1 4534 109 MULTIPLE REGULATIONS OF KEAP1/NRF2 SYSTEM BY DIETARY PHYTOCHEMICALS. KEAP1/NRF2 SYSTEM PLAYS A CRITICAL ROLE ON CELLULAR PROTECTION BY REGULATING MANY ANTIOXIDANT AND DETOXIFICATION ENZYME GENES THROUGH THE ANTIOXIDANT RESPONSE ELEMENT (ARE). THUS, IT MUST WORK CONSTANTLY TO PREVENT THE ACCUMULATION OF REACTIVE OXYGEN SPECIES (ROS) BECAUSE EXCESS ROS ARE ASSOCIATED WITH MANY DISEASES SUCH AS CANCER, CARDIOVASCULAR COMPLICATIONS, INFLAMMATION, AND NEURODEGENERATION. DIETARY PHYTOCHEMICALS WIDELY DISTRIBUTING IN FRUITS AND VEGETABLES HAVE BEEN CONSIDERED TO POSSESS CANCER CHEMOPREVENTIVE POTENTIAL THROUGH THE INDUCTION OF KEAP1/NRF2 SYSTEM-MEDIATED ANTIOXIDANT AND DETOXIFICATION ENZYMES IN A VARIETY OF MANNERS. THE DATA ARE EXTENSIVE AND ARE NOT WELL CLASSIFIED ON THE MOLECULAR MECHANISMS. IN THIS REVIEW, WE FIRST BRIEFLY INTRODUCE THE CURRENT KNOWLEDGE ON KEAP1/NRF2 SYSTEM REGULATION INCLUDING KEAP1-DEPENDENT AND KEAP1-INDEPENDENT CASCADES, AND EPIGENETIC PATHWAY. THEN, WE SUMMARIZE THE MOLECULAR TARGETS OF KEAP1/NRF2 SYSTEM BY DIETARY PHYTOCHEMICALS, AND FINALLY REVIEW THE CROSSTALK BETWEEN KEAP1/NRF2 SYSTEM AND OTHER CELLULAR SIGNALING PATHWAYS TO REGULATE DIVERSE CHRONIC DISEASES BY DIETARY PHYTOCHEMICALS. THESE COMPREHENSIVE DATA WILL HELP US TO UNDERSTAND THE POTENTIAL EFFECTS OF DIETARY PHYTOCHEMICALS ON THE PREVENTION OF CHRONIC DISEASES AND MAINTENANCE OF HUMAN HEALTH. 2016 2 2339 39 EPIGENETIC REGULATION OF KEAP1-NRF2 SIGNALING. THE KELCH-LIKE ECH-ASSOCIATED PROTEIN 1 (KEAP1)-NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 (NRF2) SIGNALING AXIS SERVES AS A "MASTER REGULATOR" IN RESPONSE TO OXIDATIVE/ELECTROPHILIC STRESSES AND CHEMICAL INSULTS THROUGH THE COORDINATED INDUCTION OF A WIDE ARRAY OF CYTOPROTECTIVE GENES. THEREFORE, ACTIVATION OF NRF2 IS CONSIDERED TO BE AN IMPORTANT APPROACH FOR PREVENTING CHRONIC DISEASES TRIGGERED BY STRESSES AND TOXINS, INCLUDING CANCER. DESPITE EXTENSIVE STUDIES SUGGESTED THAT THE KEAP1-NRF2 SIGNALING PATHWAY IS SUBJECT TO MULTIPLE LAYERS OF REGULATION AT THE TRANSCRIPTIONAL, TRANSLATIONAL, AND POST-TRANSLATIONAL LEVELS, THE POTENTIAL EPIGENETIC REGULATION OF NRF2 AND KEAP1 HAS BEGUN TO BE RECOGNIZED ONLY IN RECENT YEARS. EPIGENETIC MODIFICATIONS, HERITABLE ALTERATIONS IN GENE EXPRESSION THAT OCCUR WITHOUT CHANGES IN THE PRIMARY DNA SEQUENCE, HAVE BEEN REPORTED TO BE PROFOUNDLY INVOLVED IN OXIDATIVE STRESS