1 1413 117 DIETARY PHYTOCHEMICALS AND CANCER CHEMOPREVENTION: A PERSPECTIVE ON OXIDATIVE STRESS, INFLAMMATION, AND EPIGENETICS. OXIDATIVE STRESS OCCURS WHEN CELLULAR REACTIVE OXYGEN SPECIES LEVELS EXCEED THE SELF-ANTIOXIDANT CAPACITY OF THE BODY. OXIDATIVE STRESS INDUCES MANY PATHOLOGICAL CHANGES, INCLUDING INFLAMMATION AND CANCER. CHRONIC INFLAMMATION IS BELIEVED TO BE STRONGLY ASSOCIATED WITH THE MAJOR STAGES OF CARCINOGENESIS. THE NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 (NRF2) PATHWAY PLAYS A CRUCIAL ROLE IN REGULATING OXIDATIVE STRESS AND INFLAMMATION BY MANIPULATING KEY ANTIOXIDANT AND DETOXIFICATION ENZYME GENES VIA THE ANTIOXIDANT RESPONSE ELEMENT. MANY DIETARY PHYTOCHEMICALS WITH CANCER CHEMOPREVENTIVE PROPERTIES, SUCH AS POLYPHENOLS, ISOTHIOCYANATES, AND TRITERPENOIDS, EXERT ANTIOXIDANT AND ANTI-INFLAMMATORY FUNCTIONS BY ACTIVATING THE NRF2 PATHWAY. FURTHERMORE, EPIGENETIC CHANGES, INCLUDING DNA METHYLATION, HISTONE POST-TRANSLATIONAL MODIFICATIONS, AND MIRNA-MEDIATED POST-TRANSCRIPTIONAL ALTERATIONS, ALSO LEAD TO VARIOUS CARCINOGENESIS PROCESSES BY SUPPRESSING CANCER REPRESSOR GENE TRANSCRIPTION. USING EPIGENETIC RESEARCH TOOLS, INCLUDING NEXT-GENERATION SEQUENCING TECHNOLOGIES, MANY DIETARY PHYTOCHEMICALS ARE SHOWN TO MODIFY AND REVERSE ABERRANT EPIGENETIC/EPIGENOME CHANGES, POTENTIALLY LEADING TO CANCER PREVENTION/TREATMENT. THUS, THE BENEFICIAL EFFECTS OF DIETARY PHYTOCHEMICALS ON CANCER DEVELOPMENT WARRANT FURTHER INVESTIGATION TO PROVIDE ADDITIONAL IMPETUS FOR CLINICAL TRANSLATIONAL STUDIES. 2016 2 4453 37 MOLECULAR MECHANISMS AND PATHWAYS AS TARGETS FOR CANCER PREVENTION AND PROGRESSION WITH DIETARY COMPOUNDS. A UNIQUE FEATURE OF BIOACTIVE FOOD INGREDIENTS IS THEIR BROAD ANTIOXIDANT FUNCTION. ANTIOXIDANTS HAVING A WIDE SPECTRUM OF CHEMICAL STRUCTURE AND ACTIVITY BEYOND BASIC NUTRITION; DISPLAY DIFFERENT HEALTH BENEFITS BY THE PREVENTION AND PROGRESSION OF CHRONIC DISEASES. FUNCTIONAL FOOD COMPONENTS ARE CAPABLE OF ENHANCING THE NATURAL ANTIOXIDANT DEFENSE SYSTEM BY SCAVENGING REACTIVE OXYGEN AND NITROGEN SPECIES, PROTECTING AND REPAIRING DNA DAMAGE, AS WELL AS MODULATING THE SIGNAL TRANSDUCTION PATHWAYS AND GENE EXPRESSION. MAJOR PATHWAYS AFFECTED BY BIOACTIVE FOOD INGREDIENTS INCLUDE THE PRO-INFLAMMATORY PATHWAYS REGULATED BY NUCLEAR FACTOR KAPPA B (NF-KAPPAB), AS WELL AS THOSE ASSOCIATED WITH CYTOKINES AND CHEMOKINES. THE PRESENT REVIEW SUMMARIZES THE IMPORTANCE OF PLANT BIOACTIVES AND THEIR ROLES IN THE REGULATION OF INFLAMMATORY PATHWAYS. BIOACTIVES INFLUENCE SEVERAL PHYSIOLOGICAL PROCESSES SUCH AS GENE EXPRESSION, CELL CYCLE REGULATION, CELL PROLIFERATION, CELL MIGRATION, ETC., RESULTING IN CANCER PREVENTION. CANCER INITIATION IS ASSOCIATED WITH CHANGES IN METABOLIC PATHWAYS SUCH AS GLUCOSE METABOLISM, AND THE EFFECT OF BIOACTIVES IN NORMALIZING THIS PROCESS HAS BEEN PROVIDED. INITIATION AND PROGRESSION OF INFLAMMATORY BOWEL DISEASES (IBD) WHICH INCREASE THE CHANCES OF DEVELOPING OF COLORECTAL CANCERS CAN BE DOWNREGULATED BY PLANT BIOACTIVES. SEVERAL ASPECTS OF THE POTENTIAL ROLES OF MICRORNAS AND EPIGENETIC MODIFICATIONS IN THE DEVELOPMENT OF CANCERS HAVE ALSO BEEN PRESENTED. 