1 420 147 ANDROGEN-MEDIATED PERTURBATION OF THE HEPATIC CIRCADIAN SYSTEM THROUGH EPIGENETIC MODULATION PROMOTES NAFLD IN PCOS MICE. IN WOMEN, EXCESS ANDROGEN CAUSES POLYCYSTIC OVARY SYNDROME (PCOS), A COMMON FERTILITY DISORDER WITH COMORBID METABOLIC DYSFUNCTIONS INCLUDING DIABETES, OBESITY, AND NONALCOHOLIC FATTY LIVER DISEASE. USING A PCOS MOUSE MODEL, THIS STUDY SHOWS THAT CHRONIC HIGH ANDROGEN LEVELS CAUSE HEPATIC STEATOSIS WHILE HEPATOCYTE-SPECIFIC ANDROGEN RECEPTOR (AR)-KNOCKOUT RESCUES THIS PHENOTYPE. MOREOVER, THROUGH RNA-SEQUENCING AND METABOLOMIC STUDIES, WE HAVE IDENTIFIED KEY METABOLIC GENES AND PATHWAYS AFFECTED BY HYPERANDROGENISM. OUR STUDIES REVEAL THAT A LARGE NUMBER OF METABOLIC GENES ARE DIRECTLY REGULATED BY ANDROGENS THROUGH AR BINDING TO ANDROGEN RESPONSE ELEMENT SEQUENCES ON THE PROMOTER REGION OF THESE GENES. INTERESTINGLY, A NUMBER OF CIRCADIAN GENES ARE ALSO DIFFERENTIALLY REGULATED BY ANDROGENS. IN VIVO AND IN VITRO STUDIES USING A CIRCADIAN REPORTER [PERIOD2::LUCIFERASE (PER2::LUC)] MOUSE MODEL DEMONSTRATE THAT ANDROGENS CAN DIRECTLY DISRUPT THE HEPATIC TIMING SYSTEM, WHICH IS A KEY REGULATOR OF LIVER METABOLISM. CONSEQUENTLY, STUDIES SHOW THAT ANDROGENS DECREASE H3K27ME3, A GENE SILENCING MARK ON THE PROMOTER OF CORE CLOCK GENES, BY INHIBITING THE EXPRESSION OF HISTONE METHYLTRANSFERASE, EZH2, WHILE INDUCING THE EXPRESSION OF THE HISTONE DEMETHYLASE, JMJD3, WHICH IS RESPONSIBLE FOR ADDING AND REMOVING THE H3K27ME3 MARK, RESPECTIVELY. FINALLY, WE REPORT THAT UNDER HYPERANDROGENIC CONDITIONS, SOME OF THE SAME CIRCADIAN/METABOLIC GENES THAT ARE UPREGULATED IN THE MOUSE LIVER ARE ALSO ELEVATED IN NONHUMAN PRIMATE LIVERS. IN SUMMARY, THESE STUDIES NOT ONLY PROVIDE AN OVERALL UNDERSTANDING OF HOW HYPERANDROGENISM ASSOCIATED WITH PCOS AFFECTS LIVER GENE EXPRESSION AND METABOLISM BUT ALSO OFFER INSIGHT INTO THE UNDERLYING MECHANISMS LEADING TO HEPATIC STEATOSIS IN PCOS. 2022 2 5878 46 SYNERGISTIC EFFECTS OF HYPERANDROGENEMIA AND OBESOGENIC WESTERN-STYLE DIET ON TRANSCRIPTION AND DNA METHYLATION IN VISCERAL ADIPOSE TISSUE OF NONHUMAN PRIMATES. POLYCYSTIC OVARY SYNDROME (PCOS) IS A MAJOR REPRODUCTIVE DISORDER THAT IS RESPONSIBLE FOR 80% OF ANOVULATORY INFERTILITY AND THAT IS ASSOCIATED WITH HYPERANDROGENEMIA, INCREASED RISK OF OBESITY, AND WHITE ADIPOSE TISSUE (WAT) DYSFUNCTION. WE HAVE PREVIOUSLY DEMONSTRATED THAT THE COMBINATION OF CHRONIC TESTOSTERONE (T) TREATMENT AND AN OBESOGENIC WESTERN-STYLE DIET (WSD) EXERTS SYNERGISTIC FUNCTIONAL EFFECTS ON WAT, LEADING TO INCREASED LIPID ACCUMULATION IN VISCERAL ADIPOCYTES BY AN UNKNOWN MECHANISM. IN THIS STUDY, WE EXAMINED THE WHOLE-GENOME TRANSCRIPTIONAL RESPONSE IN VISCERAL WAT TO T AND WSD, ALONE AND IN COMBINATION. WE OBSERVED A SYNERGISTIC EFFECT OF T AND WSD ON GENE EXPRESSION, RESULTING IN UPREGULATION OF LIPID STORAGE GENES CONCOMITANT WITH ADIPOCYTE HYPERTROPHY. BECAUSE DNA METHYLATION IS KNOWN TO BE ASSOCIATED WITH BODY FAT DISTRIBUTION AND THE ETIOLOGY OF PCOS, WE CONDUCTED WHOLE-GENOME DNA METHYLATION ANALYSIS OF VISCERAL WAT. WHILE ONLY A FRACTION OF DIFFERENTIALLY EXPRESSED GENES ALSO EXHIBITED DIFFERENTIAL DNA METHYLATION, IN SILICO ANALYSIS SHOWED THAT DIFFERENTIALLY METHYLATED REGIONS WERE ENRICHED IN TRANSCRIPTION FACTOR BINDING MOTIFS, SUGGESTING A POTENTIAL GENE REGULATORY ROLE FOR THESE REGIONS. IN SUMMARY, THIS STUDY DEMONSTRATES THAT HYPERANDROGENEMIA ALONE DOES NOT INDUCE GLOBAL TRANSCRIPTIONAL AND EPIGENETIC RESPONSE IN YOUNG FEMALE MACAQUES UNLESS COMBINED WITH AN OBESOGENIC DIET. 2019 3 5438 34 REMOVAL OF EPIGENETIC REPRESSIVE MARK ON INFLAMMATORY GENES IN FAT LIVER. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE MOST COMMON CHRONIC LIVER DISEASE WORLDWIDE. THE DETAILED EPIGENOMIC CHANGES DURING FAT ACCUMULATION IN LIVER ARE NOT CLEAR YET. HERE, WE PERFORMED CHIP-SEQ ANALYSIS IN THE LIVER TISSUES OF HIGH-FAT DIET AND REGULAR CHOW DIET MICE AND INVESTIGATED THE DYNAMIC LANDSCAPES OF H3K27AC AND H3K9ME3 MARKS ON CHROMATIN. WE FIND THAT THE ACTIVATED TYPICAL ENHANCERS MARKED WITH H3K27AC ARE ENRICHED ON LIPID METABOLIC PATHWAYS IN FAT LIVER; HOWEVER, SUPER ENHANCERS DO NOT CHANGE MUCH. THE REGIONS COVERED WITH H3K9ME3 REPRESSIVE MARK SEEM TO UNDERGO GREAT CHANGES, AND ITS PEAK NUMBER AND INTENSITY BOTH DECREASE IN FAT LIVER. THE ENHANCERS LOCATED IN LOST H3K9ME3 REGIONS ARE ENRICHED IN LIPID METABOLISM AND INFLAMMATORY PATHWAYS; AND MOTIF ANALYSIS SHOWS THAT THEY ARE POTENTIAL TARGETS FOR TRANSCRIPTION FACTORS INVOLVED IN METABOLIC AND INFLAMMATORY PROCESSES. OUR STUDY HAS REVEALED THAT H3K9ME3 MAY PLAY AN IMPORTANT ROLE DURING THE PATHOGENESIS OF NAFLD THROUGH REGULATING THE ACCESSIBILITY OF ENHANCERS. 2023 4 3292 49 HIGH FAT DIET AND EXERCISE LEAD TO A DISRUPTED AND PATHOGENIC DNA METHYLOME IN MOUSE LIVER. HIGH-FAT DIET CONSUMPTION AND SEDENTARY LIFESTYLE ELEVATES RISK FOR OBESITY, NON-ALCOHOLIC FATTY LIVER DISEASE, AND CANCER. EXERCISE TRAINING CONVEYS HEALTH BENEFITS IN POPULATIONS WITH OR WITHOUT THESE CHRONIC CONDITIONS. DIET AND EXERCISE REGULATE GENE EXPRESSION BY MEDIATING EPIGENETIC MECHANISMS IN MANY TISSUES; HOWEVER, SUCH EFFECTS ARE POORLY DOCUMENTED IN THE LIVER, A CENTRAL METABOLIC ORGAN. TO DISSECT THE CONSEQUENCES OF DIET AND EXERCISE ON THE LIVER EPIGENOME, WE MEASURED DNA METHYLATION, USING REDUCED REPRESENTATION BISULFITE SEQUENCING, AND TRANSCRIPTION, USING RNA-SEQ, IN MICE MAINTAINED ON A FAST FOOD DIET WITH SEDENTARY LIFESTYLE OR EXERCISE, COMPARED WITH CONTROL DIET WITH AND WITHOUT EXERCISE. OUR ANALYSES REVEAL THAT GENOME-WIDE DIFFERENTIAL DNA METHYLATION AND EXPRESSION OF GENE CLUSTERS ARE INDUCED BY DIET AND/OR EXERCISE. A COMBINATION OF FAST FOOD AND EXERCISE TRIGGERS EXTENSIVE GENE ALTERATIONS, WITH ENRICHMENT OF CARBOHYDRATE/LIPID METABOLIC PATHWAYS AND MUSCLE DEVELOPMENTAL PROCESSES. THROUGH EVALUATION OF PUTATIVE PROTECTIVE EFFECTS OF EXERCISE ON DIET-INDUCED DNA METHYLATION, WE SHOW THAT HYPERMETHYLATION IS EFFECTIVELY PREVENTED, ESPECIALLY AT PROMOTERS AND ENHANCERS, WHEREAS HYPOMETHYLATION IS ONLY PARTIALLY ATTENUATED. WE ASSESSED DIET-INDUCED DNA METHYLATION CHANGES ASSOCIATED WITH LIVER CANCER-RELATED EPIGENETIC MODIFICATIONS AND IDENTIFIED SIGNIFICANT INCREASES AT LIVER-SPECIFIC ENHANCERS IN FAST FOOD GROUPS, SUGGESTING PARTIAL LOSS OF LIVER CELL IDENTITY. HYPERMETHYLATION AT A SUBSET OF GENE PROMOTERS WAS ASSOCIATED WITH INHIBITION OF TISSUE DEVELOPMENT AND PROMOTION OF CARCINOGENIC PROCESSES. OUR STUDY DEMONSTRATES EXTENSIVE REPROGRAMMING OF THE EPIGENOME BY DIET AND EXERCISE, EMPHASIZING THE FUNCTIONAL RELEVANCE OF EPIGENETIC MECHANISMS AS AN INTERFACE BETWEEN LIFESTYLE MODIFICATIONS AND PHENOTYPIC ALTERATIONS. 2017 5 315 31 ALCOHOL, DNA METHYLATION, AND CANCER. CANCER IS ONE OF THE MOST SIGNIFICANT DISEASES ASSOCIATED WITH CHRONIC ALCOHOL CONSUMPTION, AND CHRONIC DRINKING IS A STRONG RISK FACTOR FOR CANCER, PARTICULARLY OF THE UPPER AERODIGESTIVE TRACT, LIVER, COLORECTUM, AND BREAST. SEVERAL FACTORS CONTRIBUTE TO ALCOHOL-INDUCED CANCER DEVELOPMENT (I.E., CARCINOGENESIS), INCLUDING THE ACTIONS OF ACETALDEHYDE, THE FIRST AND PRIMARY METABOLITE OF ETHANOL, AND OXIDATIVE STRESS. HOWEVER, INCREASING EVIDENCE SUGGESTS THAT ABERRANT PATTERNS OF DNA METHYLATION, AN IMPORTANT EPIGENETIC MECHANISM OF TRANSCRIPTIONAL CONTROL, ALSO COULD BE PART OF THE PATHOGENETIC MECHANISMS THAT LEAD TO ALCOHOL-INDUCED CANCER DEVELOPMENT. THE EFFECTS OF ALCOHOL ON GLOBAL AND LOCAL DNA METHYLATION PATTERNS LIKELY ARE MEDIATED BY ITS ABILITY TO INTERFERE WITH THE AVAILABILITY OF THE PRINCIPAL BIOLOGICAL METHYL DONOR, S-ADENOSYLMETHIONINE (SAME), AS WELL AS PATHWAYS RELATED TO IT. SEVERAL MECHANISMS MAY MEDIATE THE EFFECTS OF ALCOHOL ON DNA METHYLATION, INCLUDING REDUCED FOLATE LEVELS AND INHIBITION OF KEY ENZYMES IN ONE-CARBON METABOLISM THAT ULTIMATELY LEAD TO LOWER SAME LEVELS, AS WELL AS INHIBITION OF ACTIVITY AND EXPRESSION OF ENZYMES INVOLVED IN DNA METHYLATION (I.E., DNA METHYLTRANSFERASES). FINALLY, VARIATIONS (I.E., POLYMORPHISMS) OF SEVERAL GENES INVOLVED IN ONE-CARBON METABOLISM ALSO MODULATE THE RISK OF ALCOHOL-ASSOCIATED CARCINOGENESIS. 