1 2617 161 EPIGENOME TARGETING BY PROBIOTIC METABOLITES. BACKGROUND: THE INTESTINAL MICROBIOTA PLAYS AN IMPORTANT ROLE IN IMMUNE DEVELOPMENT AND HOMEOSTASIS. A DISTURBED MICROBIOTA DURING EARLY INFANCY IS ASSOCIATED WITH AN INCREASED RISK OF DEVELOPING INFLAMMATORY AND ALLERGIC DISEASES LATER IN LIFE. THE MECHANISMS UNDERLYING THESE EFFECTS ARE POORLY UNDERSTOOD BUT ARE LIKELY TO INVOLVE ALTERATIONS IN MICROBIAL PRODUCTION OF FERMENTATION-DERIVED METABOLITES, WHICH HAVE POTENT IMMUNE MODULATING PROPERTIES AND ARE REQUIRED FOR MAINTENANCE OF HEALTHY MUCOSAL IMMUNE RESPONSES. PROBIOTICS ARE BENEFICIAL BACTERIA THAT HAVE THE CAPACITY TO ALTER THE COMPOSITION OF BACTERIAL SPECIES IN THE INTESTINE THAT CAN IN TURN INFLUENCE THE PRODUCTION OF FERMENTATION-DERIVED METABOLITES. PRINCIPAL AMONG THESE METABOLITES ARE THE SHORT-CHAIN FATTY ACIDS BUTYRATE AND ACETATE THAT HAVE POTENT ANTI-INFLAMMATORY ACTIVITIES IMPORTANT IN REGULATING IMMUNE FUNCTION AT THE INTESTINAL MUCOSAL SURFACE. THEREFORE STRATEGIES AIMED AT RESTORING THE MICROBIOTA PROFILE MAY BE EFFECTIVE IN THE PREVENTION OR TREATMENT OF ALLERGIC AND INFLAMMATORY DISEASES. PRESENTATION OF THE HYPOTHESIS: PROBIOTIC BACTERIA HAVE DIVERSE EFFECTS INCLUDING ALTERING MICROBIOTA COMPOSITION, REGULATING EPITHELIAL CELL BARRIER FUNCTION AND MODULATING OF IMMUNE RESPONSES. THE PRECISE MOLECULAR MECHANISMS MEDIATING THESE PROBIOTIC EFFECTS ARE NOT WELL UNDERSTOOD. SHORT-CHAIN FATTY ACIDS SUCH AS BUTYRATE ARE A CLASS OF HISTONE DEACETYLASE INHIBITORS IMPORTANT IN THE EPIGENETIC CONTROL OF HOST CELL RESPONSES. IT IS HYPOTHESIZED THAT THE BIOLOGICAL FUNCTION OF PROBIOTICS MAY BE A RESULT OF EPIGENETIC MODIFICATIONS THAT MAY EXPLAIN THE WIDE RANGE OF EFFECTS OBSERVED. STUDIES DELINEATING THE EFFECTS OF PROBIOTICS ON SHORT-CHAIN FATTY ACID PRODUCTION AND THE EPIGENETIC ACTIONS OF SHORT-CHAIN FATTY ACIDS WILL ASSIST IN UNDERSTANDING THE ASSOCIATION BETWEEN MICROBIOTA AND ALLERGIC OR AUTOIMMUNE DISORDERS. TESTING THE HYPOTHESIS: WE PROPOSE THAT TREATMENT WITH SPECIFIC PROBIOTIC BACTERIA UNDER IN VIVO CONDITIONS WOULD OFFER THE IDEAL CONDITIONS TO EXAMINE THE MICROBIOLOGICAL, IMMUNOLOGICAL AND EPIGENETIC MECHANISMS OF ACTION. ADVANCES IN EPIGENETIC TECHNOLOGY NOW ALLOW INVESTIGATORS TO BETTER UNDERSTAND THE COMPLEX BIOLOGICAL PROPERTIES OF PROBIOTICS AND THEIR METABOLITES. IMPLICATIONS OF THE HYPOTHESIS: DETERMINING THE PRECISE MECHANISMS OF PROBIOTIC ACTION WILL LEAD TO MORE SPECIFIC AND EFFICACIOUS THERAPEUTIC STRATEGIES IN THE PREVENTION OR TREATMENT OF CHRONIC INFLAMMATORY CONDITIONS. 