RESPONSES. IN THIS REVIEW, WE DISCUSS THE LATEST FINDINGS REGARDING THE EPIGENETIC REGULATION OF KEAP1-NRF2 SIGNALING BY DNA METHYLATION, HISTONE MODIFICATION, AND MICRORNAS. THE CROSSTALK AMONG THESE EPIGENETIC MODIFICATIONS IN THE REGULATION OF KEAP1-NRF2 SIGNALING PATHWAYS IS ALSO DISCUSSED. STUDIES OF THE EPIGENETIC MODIFICATION OF NRF2 AND KEAP1 HAVE NOT ONLY ENHANCED OUR UNDERSTANDING OF THIS COMPLEX CELLULAR DEFENSE SYSTEM BUT HAVE ALSO PROVIDED POTENTIAL NEW THERAPEUTIC TARGETS FOR THE PREVENTION OF CERTAIN DISEASES. 2015 3 1413 40 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 4 4764 26 NRF2: FRIEND OR FOE FOR CHEMOPREVENTION? HEALTH REFLECTS THE ABILITY OF AN ORGANISM TO ADAPT TO STRESS. STRESSES--METABOLIC, PROTEOTOXIC, MITOTIC, OXIDATIVE AND DNA-DAMAGE STRESSES--NOT ONLY CONTRIBUTE TO THE ETIOLOGY OF CANCER AND OTHER CHRONIC DEGENERATIVE DISEASES BUT ARE ALSO HALLMARKS OF THE CANCER PHENOTYPE. ACTIVATION OF THE KELCH-LIKE ECH-ASSOCIATED PROTEIN 1 (KEAP1)-NF-E2-RELATED FACTOR 2 (NRF2)-SIGNALING PATHWAY IS AN ADAPTIVE RESPONSE TO ENVIRONMENTAL AND ENDOGENOUS STRESSES AND SERVES TO RENDER ANIMALS RESISTANT TO CHEMICAL CARCINOGENESIS AND OTHER FORMS OF TOXICITY, WHILST DISRUPTION OF THE PATHWAY EXACERBATES THESE OUTCOMES. THIS PATHWAY CAN BE INDUCED BY THIOL-REACTIVE SMALL MOLECULES THAT DEMONSTRATE PROTECTIVE EFFICACY IN PRECLINICAL CHEMOPREVENTION MODELS AND IN CLINICAL TRIALS. HOWEVER, MUTATIONS AND EPIGENETIC MODIFICATIONS AFFECTING THE REGULATION AND FATE OF NRF2 CAN LEAD TO CONSTITUTIVE DOMINANT HYPERACTIVATION OF SIGNALING THAT PRESERVES RATHER THAN ATTENUATES CANCER PHENOTYPES BY PROVIDING SELECTIVE RESISTANCE TO STRESSES. THIS REVIEW PROVIDES A SYNOPSIS OF KEAP1-NRF2 SIGNALING, COMPARES THE IMPACT OF GENETIC VERSUS PHARMACOLOGIC ACTIVATION AND CONSIDERS BOTH THE ATTRIBUTES AND CONCERNS OF TARGETING THE PATHWAY IN CHEMOPREVENTION. 2010 5 6333 31 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 6 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 7 2100 33 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 8 4652 27 NEUROPROTECTION WITH NATURAL ANTIOXIDANTS AND NUTRACEUTICALS IN THE CONTEXT OF BRAIN CELL DEGENERATION: THE EPIGENETIC CONNECTION. BIOACTIVE ANTIOXIDANT AGENTS PRESENT IN SELECTED PLANTS ARE KNOWN TO PROVIDE THE FIRST LINE OF BIOLOGICAL DEFENSE AGAINST OXIDATIVE STRESS. IN PARTICULAR, SOLUBLE VITAMIN C, E, CAROTENOIDS AND