1 1406 144 DIETARY HISTONE DEACETYLASE INHIBITORS: FROM CELLS TO MICE TO MAN. SULFORAPHANE (SFN) IS AN ISOTHIOCYANATE FOUND IN CRUCIFEROUS VEGETABLES, SUCH AS BROCCOLI AND BROCCOLI SPROUTS. THIS ANTICARCINOGEN WAS FIRST IDENTIFIED AS A POTENT INDUCER OF PHASE 2 DETOXIFICATION ENZYMES, BUT EVIDENCE IS MOUNTING THAT SFN ALSO ACTS THROUGH EPIGENETIC MECHANISMS. SFN HAS BEEN SHOWN TO INHIBIT HISTONE DEACETYLASE (HDAC) ACTIVITY IN HUMAN COLON AND PROSTATE CANCER LINES, WITH AN INCREASE IN GLOBAL AND LOCAL HISTONE ACETYLATION STATUS, SUCH AS ON THE PROMOTER REGIONS OF P21 AND BAX GENES. SFN ALSO INHIBITED THE GROWTH OF PROSTATE CANCER XENOGRAFTS AND SPONTANEOUS INTESTINAL POLYPS IN MOUSE MODELS, WITH EVIDENCE FOR ALTERED HISTONE ACETYLATION AND HDAC ACTIVITIES IN VIVO. IN HUMAN SUBJECTS, A SINGLE INGESTION OF 68 G BROCCOLI SPROUTS INHIBITED HDAC ACTIVITY IN CIRCULATING PERIPHERAL BLOOD MONONUCLEAR CELLS 3-6 H AFTER CONSUMPTION, WITH CONCOMITANT INDUCTION OF HISTONE H3 AND H4 ACETYLATION. THESE FINDINGS PROVIDE EVIDENCE THAT ONE MECHANISM OF CANCER CHEMOPREVENTION BY SFN IS VIA EPIGENETIC CHANGES ASSOCIATED WITH INHIBITION OF HDAC ACTIVITY. OTHER DIETARY AGENTS SUCH AS BUTYRATE, BIOTIN, LIPOIC ACID, GARLIC ORGANOSULFUR COMPOUNDS, AND METABOLITES OF VITAMIN E HAVE STRUCTURAL FEATURES COMPATIBLE WITH HDAC INHIBITION. THE ABILITY OF DIETARY COMPOUNDS TO DE-REPRESS EPIGENETICALLY SILENCED GENES IN CANCER CELLS, AND TO ACTIVATE THESE GENES IN NORMAL CELLS, HAS IMPORTANT IMPLICATIONS FOR CANCER PREVENTION AND THERAPY. IN A BROADER CONTEXT, THERE IS GROWING INTEREST IN DIETARY HDAC INHIBITORS AND THEIR IMPACT ON EPIGENETIC MECHANISMS AFFECTING OTHER CHRONIC CONDITIONS, SUCH AS CARDIOVASCULAR DISEASE, NEURODEGENERATION AND AGING. 2007 2 2493 40 EPIGENETICS AND CHROMATIN REMODELING PLAY A ROLE IN LUNG DISEASE. EPIGENETICS IS DEFINED AS HERITABLE CHANGES THAT AFFECT GENE EXPRESSION WITHOUT ALTERING THE DNA SEQUENCE. EPIGENETIC REGULATION OF GENE EXPRESSION IS FACILITATED THROUGH DIFFERENT MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND RNA-ASSOCIATED SILENCING BY SMALL NON-CODING RNAS. ALL THESE MECHANISMS ARE CRUCIAL FOR NORMAL DEVELOPMENT, DIFFERENTIATION AND TISSUE-SPECIFIC GENE EXPRESSION. THESE THREE SYSTEMS INTERACT AND STABILIZE ONE ANOTHER AND CAN INITIATE AND SUSTAIN EPIGENETIC SILENCING, THUS DETERMINING HERITABLE CHANGES IN GENE EXPRESSION. HISTONE ACETYLATION REGULATES DIVERSE CELLULAR FUNCTIONS INCLUDING INFLAMMATORY GENE EXPRESSION, DNA REPAIR AND CELL PROLIFERATION. TRANSCRIPTIONAL COACTIVATORS POSSESS INTRINSIC HISTONE ACETYLTRANSFERASE ACTIVITY AND THIS ACTIVITY DRIVES INFLAMMATORY GENE EXPRESSION. ELEVEN CLASSICAL HISTONE DEACETYLASES (HDACS) ACT TO REGULATE THE EXPRESSION OF DISTINCT SUBSETS OF INFLAMMATORY/IMMUNE GENES. THUS, LOSS OF HDAC ACTIVITY OR THE PRESENCE OF HDAC INHIBITORS CAN FURTHER ENHANCE INFLAMMATORY GENE EXPRESSION BY PRODUCING A GENE-SPECIFIC CHANGE IN HAT ACTIVITY. FOR EXAMPLE, HDAC2 EXPRESSION AND ACTIVITY ARE REDUCED IN LUNG MACROPHAGES, BIOPSY SPECIMENS, AND BLOOD CELLS FROM PATIENTS WITH SEVERE ASTHMA AND SMOKING ASTHMATICS, AS WELL AS IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). THIS MAY ACCOUNT, AT LEAST IN PART, FOR THE ENHANCED INFLAMMATION AND REDUCED STEROID RESPONSIVENESS SEEN IN THESE PATIENTS. OTHER PROTEINS, PARTICULARLY TRANSCRIPTION FACTORS, ARE ALSO ACETYLATED AND ARE TARGETS FOR DEACETYLATION BY HDACS AND SIRTUINS, A RELATED FAMILY OF 7 PREDOMINANTLY PROTEIN DEACETYLASES. THUS THE ACETYLATION/DEACETYLATION STATUS OF NF-KAPPAB AND THE GLUCOCORTICOID RECEPTOR CAN ALSO AFFECT THE OVERALL EXPRESSION PATTERN OF INFLAMMATORY GENES AND REGULATE THE INFLAMMATORY RESPONSE. UNDERSTANDING AND TARGETING SPECIFIC ENZYMES INVOLVED IN THIS PROCESS MIGHT LEAD TO NEW THERAPEUTIC AGENTS, PARTICULARLY IN SITUATIONS IN WHICH CURRENT ANTI-INFLAMMATORY THERAPIES ARE SUBOPTIMAL. 