2010 2 5631 40 SENESCENCE-INFLAMMATORY REGULATION OF REPARATIVE CELLULAR REPROGRAMMING IN AGING AND CANCER. THE INABILITY OF ADULT TISSUES TO TRANSITORILY GENERATE CELLS WITH FUNCTIONAL STEM CELL-LIKE PROPERTIES IS A MAJOR OBSTACLE TO TISSUE SELF-REPAIR. NUCLEAR REPROGRAMMING-LIKE PHENOMENA THAT INDUCE A TRANSIENT ACQUISITION OF EPIGENETIC PLASTICITY AND PHENOTYPE MALLEABILITY MAY CONSTITUTE A REPARATIVE ROUTE THROUGH WHICH HUMAN TISSUES RESPOND TO INJURY, STRESS, AND DISEASE. HOWEVER, TISSUE REJUVENATION SHOULD INVOLVE NOT ONLY THE TRANSIENT EPIGENETIC REPROGRAMMING OF DIFFERENTIATED CELLS, BUT ALSO THE COMMITTED RE-ACQUISITION OF THE ORIGINAL OR ALTERNATIVE COMMITTED CELL FATE. CHRONIC OR UNRESTRAINED EPIGENETIC PLASTICITY WOULD DRIVE AGING PHENOTYPES BY IMPAIRING THE REPAIR OR THE REPLACEMENT OF DAMAGED CELLS; SUCH UNCONTROLLED PHENOMENA OF IN VIVO REPROGRAMMING MIGHT ALSO GENERATE CANCER-LIKE CELLULAR STATES. WE HEREIN PROPOSE THAT THE ABILITY OF SENESCENCE-ASSOCIATED INFLAMMATORY SIGNALING TO REGULATE IN VIVO REPROGRAMMING CYCLES OF TISSUE REPAIR OUTLINES A THRESHOLD MODEL OF AGING AND CANCER. THE DEGREE OF SENESCENCE/INFLAMMATION-ASSOCIATED DEVIATION FROM THE HOMEOSTATIC STATE MAY DELINEATE A TYPE OF THRESHOLDING ALGORITHM DISTINGUISHING BENEFICIAL FROM DELETERIOUS EFFECTS OF IN VIVO REPROGRAMMING. FIRST, TRANSIENT ACTIVATION OF NF-KAPPAB-RELATED INNATE IMMUNITY AND SENESCENCE-ASSOCIATED INFLAMMATORY COMPONENTS (E.G., IL-6) MIGHT FACILITATE REPARATIVE CELLULAR REPROGRAMMING IN RESPONSE TO ACUTE INFLAMMATORY EVENTS. SECOND, PARA-INFLAMMATION SWITCHES MIGHT PROMOTE LONG-LASTING BUT REVERSIBLE REFRACTORINESS TO REPARATIVE CELLULAR REPROGRAMMING. THIRD, CHRONIC SENESCENCE-ASSOCIATED INFLAMMATORY SIGNALING MIGHT LOCK CELLS IN HIGHLY PLASTIC EPIGENETIC STATES DISABLED FOR REPARATIVE DIFFERENTIATION. THE CONSIDERATION OF A CELLULAR REPROGRAMMING-CENTERED VIEW OF EPIGENETIC PLASTICITY AS A FUNDAMENTAL ELEMENT OF A TISSUE'S CAPACITY TO UNDERGO SUCCESSFUL REPAIR, AGING DEGENERATION OR MALIGNANT TRANSFORMATION SHOULD PROVIDE CHALLENGING STOCHASTIC INSIGHTS INTO THE CURRENT DETERMINISTIC GENETIC PARADIGM FOR MOST CHRONIC DISEASES, THEREBY INCREASING THE SPECTRUM OF THERAPEUTIC APPROACHES FOR PHYSIOLOGICAL AGING AND CANCER. 