2017 3 1416 43 DIETARY POLYPHENOLS REMODEL DNA METHYLATION PATTERNS OF NRF2 IN CHRONIC DISEASE. THE NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 (NRF2) IS A TRANSCRIPTION FACTOR CRUCIAL IN REGULATING CELLULAR HOMEOSTASIS AND APOPTOSIS. THE NRF2 GENE HAS BEEN IMPLICATED IN VARIOUS BIOLOGICAL ACTIVITIES, INCLUDING ANTIOXIDANT, ANTI-INFLAMMATORY, AND ANTICANCER PROPERTIES. NRF2 CAN BE REGULATED GENETICALLY AND EPIGENETICALLY AT THE TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, AND TRANSLATIONAL LEVELS. ALTHOUGH DNA METHYLATION IS ONE OF THE CRITICAL BIOLOGICAL PROCESSES VITAL FOR GENE EXPRESSION, SOMETIMES, ANOMALOUS METHYLATION PATTERNS RESULT IN THE DYSREGULATION OF GENES AND CONSEQUENT DISEASES AND DISORDERS. SEVERAL STUDIES HAVE REPORTED PROMOTER HYPERMETHYLATION DOWNREGULATED NRF2 EXPRESSION AND ITS DOWNSTREAM TARGETS. IN CONTRAST TO THE UNALTERABLE NATURE OF GENETIC PATTERNS, EPIGENETIC CHANGES CAN BE REVERSED, OPENING UP NEW POSSIBILITIES IN DEVELOPING THERAPIES FOR VARIOUS METABOLIC DISORDERS AND DISEASES. THIS REVIEW DISCUSSES THE CURRENT STATE OF THE NRF2-MEDIATED ANTIOXIDATIVE AND CHEMOPREVENTIVE ACTIVITIES OF SEVERAL NATURAL PHYTOCHEMICALS, INCLUDING SULFORAPHANE, RESVERATROL, CURCUMIN, LUTEOLIN, COROSOLIC ACID, APIGENIN, AND MOST OTHER COMPOUNDS THAT HAVE BEEN FOUND TO ACTIVATE NRF2. THIS EPIGENETIC REVERSAL OF HYPERMETHYLATED NRF2 STATES PROVIDES NEW OPPORTUNITIES FOR RESEARCH INTO DIETARY PHYTOCHEMISTRY THAT AFFECTS THE HUMAN EPIGENOME AND THE POSSIBILITY FOR CUTTING-EDGE APPROACHES TO TARGET NRF2-MEDIATED SIGNALING TO PREVENT CHRONIC DISORDERS. 2023 4 4898 35 OXIDATIVE STRESS INDUCED LUNG CANCER AND COPD: OPPORTUNITIES FOR EPIGENETIC THERAPY. REACTIVE OXYGEN SPECIES (ROS) FORM AS A NATURAL BY-PRODUCT OF THE NORMAL METABOLISM OF OXYGEN AND PLAY IMPORTANT ROLES WITHIN THE CELL. UNDER NORMAL CIRCUMSTANCES THE CELL IS ABLE TO MAINTAIN AN ADEQUATE HOMEOSTASIS BETWEEN THE FORMATION OF ROS AND ITS REMOVAL THROUGH PARTICULAR ENZYMATIC PATHWAYS OR VIA ANTIOXIDANTS. IF HOWEVER, THIS BALANCE IS DISTURBED A SITUATION CALLED OXIDATIVE STRESS OCCURS. CRITICALLY, OXIDATIVE STRESS PLAYS IMPORTANT ROLES IN THE PATHOGENESIS OF MANY DISEASES, INCLUDING CANCER. EPIGENETICS IS A PROCESS WHERE GENE EXPRESSION IS REGULATED BY HERITABLE MECHANISMS THAT DO NOT CAUSE ANY DIRECT CHANGES TO THE DNA SEQUENCE ITSELF, AND DISRUPTION OF EPIGENETIC MECHANISMS HAS IMPORTANT IMPLICATIONS IN DISEASE. EVIDENCE IS EMERGING THAT HISTONE DEACETYLASES (HDACS) PLAY DECISIVE ROLES IN REGULATING IMPORTANT CELLULAR OXIDATIVE STRESS PATHWAYS INCLUDING THOSE INVOLVED WITH SENSING OXIDATIVE STRESS AND THOSE INVOLVED WITH REGULATING THE CELLULAR RESPONSE TO OXIDATIVE STRESS. IN PARTICULAR ABERRANT REGULATION OF THESE PATHWAYS BY HDACS MAY PLAY CRITICAL ROLES IN CANCER PROGRESSION. IN THIS REVIEW WE DISCUSS THE CURRENT EVIDENCE LINKING EPIGENETICS AND OXIDATIVE STRESS AND CANCER, USING CHRONIC OBSTRUCTIVE PULMONARY DISEASE AND NON-SMALL CELL LUNG CANCER TO ILLUSTRATE THE IMPORTANCE OF EPIGENETICS ON THESE PATHWAYS WITHIN THESE DISEASE SETTINGS. 