1 4764 113 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 2 2339 44 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 6045 42 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 4 4836 38 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 5 4534 26 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 6 4427 37 MOLECULAR BASIS OF ELECTROPHILIC AND OXIDATIVE DEFENSE: PROMISES AND PERILS OF NRF2. INDUCTION OF DRUG-METABOLIZING ENZYMES THROUGH THE ANTIOXIDANT RESPONSE ELEMENT (ARE)-DEPENDENT TRANSCRIPTION WAS INITIALLY IMPLICATED IN CHEMOPREVENTION AGAINST CANCER BY ANTIOXIDANTS. RECENT PROGRESS IN UNDERSTANDING THE BIOLOGY AND MECHANISM OF INDUCTION REVEALED A CRITICAL ROLE OF INDUCTION IN CELLULAR DEFENSE AGAINST ELECTROPHILIC AND OXIDATIVE STRESS. INDUCTION IS MEDIATED THROUGH A NOVEL SIGNALING PATHWAY VIA TWO REGULATORY PROTEINS, THE NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 (NRF2) AND THE KELCH-LIKE ERYTHROID CELL-DERIVED PROTEIN WITH CNC HOMOLOGY-ASSOCIATED PROTEIN 1 (KEAP1). NRF2 BINDS TO KEAP1 AT A TWO SITE-BINDING INTERFACE AND IS UBIQUITINATED BY THE KEAP1/CULLIN 3/RING BOX PROTEIN-1-UBIQUITIN LIGASE, RESULTING IN A RAPID TURNOVER OF NRF2 PROTEIN. ELECTROPHILES AND OXIDANTS MODIFY CRITICAL CYSTEINE THIOLS OF KEAP1 AND NRF2 TO INHIBIT NRF2 UBIQUITINATION, LEADING TO NRF2 ACTIVATION AND INDUCTION. INDUCTION INCREASES STRESS RESISTANCE CRITICAL FOR CELL SURVIVAL, BECAUSE KNOCKOUT OF NRF2 IN MICE INCREASED SUSCEPTIBILITY TO A VARIETY OF TOXICITY AND DISEASE PROCESSES. COLLATERAL TO DIVERSE FUNCTIONS OF NRF2, GENOME-WIDE SEARCH HAS LED TO THE IDENTIFICATION OF A PLETHORA OF ARE-DEPENDENT GENES REGULATED BY NRF2 IN AN INDUCER-, TISSUE-, AND DISEASE-DEPENDENT MANNER TO CONTROL DRUG METABOLISM, ANTIOXIDANT DEFENSE, STRESS RESPONSE, PROTEASOMAL DEGRADATION, AND CELL PROLIFERATION. THE PROTECTIVE NATURE OF NRF2 COULD ALSO BE HIJACKED IN A NUMBER OF PATHOLOGICAL CONDITIONS BY MEANS OF SOMATIC MUTATION, EPIGENETIC ALTERATION, AND ACCUMULATION OF DISRUPTOR PROTEINS, PROMOTING DRUG RESISTANCE IN CANCER AND PATHOLOGIC LIVER FEATURES IN AUTOPHAGY DEFICIENCY. THE REPERTOIRE OF ARE INDUCERS HAS EXPANDED ENORMOUSLY; THE THERAPEUTIC POTENTIAL OF THE INDUCERS HAS BEEN EXAMINED BEYOND CANCER PREVENTION. DEVELOPING POTENT AND SPECIFIC ARE INDUCERS AND NRF2 INHIBITORS HOLDS CERTAIN NEW PROMISE FOR THE PREVENTION AND THERAPY AGAINST CANCER, CHRONIC DISEASE, AND TOXICITY. 