2013 6 2104 36 EPIGENETIC EVENTS IN LIVER CANCER RESULTING FROM ALCOHOLIC LIVER DISEASE. EPIGENETIC MECHANISMS PLAY AN EXTENSIVE ROLE IN THE DEVELOPMENT OF LIVER CANCER (I.E., HEPATOCELLULAR CARCINOMA [HCC]) ASSOCIATED WITH ALCOHOLIC LIVER DISEASE (ALD) AS WELL AS IN LIVER DISEASE ASSOCIATED WITH OTHER CONDITIONS. FOR EXAMPLE, EPIGENETIC MECHANISMS, SUCH AS CHANGES IN THE METHYLATION AND/OR ACETYLATION PATTERN OF CERTAIN DNA REGIONS OR OF THE HISTONE PROTEINS AROUND WHICH THE DNA IS WRAPPED, CONTRIBUTE TO THE REVERSION OF NORMAL LIVER CELLS INTO PROGENITOR AND STEM CELLS THAT CAN DEVELOP INTO HCC. CHRONIC EXPOSURE TO BEVERAGE ALCOHOL (I.E., ETHANOL) CAN INDUCE ALL OF THESE EPIGENETIC CHANGES. THUS, ETHANOL METABOLISM RESULTS IN THE FORMATION OF COMPOUNDS THAT CAN CAUSE CHANGES IN DNA METHYLATION AND INTERFERE WITH OTHER COMPONENTS OF THE NORMAL PROCESSES REGULATING DNA METHYLATION. ALCOHOL EXPOSURE ALSO CAN ALTER HISTONE ACETYLATION/DEACETYLATION AND METHYLATION PATTERNS THROUGH A VARIETY OF MECHANISMS AND SIGNALING PATHWAYS. ALCOHOL ALSO ACTS INDIRECTLY ON ANOTHER MOLECULE CALLED TOLL-LIKE RECEPTOR 4 (TLR4) THAT IS A KEY COMPONENT IN A CRUCIAL REGULATORY PATHWAY IN THE CELLS AND WHOSE DYSREGULATION IS INVOLVED IN THE DEVELOPMENT OF HCC. FINALLY, ALCOHOL USE REGULATES AN EPIGENETIC MECHANISM INVOLVING SMALL MOLECULES CALLED MIRNAS THAT CONTROL TRANSCRIPTIONAL EVENTS AND THE EXPRESSION OF GENES IMPORTANT TO ALD. 2013 7 1017 39 CIRCADIAN RHYTHMS IN LIVER PHYSIOLOGY AND LIVER DISEASES. IN MAMMALS, CIRCADIAN RHYTHMS FUNCTION TO COORDINATE A DIVERSE PANEL OF PHYSIOLOGICAL PROCESSES WITH ENVIRONMENTAL CONDITIONS SUCH AS FOOD AND LIGHT. AS THE DRIVING FORCE FOR CIRCADIAN RHYTHMICITY, THE MOLECULAR CLOCK IS A SELF-SUSTAINED TRANSCRIPTION-TRANSLATIONAL FEEDBACK LOOP SYSTEM CONSISTING OF TRANSCRIPTION FACTORS, EPIGENETIC MODULATORS, KINASES/PHOSPHATASES, AND UBIQUITIN E3 LIGASES. THE MOLECULAR CLOCK EXISTS NOT ONLY IN THE SUPRACHIASMATIC NUCLEI OF THE HYPOTHALAMUS BUT ALSO IN THE PERIPHERAL TISSUES TO REGULATE CELLULAR AND PHYSIOLOGICAL FUNCTION IN A TISSUE-SPECIFIC MANNER. THE CIRCADIAN CLOCK SYSTEM IN THE LIVER PLAYS IMPORTANT ROLES IN REGULATING METABOLISM AND ENERGY HOMEOSTASIS. CLOCK GENE MUTANT ANIMALS DISPLAY IMPAIRED GLUCOSE AND LIPID METABOLISM AND ARE SUSCEPTIBLE TO DIET-INDUCED OBESITY AND METABOLIC DYSFUNCTION, PROVIDING STRONG EVIDENCE FOR THE CONNECTION BETWEEN THE CIRCADIAN CLOCK AND METABOLIC HOMEOSTASIS. CIRCADIAN-CONTROLLED HEPATIC METABOLISM IS PARTIALLY ACHIEVED BY CONTROLLING THE EXPRESSION AND/OR ACTIVITY OF KEY METABOLIC ENZYMES, TRANSCRIPTION FACTORS, SIGNALING MOLECULES, AND TRANSPORTERS. RECIPROCALLY, INTRACELLULAR METABOLITES MODULATE THE MOLECULAR CLOCK ACTIVITY IN RESPONSE TO THE ENERGY STATUS. ALTHOUGH STILL AT THE EARLY STAGE, CIRCADIAN CLOCK DYSFUNCTION HAS BEEN IMPLICATED IN COMMON CHRONIC LIVER DISEASES. CIRCADIAN DYSREGULATION OF LIPID METABOLISM, DETOXIFICATION, REACTIVE OXYGEN SPECIES (ROS) PRODUCTION, AND CELL-CYCLE CONTROL MIGHT CONTRIBUTE TO THE ONSET AND PROGRESSION OF LIVER STEATOSIS, FIBROSIS, AND EVEN CARCINOGENESIS. IN SUMMARY, THESE FINDINGS CALL FOR A COMPREHENSIVE STUDY OF THE FUNCTION AND MECHANISMS OF HEPATIC CIRCADIAN CLOCK TO GAIN BETTER UNDERSTANDING OF LIVER PHYSIOLOGY AND DISEASES. 