PHENOLIC COMPOUNDS HAVE DEMONSTRATED CRUCIAL BIOLOGICAL EFFECTS IN CELLS AGAINST OXIDATIVE DAMAGE, PREVENTING PREVALENT CHRONIC DISEASES, SUCH AS DIABETES, CANCER AND CARDIOVASCULAR DISEASE. THE REPORTED WIDE RANGE OF EFFECTS THAT INCLUDED ANTI-AGING, ANTI-ATHEROSCLEROSIS, ANTI-INFLAMMATORY AND ANTICANCER ACTIVITY WERE STUDIED AGAINST DEGENERATIVE PATHOLOGIES OF THE BRAIN. VITAMINS AND DIFFERENT PHYTOCHEMICALS ARE IMPORTANT EPIGENETIC MODIFIERS THAT PREVENT NEURODEGENERATION. IN ORDER TO EXPLORE THE POTENTIAL ANTIOXIDANT SOURCES IN FUNCTIONAL FOODS AND NUTRACEUTICALS AGAINST NEURODEGENERATION, THE PRESENT PAPER AIMS TO SHOW A COMPREHENSIVE ASSESSMENT OF ANTIOXIDANT ACTIVITY AT CHEMICAL AND CELLULAR LEVELS. THE EFFECTS OF THE DIFFERENT BIOACTIVE COMPOUNDS AVAILABLE AND THEIR ANTIOXIDANT ACTIVITY THROUGH AN EPIGENETIC POINT OF VIEW ARE ALSO DISCUSSED. 2019 9 1414 37 DIETARY PHYTOCHEMICALS IN NEUROIMMUNOAGING: A NEW THERAPEUTIC POSSIBILITY FOR HUMANS? ALTHOUGH SEVERAL EFFORTS HAVE BEEN MADE IN THE SEARCH FOR GENETIC AND EPIGENETIC PATTERNS LINKED TO DISEASES, A COMPREHENSIVE EXPLANATION OF THE MECHANISMS UNDERLYING PATHOLOGICAL PHENOTYPIC PLASTICITY IS STILL FAR FROM BEING CLARIFIED. OXIDATIVE STRESS AND INFLAMMATION ARE TWO OF THE MAJOR TRIGGERS OF THE EPIGENETIC ALTERATIONS OCCURRING IN CHRONIC PATHOLOGIES, SUCH AS NEURODEGENERATIVE DISEASES. IN FACT, OVER THE LAST DECADE, REMARKABLE PROGRESS HAS BEEN MADE TO REALIZE THAT CHRONIC, LOW-GRADE INFLAMMATION IS ONE OF THE MAJOR RISK FACTOR UNDERLYING BRAIN AGING. ACCUMULATED DATA STRONGLY SUGGEST THAT PHYTOCHEMICALS FROM FRUITS, VEGETABLES, HERBS, AND SPICES MAY EXERT RELEVANT IMMUNOMODULATORY AND/OR ANTI-INFLAMMATORY ACTIVITIES IN THE CONTEXT OF BRAIN AGING. STARTING BY THE EVIDENCE THAT A COMMON DENOMINATOR OF AGING AND CHRONIC DEGENERATIVE DISEASES IS REPRESENTED BY INFLAMMATION, AND THAT SEVERAL DIETARY PHYTOCHEMICALS ARE ABLE TO POTENTIALLY INTERFERE WITH AND REGULATE THE NORMAL FUNCTION OF CELLS, IN PARTICULAR NEURONAL COMPONENTS, AIM OF THIS REVIEW IS TO SUMMARIZE RECENT STUDIES ON NEUROINFLAMMAGING PROCESSES AND PROOFS INDICATING THAT SPECIFIC PHYTOCHEMICALS MAY ACT AS POSITIVE MODULATORS OF NEUROINFLAMMATORY EVENTS. IN ADDITION, CRITICAL PATHWAYS INVOLVED IN MEDIATING PHYTOCHEMICALS EFFECTS ON NEUROINFLAMMAGING WERE DISCUSSED, EXPLORING THE REAL IMPACT OF THESE COMPOUNDS IN PRESERVING BRAIN HEALTH BEFORE THE ONSET OF SYMPTOMS LEADING TO INFLAMMATORY NEURODEGENERATION AND COGNITIVE DECLINE. 