2012 7 4987 31 PATTERNS OF CALCIUM SIGNALING: A LINK BETWEEN CHRONIC EMOTIONS AND CANCER. INTRA AND INTER-CELLULAR CALCIUM SIGNALING IS PRESENT IN ALL TYPES OF CELLS AND BODY TISSUES. IN THE HUMAN BRAIN, CALCIUM CURRENTS AND WAVES ARE RELATED TO MENTAL ACTIVITIES, INCLUDING EMOTIONS. WE PRESENT A THEORETICAL INTERPRETATION OF THESE PHENOMENA SUGGESTING THEIR INVOLVEMENT IN CHRONIC EMOTIONAL PATTERNS AND IN THE PATHOLOGY OF CANCER. RECENT DEVELOPMENTS ON BIOPHYSICS, TRANSLATIONAL BIOLOGY AND PSYCHONEUROENDOCRINOIMMUNOLOGY (PNEI) CAN SUPPORT EXPLANATORY HYPOTHESES ABOUT THE LINK BETWEEN EMOTIONAL STRESSES AND THE ORIGIN AND DEVELOPMENT OF DIFFERENT TYPES OF TUMOR CELLS. CHRONIC STRESSES MAY CAUSE PERTURBATIONS OF RHYTHMS OF THE PNEI SYSTEM, EXCESSIVE ACTIVATION OF HPA AXIS AND ABNORMAL ACTIVATION OF CALCIUM SIGNALS IN SOMATIC TISSUES, WITH DELETERIOUS EFFECTS ON DIFFERENT PARTS OF THE BODY. THE INCREASING OF CALCIUM SIGNALING INSIDE CELLS MAY LEAD TO A DEREGULATION OF DIFFERENT PATHWAYS AND EPIGENETIC SYSTEMS THAT PROMOTE THE PRODUCTION OF GENOMIC MUTATIONS IN A SECOND PHASE. IN PARTICULAR, THE HYPERACTIVATION OF THE TRANSCRIPTION NUCLEAR FACTOR KAPPAB (NF-KAPPAB), IF IS NOT COUNTERBALANCED BY THE FOLLOWING ACTIVATION OF THE NUCLEAR FACTOR (ERYTHROID-DERIVED 2)-LIKE 2 (NFE2L2 OR NRF2), INCREASES THE PRODUCTION OF OXIDATIVE CATABOLITES, AS THE ADVANCED GLYCATION END PRODUCTS (AGE), WHICH PLAY A KEY ROLE IN THE PROGRESSION OF DIFFERENT TYPES OF CANCER AND OTHER DEGENERATIVE DISEASES. CORTISOL BINDING TO GLUCOCORTICOID RECEPTOR (GR) REDUCES THE ACTIVITY OF BOTH NF-KAPPAB AND NRF2 INSIDE THE CELLS BUT INHIBITS THE CELLULAR IMMUNITY AND THE ANABOLIC PROCESSES OF TISSUE REGENERATION. THE TISSUE ATROPHY AND THE DEFECTIVE ANTI-AGEING MECHANISMS PROMOTES THE TUMORAL CELLS GROWTH AND THEIR ESCAPE FROM THE IMMUNE-SURVEILLANCE. 2017 8 1413 29 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 9 2338 29 EPIGENETIC REGULATION OF INFLAMMATORY SIGNALING AND INFLAMMATION-INDUCED CANCER. EPIGENETICS COMPRISE A DIVERSE ARRAY OF REVERSIBLE AND DYNAMIC MODIFICATIONS TO THE CELL'S GENOME WITHOUT IMPLICATING ANY DNA SEQUENCE ALTERATIONS. BOTH THE EXTERNAL ENVIRONMENT SURROUNDING THE ORGANISM, AS WELL AS THE INTERNAL MICROENVIRONMENT OF CELLS AND TISSUES, CONTRIBUTE TO THESE EPIGENETIC PROCESSES THAT PLAY CRITICAL ROLES IN CELL FATE SPECIFICATION AND ORGANISMAL DEVELOPMENT. ON THE OTHER HAND, DYSREGULATION OF EPIGENETIC ACTIVITIES CAN INITIATE AND SUSTAIN CARCINOGENESIS, WHICH IS OFTEN AUGMENTED BY INFLAMMATION. CHRONIC INFLAMMATION, ONE OF THE MAJOR