2017 3 737 40 CANCER STEM CELLS. THERE IS AN INCREASING EVIDENCE SUPPORTING THE CANCER STEM CELL HYPOTHESIS. NORMAL STEM CELLS IN THE ADULT ORGANISM ARE RESPONSIBLE FOR TISSUE RENEWAL AND REPAIR OF AGED OR DAMAGED TISSUE. A SUBSTANTIAL CHARACTERISTIC OF STEM CELLS IS THEIR ABILITY FOR SELF-RENEWAL WITHOUT LOSS OF PROLIFERATION CAPACITY WITH EACH CELL DIVISION. THE STEM CELLS ARE IMMORTAL, AND RATHER RESISTANT TO ACTION OF DRUGS. THEY ARE ABLE TO DIFFERENTIATE AND FORM SPECIFIC TYPES OF TISSUE DUE TO THE INFLUENCE OF MICROENVIRONMENTAL AND SOME OTHER FACTORS. STEM CELLS DIVIDE ASYMMETRICALLY PRODUCING TWO DAUGHTER CELLS -- ONE IS A NEW STEM CELL AND THE SECOND IS PROGENITOR CELL, WHICH HAS THE ABILITY FOR DIFFERENTIATION AND PROLIFERATION, BUT NOT THE CAPABILITY FOR SELF-RENEWAL. CANCER STEM CELLS ARE IN MANY ASPECTS SIMILAR TO THE STEM CELLS. IT HAS BEEN PROVEN THAT TUMOR CELLS ARE HETEROGENEOUS COMPRISING RARE TUMOR INITIATING CELLS AND ABUNDANT NON-TUMOR INITIATING CELLS. TUMOR INITIATING CELLS -- CANCER STEM CELLS HAVE THE ABILITY OF SELF-RENEWAL AND PROLIFERATION, ARE RESISTANT TO DRUGS, AND EXPRESS TYPICAL MARKERS OF STEM CELLS. IT IS NOT CLEAR WHETHER CANCER STEM CELLS ORIGINATE FROM NORMAL STEM CELLS IN CONSEQUENCE OF GENETIC AND EPIGENETIC CHANGES AND/OR BY REDIFFERENTIATION FROM SOMATIC TUMOR CELLS TO THE STEM-LIKE CELLS. PROBABLY BOTH MECHANISMS ARE INVOLVED IN THE ORIGIN OF CANCER STEM CELLS. DYSREGULATION OF STEM CELL SELF-RENEWAL IS A LIKELY REQUIREMENT FOR THE DEVELOPMENT OF CANCER. ISOLATION AND IDENTIFICATION OF CANCER STEM CELLS IN HUMAN TUMORS AND IN TUMOR CELL LINES HAS BEEN SUCCESSFUL. TO DATE, THE EXISTENCE OF CANCER STEM CELLS HAS BEEN PROVEN IN ACUTE AND CHRONIC MYELOID LEUKEMIA, IN BREAST CANCER, IN BRAIN TUMORS, IN LUNG CANCER AND GASTROINTESTINAL TUMORS. CANCER STEM CELL MODEL IS ALSO CONSISTENT WITH SOME CLINICAL OBSERVATIONS. ALTHOUGH STANDARD CHEMOTHERAPY KILLS MOST CELLS IN A TUMOR, CANCER STEM CELLS REMAIN VIABLE. DESPITE THE SMALL NUMBER OF SUCH CELLS, THEY MIGHT BE THE CAUSE OF TUMOR RECURRENCE, SOMETIMES MANY YEARS AFTER THE "SUCCESSFUL" TREATMENT OF PRIMARY TUMOR. GROWTH OF METASTASES IN DISTINCT AREAS OF BODY AND THEIR CELLULAR HETEROGENEITY MIGHT BE CONSEQUENCE OF CANCER STEM CELL DIFFERENTIATION AND/OR DEDIFFERENTIATION AND ASYMMETRIC DIVISION OF CANCER STEM CELLS. FURTHER CHARACTERIZATION OF CANCER STEM CELLS IS NEEDED IN ORDER TO FIND WAYS TO DESTROY THEM, WHICH MIGHT CONTRIBUTE SIGNIFICANTLY TO THE THERAPEUTIC MANAGEMENT OF MALIGNANT TUMORS. 