2011 3 5947 34 TARGETING THE EPIGENOME: SCREENING BIOACTIVE COMPOUNDS THAT REGULATE HISTONE DEACETYLASE ACTIVITY. SCOPE: NUTRIGENOMICS IS A RAPIDLY EXPANDING FIELD THAT ELUCIDATES THE LINK BETWEEN DIET-GENOME INTERACTIONS. RECENT EVIDENCE DEMONSTRATES THAT REGULATION OF THE EPIGENOME, AND IN PARTICULAR INHIBITION OF HISTONE DEACETYLASES (HDACS), IMPACT PATHOGENETIC MECHANISMS INVOLVED IN CHRONIC DISEASE. FEW STUDIES, TO DATE, HAVE SCREENED LIBRARIES OF BIOACTIVE COMPOUNDS THAT ACT AS EPIGENETIC MODIFIERS. THIS STUDY SCREENED A LIBRARY OF 131 NATURAL COMPOUNDS TO DETERMINE BIOACTIVE COMPOUNDS THAT INHIBIT ZN-DEPENDENT HDAC ACTIVITY. METHODS AND RESULTS: USING CLASS-SPECIFIC HDAC SUBSTRATES, WE SCREENED 131 NATURAL COMPOUNDS FOR HDAC ACTIVITY IN BOVINE CARDIAC TISSUE. FROM THIS SCREEN, WE IDENTIFIED 18 BIOACTIVE COMPOUND HDAC INHIBITORS. USING OUR CLASS-SPECIFIC HDAC SUBSTRATES, WE NEXT SCREENED THESE 18 BIOACTIVE COMPOUNDS AGAINST RECOMBINANT HDAC PROTEINS. CONSISTENT WITH INHIBITION OF HDAC ACTIVITY, THESE COMPOUNDS WERE CAPABLE OF INHIBITING ACTIVITY OF INDIVIDUAL HDAC ISOFORMS. LASTLY, WE REPORT THAT TREATMENT OF H9C2 CARDIAC MYOBLASTS WITH BIOACTIVE HDAC INHIBITORS WAS SUFFICIENT TO INCREASE LYSINE ACETYLATION AS ASSESSED VIA IMMUNOBLOT. CONCLUSION: THIS STUDY PROVIDED THE FIRST STEP IN IDENTIFYING MULTIPLE BIOACTIVE COMPOUND HDAC INHIBITORS. TAKEN TOGETHER, THIS REPORT SETS THE STAGE FOR FUTURE EXPLORATION OF THESE BIOACTIVE COMPOUNDS AS EPIGENETIC REGULATORS TO POTENTIALLY AMELIORATE CHRONIC DISEASE. 2017 4 1035 32 CLASS I HISTONE DEACETYLASE INHIBITION IMPROVES PANCREATITIS OUTCOME BY LIMITING LEUKOCYTE RECRUITMENT AND ACINAR-TO-DUCTAL METAPLASIA. BACKGROUND AND PURPOSE: PANCREATITIS IS A COMMON INFLAMMATION OF THE PANCREAS WITH RISING INCIDENCE IN MANY COUNTRIES. DESPITE IMPROVEMENTS IN DIAGNOSTIC TECHNIQUES, THE DISEASE IS ASSOCIATED WITH HIGH RISK OF SEVERE MORBIDITY AND MORTALITY AND THERE IS AN URGENT NEED FOR NEW THERAPEUTIC INTERVENTIONS. IN THIS STUDY, WE EVALUATED WHETHER HISTONE DEACETYLASES (HDACS), KEY EPIGENETIC REGULATORS OF GENE TRANSCRIPTION, ARE INVOLVED IN THE DEVELOPMENT OF THE DISEASE. EXPERIMENTAL APPROACH: WE ANALYSED HDAC REGULATION DURING CERULEIN-INDUCED ACUTE, CHRONIC AND AUTOIMMUNE PANCREATITIS USING DIFFERENT TRANSGENIC MOUSE MODELS. THE FUNCTIONAL RELEVANCE OF CLASS I HDACS WAS TESTED WITH THE SELECTIVE INHIBITOR MS-275 IN VIVO UPON PANCREATITIS INDUCTION AND IN VITRO IN ACTIVATED MACROPHAGES AND PRIMARY ACINAR CELL EXPLANTS. KEY RESULTS: HDAC EXPRESSION AND ACTIVITY WERE UP-REGULATED IN A TIME-DEPENDENT MANNER FOLLOWING INDUCTION OF PANCREATITIS, WITH THE HIGHEST ABUNDANCE OBSERVED FOR CLASS I HDACS. CLASS I HDAC INHIBITION DID NOT PREVENT THE INITIAL ACINAR CELL DAMAGE. HOWEVER, IT EFFECTIVELY REDUCED THE INFILTRATION OF INFLAMMATORY CELLS, INCLUDING MACROPHAGES AND T CELLS, IN BOTH ACUTE AND CHRONIC PHASES OF THE DISEASE, AND DIRECTLY DISRUPTED MACROPHAGE ACTIVATION. IN ADDITION, MS-275 TREATMENT REDUCED DNA DAMAGE IN ACINAR CELLS AND LIMITED ACINAR DE-DIFFERENTIATION INTO ACINAR-TO-DUCTAL METAPLASIA IN A CELL-AUTONOMOUS MANNER BY IMPEDING THE EGF RECEPTOR SIGNALLING AXIS. CONCLUSIONS AND IMPLICATIONS: THESE RESULTS DEMONSTRATE THAT CLASS I HDACS ARE CRITICALLY INVOLVED IN THE DEVELOPMENT OF ACUTE AND CHRONIC FORMS OF PANCREATITIS AND SUGGEST THAT BLOCKADE OF CLASS I HDAC ISOFORMS IS A PROMISING TARGET TO IMPROVE THE OUTCOME OF THE DISEASE. 