2009 5 3921 35 LINKING INFLAMMATION TO CELL CYCLE PROGRESSION. RISK OF GASTROINTESTINAL CANCERS IS CLOSELY RELATED TO INCREASED LEVELS OF OXIDANTS IN THE BALANCE BETWEEN OXIDANT AND ANTI-OXIDANT AGENTS. A POSSIBLE EXPLANATION OF THIS EPIDEMIOLOGICAL OBSERVATION IS THE LOCAL LOSS OF THE EPITHELIAL BARRIER FUNCTION WITH A FOCAL INFLAMMATORY RESPONSE. ACCORDINGLY, CHRONIC INFLAMMATORY DISEASES REPRESENT WELL-KNOWN RISK FACTORS FOR CANCER AND, ON THE OTHER HAND, IT IS KNOWN THAT ANTI-INFLAMMATORY AGENTS, DEMULCENTS AND ANTIOXIDANTS MARKEDLY INHIBIT THE DEVELOPMENT OF COLON CANCER IN ANIMAL MODELS AS WELL IN HUMANS. AT MOLECULAR LEVEL A KEY ROLE IN THE PROCESS THAT LINK INFLAMMATION TO CELLULAR TRANSFORMATION SEEMS TO BE PLAYED BY ACTIVATION OF CYCLOOXYGENASE-2 (COX-2) TOGETHER WITH PRODUCTION OF REACTIVE OXYGEN INTERMEDIATE (ROI). BOTH THESE EVENTS HAVE BEEN STRICTLY LINKED WITH CELL PROLIFERATION AND TRANSFORMATION, ALTHOUGH THE INTRACELLULAR PATHWAYS INVOLVED IN THESE PROCESSES ARE STILL NOT COMPLETELY UNDERSTOOD. THE UNCONTROLLED PROLIFERATION, WHICH IS A LANDMARK OF CELLULAR TRANSFORMATION, IS ACCOMPANIED BY THE DEREGULATION OF PROTEINS INVOLVED IN THE CONTROL OF CELL CYCLE CHECKPOINTS. ALTERED EXPRESSION AND FUNCTION OF CYCLOOXYGENASE AND NITRIC OXIDE SYNTHASE SEEM TO INFLUENCE, AMONG OTHERS, THE EXPRESSION OF PROTEINS INVOLVED IN THE REGULATION OF CELL CYCLE PROGRESSION. SIMILARLY, ANTI-INFLAMMATORY AND ANTIOXIDANT AGENTS MAY ALSO ACT ON THE EXPRESSION AND FUNCTION OF SEVERAL CELL CYCLE REGULATING PROTEINS. UNDERSTANDING THE MECHANISMS BY WHICH CHRONIC INFLAMMATION CONTRIBUTES TO GENETIC AND EPIGENETIC CHANGES INVOLVED IN THE REGULATION OF CRITICAL CELL CYCLE CHECKPOINTS MAY HELP TO DEVELOP MORE AND MORE SPECIFIC TREATMENT STRATEGIES FOR REDUCING MALIGNANT TRANSFORMATION OF THESE INFLAMMATORY DISEASES. 2004 6 5943 32 TARGETING OXIDATIVE STRESS IN CANCER. IMPORTANCE OF THE FIELD: REACTIVE OXYGEN SPECIES (ROS) OCCUR AS NATURAL BY-PRODUCTS OF OXYGEN METABOLISM AND HAVE IMPORTANT CELLULAR FUNCTIONS. NORMALLY, THE CELL IS ABLE TO MAINTAIN AN ADEQUATE BALANCE BETWEEN THE FORMATION AND REMOVAL OF ROS EITHER VIA ANTI-OXIDANTS OR THROUGH THE USE SPECIFIC ENZYMATIC PATHWAYS. HOWEVER, IF THIS BALANCE IS DISTURBED, OXIDATIVE STRESS MAY OCCUR IN THE CELL, A SITUATION LINKED TO THE PATHOGENESIS OF MANY DISEASES, INCLUDING CANCER. AREAS COVERED IN THIS REVIEW: HDACS ARE IMPORTANT REGULATORS OF MANY OXIDATIVE STRESS PATHWAYS INCLUDING THOSE INVOLVED WITH BOTH SENSING AND COORDINATING THE CELLULAR RESPONSE TO OXIDATIVE STRESS. IN PARTICULAR ABERRANT REGULATION OF THESE PATHWAYS BY HISTONE DEACETYLASES MAY PLAY CRITICAL ROLES IN CANCER PROGRESSION. WHAT THE READER WILL GAIN: IN THIS REVIEW WE DISCUSS THE NOTION THAT TARGETING HDACS MAY BE A USEFUL THERAPEUTIC AVENUE IN THE TREATMENT OF OXIDATIVE STRESS IN CANCER, USING CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), NSCLC AND HEPATOCELLULAR CARCINOMA (HCC) AS EXAMPLES TO ILLUSTRATE THIS POSSIBILITY. TAKE HOME MESSAGE: EPIGENETIC MECHANISMS MAY BE AN IMPORTANT NEW THERAPEUTIC AVENUE FOR TARGETING OXIDATIVE STRESS IN CANCER. 