2016 10 1254 28 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 11 4898 36 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 12 5390 32 REDOX-FIBROSIS: IMPACT OF TGFBETA1 ON ROS GENERATORS, MEDIATORS AND FUNCTIONAL CONSEQUENCES. FIBROSIS IS ONE OF THE MOST PREVALENT FEATURES OF AGE-RELATED DISEASES LIKE OBESITY, DIABETES, NON-ALCOHOLIC FATTY LIVER DISEASE, CHRONIC KIDNEY DISEASE, OR CARDIOMYOPATHY AND AFFECTS MILLIONS OF PEOPLE IN ALL COUNTRIES. ALTHOUGH THE UNDERSTANDING ABOUT THE PATHOPHYSIOLOGY OF FIBROSIS HAS IMPROVED A LOT DURING THE RECENT YEARS, A NUMBER OF MECHANISMS STILL REMAIN UNKNOWN. ALTHOUGH TGF-BETA1 SIGNALING, LOSS OF METABOLIC HOMEOSTASIS AND CHRONIC LOW-GRADE INFLAMMATION APPEAR TO PLAY IMPORTANT ROLES IN THE PATHOGENESIS OF FIBROSIS, RECENT EVIDENCE INDICATES THAT OXIDATIVE STRESS AND THE ANTIOXIDANT SYSTEM MAY ALSO BE CRUCIAL FOR FIBROSIS DEVELOPMENT AND PERSISTENCE. THESE FINDINGS POINT TO A CONCEPT OF A REDOX-FIBROSIS WHERE THE CELLULAR OXIDANT AND ANTIOXIDANT SYSTEM COULD BE POTENTIAL THERAPEUTIC TARGETS. THE CURRENT REVIEW AIMS TO SUMMARIZE THE EXISTING LINKS BETWEEN TGF-BETA1 SIGNALING, GENERATION AND ACTION OF REACTIVE OXYGEN SPECIES, EXPRESSION OF ANTIOXIDATIVE ENZYMES, AND FUNCTIONAL CONSEQUENCES INCLUDING EPIGENETIC REDOX-MEDIATED RESPONSES DURING FIBROSIS. 2015 13 4836 34 ONCOGENIC FUNCTIONS OF THE TRANSCRIPTION FACTOR NRF2. NUCLEAR FACTOR E2-RELATED FACTOR 2 (NRF2) IS A TRANSCRIPTION FACTOR THAT CONTROLS THE EXPRESSION OF A LARGE POOL OF ANTIOXIDANT AND CYTOPROTECTIVE GENES REGULATING THE CELLULAR RESPONSE TO OXIDATIVE AND ELECTROPHILIC STRESS. NRF2 IS NEGATIVELY REGULATED BY KELCH-LIKE ECH-ASSOCIATED PROTEIN 1 (KEAP1) AND, UPON STIMULATION BY AN OXIDATIVE OR ELECTROPHILIC INSULT, IS RAPIDLY ACTIVATED BY PROTEIN STABILIZATION. OWING TO ITS CYTOPROTECTIVE FUNCTIONS, NRF2 HAS BEEN TRADITIONALLY STUDIED IN THE FIELD OF CHEMOPREVENTION; HOWEVER, THERE IS ACCUMULATED EVIDENCE THAT KEAP1/NRF2 MUTATIONS OR UNBALANCED REGULATION THAT LEADS TO OVEREXPRESSION OR HYPERACTIVATION OF NRF2 MAY PARTICIPATE IN TUMORIGENESIS AND BE INVOLVED IN CHEMORESISTANCE OF A WIDE NUMBER OF SOLID CANCERS AND LEUKEMIAS. IN ADDITION TO PROTECTING CELLS FROM REACTIVE OXYGEN SPECIES, NRF2 SEEMS TO PLAY A DIRECT ROLE IN CELL GROWTH CONTROL AND IS RELATED TO APOPTOSIS-REGULATING