2017 5 5074 29 PHYSIOLOGIC AND EPIGENETIC EFFECTS OF NUTRIENTS ON DISEASE PATHWAYS. BACKGROUND/OBJECTIVES: EPIGENETIC REGULATION BY NUTRIENTS CAN INFLUENCE THE DEVELOPMENT OF SPECIFIC DISEASES. THIS STUDY SOUGHT TO EXAMINE THE EFFECT OF INDIVIDUAL NUTRIENTS AND NUTRIENT FAMILIES IN THE CONTEXT OF PREVENTING CHRONIC METABOLIC DISEASES VIA EPIGENETIC REGULATION. THE INHIBITION OF LIPID ACCUMULATION AND INFLAMMATION BY NUTRIENTS INCLUDING PROTEINS, LIPIDS, VITAMINS, AND MINERALS WERE OBSERVED, AND HISTONE ACETYLATION BY HISTONE ACETYLTRANSFERASE (HAT) WAS MEASURED. CORRELATIVE ANALYSES WERE ALSO PERFORMED. MATERIALS/METHODS: NUTRIENTS WERE SELECTED ACCORDING TO INFORMATION FROM THE KOREAN MINISTRY OF FOOD AND DRUG SAFETY. SELECTED NUTRIENT FUNCTIONALITIES, INCLUDING THE ATTENUATION OF FATTY ACID-INDUCED LIPID ACCUMULATION AND LIPOPOLYSACCHARIDE-MEDIATED ACUTE INFLAMMATION WERE EVALUATED IN MOUSE MACROPHAGE RAW264.7 AND MOUSE HEPATOCYTE AML-12 CELLS. EFFECTS OF THE SELECTED NUTRIENTS ON IN VITRO HAT INHIBITION WERE ALSO EVALUATED. RESULTS: NITRIC OXIDE (NO) PRODUCTION CORRELATED WITH HAT ACTIVITY, WHICH WAS REGULATED BY THE AMINO ACIDS GROUP, SUGGESTING THAT AMINO ACIDS POTENTIALLY CONTRIBUTE TO THE ATTENUATION OF NO PRODUCTION VIA THE INHIBITION OF HAT ACTIVITY. UNSATURATED FATTY ACIDS TENDED TO ATTENUATE INFLAMMATION BY INHIBITING NO PRODUCTION, WHICH MAY BE ATTRIBUTABLE TO THE INHIBITION OF IN VITRO HAT ACTIVITY. IN CONTRAST TO WATER-SOLUBLE VITAMINS, THE LIPID-SOLUBLE VITAMINS SIGNIFICANTLY DECREASED NO PRODUCTION. WATER- AND LIPID-SOLUBLE VITAMINS BOTH EXHIBITED SIGNIFICANT INHIBITORY ACTIVITIES AGAINST HAT. IN ADDITION, CALCIUM AND MANGANESE SIGNIFICANTLY INHIBITED LIPID ACCUMULATION, NO PRODUCTION, AND HAT ACTIVITY. CONCLUSIONS: SEVERAL CANDIDATE NUTRIENTS AND THEIR FAMILY MEMBERS MAY HAVE ROLES IN THE PREVENTION OF DISEASES, INCLUDING HEPATIC STEATOSIS AND INFLAMMATION-RELATED DISEASES (I.E., NONALCOHOLIC STEATOHEPATITIS) VIA EPIGENETIC REGULATION. FURTHER STUDIES ARE WARRANTED TO DETERMINE WHICH SPECIFIC AMINO ACIDS, UNSATURATED FATTY ACIDS AND LIPID-SOLUBLE VITAMINS OR SPECIFIC MINERALS INFLUENCE THE DEVELOPMENT OF STEATOSIS AND INFLAMMATORY-RELATED DISEASES. 2023 6 4768 32 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 7 706 43 BUTYRATE AND DIETARY SOLUBLE FIBER IMPROVE NEUROINFLAMMATION ASSOCIATED WITH AGING IN MICE. AGING RESULTS IN CHRONIC SYSTEMIC INFLAMMATION THAT CAN ALTER NEUROINFLAMMATION OF THE BRAIN. SPECIFICALLY, MICROGLIA SHIFT TO A PRO-INFLAMMATORY PHENOTYPE PREDISPOSING THEM TO HYPERACTIVATION UPON STIMULATION BY PERIPHERAL IMMUNE SIGNALS. IT IS PROPOSED THAT CERTAIN NUTRIENTS CAN DELAY BRAIN AGING BY PREVENTING OR REVERSING MICROGLIAL HYPERACTIVATION. BUTYRATE, A SHORT-CHAIN FATTY ACID (SCFA) PRODUCED PRIMARILY BY BACTERIAL FERMENTATION OF FIBER IN THE COLON, HAS BEEN EXTENSIVELY STUDIED PHARMACOLOGICALLY AS A HISTONE DEACETYLASE INHIBITOR AND SERVES AS AN ATTRACTIVE THERAPEUTIC CANDIDATE, AS BUTYRATE HAS ALSO BEEN SHOWN TO BE ANTI-INFLAMMATORY AND IMPROVE MEMORY IN ANIMAL MODELS. IN THIS STUDY, WE DEMONSTRATE THAT BUTYRATE CAN ATTENUATE PRO-INFLAMMATORY CYTOKINE EXPRESSION IN MICROGLIA IN AGED MICE. IT IS STILL NOT FULLY UNDERSTOOD, HOWEVER, IF AN INCREASE IN BUTYRATE-PRODUCING BACTERIA IN THE GUT AS A CONSEQUENCE OF A DIET HIGH IN SOLUBLE FIBER COULD AFFECT MICROGLIAL ACTIVATION DURING AGING. ADULT AND AGED MICE WERE FED EITHER A 1% CELLULOSE (LOW FIBER) OR 5% INULIN (HIGH FIBER) DIET FOR 4 WEEKS. FINDINGS INDICATE THAT MICE FED INULIN