HALLMARKS OF CANCER, STEMS FROM PROINFLAMMATORY CYTOKINES THAT ARE SECRETED BY TUMOR AND TUMOR-ASSOCIATED CELLS IN THE TUMOR MICROENVIRONMENT. AT THE SAME TIME, INFLAMMATORY SIGNALING CAN ESTABLISH POSITIVE AND NEGATIVE FEEDBACK CIRCUITS WITH CHROMATIN TO MODULATE CHANGES IN THE GLOBAL EPIGENETIC LANDSCAPE. IN THIS REVIEW, WE PROVIDE AN IN-DEPTH DISCUSSION OF THE INTERCONNECTED CROSSTALK BETWEEN EPIGENETICS AND INFLAMMATION, SPECIFICALLY HOW EPIGENETIC MECHANISMS AT DIFFERENT HIERARCHICAL LEVELS OF THE GENOME CONTROL INFLAMMATORY GENE TRANSCRIPTION, WHICH IN TURN ENACT CHANGES WITHIN THE CELL'S EPIGENOMIC PROFILE, ESPECIALLY IN THE CONTEXT OF INFLAMMATION-INDUCED CANCER. 2022 10 4103 22 MECHANICAL CUES REGULATE HISTONE MODIFICATIONS AND CELL BEHAVIOR. CHANGE OF BIOPHYSICAL FACTORS IN TISSUE MICROENVIRONMENT IS AN IMPORTANT STEP IN A CHRONIC DISEASE DEVELOPMENT PROCESS. A MECHANICAL AND BIOCHEMICAL FACTOR FROM CELL LIVING MICRONICHE CAN REGULATE CELL EPIGENETIC DECORATION AND, THEREFORE, FURTHER INDUCE CHANGE OF GENE EXPRESSION. IN THIS REVIEW, WE WILL EMPHASIZE THE MECHANISM THAT BIOPHYSICAL MICROENVIRONMENT MANIPULATES CELL BEHAVIOR INCLUDING GENE EXPRESSION AND PROTEIN DECORATION, THROUGH MODIFYING HISTONE AMINO ACID RESIDUE MODIFICATION. THE INFLUENCE GIVEN BY DIFFERENT MECHANICAL FORCES, INCLUDING MECHANICAL STRETCH, SUBSTRATE SURFACE STIFFNESS, AND SHEAR STRESS, ON CELL FATE AND BEHAVIOR DURING CHRONIC DISEASE DEVELOPMENT INCLUDING TUMORIGENESIS WILL ALSO BE TEASED OUT. OVERALL, THE RECENT WORK SUMMARIZED IN THIS REVIEW CULMINATES ON THE HYPOTHESIS THAT A MECHANICAL FACTOR STIMULATES THE MODIFICATION ON HISTONE WHICH COULD FACILITATE DISEASE DETECTION AND POTENTIAL THERAPEUTIC TARGET. 2022 11 3123 28 GETTING AN INSIGHT INTO THE COMPLEXITY OF MAJOR CHRONIC INFLAMMATORY AND DEGENERATIVE DISEASES: A POTENTIAL NEW SYSTEMIC APPROACH TO THEIR TREATMENT. AS THE MODERN SOCIETY IS TROUBLED BY MULTI-FACTORIAL DISEASES, RESEARCH HAS BEEN CONDUCTED ON COMPLEX REALITIES INCLUDING CHRONIC INFLAMMATION, CANCER, OBESITY, HIV INFECTION, METABOLIC SYNDROME AND ITS DETRIMENTAL CARDIOVASCULAR COMPLICATIONS AS WELL AS DEPRESSION AND OTHER BRAIN DISORDERS. DETERIORATION OF CRUCIAL HOMEOSTATIC MECHANISMS IN SUCH DISEASES INVARIABLY RESULTS IN ACTIVATION OF INFLAMMATORY MEDIATORS, CHRONIC INFLAMMATION, LOSS IN IMMUNOLOGICAL FUNCTION, INCREASED SUSCEPTIBILITY TO DISEASES, ALTERATION OF METABOLISM, DECREASE OF ENERGY PRODUCTION AND NEURO-COGNITIVE DECLINE. REGULATION OF GENES