2010 7 4372 39 MIRNAS, OXIDATIVE STRESS, AND CANCER: A COMPREHENSIVE AND UPDATED REVIEW. OXIDATIVE STRESS REFERS TO ELEVATED LEVELS OF INTRACELLULAR REACTIVE OXYGEN SPECIES (ROS). ROS HOMEOSTASIS FUNCTIONS AS A SIGNALING PATHWAY FOR NORMAL CELL SURVIVAL AND APPROPRIATE CELL SIGNALING. CHRONIC INFLAMMATION INDUCED BY IMBALANCED LEVELS OF ROS CONTRIBUTES TO MANY DISEASES AND DIFFERENT TYPES OF CANCER. ROS CAN ALTER THE EXPRESSION OF ONCOGENES AND TUMOR SUPPRESSOR GENES THROUGH EPIGENETIC MODIFICATIONS, TRANSCRIPTION FACTORS, AND NON-CODING RNAS. MICRORNAS (MIRNAS) ARE SMALL NON-CODING RNAS THAT PLAY A KEY ROLE IN MOST BIOLOGICAL PATHWAYS. EACH MIRNA REGULATES HUNDREDS OF TARGET GENES BY INHIBITING PROTEIN TRANSLATION AND/OR PROMOTING MESSENGER RNA DEGRADATION. IN NORMAL CONDITIONS, MIRNAS PLAY A PHYSIOLOGICAL ROLE IN CELL PROLIFERATION, DIFFERENTIATION, AND APOPTOSIS. HOWEVER, DIFFERENT FACTORS THAT CAN DYSREGULATE CELL SIGNALING AND CELLULAR HOMEOSTASIS CAN ALSO AFFECT MIRNA EXPRESSION. THE ALTERATION OF MIRNA EXPRESSION CAN WORK AGAINST DISTURBING FACTORS OR MEDIATE THEIR EFFECTS. OXIDATIVE STRESS IS ONE OF THESE FACTORS. CONSIDERING THE COMPLEX INTERPLAY BETWEEN ROS LEVEL AND MIRNA REGULATION AND BOTH OF THESE WITH CANCER DEVELOPMENT, WE REVIEW THE ROLE OF MIRNAS IN CANCER, FOCUSING ON THEIR FUNCTION IN OXIDATIVE STRESS. 2020 8 1405 31 DIETARY FACTORS AND EPIGENETIC REGULATION FOR PROSTATE CANCER PREVENTION. THE ROLE OF EPIGENETIC ALTERATIONS IN VARIOUS HUMAN CHRONIC DISEASES HAS GAINED INCREASING ATTENTION AND HAS RESULTED IN A PARADIGM SHIFT IN OUR UNDERSTANDING OF DISEASE SUSCEPTIBILITY. IN THE FIELD OF CANCER RESEARCH, E.G., GENETIC ABNORMALITIES/MUTATIONS HISTORICALLY WERE VIEWED AS PRIMARY UNDERLYING CAUSES; HOWEVER, EPIGENETIC MECHANISMS THAT ALTER GENE EXPRESSION WITHOUT AFFECTING DNA SEQUENCE ARE NOW RECOGNIZED AS BEING OF EQUAL OR GREATER IMPORTANCE FOR ONCOGENESIS. METHYLATION OF DNA, MODIFICATION OF HISTONES, AND INTERFERING MICRORNA (MIRNA) COLLECTIVELY REPRESENT A CADRE OF EPIGENETIC ELEMENTS DYSREGULATED IN CANCER. TARGETING THE EPIGENOME WITH COMPOUNDS THAT MODULATE DNA METHYLATION, HISTONE MARKS, AND MIRNA PROFILES REPRESENTS AN EVOLVING STRATEGY FOR CANCER CHEMOPREVENTION, AND THESE APPROACHES ARE STARTING TO SHOW PROMISE IN HUMAN CLINICAL TRIALS. ESSENTIAL MICRONUTRIENTS SUCH AS FOLATE, VITAMIN B-12, SELENIUM, AND ZINC AS WELL AS THE DIETARY PHYTOCHEMICALS SULFORAPHANE, TEA POLYPHENOLS, CURCUMIN, AND ALLYL SULFUR COMPOUNDS ARE AMONG A GROWING LIST OF AGENTS THAT AFFECT EPIGENETIC EVENTS AS NOVEL MECHANISMS OF CHEMOPREVENTION. TO ILLUSTRATE THESE CONCEPTS, THE CURRENT REVIEW HIGHLIGHTS THE INTERACTIONS AMONG NUTRIENTS, EPIGENETICS, AND PROSTATE CANCER SUSCEPTIBILITY. IN PARTICULAR, WE FOCUS ON EPIGENETIC DYSREGULATION AND THE IMPACT OF SPECIFIC NUTRIENTS AND FOOD COMPONENTS ON DNA METHYLATION AND HISTONE MODIFICATIONS THAT CAN ALTER GENE EXPRESSION AND INFLUENCE PROSTATE CANCER PROGRESSION. 