2013 8 5067 32 PHYSICAL ACTIVITY AND DNA METHYLATION IN HUMANS. PHYSICAL ACTIVITY IS A STRONG STIMULUS INFLUENCING THE OVERALL PHYSIOLOGY OF THE HUMAN BODY. EXERCISES LEAD TO BIOCHEMICAL CHANGES IN VARIOUS TISSUES AND EXERT AN IMPACT ON GENE EXPRESSION. EXERCISE-INDUCED CHANGES IN GENE EXPRESSION MAY BE MEDIATED BY EPIGENETIC MODIFICATIONS, WHICH REARRANGE THE CHROMATIN STRUCTURE AND THEREFORE MODULATE ITS ACCESSIBILITY FOR TRANSCRIPTION FACTORS. ONE OF SUCH EPIGENETIC MARK IS DNA METHYLATION THAT INVOLVES AN ATTACHMENT OF A METHYL GROUP TO THE FIFTH CARBON OF CYTOSINE RESIDUE PRESENT IN CG DINUCLEOTIDES (CPG). DNA METHYLATION IS CATALYZED BY A FAMILY OF DNA METHYLTRANSFERASES. THIS REVERSIBLE DNA MODIFICATION RESULTS IN THE RECRUITMENT OF PROTEINS CONTAINING METHYL BINDING DOMAIN AND FURTHER TRANSCRIPTIONAL CO-REPRESSORS LEADING TO THE SILENCING OF GENE EXPRESSION. THE ACCUMULATION OF CPG DINUCLEOTIDES, REFERRED AS CPG ISLANDS, OCCURS AT THE PROMOTER REGIONS IN A GREAT MAJORITY OF HUMAN GENES. THEREFORE, CHANGES IN DNA METHYLATION PROFILE AFFECT THE TRANSCRIPTION OF MULTIPLE GENES. A GROWING BODY OF EVIDENCE INDICATES THAT EXERCISE TRAINING MODULATES DNA METHYLATION IN MUSCLES AND ADIPOSE TISSUE. SOME OF THESE EPIGENETIC MARKERS WERE ASSOCIATED WITH A REDUCED RISK OF CHRONIC DISEASES. THIS REVIEW SUMMARIZES THE CURRENT KNOWLEDGE ABOUT THE INFLUENCE OF PHYSICAL ACTIVITY ON THE DNA METHYLATION STATUS IN HUMANS. 2021 9 4768 33 NUCLEAR EFFECTS OF ETHANOL-INDUCED PROTEASOME INHIBITION IN LIVER CELLS. ALCOHOL INGESTION CAUSES ALTERATION IN SEVERAL CELLULAR MECHANISMS, AND LEADS TO INFLAMMATION, APOPTOSIS, IMMUNOLOGICAL RESPONSE DEFECTS, AND FIBROSIS. THESE PHENOMENA ARE ASSOCIATED WITH SIGNIFICANT CHANGES IN THE EPIGENETIC MECHANISMS, AND SUBSEQUENTLY, TO LIVER CELL MEMORY. THE UBIQUITIN-PROTEASOME PATHWAY IS ONE OF THE VITAL PATHWAYS IN THE CELL THAT BECOMES DYSFUNCTIONAL AS A RESULT OF CHRONIC ETHANOL CONSUMPTION. INHIBITION OF THE PROTEASOME ACTIVITY IN THE NUCLEUS CAUSES CHANGES IN THE TURNOVER OF TRANSCRIPTIONAL FACTORS, HISTONE MODIFYING ENZYMES, AND THEREFORE, AFFECTS EPIGENETIC MECHANISMS. ALCOHOL CONSUMPTION HAS BEEN ASSOCIATED WITH AN INCREASE IN HISTONE ACETYLATION AND A DECREASE IN HISTONE METHYLATION, WHICH LEADS TO GENE EXPRESSION CHANGES. DNA AND HISTONE MODIFICATIONS THAT RESULT FROM ETHANOL-INDUCED PROTEASOME INHIBITION ARE KEY PLAYERS IN REGULATING GENE EXPRESSION, ESPECIALLY GENES INVOLVED IN THE CELL CYCLE, IMMUNOLOGICAL RESPONSES, AND METABOLISM OF ETHANOL. THE PRESENT REVIEW HIGHLIGHTS THE CONSEQUENCES OF ETHANOL-INDUCED PROTEASOME INHIBITION IN THE NUCLEUS OF LIVER CELLS THAT ARE CHRONICALLY EXPOSED TO ETHANOL. 2009 10 3148 38 GLUCOCORTICOID INDUCED LOSS OF OESTROGEN RECEPTOR ALPHA GENE METHYLATION AND RESTORATION OF SENSITIVITY TO FULVESTRANT IN TRIPLE NEGATIVE BREAST CANCER. THE RESPONSE TO PSYCHOLOGICAL STRESS CAN DIFFER DEPENDING ON THE TYPE AND DURATION OF THE STRESSOR. ACUTE STRESS CAN FACILITATE A "FIGHT OR FLIGHT RESPONSE" AND AID SURVIVAL, WHEREAS CHRONIC LONG-TERM STRESS WITH THE PERSISTENT RELEASE OF STRESS HORMONES SUCH AS CORTISOL HAS BEEN SHOWN TO BE DETRIMENTAL TO HEALTH. WE ARE NOW BEGINNING TO UNDERSTAND HOW THIS STRESS HORMONE RESPONSE IMPACTS IMPORTANT PROCESSES SUCH AS DNA REPAIR AND CELL PROLIFERATION PROCESSES IN BREAST CANCER. HOWEVER, IT IS NOT KNOWN WHAT EPIGENETIC CHANGES STRESS HORMONES INDUCE IN BREAST CANCER. EPIGENETIC MECHANISMS INCLUDE MODIFICATION OF DNA AND HISTONES WITHIN CHROMATIN THAT MAY BE INVOLVED IN GOVERNING THE TRANSCRIPTIONAL PROCESSES IN CANCER CELLS IN RESPONSE TO CHANGES BY ENDOGENOUS STRESS HORMONES. THE CONTRIBUTION OF ENDOGENOUS ACUTE OR LONG-TERM EXPOSURE OF GLUCOCORTICOID STRESS HORMONES, AND EXOGENOUS GLUCOCORTICOIDS TO METHYLATION PATTERNS IN BREAST CANCER TISSUES WITH DIFFERENT AETIOLOGIES REMAINS TO BE EVALUATED. IN VITRO AND IN VIVO MODELS WERE DEVELOPED TO INVESTIGATE THE EPIGENETIC MODIFICATIONS AND THEIR CONTRIBUTION TO BREAST CANCER PROGRESSION AND AETIOLOGY. A PANEL OF TRIPLE NEGATIVE BREAST CANCER CELL LINES WERE TREATED WITH THE GLUCOCORTICOID, CORTISOL WHICH RESULTED IN EPIGENETIC ALTERATION CHARACTERISED BY LOSS OF METHYLATION ON PROMOTER REGIONS OF TUMOUR SUPPRESSOR GENES INCLUDING ESR1, AND LOSS OF METHYLATION ON LINE-1 REPETITIVE ELEMENT USED AS A SURROGATE MARKER FOR GLOBAL METHYLATION. THIS WAS VERIFIED IN VIVO IN MDA-MB-231 XENOGRAFTS; THE MODEL VERIFIED THE LOSS OF METHYLATION ON ESR1 PROMOTER, AND SUBSEQUENT INCREASE IN ESR1 EXPRESSION IN PRIMARY TUMOURS IN MICE SUBJECTED TO RESTRAINT STRESS. OUR STUDY HIGHLIGHTS THAT DNA METHYLATION LANDSCAPE IN BREAST CANCER CAN BE ALTERED IN RESPONSE TO STRESS AND GLUCOCORTICOID TREATMENT. 