EXPRESSION BY EPIGENETIC CODE IS THE DOMINANT MECHANISM FOR THE TRANSDUCTION OF ENVIRONMENTAL INPUTS, SUCH AS STRESS AND INFLAMMATION TO LASTING PHYSIOLOGICAL CHANGES. ACUTE AND CHRONIC STRESS DETERMINES DNA METHYLATION AND HISTONE MODIFICATIONS IN BRAIN REGIONS WHICH MAY CONTRIBUTE TO NEURO-DEGENERATIVE DISORDERS. NUCLEAR GLUCOCORTICOIDS RECEPTOR INTERACTS WITH THE EPIGENOMA RESULTING IN A CORTISOL RESISTANCE STATUS ASSOCIATED WITH A DETERIORATION OF THE METABOLIC AND IMMUNE FUNCTIONS. GONADAL STEROIDS RECEPTORS HAVE A SIMILAR CAPACITY TO PRODUCE EPIGENOMIC REORGANIZATION OF CHROMATINE STRUCTURE. EPIGENOMIC-INDUCED REDUCTION IN IMMUNE CELLS TELOMERES LENGTH HAS BEEN OBSERVED IN MANY DEGENERATIVE DISEASES, INCLUDING ALL TYPES OF CANCER. THE FINAL RESULT OF THESE EPIGENETIC ALTERATIONS IS A SERIOUS DAMAGE TO THE NEURO-ENDOCRINE-IMMUNE-METABOLIC ADAPTIVE SYSTEMS. IN THIS STUDY, WE PROPOSE A TREATMENT WITH STEM CELLS DIFFERENTIATION STAGE FACTORS TAKEN FROM ZEBRAFISH EMBRYOS WHICH ARE ABLE TO REGULATE THE GENES EXPRESSION OF NORMAL AND PATHOLOGICAL STEM CELLS IN A DIFFERENT SPECIFIC WAY. 2015 12 5130 29 POSTTRANSCRIPTIONAL GENE REGULATION: NOVEL PATHWAYS FOR GLUCOCORTICOIDS' ANTI-INFLAMMATORY ACTION. POSTTRANSCRIPTIONAL GENE REGULATION (PTR) IS A FUNDAMENTAL BIOLOGICAL PROCESS THAT INTEGRATES WITH THE MASTER TRANSCRIPTIONAL CONTROL OF GENE EXPRESSION, IN WAYS THAT ONLY IN THE LAST DECADE HAVE BEEN INCREASINGLY UNDERSTOOD [1, 2]. WHILE EPIGENETIC AND TRANSCRIPTIONAL EVENTS SHAPE CELL RESPONSE QUALITATIVELY, DECIDING THE PATTERN OF GENE EXPRESSION TO 'SWITCH ON OR OFF' IN RESPONSE TO ENDOGENOUS OR ENVIRONMENTAL TRIGGERS, THE KEY TASK OF PTR IS TO ACT AS A 'RHEOSTAT' AND RAPIDLY ADAPT THE CELLULAR RESPONSE BY PROVIDING THE APPROPRIATE AMPLITUDE AND TIMING TO THE PROTEIN EXPRESSION PATTERNS [3, 4]. THE PIVOTAL ROLE OF THIS MECHANISM COMES TO THE FOREFRONT IN INFLAMMATORY AND IMMUNE RESPONSE, WHERE THE CHANGES IN AMPLITUDE AND DURATION IN THE EXPRESSION OF DANGEROUS AND PROTECTIVE GENES ARE IN DELICATE BALANCE, AND ARE CRITICAL IN DETERMINING EITHER THE SUCCESSFUL RESOLUTION OF THE IMMUNE RESPONSE OR ITS CHRONIC OVEREXPRESSION [5]. THIS BRIEF REVIEW INTRODUCES MEMBERS OF THE MAIN CLASSES OF MOLECULES MEDIATING THE CYTOPLASMIC ARM OF GENE REGULATION, NAMELY RNA-BINDING PROTEINS AND MICRO-RNA (MIRNA), AND SUMMARIZES EXPERIMENTAL DATA THAT UNDERSCORE THE ROLE OF THESE MOLECULES IN THE PATHOPHYSIOLOGY OF CHRONIC INFLAMMATION, AS WELL AS THEIR PROMISING VALUE AS MECHANISMS CONVEYING THE ANTI-INFLAMMATORY EFFECT OF SYNTHETIC GLUCOCORTICOIDS. 