PATHWAYS. MOREOVER, NRF2 ACTIVITY IS CONNECTED WITH ONCOGENIC KINASE PATHWAYS, STRUCTURAL PROTEINS, HORMONAL REGULATION, OTHER TRANSCRIPTION FACTORS, AND EPIGENETIC ENZYMES INVOLVED IN THE PATHOGENESIS OF VARIOUS TYPES OF TUMORS. THE AIM OF THIS REVIEW IS TO COMPILE AND SUMMARIZE EXISTING KNOWLEDGE OF THE ONCOGENIC FUNCTIONS OF NRF2 TO PROVIDE A SOLID BASIS FOR ITS POTENTIAL USE AS A MOLECULAR MARKER AND PHARMACOLOGICAL TARGET IN CANCER. 2013 14 5943 34 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 15 1416 28 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 16 4895 42 OXIDATIVE STRESS DRIVERS AND MODULATORS IN OBESITY AND CARDIOVASCULAR DISEASE: FROM BIOMARKERS TO THERAPEUTIC APPROACH. THIS REVIEW ARTICLE IS INTENDED TO DESCRIBE HOW OXIDATIVE STRESS REGULATES CARDIOVASCULAR DISEASE DEVELOPMENT AND PROGRESSION. EPIGENETIC MECHANISMS RELATED TO OXIDATIVE STRESS, AS WELL AS MORE RELIABLE BIOMARKERS OF OXIDATIVE STRESS, ARE EMERGING OVER THE LAST YEARS AS POTENTIALLY USEFUL TOOLS TO DESIGN THERAPEUTIC APPROACHES AIMED AT MODULATING ENHANCED OXIDATIVE STRESS "IN VIVO", THEREBY MITIGATING THE CONSEQUENT ATHEROSCLEROTIC BURDEN. AS A PARADIGM, WE DESCRIBE THE CASE OF OBESITY, IN WHICH THE INTERTWINING AMONG OXIDATIVE STRESS, DUE TO CALORIC OVERLOAD, CHRONIC LOW-GRADE INFLAMMATION INDUCED BY ADIPOSE TISSUE DYSFUNCTION, AND PLATELET ACTIVATION REPRESENTS A VICIOUS CYCLE FAVORING THE PROGRESSION OF ATHEROTHROMBOSIS. OXIDATIVE STRESS IS A MAJOR PLAYER IN THE PATHOBIOLOGY OF CARDIOVASCULAR DISEASE (CVD). REACTIVE OXYGEN SPECIES (ROS)- DEPENDENT SIGNALING PATHWAYS PROMPT TRANSCRIPTIONAL AND EPIGENETIC DYSREGULATION, INDUCING CHRONIC LOW-GRADE INFLAMMATION, PLATELET ACTIVATION AND ENDOTHELIAL DYSFUNCTION. IN ADDITION, SEVERAL OXIDATIVE BIOMARKERS HAVE BEEN PROPOSED WITH THE POTENTIAL TO IMPROVE CURRENT UNDERSTANDING OF THE MECHANISMS UNDERLYING CVD. THESE INCLUDE ROS-GENERATING AND/OR QUENCHING MOLECULES, AND ROS-MODIFIED COMPOUNDS, SUCH AS F2-ISOPROSTANES. THERE IS ALSO INCREASING EVIDENCE THAT NONCODING MICRO- RNA (MI-RNA) ARE CRITICALLY INVOLVED IN POST- TRANSCRIPTIONAL REGULATION OF CELL FUNCTIONS, INCLUDING ROS GENERATION, INFLAMMATION, REGULATION OF CELL PROLIFERATION, ADIPOCYTE DIFFERENTIATION, ANGIOGENESIS AND APOPTOSIS. THESE MOLECULES HAVE PROMISING TRANSLATIONAL POTENTIAL AS BOTH MARKERS OF DISEASE AND SITE OF TARGETED INTERVENTIONS. FINALLY, OXIDATIVE STRESS IS A