2005 4 6502 33 TRAINED IMMUNITY: LONG-TERM ADAPTATION IN INNATE IMMUNE RESPONSES. ADAPTIVE IMMUNE RESPONSES ARE CHARACTERIZED BY ANTIGEN SPECIFICITY AND INDUCTION OF LIFELONG IMMUNOLOGIC MEMORY. RECENTLY, IT HAS BEEN REPORTED THAT INNATE IMMUNE CELLS CAN ALSO BUILD IMMUNE MEMORY CHARACTERISTICS-A PROCESS TERMED TRAINED IMMUNITY. TRAINED IMMUNITY DESCRIBES THE PERSISTENT HYPERRESPONSIVE PHENOTYPE THAT INNATE IMMUNE CELLS CAN DEVELOP AFTER BRIEF STIMULATION. PATHOGENIC STIMULI SUCH AS MICROORGANISMS, AND ALSO ENDOGENOUS MOLECULES INCLUDING URIC ACID, OXIDIZED LDL (LOW-DENSITY LIPOPROTEIN), AND CATECHOLAMINES, ARE CAPABLE OF INDUCING MEMORY IN MONOCYTES AND MACROPHAGES. WHILE TRAINED IMMUNITY PROVIDES FAVORABLE CROSS-PROTECTION IN THE CONTEXT OF INFECTIOUS DISEASES, THE HEIGHTENED IMMUNE RESPONSE CAN BE MALADAPTIVE IN DISEASES DRIVEN BY CHRONIC SYSTEMIC INFLAMMATION, SUCH AS ATHEROSCLEROSIS. TRAINED IMMUNITY IS MAINTAINED BY DISTINCT EPIGENETIC AND METABOLIC MECHANISMS AND PERSISTS FOR AT LEAST SEVERAL MONTHS IN VIVO DUE TO REPROGRAMMING OF MYELOID PROGENITOR CELLS. ADDITIONALLY, CERTAIN NONIMMUNE CELLS ARE ALSO FOUND TO EXHIBIT TRAINED IMMUNITY CHARACTERISTICS. THUS, TRAINED IMMUNITY PRESENTS AN EXCITING FRAMEWORK TO DEVELOP NEW APPROACHES TO VACCINATION AND ALSO NOVEL PHARMACOLOGICAL TARGETS IN THE TREATMENT OF INFLAMMATORY DISEASES. 2021 5 4769 31 NUCLEAR MORPHOMETRY, NUCLEOMICS AND PROSTATE CANCER PROGRESSION. PROSTATE CANCER (PCA) RESULTS FROM A MULTISTEP PROCESS. THIS PROCESS INCLUDES INITIATION, WHICH OCCURS THROUGH VARIOUS AGING EVENTS AND MULTIPLE INSULTS (SUCH AS CHRONIC INFECTION, INFLAMMATION AND GENETIC INSTABILITY THROUGH REACTIVE OXYGEN SPECIES CAUSING DNA DOUBLE-STRAND BREAKS), FOLLOWED BY A MULTISTEP PROCESS OF PROGRESSION. THESE STEPS INCLUDE SEVERAL GENETIC AND EPIGENETIC ALTERATIONS, AS WELL AS ALTERATIONS TO THE CHROMATIN STRUCTURE, WHICH OCCUR IN RESPONSE TO THE CARCINOGENIC STRESS-RELATED EVENTS THAT SUSTAIN PROLIFERATIVE SIGNALING. EVENTS SUCH AS EVADING GROWTH SUPPRESSORS, RESISTING CELL DEATH, ENABLING REPLICATIVE IMMORTALITY, INDUCING ANGIOGENESIS, AND ACTIVATING INVASION AND METASTASIS ARE READILY OBSERVED. IN