2012 13 5581 32 ROLE OF NF-KAPPAB IN AGEING AND AGE-RELATED DISEASES: LESSONS FROM GENETICALLY MODIFIED MOUSE MODELS. AGEING IS A COMPLEX PROCESS, INDUCED BY MULTIFACETED INTERACTION OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS. IT IS MANIFESTED BY A DECLINE IN THE PHYSIOLOGICAL FUNCTIONS OF ORGANISMS AND ASSOCIATED TO THE DEVELOPMENT OF AGE-RELATED CHRONIC DISEASES AND CANCER DEVELOPMENT. IT IS CONSIDERED THAT AGEING FOLLOWS A STRICTLY-REGULATED PROGRAM, IN WHICH SOME SIGNALING PATHWAYS CRITICALLY CONTRIBUTE TO THE ESTABLISHMENT AND MAINTENANCE OF THE AGED STATE. CHRONIC INFLAMMATION IS A MAJOR MECHANISM THAT PROMOTES THE BIOLOGICAL AGEING PROCESS AND COMORBIDITY, WITH THE TRANSCRIPTION FACTOR NF-KAPPAB (NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS) AS A CRUCIAL MEDIATOR OF INFLAMMATORY RESPONSES. THIS, TOGETHER WITH THE FINDING THAT THE ACTIVATION OR INHIBITION OF NF-KAPPAB CAN INDUCE OR REVERSE RESPECTIVELY THE MAIN FEATURES OF AGED ORGANISMS, HAS BROUGHT IT UNDER CONSIDERATION AS A KEY TRANSCRIPTION FACTOR THAT ACTS AS A DRIVER OF AGEING. IN THIS REVIEW, WE FOCUSED ON THE DATA OBTAINED ENTIRELY THROUGH THE GENERATION OF KNOCKOUT AND TRANSGENIC MOUSE MODELS OF EITHER PROTEIN INVOLVED IN THE NF-KAPPAB SIGNALING PATHWAY THAT HAVE PROVIDED RELEVANT INFORMATION ABOUT THE INTRICATE PROCESSES OR MOLECULAR MECHANISMS THAT CONTROL AGEING. WE HAVE REVIEWED THE RELATIONSHIP OF NF-KAPPAB AND PREMATURE AGEING; THE DEVELOPMENT OF CANCER ASSOCIATED WITH AGEING AND THE IMPLICATION OF NF-KAPPAB ACTIVATION IN THE DEVELOPMENT OF AGE-RELATED DISEASES, SOME OF WHICH GREATLY INCREASE THE RISK OF DEVELOPING CANCER. 2021 14 2416 20 EPIGENETIC SIGNALING OF CANCER STEM CELLS DURING INFLAMMATION. MALIGNANT TUMORS POSE A GREAT CHALLENGE TO HUMAN HEALTH, WHICH HAS LED TO MANY STUDIES INCREASINGLY ELUCIDATING THE TUMORIGENIC PROCESS. CANCER STEM CELLS (CSCS) HAVE PROFOUND IMPACTS ON TUMORIGENESIS AND DEVELOPMENT OF DRUG RESISTANCE. RECENTLY, THERE HAS BEEN INCREASED INTEREST IN THE RELATIONSHIP BETWEEN INFLAMMATION AND CSCS BUT THE MECHANISM UNDERLYING THIS RELATIONSHIP HAS NOT BEEN FULLY ELUCIDATED. INFLAMMATORY CYTOKINES PRODUCED DURING CHRONIC INFLAMMATION ACTIVATE SIGNALING PATHWAYS THAT REGULATE THE GENERATION OF CSCS THROUGH EPIGENETIC MECHANISMS. IN THIS REVIEW, WE FOCUS ON THE EFFECTS OF INFLAMMATION ON CANCER STEM CELLS, PARTICULARLY THE ROLE OF SIGNALING PATHWAYS SUCH AS NF-KAPPAB PATHWAY, STAT3 PATHWAY AND SMAD PATHWAY INVOLVED IN REGULATING EPIGENETIC CHANGES. WE HOPE TO PROVIDE A NOVEL PERSPECTIVE FOR IMPROVING STRATEGIES FOR TUMOR TREATMENT. 