2011 9 6309 29 THE REGULATION OF MIRNAS IN INFLAMMATION-RELATED CARCINOGENESIS. CHRONIC INFLAMMATION PLAYS IMPORTANT ROLES IN THE INITIATION AND DEVELOPMENT OF VARIOUS CANCERS, PARTICULARLY GASTROINTESTINAL CANCER. CANCER IS CHARACTERIZED BY STEPWISE ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS OF GENES. AS A HIGH RISK FACTOR FOR CANCER, CHRONIC INFLAMMATORY RESPONSE PRODUCES GREAT AMOUNT OF MEDIATORS, INCLUDING CYTOKINES, REACTIVE OXYGEN AND NITROGEN SPECIES, PROTEINASES, WHICH CAN INDUCE GENETIC AND EPIGENETIC CHANGES OF CANCER-ASSOCIATED GENES AND PATHWAYS. FURTHERMORE, INFLAMMATION ALSO MODULATES THE EXPRESSION OF MIRNAS THAT NOT ONLY REGULATE THE EXPRESSION OF TUMOR-RELATED PROTEINS BUT ALSO ENHANCE THE TUMOR-PROMOTING INFLAMMATORY PROCESS. IN THE CURRENT REVIEW, WE SUMMARIZE THE MECHANISMS BY WHICH INFLAMMATORY MEDIATORS AND SIGNALING REGULATE THE BIOSYNTHESIS OF MIRNAS, AS WELL AS THE INVOLVEMENT OF MIRNAS IN THE FEEDBACK LOOPS PROMOTING INFLAMMATION-ASSOCIATED CARCINOGENESIS. 2015 10 6333 40 THE ROLE OF DIETARY PHENOLIC COMPOUNDS IN EPIGENETIC MODULATION INVOLVED IN INFLAMMATORY PROCESSES. A BETTER UNDERSTANDING OF THE INTERACTIONS BETWEEN DIETARY PHENOLIC COMPOUNDS AND THE EPIGENETICS OF INFLAMMATION MAY IMPACT PATHOLOGICAL CONDITIONS AND THEIR TREATMENT. PHENOLIC COMPOUNDS ARE WELL-KNOWN FOR THEIR ANTIOXIDANT, ANTI-INFLAMMATORY, ANTI-ANGIOGENIC, AND ANTI-CANCER PROPERTIES, WITH POTENTIAL BENEFITS IN THE TREATMENT OF VARIOUS HUMAN DISEASES. EMERGING STUDIES BRING EVIDENCE THAT NUTRITION MAY PLAY AN ESSENTIAL ROLE IN IMMUNE SYSTEM MODULATION ALSO BY ALTERING GENE EXPRESSION. THIS REVIEW DISCUSSES EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION, POST-TRANSLATIONAL HISTONE MODIFICATION, AND NON-CODING MICRORNA ACTIVITY THAT REGULATE THE GENE EXPRESSION OF MOLECULES INVOLVED IN INFLAMMATORY PROCESSES. SPECIAL ATTENTION IS PAID TO THE MOLECULAR BASIS OF NF-KAPPAB MODULATION BY DIETARY PHENOLIC COMPOUNDS. THE REGULATION OF HISTONE ACETYLTRANSFERASE AND HISTONE DEACETYLASE ACTIVITY, WHICH ALL INFLUENCE NF-KAPPAB SIGNALING, SEEMS TO BE A CRUCIAL MECHANISM OF THE EPIGENETIC CONTROL OF INFLAMMATION BY PHENOLIC COMPOUNDS. MOREOVER, CHRONIC INFLAMMATORY PROCESSES ARE REPORTED TO BE CLOSELY CONNECTED TO THE MAJOR STAGES OF CARCINOGENESIS AND OTHER NON-COMMUNICABLE DISEASES. THEREFORE, DIETARY PHENOLIC COMPOUNDS-TARGETED EPIGENETICS IS BECOMING AN ATTRACTIVE APPROACH FOR DISEASE PREVENTION AND INTERVENTION. 2020 11 1864 35 EMERGING AVENUES LINKING INFLAMMATION AND CANCER. THE ROLE OF INFLAMMATION IN CARCINOGENESIS HAS BEEN EXTENSIVELY INVESTIGATED AND WELL DOCUMENTED. MANY BIOCHEMICAL PROCESSES THAT ARE ALTERED DURING CHRONIC INFLAMMATION HAVE BEEN IMPLICATED IN TUMORIGENESIS. THESE INCLUDE SHIFTING CELLULAR REDOX BALANCE TOWARD OXIDATIVE STRESS; INDUCTION OF GENOMIC INSTABILITY; INCREASED DNA DAMAGE; STIMULATION OF CELL PROLIFERATION, METASTASIS, AND ANGIOGENESIS; DEREGULATION OF CELLULAR EPIGENETIC CONTROL OF GENE EXPRESSION; AND INAPPROPRIATE EPITHELIAL-TO-MESENCHYMAL TRANSITION. A WIDE ARRAY OF PROINFLAMMATORY CYTOKINES, PROSTAGLANDINS, NITRIC