2023 11 318 36 ALCOHOL-INDUCED EPIGENETIC CHANGES IN CANCER. CHRONIC, HEAVY ALCOHOL CONSUMPTION IS ASSOCIATED WITH SERIOUS NEGATIVE HEALTH EFFECTS, INCLUDING THE DEVELOPMENT OF SEVERAL CANCER TYPES. ONE OF THE PATHWAYS AFFECTED BY ALCOHOL TOXICITY IS THE ONE-CARBON METABOLISM. THE ALCOHOL-INDUCED IMPAIRMENT OF THIS METABOLIC PATHWAY RESULTS IN EPIGENETIC CHANGES ASSOCIATED WITH CANCER DEVELOPMENT. THESE EPIGENETIC CHANGES ARE INDUCED BY FOLATE DEFICIENCY AND BY PRODUCTS OF THE ETHANOL METABOLISM. THE CHANGES INDUCED BY LONG-TERM HEAVY ETHANOL CONSUMPTION RESULT IN ELEVATIONS OF HOMOCYSTEINE AND S-ADENOSYL-HOMOCYSTEINE (SAH) AND REDUCTIONS IN S-ADENOSYLMETHIONINE (SAM) AND ANTIOXIDANT GLUTATHIONE (GSH) LEVELS, LEADING TO ABNORMAL PROMOTER GENE HYPERMETHYLATION, GLOBAL HYPOMETHYLATION, AND METABOLIC INSUFFICIENCY OF ANTIOXIDANT DEFENSE MECHANISMS. IN ADDITION, REACTIVE OXYGEN SPECIES (ROS) GENERATED DURING THE ETHANOL METABOLISM INDUCE ALTERATIONS IN DNA METHYLATION PATTERNS THAT PLAY A CRITICAL ROLE IN CANCER DEVELOPMENT. SPECIFIC EPIGENETIC CHANGES IN ESOPHAGEAL, HEPATIC, AND COLORECTAL CANCERS HAVE BEEN DETECTED IN BLOOD SAMPLES AND PROPOSED TO BE USED CLINICALLY AS EPIGENETIC BIOMARKERS FOR DIAGNOSIS AND PROGNOSIS OF THESE CANCERS. ALSO, GENETIC VARIANTS OF GENES INVOLVED IN ONE-CARBON METABOLISM AND ETHANOL METABOLISM WERE FOUND TO MODULATE THE RELATIONSHIP BETWEEN ALCOHOL-INDUCED EPIGENETIC CHANGES AND CANCER RISK. FURTHERMORE, ALCOHOL METABOLISM PRODUCTS HAVE BEEN ASSOCIATED WITH AN INCREASE IN NADH LEVELS, WHICH LEAD TO HISTONE MODIFICATIONS AND CHANGES IN GENE EXPRESSION THAT IN TURN INFLUENCE CANCER SUSCEPTIBILITY. CHRONIC EXCESSIVE USE OF ALCOHOL ALSO AFFECTS SELECTED MEMBERS OF THE FAMILY OF MICRORNAS, AND AS MIRNAS COULD ACT AS EPIGENETIC REGULATORS, THIS MAY PLAY AN IMPORTANT ROLE IN CARCINOGENESIS. IN CONCLUSION, TARGETING ALCOHOL-INDUCED EPIGENETIC CHANGES IN SEVERAL CANCER TYPES COULD MAKE AVAILABLE CLINICAL TOOLS FOR THE DIAGNOSIS, PROGNOSIS, AND TREATMENT OF THESE CANCERS, WITH AN IMPORTANT ROLE IN PRECISION MEDICINE. 2018 12 6533 36 TRANSCRIPTIONAL REGULATION OF INFLAMMATORY GENES ASSOCIATED WITH SEVERE ASTHMA. THE 10% OF PATIENTS WITH THE MOST SEVERE ASTHMA ARE RESPONSIBLE FOR A LARGE PART OF HEALTHCARE EXPENDITURE AND MORBIDITY. UNDERSTANDING THE PROCESSES INVOLVED IS KEY IF NEW THERAPEUTIC APPROACHES ARE TO BE DEVELOPED. EVIDENCE IS ACCUMULATING THAT CHRONIC DISEASES SUCH AS ASTHMA ARE ASSOCIATED WITH TEMPORAL AND SPATIAL ALTERATIONS IN THE PATTERN OF INFLAMMATORY GENE EXPRESSION WITHIN THE AIRWAYS. EXPRESSION OF THESE GENES CAN BE REGULATED BY TRANSCRIPTIONAL, POSTTRANSCRIPTIONAL, TRANSLATIONAL AND EPIGENETIC MECHANISMS. IT IS WELL ESTABLISHED THAT BINDING OF ACTIVATED TRANSCRIPTION FACTORS TO SPECIFIC INDUCIBLE GENE PROMOTER SITES IS TIGHTLY CONTROLLED BY CHROMATIN STATE AS A RESULT OF HISTONE MODIFICATIONS, PARTICULARLY THE BALANCE BETWEEN HISTONE ACETYLATION AND DEACETYLATION [1]. THE INTERACTION BETWEEN TRANSCRIPTION FACTORS AND THE PROMOTER IS KEY TO THE DIVERSIFICATION OF GENE EXPRESSION IN A TIME DEPENDENT MANNER LEADING TO ALTERED GENE EXPRESSION PROFILES. ALTERATIONS OF THE ACCESSIBILITY OF TRANSCRIPTION FACTORS TO THE DNA CAN HAVE RESIDING EFFECTS UPON GENE TRANSCRIPTION. THIS REVIEW WILL FOCUS ON THE REGULATION OF SEVERAL GROUPS OF KEY GENES WHICH ARE INVOLVED IN CHRONIC AIRWAY INFLAMMATION AND REMODELLING IN ASTHMA DRAWING MAINLY FROM OUR EXPERIENCE OF STUDYING THESE PROCESSES IN AIRWAY SMOOTH MUSCLE CELLS. AN OVERVIEW IS SHOWN IN FIGURE 1. 