2021 15 6395 30 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 16 3287 35 HIERARCHICAL AND CYBERNETIC NATURE OF BIOLOGIC SYSTEMS AND THEIR RELEVANCE TO HOMEOSTATIC ADAPTATION TO LOW-LEVEL EXPOSURES TO OXIDATIVE STRESS-INDUCING AGENTS. DURING EVOLUTION IN AN AEROBIC ENVIRONMENT, MULTICELLULAR ORGANISMS SURVIVED BY ADAPTIVE RESPONSES TO BOTH THE ENDOGENOUS OXIDATIVE METABOLISM IN THE CELLS OF THE ORGANISM AND THE CHEMICALS AND LOW-LEVEL RADIATION TO WHICH THEY HAD BEEN EXPOSED. THE DEFENSE REPERTOIRE EXISTS AT ALL LEVELS OF THE BIOLOGICAL HIERARCHY--FROM THE MOLECULAR AND BIOCHEMICAL LEVEL TO THE CELLULAR AND TISSUE LEVEL TO THE ORGAN AND ORGAN SYSTEM LEVEL. CELLS CONTAIN PREVENTIVE ANTIOXIDANTS TO SUPPRESS OXIDATIVE DAMAGE TO MEMBRANES. CELLS ALSO CONTAIN PROTEINS AND DNA; BUILT-IN REDUNDANCIES FOR DAMAGED MOLECULES AND ORGANELLES; TIGHTLY COUPLED REDOX SYSTEMS; POOLS OF REDUCTANTS; ANTIOXIDANTS; DNA REPAIR MECHANISMS AND SENSITIVE SENSOR MOLECULES SUCH AS NUCLEAR FACTOR KAPPA BETA; AND SIGNAL TRANSDUCTION MECHANISMS AFFECTING BOTH TRANSCRIPTION AND POST-TRANSLATIONAL MODIFICATION OF PROTEINS NEEDED TO COPE WITH OXIDATIVE STRESS. THE BIOLOGIC CONSEQUENCES OF THE LOW-LEVEL RADIATION THAT EXCEEDS THE BACKGROUND LEVEL OF OXIDATIVE DAMAGE COULD BE NECROSIS OR APOPTOSIS, CELL PROLIFERATION, OR CELL DIFFERENTIATION. THESE EFFECTS ARE TRIGGERED BY OXIDATIVE STRESS-INDUCED SIGNAL TRANSDUCTION MECHANISMS--AN EPIGENETIC, NOT GENOTOXIC, PROCESS. IF THE END POINTS OF CELL PROLIFERATION, DIFFERENTIATION, OR CELL DEATH ARE NOT SEEN AT FREQUENCIES ABOVE BACKGROUND LEVELS IN AN ORGANISM, IT IS UNLIKELY THAT LOW-LEVEL RADIATION WOULD PLAY A ROLE IN THE MULTISTEP PROCESSES OF CHRONIC DISEASES SUCH AS CANCER. THE MECHANISM LINKED TO HOMEOSTATIC REGULATION OF PROLIFERATION AND ADAPTIVE FUNCTIONS IN A MULTICELLULAR ORGANISM COULD PROVIDE PROTECTION OF ANY ONE CELL RECEIVING DEPOSITED ENERGY BY THE RADIATION TRACT THROUGH THE SHARING OF REDUCTANTS AND BY TRIGGERING APOPTOSIS OF TARGET STEM CELLS. EXAMPLES OF THE ROLE OF GAP JUNCTIONAL INTERCELLULAR COMMUNICATION IN THE ADAPTIVE RESPONSE OF CELLS AND THE BYSTANDER EFFECT ILLUSTRATE HOW THE INTERACTION OF CELLS CAN MODULATE THE EFFECT OF RADIATION ON THE SINGLE CELL. 1998 17 3418 31 HUMAN HEALTH CONSEQUENCES OF ENVIRONMENTALLY-MODULATED GENE EXPRESSION: POTENTIAL