OXIDE, AND MATRICELLULAR PROTEINS ARE CLOSELY INVOLVED IN PREMALIGNANT AND MALIGNANT CONVERSION OF CELLS IN A BACKGROUND OF CHRONIC INFLAMMATION. INAPPROPRIATE TRANSCRIPTION OF GENES ENCODING INFLAMMATORY MEDIATORS, SURVIVAL FACTORS, AND ANGIOGENIC AND METASTATIC PROTEINS IS THE KEY MOLECULAR EVENT IN LINKING INFLAMMATION AND CANCER. ABERRANT CELL SIGNALING PATHWAYS COMPRISING VARIOUS KINASES AND THEIR DOWNSTREAM TRANSCRIPTION FACTORS HAVE BEEN IDENTIFIED AS THE MAJOR CONTRIBUTORS IN ABNORMAL GENE EXPRESSION ASSOCIATED WITH INFLAMMATION-DRIVEN CARCINOGENESIS. THE POSTTRANSCRIPTIONAL REGULATION OF GENE EXPRESSION BY MICRORNAS ALSO PROVIDES THE MOLECULAR BASIS FOR LINKING INFLAMMATION TO CANCER. THIS REVIEW HIGHLIGHTS THE MULTIFACETED ROLE OF INFLAMMATION IN CARCINOGENESIS IN THE CONTEXT OF ALTERED CELLULAR REDOX SIGNALING. 2012 12 6395 35 THE ROLE OF THE MEDIATORS OF INFLAMMATION IN CANCER DEVELOPMENT. EPIGENETIC DISORDERS SUCH AS POINT MUTATIONS IN CELLULAR TUMOR SUPPRESSOR GENES, DNA METHYLATION AND POST-TRANSLATIONAL MODIFICATIONS ARE NEEDED TO TRANSFORMATION OF NORMAL CELLS INTO CANCER CELLS. THESE EVENTS RESULT IN ALTERATIONS IN CRITICAL PATHWAYS RESPONSIBLE FOR MAINTAINING THE NORMAL CELLULAR HOMEOSTASIS, TRIGGERING TO AN INFLAMMATORY RESPONSE WHICH CAN LEAD THE DEVELOPMENT OF CANCER. THE INFLAMMATORY RESPONSE IS A UNIVERSAL DEFENSE MECHANISM ACTIVATED IN RESPONSE TO AN INJURY TISSUE, OF ANY NATURE, THAT INVOLVES BOTH INNATE AND ADAPTIVE IMMUNE RESPONSES, THROUGH THE COLLECTIVE ACTION OF A VARIETY OF SOLUBLE MEDIATORS. MANY INFLAMMATORY SIGNALING PATHWAYS ARE ACTIVATED IN SEVERAL TYPES OF CANCER, LINKING CHRONIC INFLAMMATION TO TUMORIGENESIS PROCESS. THUS, INFLAMMATORY RESPONSES PLAY DECISIVE ROLES AT DIFFERENT STAGES OF TUMOR DEVELOPMENT, INCLUDING INITIATION, PROMOTION, GROWTH, INVASION, AND METASTASIS, AFFECTING ALSO THE IMMUNE SURVEILLANCE. IMMUNE CELLS THAT INFILTRATE TUMORS ENGAGE IN AN EXTENSIVE AND DYNAMIC CROSSTALK WITH CANCER CELLS, AND SOME OF THE MOLECULAR EVENTS THAT MEDIATE THIS DIALOG HAVE BEEN REVEALED. A RANGE OF INFLAMMATION MEDIATORS, INCLUDING CYTOKINES, CHEMOKINES, FREE RADICALS, PROSTAGLANDINS, GROWTH AND TRANSCRIPTION FACTORS, MICRORNAS, AND ENZYMES AS, CYCLOOXYGENASE AND MATRIX METALLOPROTEINASE, COLLECTIVELY ACTS TO CREATE A FAVORABLE MICROENVIRONMENT FOR THE DEVELOPMENT OF TUMORS. IN THIS REVIEW ARE PRESENTED THE MAIN MEDIATORS OF THE INFLAMMATORY RESPONSE AND DISCUSSED THE LIKELY MECHANISMS THROUGH WHICH, THEY INTERACT WITH EACH OTHER TO CREATE A CONDITION FAVORABLE TO DEVELOPMENT OF CANCER. 2015 13 2950 30 GENETIC AND EPIGENETIC DAMAGE INDUCED BY REACTIVE NITROGEN SPECIES: IMPLICATIONS IN CARCINOGENESIS. CHRONIC INFECTION AND INFLAMMATION ARE RECOGNIZED RISK FACTORS FOR HUMAN CANCER AT VARIOUS SITES. INFECTION AND INFLAMMATION CAN ACTIVATE AND INDUCE A VARIETY OF OXIDANT-GENERATING ENZYMES, INCLUDING NADPH OXIDASE AND INDUCIBLE NITRIC OXIDE SYNTHASE. REACTIVE OXYGEN AND NITROGEN SPECIES PRODUCED BY SUCH ENZYMES REACT WITH EACH OTHER TO GENERATE NEW AND MORE POTENT REACTIVE SPECIES. THESE OXIDANTS NOT ONLY CAN DAMAGE DNA AND INDUCE MUTATIONS, BUT ALSO CAN ACTIVATE ONCOGENE PRODUCTS AND/OR INACTIVATE TUMOR-SUPPRESSOR PROTEINS, THUS CONTRIBUTING TO MOST PROCESSES OF CARCINOGENESIS. APPROPRIATE TREATMENT OF INFLAMMATION SHOULD BE FURTHER EXPLORED FOR CHEMOPREVENTION OF HUMAN CANCERS, ESPECIALLY THOSE ASSOCIATED WITH CHRONIC INFLAMMATION. 