2011 13 2306 32 EPIGENETIC REGULATION OF CELL-FATE CHANGES THAT DETERMINE ADULT LIVER REGENERATION AFTER INJURY. THE ADULT LIVER HAS EXCELLENT REGENERATIVE POTENTIAL FOLLOWING INJURY. IN CONTRAST TO OTHER ORGANS OF THE BODY THAT HAVE HIGH CELLULAR TURNOVER DURING HOMEOSTASIS (E.G., INTESTINE, STOMACH, AND SKIN), THE ADULT LIVER IS A SLOWLY SELF-RENEWING ORGAN AND DOES NOT CONTAIN A DEFINED STEM-CELL COMPARTMENT THAT MAINTAINS HOMEOSTASIS. HOWEVER, TISSUE DAMAGE INDUCES SIGNIFICANT PROLIFERATION ACROSS THE LIVER AND CAN TRIGGER CELL-FATE CHANGES, SUCH AS TRANS-DIFFERENTIATION AND DE-DIFFERENTIATION INTO LIVER PROGENITORS, WHICH CONTRIBUTE TO EFFICIENT TISSUE REGENERATION AND RESTORATION OF LIVER FUNCTIONS. EPIGENETIC MECHANISMS HAVE BEEN SHOWN TO REGULATE CELL-FATE DECISIONS IN BOTH EMBRYONIC AND ADULT TISSUES IN RESPONSE TO ENVIRONMENTAL CUES. UNDERLYING THEIR RELEVANCE IN LIVER BIOLOGY, EXPRESSION LEVELS AND EPIGENETIC ACTIVITY OF CHROMATIN MODIFIERS ARE OFTEN ALTERED IN CHRONIC LIVER DISEASE AND LIVER CANCER. IN THIS REVIEW, I EXAMINE THE ROLE OF SEVERAL CHROMATIN MODIFIERS IN THE REGULATION OF CELL-FATE CHANGES THAT DETERMINE EFFICIENT ADULT LIVER EPITHELIAL REGENERATION IN RESPONSE TO TISSUE INJURY IN MOUSE MODELS. SPECIFICALLY, I FOCUS ON EPIGENETIC MECHANISMS SUCH AS CHROMATIN REMODELLING, DNA METHYLATION AND HYDROXYMETHYLATION, AND HISTONE METHYLATION AND DEACETYLATION. FINALLY, I ADDRESS HOW ALTERED EPIGENETIC MECHANISMS AND THE INTERPLAY BETWEEN EPIGENETICS AND METABOLISM MAY CONTRIBUTE TO THE INITIATION AND PROGRESSION OF LIVER DISEASE AND CANCER. 2021 14 6092 40 THE EFFECTS OF EPIGENETIC MODIFICATION ON THE OCCURRENCE AND PROGRESSION OF LIVER DISEASES AND THE INVOLVED MECHANISM. INTRODUCTION: EPIGENETIC MODIFICATION IS A TYPE OF GENE EXPRESSION AND REGULATION THAT DOES NOT INVOLVE CHANGES IN DNA SEQUENCES. AN INCREASING NUMBER OF STUDIES HAVE PROVEN THAT EPIGENETIC MODIFICATIONS PLAY AN IMPORTANT ROLE IN THE OCCURRENCE AND PROGRESSION OF LIVER DISEASES THROUGH THE GENE REGULATION AND PROTEIN EXPRESSIONS OF HEPATOCELLULAR LIPID METABOLISM, INFLAMMATORY REACTION, CELL PROLIFERATION, AND ACTIVATION, ETC.AREAS COVERED: IN THIS STUDY, WE ELABORATED AND ANALYZED THE UNDERLYING FUNCTIONAL MECHANISM OF EPIGENETIC MODIFICATION IN ALCOHOLIC LIVER DISEASE (ALD), NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), LIVER FIBROSIS (LF), VIRAL HEPATITIS, HEPATOCELLULAR CARCINOMA (HCC), AND RESEARCH PROGRESS OF RECENT YEARS.EXPERT OPINION: THE FURTHER UNDERSTANDING OF EPIGENETIC MECHANISMS THAT CAN REGULATE GENE EXPRESSION AND CELL PHENOTYPE LEADS TO NEW INSIGHTS IN EPIGENETIC CONTROL OF CHRONIC LIVER DISEASE. CURRENTLY, HEPATOLOGISTS ARE EXPLORING THE ROLE OF DNA METHYLATION, HISTONE/CHROMATIN MODIFICATION, AND NON-CODING RNA IN SPECIFIC LIVER PATHOLOGY. THESE FINDINGS HAVE LED TO ADVANCES IN DIRECT EPIGENETIC BIOMARKER TESTING OF PATIENT TISSUE OR BODY FLUID SPECIMENS, AS WELL AS QUANTITATIVE ANALYSIS. BASED ON THESE FINDINGS, DRUG VALIDATION OF SOME TARGETS INVOLVED IN THE EPIGENETIC MECHANISM OF LIVER DISEASE IS GRADUALLY BEING CARRIED OUT CLINICALLY. 2020 15 1900 29 ENERGY SENSING PATHWAYS: BRIDGING TYPE 2 DIABETES AND COLORECTAL CANCER? THE RECENTLY RAPID INCREASE OF OBESITY AND TYPE 2 DIABETES MELLITUS HAS CAUSED GREAT BURDEN TO OUR SOCIETY. A POSITIVE ASSOCIATION BETWEEN TYPE 2 DIABETES AND RISK OF COLORECTAL CANCER HAS BEEN REPORTED BY INCREASING EPIDEMIOLOGICAL STUDIES. THE MOLECULAR MECHANISM OF THIS CONNECTION REMAINS ELUSIVE. HOWEVER, TYPE 2 DIABETES MAY RESULT IN ABNORMAL CARBOHYDRATE AND LIPID METABOLISM, HIGH LEVELS OF CIRCULATING INSULIN, INSULIN GROWTH FACTOR-1, AND ADIPOCYTOKINES, AS WELL AS CHRONIC INFLAMMATION. ALL