CRITICAL TARGET OF SEVERAL CARDIOPROTECTIVE DRUGS AND NUTRACEUTICALS, INCLUDING ANTIDIABETIC AGENTS, STATINS, RENIN-ANGIOTENSIN SYSTEM BLOCKERS, POLYPHENOLS AND OTHER ANTIOXIDANTS. FURTHER UNDERSTANDING OF ROS-GENERATING MECHANISMS, THEIR BIOLOGICAL ROLE AS WELL AS POTENTIAL THERAPEUTIC IMPLICATIONS WOULD TRANSLATE INTO CONSISTENT BENEFITS FOR EFFECTIVE CV PREVENTION. 2015 17 1405 29 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 18 6045 34 THE COMPLEXITY OF THE NRF2 PATHWAY: BEYOND THE ANTIOXIDANT RESPONSE. THE NF-E2-RELATED FACTOR 2 (NRF2)-MEDIATED SIGNALLING PATHWAY PROVIDES LIVING ORGANISMS AN EFFICIENT AND PIVOTAL LINE OF DEFENSIVE TO COUNTERACT ENVIRONMENTAL INSULTS AND ENDOGENOUS STRESSORS. NRF2 COORDINATES THE BASAL AND INDUCIBLE EXPRESSION OF ANTIOXIDANT AND PHASE II DETOXIFICATION ENZYMES TO ADAPT TO DIFFERENT STRESS CONDITIONS. THE STABILITY AND CELLULAR DISTRIBUTION OF NRF2 IS TIGHTLY CONTROLLED BY ITS INHIBITORY BINDING PROTEIN KELCH-LIKE ECH-ASSOCIATED PROTEIN 1. NRF2 SIGNALLING IS ALSO REGULATED BY POSTTRANSLATIONAL, TRANSCRIPTIONAL, TRANSLATIONAL AND EPIGENETIC MECHANISMS, AS WELL AS BY OTHER PROTEIN PARTNERS, INCLUDING P62, P21 AND IQ MOTIF-CONTAINING GTPASE ACTIVATING PROTEIN 1. MANY STUDIES HAVE DEMONSTRATED THAT NRF2 IS A PROMISING TARGET FOR PREVENTING CARCINOGENESIS AND OTHER CHRONIC DISEASES, INCLUDING CARDIOVASCULAR DISEASES, NEURODEGENERATIVE DISEASES AND PULMONARY INJURY. HOWEVER, CONSTITUTIVE ACTIVATION OF NRF2 IN ADVANCED CANCER CELLS MAY CONFER DRUG RESISTANCE. HERE, WE REVIEW THE MOLECULAR MECHANISMS OF NRF2 SIGNALLING, THE DIVERSE CLASSES OF NRF2 ACTIVATORS, INCLUDING BIOACTIVE NUTRIENTS AND OTHER CHEMICALS, AND THE CELLULAR FUNCTIONS AND DISEASE RELEVANCE OF NRF2 AND DISCUSS THE DUAL ROLE OF NRF2 IN DIFFERENT CONTEXTS. 2015 19 5410 33 REGULATION OF ADAPTIVE IMMUNE CELLS BY SIRTUINS. IT IS NOW WELL-ESTABLISHED THAT THE PATHWAYS THAT CONTROL LYMPHOCYTE METABOLISM AND FUNCTION ARE INTIMATELY LINKED, AND CHANGES IN LYMPHOCYTE METABOLISM CAN INFLUENCE AND DIRECT CELLULAR FUNCTION. INTERESTINGLY, A NUMBER OF RECENT ADVANCES INDICATE THAT LYMPHOCYTE IDENTITY AND METABOLISM IS PARTIALLY CONTROLLED VIA EPIGENETIC REGULATION. EPIGENETIC MECHANISMS, SUCH AS CHANGES IN DNA METHYLATION OR HISTONE ACETYLATION, HAVE BEEN FOUND TO ALTER IMMUNE FUNCTION AND PLAY A ROLE IN NUMEROUS CHRONIC DISEASE STATES. THERE ARE SEVERAL ENZYMES THAT CAN MEDIATE