HAD AN ALTERED GUT MICROBIOME AND INCREASED BUTYRATE, ACETATE, AND TOTAL SCFA PRODUCTION. IN ADDITION, HISTOLOGICAL SCORING OF THE DISTAL COLON DEMONSTRATED THAT AGED ANIMALS ON THE LOW FIBER DIET HAD INCREASED INFLAMMATORY INFILTRATE THAT WAS SIGNIFICANTLY REDUCED IN ANIMALS CONSUMING THE HIGH FIBER DIET. FURTHERMORE, GENE EXPRESSION OF INFLAMMATORY MARKERS, EPIGENETIC REGULATORS, AND THE MICROGLIAL SENSORY APPARATUS (I.E., THE SENSOME) WERE ALTERED BY BOTH DIET AND AGE, WITH AGED ANIMALS EXHIBITING A MORE ANTI-INFLAMMATORY MICROGLIAL PROFILE ON THE HIGH FIBER DIET. TAKEN TOGETHER, HIGH FIBER SUPPLEMENTATION IN AGING IS A NON-INVASIVE STRATEGY TO INCREASE BUTYRATE LEVELS, AND THESE DATA SUGGEST THAT AN INCREASE IN BUTYRATE THROUGH ADDED SOLUBLE FIBER SUCH AS INULIN COULD COUNTERBALANCE THE AGE-RELATED MICROBIOTA DYSBIOSIS, POTENTIALLY LEADING TO NEUROLOGICAL BENEFITS. 2018 8 2228 32 EPIGENETIC MODIFICATIONS OF HISTONES IN PERIODONTAL DISEASE. PERIODONTITIS IS A CHRONIC INFECTIOUS DISEASE DRIVEN BY DYSBIOSIS, AN IMBALANCE BETWEEN COMMENSAL BACTERIA AND THE HOST ORGANISM. PERIODONTITIS IS A LEADING CAUSE OF TOOTH LOSS IN ADULTS AND OCCURS IN ABOUT 50% OF THE US POPULATION. IN ADDITION TO THE CLINICAL CHALLENGES ASSOCIATED WITH TREATING PERIODONTITIS, THE PROGRESSION AND CHRONIC NATURE OF THIS DISEASE SERIOUSLY AFFECT HUMAN HEALTH. EMERGING EVIDENCE SUGGESTS THAT PERIODONTITIS IS ASSOCIATED WITH MECHANISMS BEYOND BACTERIA-INDUCED PROTEIN AND TISSUE DEGRADATION. HERE, WE HYPOTHESIZE THAT BACTERIA ARE ABLE TO INDUCE EPIGENETIC MODIFICATIONS IN ORAL EPITHELIAL CELLS MEDIATED BY HISTONE MODIFICATIONS. IN THIS STUDY, WE FOUND THAT DYSBIOSIS IN VIVO LED TO EPIGENETIC MODIFICATIONS, INCLUDING ACETYLATION OF HISTONES AND DOWNREGULATION OF DNA METHYLTRANSFERASE 1. IN ADDITION, IN VITRO EXPOSURE OF ORAL EPITHELIAL CELLS TO LIPOPOLYSACCHARIDES RESULTED IN HISTONE MODIFICATIONS, ACTIVATION OF TRANSCRIPTIONAL COACTIVATORS, SUCH AS P300/CBP, AND ACCUMULATION OF NUCLEAR FACTOR-KAPPAB (NF-KAPPAB). GIVEN THAT ORAL EPITHELIAL CELLS ARE THE FIRST LINE OF DEFENSE FOR THE PERIODONTIUM AGAINST BACTERIA, WE ALSO EVALUATED WHETHER ACTIVATION OF PATHOGEN RECOGNITION RECEPTORS INDUCED HISTONE MODIFICATIONS. WE FOUND THAT ACTIVATION OF THE TOLL-LIKE RECEPTORS 1, 2, AND 4 AND THE NUCLEOTIDE-BINDING OLIGOMERIZATION DOMAIN PROTEIN 1 INDUCED HISTONE ACETYLATION IN ORAL EPITHELIAL CELLS. OUR FINDINGS CORROBORATE THE EMERGING CONCEPT THAT EPIGENETIC MODIFICATIONS PLAY A ROLE IN THE DEVELOPMENT OF PERIODONTITIS. 2016 9 5937 39 TARGETING HISTONE DEACETYLASE ACTIVITY IN RHEUMATOID ARTHRITIS AND ASTHMA AS PROTOTYPES OF INFLAMMATORY DISEASE: SHOULD WE KEEP OUR HATS ON? CELLULAR ACTIVATION, PROLIFERATION AND SURVIVAL IN CHRONIC INFLAMMATORY DISEASES IS REGULATED NOT ONLY BY ENGAGEMENT OF SIGNAL TRANS-DUCTION PATHWAYS THAT MODULATE TRANSCRIPTION FACTORS REQUIRED FOR THESE PROCESSES, BUT ALSO BY EPIGENETIC REGULATION OF TRANSCRIPTION FACTOR ACCESS TO GENE PROMOTER REGIONS. HISTONE ACETYL TRANSFERASES COORDINATE THE RECRUITMENT AND ACTIVATION OF TRANSCRIPTION FACTORS WITH CONFORMATIONAL CHANGES IN HISTONES THAT ALLOW GENE PROMOTER EXPOSURE. HISTONE DEACETYLASES (HDACS) COUNTERACT HISTONE ACETYL TRANSFERASE ACTIVITY THROUGH THE TARGETING OF BOTH HISTONES AS WELL AS NONHISTONE SIGNAL TRANSDUCTION PROTEINS IMPORTANT IN INFLAMMATION. NUMEROUS STUDIES HAVE INDICATED THAT DEPRESSED HDAC ACTIVITY IN PATIENTS WITH INFLAMMATORY AIRWAY DISEASES MAY CONTRIBUTE TO LOCAL PROINFLAMMATORY CYTOKINE PRODUCTION AND DIMINISH PATIENT RESPONSES TO CORTICOSTEROID TREATMENT. RECENT OBSERVATIONS THAT HDAC ACTIVITY