THESE FACTORS COULD LEAD TO THE ALTERATION OF ENERGY SENSING PATHWAYS SUCH AS THE AMP ACTIVATED KINASE (PRKA), MECHANISTIC (MAMMALIAN) TARGET OF RAPAMYCIN (MTOR), SIRT1, AND AUTOPHAGY SIGNALING PATHWAYS. THE RESULTED IMPAIRED SIRT1 AND AUTOPHAGY SIGNALING PATHWAY COULD INCREASE THE RISK OF GENE MUTATION AND CANCER GENESIS BY DECREASING GENETIC STABILITY AND DNA MISMATCH REPAIR. THE DYSREGULATED MTOR AND PRKA PATHWAY COULD REMODEL CELL METABOLISM DURING THE GROWTH AND METASTASIS OF CANCER IN ORDER FOR THE CANCER CELL TO SURVIVE THE UNFAVORABLE MICROENVIRONMENT SUCH AS HYPOXIA AND LOW BLOOD SUPPLY. MOREOVER, THESE PATHWAYS MAY BE COUPLING METABOLIC AND EPIGENETIC ALTERATIONS THAT ARE CENTRAL TO ONCOGENIC TRANSFORMATION. FURTHER RESEARCHES INCLUDING MOLECULAR PATHOLOGIC EPIDEMIOLOGIC STUDIES ARE WARRANTED TO BETTER ADDRESS THE PRECISE LINKS BETWEEN THESE TWO IMPORTANT DISEASES. 2017 16 6203 25 THE INFLUENCE OF EPIGENETIC MODIFICATIONS ON METABOLIC CHANGES IN WHITE ADIPOSE TISSUE AND LIVER AND THEIR POTENTIAL IMPACT IN EXERCISE. BACKGROUND: EPIGENETIC MARKS ARE RESPONSIVE TO A WIDE VARIETY OF ENVIRONMENTAL STIMULI AND SERVE AS IMPORTANT MEDIATORS FOR GENE TRANSCRIPTION. A NUMBER OF CHROMATIN MODIFYING ENZYMES ORCHESTRATE EPIGENETIC RESPONSES TO ENVIRONMENTAL STIMULI, WITH A GROWING BODY OF RESEARCH EXAMINING HOW CHANGES IN METABOLIC SUBSTRATES OR CO-FACTORS ALTER EPIGENETIC MODIFICATIONS. SCOPE OF REVIEW: HERE, WE PROVIDE A SYSTEMATIC REVIEW OF EXISTING EVIDENCE OF METABOLISM-RELATED EPIGENETIC CHANGES IN WHITE ADIPOSE TISSUE (WAT) AND THE LIVER AND GENERATE SECONDARY HYPOTHESES ON HOW EXERCISE MAY IMPACT METABOLISM-RELATED EPIGENETIC MARKS IN THESE TISSUES. MAJOR CONCLUSIONS: EPIGENETIC CHANGES CONTRIBUTE TO THE COMPLEX TRANSCRIPTIONAL RESPONSES ASSOCIATED WITH WAT LIPOLYSIS, HEPATIC DE NOVO LIPOGENESIS, AND HEPATIC GLUCONEOGENESIS. WHILE THESE METABOLIC RESPONSES MAY HYPOTHETICALLY BE ALTERED WITH ACUTE AND CHRONIC EXERCISE, DIRECT TESTING IS NEEDED. 2021 17 3659 31 INDUCTION OF EPIGENETIC ALTERATIONS BY CHRONIC INFLAMMATION AND ITS SIGNIFICANCE ON CARCINOGENESIS. CHRONIC INFLAMMATION IS DEEPLY INVOLVED IN DEVELOPMENT OF HUMAN CANCERS, SUCH AS GASTRIC AND LIVER CANCERS. INDUCTION OF CELL PROLIFERATION, PRODUCTION OF REACTIVE OXYGEN SPECIES, AND DIRECT STIMULATION OF EPITHELIAL CELLS BY INFLAMMATION-INDUCING FACTORS HAVE BEEN CONSIDERED AS MECHANISMS INVOLVED. INFLAMMATION-RELATED CANCERS ARE KNOWN FOR THEIR MULTIPLE OCCURRENCES, AND ABERRANT DNA METHYLATION IS KNOWN TO BE PRESENT EVEN IN NONCANCEROUS TISSUES. IMPORTANTLY, FOR SOME CANCERS, THE DEGREE OF ACCUMULATION HAS BEEN DEMONSTRATED TO BE CORRELATED WITH RISK OF DEVELOPING CANCERS. THIS INDICATES THAT INFLAMMATION INDUCES ABERRANT EPIGENETIC ALTERATIONS IN A TISSUE EARLY IN THE PROCESS OF CARCINOGENESIS, AND ACCUMULATION OF SUCH ALTERATIONS FORMS "AN EPIGENETIC FIELD FOR CANCERIZATION." THIS ALSO SUGGESTS THAT INHIBITION OF INDUCTION OF EPIGENETIC ALTERATIONS AND REMOVAL OF THE ACCUMULATED ALTERATIONS ARE NOVEL APPROACHES TO CANCER PREVENTION. DISTURBANCES IN CYTOKINE AND CHEMOKINE SIGNALS AND INDUCTION OF CELL PROLIFERATIONS ARE IMPORTANT MECHANISMS OF HOW INFLAMMATION INDUCES ABERRANT DNA METHYLATION. ABERRANT DNA METHYLATION IS INDUCED IN SPECIFIC GENES, AND GENE EXPRESSION LEVELS, THE PRESENCE OF RNA POLYMERASE II (ACTIVE OR STALLED), AND TRIMETHYLATION OF H3K4 ARE INVOLVED IN THE SPECIFICITY. EXPRESSION OF DNA METHYLTRANSFERASES (DNMTS) IS NOT NECESSARILY INDUCED BY INFLAMMATION, AND LOCAL IMBALANCE BETWEEN DNMTS AND FACTORS THAT PROTECT GENES FROM DNA METHYLATION SEEMS TO BE IMPORTANT. 