EPIGENETIC CHANGES; OF PARTICULAR INTEREST ARE SIRTUINS, PROTEIN DEACETYLASES THAT MEDIATE ADAPTIVE RESPONSES TO A VARIETY OF STRESSES (INCLUDING CALORIE RESTRICTION AND METABOLIC STRESS) AND ARE NOW UNDERSTOOD TO PLAY A SIGNIFICANT ROLE IN IMMUNITY. THIS REVIEW WILL FOCUS ON RECENT ADVANCES IN THE UNDERSTANDING OF HOW SIRTUINS AFFECT THE ADAPTIVE IMMUNE SYSTEM. THESE PATHWAYS ARE OF SIGNIFICANT INTEREST AS THERAPEUTIC TARGETS FOR THE TREATMENT OF AUTOIMMUNITY, CANCER, AND TRANSPLANT TOLERANCE. 2019 20 554 36 AUTOPHAGY IN HUMAN HEALTH AND DISEASE: NOVEL THERAPEUTIC OPPORTUNITIES. SIGNIFICANCE: IN EUKARYOTES, AUTOPHAGY REPRESENTS A HIGHLY EVOLUTIONARY CONSERVED PROCESS, THROUGH WHICH MACROMOLECULES AND CYTOPLASMIC MATERIAL ARE DEGRADED INTO LYSOSOMES AND RECYCLED FOR BIOSYNTHETIC OR ENERGETIC PURPOSES. DYSFUNCTION OF THE AUTOPHAGIC PROCESS HAS BEEN ASSOCIATED WITH THE ONSET AND DEVELOPMENT OF MANY HUMAN CHRONIC PATHOLOGIES, SUCH AS CARDIOVASCULAR, METABOLIC, AND NEURODEGENERATIVE DISEASES AS WELL AS CANCER. RECENT ADVANCES: CURRENTLY, COMPREHENSIVE RESEARCH IS BEING CARRIED OUT TO DISCOVER NEW THERAPEUTIC AGENTS THAT ARE ABLE TO MODULATE THE AUTOPHAGIC PROCESS IN VIVO. RECENT EVIDENCE HAS SHOWN THAT A LARGE NUMBER OF NATURAL BIOACTIVE COMPOUNDS ARE INVOLVED IN THE REGULATION OF AUTOPHAGY BY MODULATING SEVERAL TRANSCRIPTIONAL FACTORS AND SIGNALING PATHWAYS. CRITICAL ISSUES: CRITICAL ISSUES THAT DESERVE PARTICULAR ATTENTION ARE THE INADEQUATE UNDERSTANDING OF THE COMPLEX ROLE OF AUTOPHAGY IN DISEASE PATHOGENESIS, THE LIMITED AVAILABILITY OF THERAPEUTIC DRUGS, AND THE LACK OF CLINICAL TRIALS. IN THIS CONTEXT, THE EFFECTS THAT NATURAL BIOACTIVE COMPOUNDS EXERT ON AUTOPHAGIC MODULATION SHOULD BE CLEARLY HIGHLIGHTED, SINCE THEY DEPEND ON THE TYPE AND STAGE OF THE PATHOLOGICAL CONDITIONS OF DISEASES. FUTURE DIRECTIONS: RESEARCH EFFORTS SHOULD NOW FOCUS ON UNDERSTANDING THE SURVIVAL-SUPPORTING AND DEATH-PROMOTING ROLES OF AUTOPHAGY, HOW NATURAL COMPOUNDS INTERACT EXACTLY WITH THE AUTOPHAGIC TARGETS SO AS TO INDUCE OR INHIBIT AUTOPHAGY AND ON THE EVALUATION OF THEIR PHARMACOLOGICAL EFFECTS IN A MORE IN-DEPTH AND MECHANISTIC WAY. IN ADDITION, CLINICAL STUDIES ON AUTOPHAGY-INDUCING NATURAL PRODUCTS ARE STRONGLY ENCOURAGED, ALSO TO HIGHLIGHT SOME FUNDAMENTAL ASPECTS, SUCH AS THE DOSE, THE DURATION, AND THE POSSIBLE SYNERGISTIC ACTION OF THESE COMPOUNDS WITH CONVENTIONAL THERAPY. 2019