IS DEPRESSED IN RHEUMATOID ARTHRITIS PATIENT SYNOVIAL TISSUE HAVE PREDICTED THAT STRATEGIES RESTORING HDAC FUNCTION MAY BE THERAPEUTIC IN THIS DISEASE AS WELL. PHARMACOLOGICAL INHIBITORS OF HDAC ACTIVITY, HOWEVER, HAVE DEMONSTRATED POTENT THERAPEUTIC EFFECTS IN ANIMAL MODELS OF ARTHRITIS AND OTHER CHRONIC INFLAMMATORY DISEASES. IN THE PRESENT REVIEW WE ASSESS AND RECONCILE THESE OUTWARDLY PARADOXICAL STUDY RESULTS TO PROVIDE A WORKING MODEL FOR HOW ALTERATIONS IN HDAC ACTIVITY MAY CONTRIBUTE TO PATHOLOGY IN RHEUMATOID ARTHRITIS, AND HIGHLIGHT KEY QUESTIONS TO BE ANSWERED IN THE PRECLINICAL EVALUATION OF COMPOUNDS MODULATING THESE ENZYMES. 2008 10 3348 34 HISTONE DEACETYLASES MEET MICRORNA-ASSOCIATED MMP-9 EXPRESSION REGULATION IN GLUCOCORTICOID-SENSITIVE AND -RESISTANT CELL LINES. GLUCOCORTICOIDS ARE LARGELY USED IN THE TREATMENT OF INFLAMMATORY PATHOLOGIES AND/OR HEMATOLOGICAL MALIGNANCIES AND REGULATE THE EXPRESSION OF A VARIETY OF GENES INVOLVED IN INFLAMMATION OR METASTASIS SUCH AS MATRIX METALLOPROTEINASES (MMP). LONG-TERM EXPOSURE TO GLUCOCORTICOIDS CAN RESULT IN FAILURE OF RESPONSIVENESS, WHICH IS OFTEN ASSOCIATED WITH AN UNWANTED GENE EXPRESSION. EPIGENETIC MECHANISMS ARE INVOLVED IN GENE EXPRESSION MODULATED AFTER DEVELOPMENT OF GLUCOCORTICOID RESISTANCE BUT HOW THESE MECHANISMS TAKE PLACE MUST BE FURTHER STUDIED. THE EFFECTS OF HDAC INHIBITORS (HDACI) IN A CONTEXT OF GLUCOCORTICOID RESISTANCE ARE STILL NOT WELL UNDERSTOOD AND NEED TO BE FURTHER INVESTIGATED. WE HYPOTHESIZED THAT ACQUIRED GLUCOCORTICOID RESISTANCE ASSOCIATED TO HDACI COULD DISTURBS EPIGENETIC LANDSCAPE, ESPECIALLY MIR EXPRESSION, LEADING TO A MODULATION OF MMP-9 GENE EXPRESSION AND/OR PROTEIN SECRETION, DESCRIBED AS LARGELY INVOLVED IN BONE REMODELING AND TUMOR INVASION IN MULTIPLE MYELOMA. TO THIS AIM, WE USED SENSITIVE RPMI-8226 CELL LINE AND ITS DEXAMETHASONE- AND METHYLPREDNISOLONE-RESISTANT DERIVATIVES. THE RESISTANT CELL LINES DISPLAYED AN 'OPEN CHROMATIN' AND AN MMP-9 OVEREXPRESSION COMPARATIVELY TO THE SENSITIVE CELL LINE. HDACI TREATMENT WITH MS-275 INCREASED EVEN MORE MMP-9 OVEREXPRESSION NOT ONLY AT AN MRNA LEVEL BUT ALSO AT THE PROTEIN LEVEL. WE SHOWED THAT MMP-9 EXPRESSION REGULATION WAS NOT DIRECTLY LINKED WITH HAT/HDAC BALANCE ALTERATIONS BUT RATHER WITH THE DEREGULATION OF MMP-9-TARGETING MIRS. THEN, WE FIRST DEMONSTRATED THAT MIR?149 DOWNREGULATION WAS DIRECTLY INVOLVED IN THE MMP-9 OVEREXPRESSION FOLLOWING A CHRONIC GLUCOCORTICOID EXPOSURE AND THAT MS-275 COULD AMPLIFY THIS OVEREXPRESSION BY INHIBITION OF MIR?149 EXPRESSION AND MIR?520C OVEREXPRESSION. TAKEN TOGETHER, THESE RESULTS INDICATE THAT THE USE OF HDACI IN A CONTEXT OF ACQUIRED GLUCOCORTICOID RESISTANCE COULD MODIFY THE EPIGENETIC LANDSCAPE, HIGHLIGHTING THE IMPORTANCE OF TAKING THE GLUCOCORTICOID RESPONSE STATUS INTO CONSIDERATION IN TREATMENT WITH HDACI. 2017 11 3935 44 LIVER-SPECIFIC KNOCKDOWN OF CLASS IIA HDACS HAS LIMITED EFFICACY ON GLUCOSE METABOLISM BUT ENTAILS SEVERE ORGAN SIDE EFFECTS IN MICE. HISTONE DEACETYLASES (HDACS) ARE IMPORTANT REGULATORS OF EPIGENETIC GENE MODIFICATION THAT ARE INVOLVED IN THE TRANSCRIPTIONAL CONTROL OF METABOLISM. IN PARTICULAR CLASS IIA HDACS HAVE BEEN SHOWN TO AFFECT HEPATIC GLUCONEOGENESIS AND PREVIOUS APPROACHES REVEALED THAT THEIR INHIBITION REDUCES BLOOD GLUCOSE IN TYPE 2 DIABETIC MICE. IN THE PRESENT STUDY, WE AIMED TO EVALUATE THE POTENTIAL OF CLASS IIA HDAC INHIBITION AS A THERAPEUTIC OPPORTUNITY FOR THE TREATMENT +OF METABOLIC DISEASES. FOR THAT, SIRNAS SELECTIVELY TARGETING HDAC4, 5 AND 7 WERE SELECTED AND USED TO ACHIEVE A COMBINATORIAL KNOCKDOWN OF THESE