ROLES OF ELF-EMF INDUCED EPIGENETIC VERSUS MUTAGENIC MECHANISMS OF DISEASE. IN ORDER TO DETERMINE IF THERE MIGHT BE BIOLOGICAL AND HEALTH CONSEQUENCES AFTER EXPOSURES TO EXTREMELY-LOW FREQUENCY ELECTROMAGNETIC FIELDS (ELF-EMF), EITHER EXPERIMENTALLY OR EPIDEMIOLOGICALLY, MECHANISTIC UNDERSTANDING OF THE POTENTIAL MEANS BY WHICH ANY ENVIRONMENTAL AGENT CAN AFFECT CELLS IN A MULTICELLULAR ORGANISM HAS TO BE REVIEWED. THE GOAL OF THIS LIMITED REVIEW IS TO DEMONSTRATE THAT, WHILE THE PREVAILING PARADIGM OF THE ENVIRONMENTALLY-INDUCED ACUTE AND CHRONIC DISEASES INVOLVES EITHER CELL KILLING (CYTOTOXICITY) OR GENE/CHROMOSOME MUTATIONS (GENOTOXICITY), ALTERATION OF THE EXPRESSION OF GENETIC INFORMATION AT THE TRANSCRIPTIONAL (TURNING GENES "ON" OR "OFF"), TRANSLATIONAL (STABILIZING OR DE-STABILIZING THE GENETIC MESSAGE), OR POSTTRANSLATIONAL (ALTERING THE GENE PRODUCT OR PROTEIN) LEVELS HAS THE POTENTIAL TO CONTRIBUTE TO VARIOUS DISEASES. THIS LATTER MECHANISM, "EPIGENETIC" TOXICITY, UNLIKE THE FORMER TWO WHICH ARE IRREVERSIBLE, IS CHARACTERIZED BY THRESHOLD-LIKE ACTION, MULTIPLE BIOCHEMICAL PATHWAYS AND CHRONIC, REGULAR EXPOSURES TO BE EFFECTIVE. ULTIMATELY, EPIGENETIC TOXICANTS AFFECT ONE OF FOUR POTENTIAL CELL STATES, NAMELY ALTERATION OF CELL PROLIFERATION, CELL DIFFERENTIATION, PROGRAMMED CELL DEATH (APOPTOSIS) OR ADAPTIVE RESPONSES OF DIFFERENTIATED CELLS. 2000 18 3921 29 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 19 4597 19 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 20 2503 17 EPIGENETICS AND METABOLISM AT THE CROSSROADS OF STRESS-INDUCED PLASTICITY, STEMNESS AND THERAPEUTIC RESISTANCE IN CANCER. DESPITE THE RECENT ADVANCES IN THE TREATMENT OF CANCERS, ACQUIRED DRUG RESISTANCE REMAINS A MAJOR CHALLENGE IN CANCER MANAGEMENT. WHILE EARLIER STUDIES SUGGEST DARWINIAN FACTORS DRIVING ACQUIRED DRUG RESISTANCE, RECENT STUDIES POINT TO A MORE DYNAMIC PROCESS INVOLVING PHENOTYPIC PLASTICITY AND TUMOR HETEROGENEITY IN THE EVOLUTION OF ACQUIRED DRUG RESISTANCE. CHRONIC STRESS AFTER DRUG TREATMENT INDUCES INTRINSIC CELLULAR REPROGRAMMING AND CANCER STEMNESS THROUGH A SLOW-CYCLING PERSISTER STATE, WHICH SUBSEQUENTLY DRIVES CANCER PROGRESSION. BOTH EPIGENETIC AND METABOLIC MECHANISMS PLAY AN IMPORTANT ROLE IN THIS DYNAMIC PROCESS. IN THIS REVIEW, WE DISCUSS HOW EPIGENETIC AND METABOLIC REPROGRAMMING LEADS TO STRESS-INDUCED PHENOTYPIC PLASTICITY AND ACQUIRED DRUG RESISTANCE, AND HOW THE TWO REPROGRAMMING MECHANISMS CROSSTALK WITH EACH OTHER. 2020