS IN SOMATIC MUTATIONS. THERE IS EVIDENCE THAT ASCORBIC ACID, PHYTOCHEMICALS AND ENDOGENOUS ANTIOXIDANT SYSTEMS CAN MODIFY THE RISK OF GASTRIC CANCER. GASTRIC JUICE ASCORBATE LEVELS DEPEND ON DIETARY INTAKE OF ASCORBIC ACID BUT CAN ALSO BE DECREASED BY H. PYLORI INFECTION, H. PYLORI CAGA SECRETION, TOBACCO SMOKING, ACHLORHYDRIA AND CHRONIC ATROPHIC GASTRITIS. ASCORBIC ACID MAY BE PROTECTIVE AGAINST GASTRIC CANCER BY ITS ANTIOXIDANT EFFECT IN GASTRIC CYTOPROTECTION, REGENERATING ACTIVE VITAMIN E AND GLUTATHIONE, INHIBITING ENDOGENOUS N-NITROSATION, REDUCING TOXIC EFFECTS OF INGESTED NITROSODIMETHYLAMINES AND HETEROCYCLIC AMINES, AND PREVENTING H. PYLORI INFECTION. THE EFFECTIVENESS OF SUCH CYTOPROTECTION IS RELATED TO H. PYLORI STRAIN VIRULENCE, PARTICULARLY CAGA EXPRESSION. THE ROLE OF VITAMIN C IN EPIGENETIC REPROGRAMMING IN GASTRIC CANCER IS STILL EVOLVING. OTHER FACTORS IN CONJUNCTION WITH VITAMIN C ALSO PLAY A ROLE IN GASTRIC CARCINOGENESIS. ERADICATION OF H. PYLORI MAY LEAD TO RECOVERY OF VITAMIN C SECRETION BY GASTRIC EPITHELIUM AND ENABLE REGRESSION OF PREMALIGNANT GASTRIC LESIONS, THEREBY INTERRUPTING THE CORREA CASCADE OF GASTRIC CARCINOGENESIS. 2020 19 2842 35 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 20 4437 44 MOLECULAR EVOLUTION OF METAPLASIA TO ADENOCARCINOMA IN THE ESOPHAGUS. ESOPHAGEAL ADENOCARCINOMA (EAC) DEVELOPS FROM BARRETT'S ESOPHAGUS (BE), A CONDITION WHERE THE NORMAL SQUAMOUS EPITHELIA IS REPLACED BY SPECIALIZED INTESTINAL METAPLASIA IN RESPONSE TO CHRONIC GASTROESOPHAGEAL ACID REFLUX. IN A MINORITY OF INDIVIDUALS, BE CAN PROGRESS TO LOW- AND HIGH-GRADE DYSPLASIA AND EVENTUALLY TO INTRA-MUCOSAL AND THEN INVASIVE CARCINOMA. BE PROVIDES RESEARCHERS WITH A UNIQUE MODEL TO CHARACTERIZE THE PROCESS BY WHICH A CARCINOMA ARISES FROM ITS PRECURSOR LESION. MOLECULAR STUDIES OF BE HAVE DEMONSTRATED THAT IT IS NOT SIMPLY A METAPLASTIC TISSUE, BUT RATHER IT HARBORS FREQUENT ALTERATIONS THAT ARE ALSO PRESENT IN DYSPLASTIC BE AND IN EAC. BOTH BE AND EAC ARE CHARACTERIZED BY LOSS OF HETEROZYGOSITY, ANEUPLOIDY, SPECIFIC GENETIC MUTATIONS, AND CLONAL DIVERSITY. EPIGENETIC ABNORMALITIES, PRIMARY ALTERATIONS IN DNA METHYLATION, ARE ALSO FREQUENTLY SEEN IN BE AND EAC. CANDIDATE GENE AND ARRAY-BASED APPROACHES HAVE DEMONSTRATED THAT NUMEROUS TUMOR SUPPRESSOR GENES EXHIBIT ABERRANT PROMOTER METHYLATION, AND SOME OF THESE ALTERED GENES ARE ASSOCIATED WITH THE NEOPLASTIC PROGRESSION OF BE. IT HAS ALSO BEEN SHOWN THAT THE BE AND EAC EPIGENOMES ARE CHARACTERIZED BY HYPOMETHYLATION OF INTRAGENIC AND NON-CODING REGIONS RECENT STUDIES HAVE ALSO PROVIDED NEW INSIGHT INTO THE EVOLUTIONARY FORCES UNDERLYING THE MOLECULAR ALTERATIONS SEEN IN BE AND EAC AND INTO THE MOLECULAR PATHOGENESIS OF EAC. 2018