THREE CLASS IIA HDAC ISOFORMS. SUBSEQUENTLY, THE HEPATOCELLULAR EFFECTS AS WELL AS THE IMPACT ON GLUCOSE AND LIPID METABOLISM WERE ANALYZED IN VITRO AND IN VIVO. THE TRIPLE KNOCKDOWN RESULTED IN A STATISTICALLY SIGNIFICANT DECREASE OF GLUCONEOGENIC GENE EXPRESSION IN MURINE AND HUMAN HEPATOCYTE CELL MODELS. A SIMILAR HDAC-INDUCED DOWNREGULATION OF HEPATIC GLUCONEOGENESIS GENES COULD BE ACHIEVED IN MICE USING A LIVER-SPECIFIC LIPID NANOPARTICLE SIRNA FORMULATION. HOWEVER, THE EFFICACY ON WHOLE BODY GLUCOSE METABOLISM ASSESSED BY PYRUVATE-TOLERANCE TESTS WERE ONLY LIMITED AND DID NOT OUTWEIGH THE SAFETY FINDINGS OBSERVED BY HISTOPATHOLOGICAL ANALYSIS IN SPLEEN AND KIDNEY. MECHANISTICALLY, AFFYMETRIX GENE EXPRESSION STUDIES PROVIDE EVIDENCE THAT CLASS IIA HDACS DIRECTLY TARGET OTHER KEY FACTORS BEYOND THE DESCRIBED FORKHEAD BOX (FOXP) TRANSCRIPTION REGULATORS, SUCH AS HEPATOCYTE NUCLEAR FACTOR 4 ALPHA (HNF4A). DOWNSTREAM OF THESE FACTORS SEVERAL ADDITIONAL PATHWAYS WERE REGULATED NOT MERELY INCLUDING GLUCOSE AND LIPID METABOLISM AND TRANSPORT. IN CONCLUSION, THE LIVER-DIRECTED COMBINATORIAL KNOCKDOWN OF HDAC4, 5 AND 7 BY THERAPEUTIC SIRNAS AFFECTED MULTIPLE PATHWAYS IN VITRO, LEADING IN VIVO TO THE DOWNREGULATION OF GENES INVOLVED IN GLUCONEOGENESIS. HOWEVER, THE EFFECTS ON GENE EXPRESSION LEVEL WERE NOT PARALLELED BY A SIGNIFICANT REDUCTION OF GLUCONEOGENESIS IN MICE. COMBINED KNOCKDOWN OF HDAC ISOFORMS WAS ASSOCIATED WITH SEVERE ADVERSE EFFECTS IN VIVO, CHALLENGING THIS APPROACH AS A TREATMENT OPTION FOR CHRONIC METABOLIC DISORDERS LIKE TYPE 2 DIABETES. 2020 12 5067 33 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 13 476 41 ARSENIC INDUCES FIBROGENIC CHANGES IN HUMAN KIDNEY EPITHELIAL CELLS POTENTIALLY THROUGH EPIGENETIC ALTERATIONS IN DNA METHYLATION. ARSENIC CONTAMINATION IS A SIGNIFICANT PUBLIC HEALTH ISSUE, AND KIDNEY IS ONE OF THE TARGET ORGAN FOR ARSENIC-INDUCED ADVERSE EFFECTS. RENAL FIBROSIS IS A WELL-KNOWN PATHOLOGICAL STAGE FREQUENTLY OBSERVED IN PROGRESSIVE CHRONIC KIDNEY DISEASE (CKD). EPIDEMIOLOGICAL STUDIES IMPLICATE ARSENIC EXPOSURE TO CKD, BUT THE ROLE OF ARSENIC IN KIDNEY FIBROSIS AND THE UNDERLYING MECHANISM IS STILL UNCLEAR. IT IS IN THIS CONTEXT THAT THE CURRENT STUDY EVALUATED THE EFFECTS OF LONG-TERM ARSENIC EXPOSURE ON THE CELLULAR RESPONSE IN MORPHOLOGY, AND MARKER GENES EXPRESSION WITH RESPECT TO FIBROSIS USING HUMAN KIDNEY 2 (HK-2) EPITHELIAL CELLS. RESULTS OF THIS STUDY REVEALED THAT IN ADDITION TO INCREASED GROWTH, HK-2 CELLS UNDERWENT PHENOTYPIC, BIOCHEMICAL AND MOLECULAR CHANGES INDICATIVE OF EPITHELIAL-MESENCHYMAL TRANSITION (EMT) IN RESPONSE TO THE EXPOSURE TO ARSENIC. MOST IMPORTANTLY, THE ARSENIC-EXPOSED CELLS ACQUIRED THE PATHOGENIC FEATURES OF FIBROSIS AS SUPPORTED BY INCREASED EXPRESSION OF MARKERS FOR FIBROSIS, SUCH AS COLLAGEN I, FIBRONECTIN, TRANSFORMING GROWTH FACTOR BETA, AND ALPHA-SMOOTH MUSCLE ACTIN. UPREGULATION OF FIBROSIS ASSOCIATED SIGNALING MOLECULES SUCH AS TISSUE INHIBITOR OF METALLOPROTEINASES-3 AND MATRIX METALLOPROTEINASE-2 AS WELL AS ACTIVATION OF AKT WAS ALSO OBSERVED. ADDITIONALLY, THE EXPRESSION OF EPIGENETIC GENES (DNA METHYLTRANSFERASES 3A AND 3B; METHYL-CPG BINDING DOMAIN 4) WAS INCREASED IN ARSENIC-EXPOSED CELLS. TREATMENT WITH DNA METHYLATION INHIBITOR 5-AZA-2'-DC REVERSED THE EMT PROPERTIES AND RESTORED THE LEVEL OF PHOSPHO-AKT. TOGETHER, THESE DATA FOR THE FIRST TIME SUGGEST THAT LONG-TERM EXPOSURE TO ARSENIC CAN INCREASE THE RISK OF KIDNEY FIBROSIS. ADDITIONALLY, OUR DATA SUGGEST THAT THE ARSENIC-INDUCED FIBROTIC CHANGES ARE, AT LEAST IN PART, MEDIATED BY DNA METHYLATION AND THEREFORE POTENTIALLY CAN BE REVERSED BY EPIGENETIC THERAPEUTICS. 