2003 14 6100 41 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 15 4597 27 NATURAL PRODUCTS WITH ANTI-AGING POTENTIAL: AFFECTED TARGETS AND MOLECULAR MECHANISMS. IN RECENT YEARS, THERE HAS BEEN A GREAT DEAL OF ATTENTION TOWARD THE MOLECULAR MACHINERY RELEVANT TO AGE-RELATED PROGRESSION CONTROLLED THROUGH THE EXTERNAL INTERVENTION OF POLYPHENOLS- AN EPIGENETIC-MODULATING DIET. NATURAL PRODUCTS MODULATE CELLULAR LONGEVITY THROUGH HISTONE POST-TRANSLATIONAL MODIFICATION AND CAN ALSO INDUCE THE UPREGULATION OF AUTOPHAGY, THUS REDUCING THE LEVEL OF ACETYL COENZYME A (ACCOA). IN ADDITION, THE EFFECT OF CALORIC RESTRICTION (CR) ON CANCER-RELATED CHRONIC INFLAMMATION IS OF GREAT SIGNIFICANCE IN AGING. IN LINE WITH THIS, SIRT1 PROTEIN LEVELS ARE EXPANDED IN RESPONSE TO CALORIE RESTRICTION MIMETICS (CRM), IN THIS WAY ACTING AS AUTOPHAGY INDUCERS RELEVANT TO CANCER PREVENTION. 2018 16 1254 32 CURRENT PROGRESS ON THE MECHANISMS OF HYPERHOMOCYSTEINEMIA-INDUCED VASCULAR INJURY AND USE OF NATURAL POLYPHENOL COMPOUNDS. CARDIOVASCULAR DISEASE IS ONE OF THE MOST COMMON DISEASES IN THE ELDERLY POPULATION, AND ITS INCIDENCE HAS RAPIDLY INCREASED WITH THE PROLONGATION OF LIFE EXPECTANCY. HYPERHOMOCYSTEINEMIA IS AN INDEPENDENT RISK FACTOR FOR VARIOUS CARDIOVASCULAR DISEASES, INCLUDING ATHEROSCLEROSIS, AND DAMAGE TO VASCULAR FUNCTION PLAYS AN INITIAL ROLE IN ITS PATHOGENESIS. THIS REVIEW PRESENTS THE LATEST KNOWLEDGE ON THE MECHANISMS OF VASCULAR INJURY CAUSED BY HYPERHOMOCYSTEINEMIA, INCLUDING OXIDATIVE STRESS, ENDOPLASMIC RETICULUM STRESS, PROTEIN N-HOMOCYSTEINIZATION, AND EPIGENETIC MODIFICATION, AND DISCUSSES THE THERAPEUTIC TARGETS OF NATURAL POLYPHENOLS. STUDIES HAVE SHOWN THAT NATURAL POLYPHENOLS IN PLANTS CAN REDUCE HOMOCYSTEINE LEVELS AND REGULATE DNA METHYLATION BY ACTING ON OXIDATIVE STRESS AND ENDOPLASMIC RETICULUM STRESS-RELATED SIGNALING PATHWAYS, THUS IMPROVING HYPERHOMOCYSTEINEMIA-INDUCED VASCULAR INJURY. NATURAL POLYPHENOLS OBTAINED VIA DAILY DIET ARE SAFER AND HAVE MORE PRACTICAL SIGNIFICANCE IN THE PREVENTION AND TREATMENT OF CHRONIC DISEASES THAN TRADITIONAL DRUGS. 2021 17 4897 36 OXIDATIVE STRESS IN ALCOHOL-RELATED LIVER DISEASE. ALCOHOL CONSUMPTION IS ONE OF THE LEADING CAUSES OF THE GLOBAL BURDEN OF DISEASE AND RESULTS IN HIGH HEALTHCARE AND ECONOMIC COSTS. HEAVY ALCOHOL MISUSE LEADS TO ALCOHOL-RELATED LIVER DISEASE, WHICH IS RESPONSIBLE FOR A SIGNIFICANT PROPORTION OF ALCOHOL-ATTRIBUTABLE DEATHS GLOBALLY. OTHER THAN REDUCING ALCOHOL CONSUMPTION, THERE ARE CURRENTLY NO EFFECTIVE TREATMENTS FOR ALCOHOL-RELATED LIVER DISEASE. OXIDATIVE STRESS REFERS TO AN IMBALANCE IN THE PRODUCTION AND ELIMINATION OF REACTIVE OXYGEN SPECIES AND ANTIOXIDANTS. IT PLAYS IMPORTANT ROLES IN SEVERAL