2010 18 2499 21 EPIGENETICS AND EXERCISE. EPIGENETICS CAN BE DEFINED AS 'THE STRUCTURAL ADAPTATION OF CHROMOSOMAL REGIONS SO AS TO REGISTER, SIGNAL, OR PERPETUATE ALTERED ACTIVITY STATES.' INCREASED TRANSCRIPTION OF KEY REGULATORY, METABOLIC, AND MYOGENIC GENES IS AN EARLY RESPONSE TO EXERCISE AND IS IMPORTANT IN MEDIATING SUBSEQUENT ADAPTATIONS IN SKELETAL MUSCLE. DNA HYPOMETHYLATION AND HISTONE HYPERACETYLATION ARE EMERGING AS IMPORTANT CRUCIAL EVENTS FOR INCREASED TRANSCRIPTION. THE COMPLEX INTERACTIONS BETWEEN MULTIPLE EPIGENETIC MODIFICATIONS AND THEIR REGULATION BY METABOLIC CHANGES AND SIGNALING EVENTS DURING EXERCISE, WITH IMPLICATIONS FOR ENHANCED UNDERSTANDING OF THE ACUTE AND CHRONIC ADAPTATIONS TO EXERCISE, ARE QUESTIONS FOR FURTHER INVESTIGATION. 2019 19 834 31 CHEMICAL BIOLOGY OF LYSINE DEMETHYLASES. ABNORMAL LEVELS OF DNA METHYLATION AND/OR HISTONE MODIFICATIONS ARE OBSERVED IN PATIENTS WITH A WIDE VARIETY OF CHRONIC DISEASES. METHYLATION OF LYSINES WITHIN HISTONE TAILS IS A KEY MODIFICATION THAT CONTRIBUTES TO INCREASED GENE EXPRESSION OR REPRESSION DEPENDING ON THE SPECIFIC RESIDUE AND DEGREE OF METHYLATION, WHICH IS IN TURN CONTROLLED BY THE INTERPLAY OF LYSINE METHYL TRANSFERASES AND DEMETHYLASES. DRUGS THAT TARGET THESE AND OTHER ENZYMES CONTROLLING CHROMATIN MODIFICATIONS CAN MODULATE THE EXPRESSION OF CLUSTERS OF GENES, POTENTIALLY OFFERING HIGHER THERAPEUTIC EFFICACY THAN CLASSICAL AGENTS ACTING ON DOWNSTREAM BIOCHEMICAL PATHWAYS THAT ARE SUSCEPTIBLE TO DEGENERACY. LYSINE DEMETHYLASES, FIRST DISCOVERED IN 2004, ARE THE SUBJECT OF INCREASING INTEREST AS THERAPEUTIC TARGETS. THIS REVIEW PROVIDES AN OVERVIEW OF RECENT FINDINGS IMPLICATING LYSINE DEMETHYLASES IN A RANGE OF THERAPEUTIC AREAS INCLUDING ONCOLOGY, IMMUNOINFLAMMATION, METABOLIC DISORDERS, NEUROSCIENCE, VIROLOGY AND REGENERATIVE MEDICINE, TOGETHER WITH A SUMMARY OF RECENT ADVANCES IN STRUCTURAL BIOLOGY AND SMALL MOLECULE INHIBITOR DISCOVERY, SUPPORTING THE TRACTABILITY OF THE PROTEIN FAMILY FOR THE DEVELOPMENT OF SELECTIVE DRUGLIKE INHIBITORS. 2011 20 6100 34 THE EMERGING ROLE OF EPIGENETIC MODIFIERS IN REPAIR OF DNA DAMAGE ASSOCIATED WITH CHRONIC INFLAMMATORY DISEASES. AT SITES OF CHRONIC INFLAMMATION EPITHELIAL CELLS ARE EXPOSED TO HIGH LEVELS OF REACTIVE OXYGEN SPECIES (ROS), WHICH CAN CONTRIBUTE TO THE INITIATION AND DEVELOPMENT OF MANY DIFFERENT HUMAN CANCERS. ABERRANT EPIGENETIC ALTERATIONS THAT CAUSE TRANSCRIPTIONAL SILENCING OF TUMOR SUPPRESSOR GENES ARE ALSO IMPLICATED IN MANY DISEASES ASSOCIATED WITH INFLAMMATION, INCLUDING CANCER. HOWEVER, IT IS NOT CLEAR HOW ALTERED EPIGENETIC GENE SILENCING IS INITIATED DURING CHRONIC INFLAMMATION. THE HIGH LEVEL OF ROS AT SITES OF INFLAMMATION IS KNOWN TO INDUCE OXIDATIVE DNA DAMAGE IN SURROUNDING EPITHELIAL CELLS. FURTHERMORE, DNA DAMAGE IS KNOWN TO TRIGGER SEVERAL RESPONSES, INCLUDING RECRUITMENT OF DNA REPAIR PROTEINS, TRANSCRIPTIONAL REPRESSION, CHROMATIN MODIFICATIONS AND OTHER CELL SIGNALING EVENTS. RECRUITMENT OF EPIGENETIC MODIFIERS TO CHROMATIN IN RESPONSE TO DNA DAMAGE RESULTS IN TRANSIENT COVALENT MODIFICATIONS TO CHROMATIN SUCH AS HISTONE UBIQUITINATION, ACETYLATION AND METHYLATION AND DNA METHYLATION. DNA DAMAGE ALSO ALTERS NON-CODING RNA EXPRESSION. ALL OF THESE ALTERATIONS HAVE THE POTENTIAL TO ALTER GENE EXPRESSION AT SITES OF DAMAGE. TYPICALLY, THESE MODIFICATIONS AND GENE TRANSCRIPTION ARE RESTORED BACK TO NORMAL ONCE THE REPAIR OF THE DNA DAMAGE IS COMPLETED. HOWEVER, CHRONIC INFLAMMATION MAY INDUCE SUSTAINED DNA DAMAGE AND DNA DAMAGE RESPONSES THAT RESULT IN THESE TRANSIENT COVALENT CHROMATIN MODIFICATIONS BECOMING MITOTICALLY STABLE EPIGENETIC ALTERATIONS. UNDERSTANDING HOW EPIGENETIC ALTERATIONS ARE INITIATED DURING CHRONIC INFLAMMATION WILL ALLOW US TO DEVELOP PHARMACEUTICAL STRATEGIES TO PREVENT OR TREAT CHRONIC INFLAMMATION-INDUCED CANCER. THIS REVIEW WILL FOCUS ON TYPES OF DNA DAMAGE AND EPIGENETIC ALTERATIONS ASSOCIATED WITH CHRONIC INFLAMMATORY DISEASES, THE TYPES OF DNA DAMAGE AND TRANSIENT COVALENT CHROMATIN MODIFICATIONS INDUCED BY INFLAMMATION AND OXIDATIVE DNA DAMAGE AND HOW THESE MODIFICATIONS MAY RESULT IN EPIGENETIC ALTERATIONS. 2019