2019 14 3148 40 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 15 834 30 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 16 5305 40 PROTEOMICS ANALYSIS OF HUMAN OBESITY REVEALS THE EPIGENETIC FACTOR HDAC4 AS A POTENTIAL TARGET FOR OBESITY. SEDENTARY LIFESTYLE AND EXCESSIVE ENERGY INTAKE ARE PROMINENT CONTRIBUTORS TO OBESITY; A MAJOR RISK FACTORS FOR THE DEVELOPMENT OF INSULIN RESISTANCE, TYPE 2 DIABETES AND CARDIOVASCULAR DISEASES. ELUCIDATING THE MOLECULAR MECHANISMS UNDERLYING THESE CHRONIC CONDITIONS IS OF RELEVANT IMPORTANCE AS IT MIGHT LEAD TO THE IDENTIFICATION OF NOVEL ANTI-OBESITY TARGETS. THE PURPOSE OF THE CURRENT STUDY IS TO INVESTIGATE DIFFERENTIALLY EXPRESSED PROTEINS BETWEEN LEAN AND OBESE SUBJECTS THROUGH A SHOT-GUN QUANTITATIVE PROTEOMICS APPROACH USING PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) EXTRACTS AS WELL AS POTENTIAL MODULATION OF THOSE PROTEINS BY PHYSICAL EXERCISE. USING THIS APPROACH, A TOTAL OF 47 PROTEINS SHOWED AT LEAST 1.5 FOLD CHANGE BETWEEN LEAN AND OBESE SUBJECTS. IN OBESE, THE PROTEOMIC PROFILING BEFORE AND AFTER 3 MONTHS OF PHYSICAL EXERCISE SHOWED DIFFERENTIAL EXPRESSION OF 38 PROTEINS. THROMBOSPONDIN 1 (TSP1) WAS AMONG THE PROTEINS THAT WERE UPREGULATED IN OBESE SUBJECTS AND THEN DECREASED BY PHYSICAL EXERCISE. CONVERSELY, THE HISTONE DEACETYLASE 4 (HDAC4) WAS DOWNREGULATED IN OBESE SUBJECTS AND THEN INDUCED BY PHYSICAL EXERCISE. THE PROTEOMIC DATA WAS FURTHER VALIDATED BY QRT-PCR, WESTERN BLOT AND IMMUNOHISTOCHEMISTRY IN BOTH PBMCS AND ADIPOSE TISSUE. WE ALSO SHOWED THAT HDAC4 LEVELS CORRELATED POSITIVELY WITH MAXIMUM OXYGEN CONSUMPTION (VO2 MAX) BUT NEGATIVELY WITH BODY MASS INDEX, PERCENT BODY FAT, AND THE INFLAMMATORY CHEMOKINE RANTES. IN FUNCTIONAL ASSAYS, OUR DATA INDICATED THAT ECTOPIC EXPRESSION OF HDAC4 SIGNIFICANTLY IMPAIRED TNF-ALPHA-DEPENDENT ACTIVATION OF NF-KAPPAB, ESTABLISHING THUS A LINK BETWEEN HDAC4 AND REGULATION OF THE IMMUNE SYSTEM. TOGETHER, THE EXPRESSION PATTERN OF HDAC4 IN OBESE SUBJECTS BEFORE AND AFTER PHYSICAL EXERCISE, ITS CORRELATION WITH VARIOUS PHYSICAL, CLINICAL AND METABOLIC PARAMETERS ALONG WITH ITS INHIBITORY EFFECT ON NF-KAPPAB ARE SUGGESTIVE OF A PROTECTIVE ROLE OF HDAC4 AGAINST OBESITY. HDAC4 COULD THEREFORE REPRESENT A POTENTIAL THERAPEUTIC TARGET FOR THE CONTROL AND MANAGEMENT OF OBESITY AND PRESUMABLY INSULIN RESISTANCE. 2013 17 5279 24 PROMOTER-SPECIFIC RELEVANCE OF HISTONE MODIFICATIONS INDUCED BY DEXAMETHASONE DURING THE REGULATION OF PRO-INFLAMMATORY MEDIATORS. GLUCOCORTICOSTEROIDS (GCS) ARE WIDELY USED TO TREAT DIFFERENT KINDS OF CHRONIC INFLAMMATORY AND IMMUNE DISEASES THROUGH TRANSCRIPTIONAL REGULATION OF INFLAMMATORY GENES. MODULATION OF GENE EXPRESSION BY GCS IS KNOWN TO OCCUR THROUGH DIVERSE MECHANISMS OF VARYING RELEVANCE TO SPECIFIC CLASSES OF GENES. EPIGENETIC MODIFICATIONS ARE INDEED A PIVOTAL REGULATORY FEATURE OF GLUCOCORTICOID RECEPTOR AND OTHER TRANSCRIPTION FACTORS. IN THIS STUDY, HISTONE POST-TRANSLATIONAL MODIFICATIONS WERE INVESTIGATED FOR THEIR INVOLVEMENT IN THE REGULATION OF SELECTED PRO-INFLAMMATORY GENES - EXPRESSED IN HUMAN MONOCYTE-DERIVED MACROPHAGES - IN RESPONSE TO TREATMENT WITH SYNTHETIC GC DEXAMETHASONE (DEX). WE SHOW THAT HISTONE TAIL ACETYLATION STATUS IS MODIFIED FOLLOWING DEX ADMINISTRATION, THROUGH DISTINCT AND ALTERNATIVE MECHANISMS AT THE PROMOTERS OF INTERLEUKIN-8 AND INTERLEUKIN-23. IN ADDITION TO HISTONE H3 ACETYLATION, OUR RESULTS DEMONSTRATE THAT H3 LYSINE 4 TRIMETHYLATION IS AFFECTED FOLLOWING DRUG TREATMENT. 