ASPECTS OF ALCOHOL-RELATED LIVER DISEASE PATHOGENESIS. HERE, WE REVIEW HOW CHRONIC ALCOHOL USE RESULTS IN OXIDATIVE STRESS THROUGH INCREASED METABOLISM VIA THE CYTOCHROME P450 2E1 SYSTEM PRODUCING REACTIVE OXYGEN SPECIES, ACETALDEHYDE AND PROTEIN AND DNA ADDUCTS. THESE TRIGGER INFLAMMATORY SIGNALING PATHWAYS WITHIN THE LIVER LEADING TO EXPRESSION OF PRO-INFLAMMATORY MEDIATORS CAUSING HEPATOCYTE APOPTOSIS AND NECROSIS. REACTIVE OXYGEN SPECIES EXPOSURE ALSO RESULTS IN MITOCHONDRIAL STRESS WITHIN HEPATOCYTES CAUSING STRUCTURAL AND FUNCTIONAL DYSREGULATION OF MITOCHONDRIA AND UPREGULATING APOPTOTIC SIGNALING. THERE IS ALSO EVIDENCE THAT OXIDATIVE STRESS AS WELL AS THE DIRECT EFFECT OF ALCOHOL INFLUENCES EPIGENETIC REGULATION. INCREASED GLOBAL HISTONE METHYLATION AND ACETYLATION AND SPECIFIC HISTONE ACETYLATION INHIBITS ANTIOXIDANT RESPONSES AND PROMOTES EXPRESSION OF KEY PRO-INFLAMMATORY GENES. THIS REVIEW HIGHLIGHTS ASPECTS OF THE ROLE OF OXIDATIVE STRESS IN DISEASE PATHOGENESIS THAT WARRANT FURTHER STUDY INCLUDING MITOCHONDRIAL STRESS AND EPIGENETIC REGULATION. IMPROVED UNDERSTANDING OF THESE PROCESSES MAY IDENTIFY NOVEL TARGETS FOR THERAPY. 2020 18 5550 37 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 3672 27 INFLAMMATION AND CANCER: AN ANCIENT LINK WITH NOVEL POTENTIALS. INFECTION AND CHRONIC INFLAMMATION CONTRIBUTE TO ABOUT 1 IN 4 OF ALL CANCER CASES. MEDIATORS OF THE INFLAMMATORY RESPONSE, E.G., CYTOKINES, FREE RADICALS, PROSTAGLANDINS AND GROWTH FACTORS, CAN INDUCE GENETIC AND EPIGENETIC CHANGES INCLUDING POINT MUTATIONS IN TUMOR SUPPRESSOR GENES, DNA METHYLATION AND POST-TRANSLATIONAL MODIFICATIONS, CAUSING ALTERATIONS IN CRITICAL PATHWAYS RESPONSIBLE FOR MAINTAINING THE NORMAL CELLULAR HOMEOSTASIS AND LEADING TO THE DEVELOPMENT AND PROGRESSION OF CANCER. RECENT DISCOVERY OF AN INTERACTION BETWEEN MICRORNAS AND INNATE IMMUNITY DURING INFLAMMATION HAS FURTHER STRENGTHENED THE ASSOCIATION BETWEEN INFLAMMATION AND CANCER. 2007 20 2100 25 EPIGENETIC EFFECTS OF NATURAL POLYPHENOLS: A FOCUS ON SIRT1-MEDIATED MECHANISMS. POLYPHENOLS ARE A CLASS OF NATURAL COMPOUNDS WIDELY DISTRIBUTED IN FRUITS, VEGETABLES, AND PLANTS. THEY HAVE BEEN REPORTED TO POSSESS A WIDE RANGE OF ACTIVITIES IN PREVENTION AND ALLEVIATION OF VARIOUS DISEASES LIKE CANCER, NEUROINFLAMMATION, DIABETES, AND AGING. POLYPHENOLS ARE EFFECTIVE AGAINST CHRONIC DISEASES AND RECENT REPORTS INDICATED STRONG EPIGENETIC EFFECTS OF POLYPHENOLS. MOST OF THE STUDIES INVESTIGATING EPIGENETIC EFFECTS OF NATURAL POLYPHENOLS HAVE FOCUSED ON THEIR BENEFICIAL EFFECTS IN CANCER TREATMENT. HOWEVER, EPIGENETIC DEFECTS HAVE BEEN DEMONSTRATED IN MANY OTHER DISEASES AS WELL, AND APPLICATION OF POLYPHENOLS TO MODULATE THE EPIGENOME IS BECOMING AN INTERESTING FIELD OF RESEARCH. THIS REVIEW SUMMARIZES THE EFFECTS OF NATURAL POLYPHENOLS IN MODULATING EPIGENETIC-RELATED ENZYMES AS WELL AS THEIR EFFECT IN PREVENTION AND TREATMENT OF CHRONIC DISEASES WITH A FOCUS ON SIRT1 MODULATION. WE HAVE ALSO DISCUSSED THE RELATION BETWEEN THE STRUCTURE AND FUNCTION OF EPIGENETIC-MODIFYING POLYPHENOLS. 2014