2014 18 5550 41 ROLE OF EPIGENETICS IN INFLAMMATION-ASSOCIATED DISEASES. THERE IS CONSIDERABLE EVIDENCE SUGGESTING THAT EPIGENETIC MECHANISMS MAY MEDIATE DEVELOPMENT OF CHRONIC INFLAMMATION BY MODULATING THE EXPRESSION OF PRO-INFLAMMATORY CYTOKINE TNF-ALPHA, INTERLEUKINS, TUMOR SUPPRESSOR GENES, ONCOGENES AND AUTOCRINE AND PARACRINE ACTIVATION OF THE TRANSCRIPTION FACTOR NF-KAPPAB. THESE MOLECULES ARE CONSTITUTIVELY PRODUCED BY A VARIETY OF CELLS UNDER CHRONIC INFLAMMATORY CONDITIONS, WHICH IN TURN LEADS TO THE DEVELOPMENT OF MAJOR DISEASES SUCH AS AUTOIMMUNE DISORDERS, CHRONIC OBSTRUCTIVE PULMONARY DISEASES, NEURODEGENERATIVE DISEASES AND CANCER. DISTINCT OR GLOBAL CHANGES IN THE EPIGENETIC LANDSCAPE ARE HALLMARKS OF CHRONIC INFLAMMATION DRIVEN DISEASES. EPIGENETICS INCLUDE CHANGES TO DISTINCT MARKERS ON THE GENOME AND ASSOCIATED CELLULAR TRANSCRIPTIONAL MACHINERY THAT ARE COPIED DURING CELL DIVISION (MITOSIS AND MEIOSIS). THESE CHANGES APPEAR FOR A SHORT SPAN OF TIME AND THEY NECESSARILY DO NOT MAKE PERMANENT CHANGES TO THE PRIMARY DNA SEQUENCE ITSELF. HOWEVER, THE MOST FREQUENTLY OBSERVED EPIGENETIC CHANGES INCLUDE ABERRANT DNA METHYLATION, AND HISTONE ACETYLATION AND DEACETYLATION. IN THIS CHAPTER, WE FOCUS ON PRO-INFLAMMATORY MOLECULES THAT ARE REGULATED BY ENZYMES INVOLVED IN EPIGENETIC MODIFICATIONS SUCH AS ARGININE AND LYSINE METHYL TRANSFERASES, DNA METHYLTRANSFERASE, HISTONE ACETYLTRANSFERASES AND HISTONE DEACETYLASES AND THEIR ROLE IN INFLAMMATION DRIVEN DISEASES. AGENTS THAT MODULATE OR INHIBIT THESE EPIGENETIC MODIFICATIONS, SUCH AS HAT OR HDAC INHIBITORS HAVE SHOWN GREAT POTENTIAL IN INHIBITING THE PROGRESSION OF THESE DISEASES. GIVEN THE PLASTICITY OF THESE EPIGENETIC CHANGES AND THEIR READINESS TO RESPOND TO INTERVENTION BY SMALL MOLECULE INHIBITORS, THERE IS A TREMENDOUS POTENTIAL FOR THE DEVELOPMENT OF NOVEL THERAPEUTICS THAT WILL SERVE AS DIRECT OR ADJUVANT THERAPEUTIC COMPOUNDS IN THE TREATMENT OF THESE DISEASES. 2013 19 3207 40 HDACI: CELLULAR EFFECTS, OPPORTUNITIES FOR RESTORATIVE DENTISTRY. ACETYLATION OF HISTONE AND NON-HISTONE PROTEINS ALTERS GENE EXPRESSION AND INDUCES A HOST OF CELLULAR EFFECTS. THE ACETYLATION PROCESS IS HOMEOSTATICALLY BALANCED BY TWO GROUPS OF CELLULAR ENZYMES, HISTONE ACETYLTRANSFERASES (HATS) AND HISTONE DEACETYLASES (HDACS). HAT ACTIVITY RELAXES THE STRUCTURE OF THE HUMAN CHROMATIN, RENDERING IT TRANSCRIPTIONALLY ACTIVE, THEREBY INCREASING GENE EXPRESSION. IN CONTRAST, HDAC ACTIVITY LEADS TO GENE SILENCING. THE ENZYMATIC BALANCE CAN BE 'TIPPED' BY HISTONE DEACETYLASE INHIBITORS (HDACI), LEADING TO AN ACCUMULATION OF ACETYLATED PROTEINS, WHICH SUBSEQUENTLY MODIFY CELLULAR PROCESSES INCLUDING STEM CELL DIFFERENTIATION, CELL CYCLE, APOPTOSIS, GENE EXPRESSION, AND ANGIOGENESIS. THERE IS A VARIETY OF NATURAL AND SYNTHETIC HDACI AVAILABLE, AND THEIR PLEIOTROPIC EFFECTS HAVE CONTRIBUTED TO DIVERSE CLINICAL APPLICATIONS, NOT ONLY IN CANCER BUT ALSO IN NON-CANCER AREAS, SUCH AS CHRONIC INFLAMMATORY DISEASE, BONE ENGINEERING, AND NEURODEGENERATIVE DISEASE. INDEED, IT APPEARS THAT HDACI-MODULATED EFFECTS MAY DIFFER BETWEEN 'NORMAL' AND TRANSFORMED CELLS, PARTICULARLY WITH REGARD TO REACTIVE OXYGEN SPECIES ACCUMULATION, APOPTOSIS, PROLIFERATION, AND CELL CYCLE ARREST. THE POTENTIAL BENEFICIAL EFFECTS OF HDACI FOR HEALTH, RESULTING FROM THEIR ABILITY TO REGULATE GLOBAL GENE EXPRESSION BY EPIGENETIC MODIFICATION OF DNA-ASSOCIATED PROTEINS, ALSO OFFER POTENTIAL FOR APPLICATION WITHIN RESTORATIVE DENTISTRY, WHERE THEY MAY PROMOTE DENTAL TISSUE REGENERATION FOLLOWING PULPAL DAMAGE. 2011 20 318 35 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