ADDITION, IN CONJUNCTION WITH THESE CRITICAL DRIVERS OF CARCINOGENESIS, OTHER FACTORS RELATED TO THE ETIOPATHOGENESIS OF PCA, INVOLVING ENERGY METABOLISM AND EVASION OF THE IMMUNE SURVEILLANCE SYSTEM, APPEAR TO BE INVOLVED. IN ADDITION, WHEN CANCER SPREAD AND METASTASIS OCCUR, THE 'TUMOR MICROENVIRONMENT' IN THE BONE OF PCA PATIENTS MAY PROVIDE A WAY TO SUSTAIN DORMANCY OR SENESCENCE AND EVENTUALLY ESTABLISH A 'SEED AND SOIL' SITE WHERE PCA PROLIFERATION AND GROWTH MAY OCCUR OVER TIME. WHEN PCA IS INITIATED AND PROGRESSION ENSUES, SIGNIFICANT ALTERATIONS IN NUCLEAR SIZE, SHAPE AND HETEROCHROMATIN (DNA TRANSCRIPTION) ORGANIZATION ARE FOUND, AND KEY NUCLEAR TRANSCRIPTIONAL AND STRUCTURAL PROTEINS, AS WELL AS MULTIPLE NUCLEAR BODIES CAN LEAD TO PRECANCEROUS AND MALIGNANT CHANGES. THESE SERIES OF CELLULAR AND TISSUE-RELATED MALIGNANCY-ASSOCIATED EVENTS CAN BE QUANTIFIED TO ASSESS DISEASE PROGRESSION AND MANAGEMENT. 2012 6 601 34 BETA-GLUCAN "TRAINED IMMUNITY" IMMUNOMODULATORY PROPERTIES POTENTIATE TISSUE WOUND MANAGEMENT AND ACCELERATE FITNESS RECOVER. INTRODUCTION: IT IS WELL ESTABLISHED THAT MODERATE PHYSICAL ACTIVITY CAN IMPROVE THE IMMUNE STATUS, RATHER EXCESS OR HIGH-INTENSITY PHYSICAL EXERCISE CAN CAUSE DAMAGE TO THE IMMUNE SYSTEM. IN ADDITION, MUSCLE INJURIES RESULTING FROM INCREASED FREQUENCY AND INTENSITY OF EXERCISES COMPROMISE INNATE IMMUNE ACTIVITY AND MAY DECREASE TISSUE REGENERATION. THUS, BETA-GLUCANS, A NATURAL COMPOUND, MAY REPRESENT AN IMPORTANT SUBSTANCE WITH STRONG IMMUNOMODULATORY PROPERTIES ACTING AS AN IMMUNOSTIMULANT THERAPY KNOWN AS "TRAINED IMMUNITY". THIS IMMUNE STIMULATING THERAPEUTIC IS AN IMMUNOLOGICAL MEMORY PHENOMENON LINKED TO THE INNATE IMMUNE SYSTEM, TRIGGERING CELLULAR CHANGES AT EPIGENETIC, TRANSCRIPTIONAL, AND FUNCTIONAL LEVELS, TO REGULATE THE IMMUNE SYSTEM AND RECOVER ITS HOMEOSTASIS WITH CLINICAL BENEFITS. CONCLUSION: THIS NARRATIVE REVIEW WORKS WITH THE CURRENT EVIDENCE REGARDING BETA-GLUCANS AS A POSSIBLE ALTERNATIVE THERAPY FOR WOUND HEALING AND ITS SAFETY AND EFFICACY IN THE TREATMENT OF MUSCLE INJURIES AND PHYSICAL RECOVERY INCLUDING OTHER CHRONIC CONDITIONS AND DISEASES. 2022 7 4856 40 OPTIMIZING RETROVIRAL GENE EXPRESSION FOR EFFECTIVE THERAPIES. WITH THEIR ABILITY TO INTEGRATE THEIR GENETIC MATERIAL INTO THE TARGET CELL GENOME, RETROVIRAL VECTORS (RV) OF BOTH THE GAMMA-RETROVIRAL (GAMMA-RV) AND LENTIVIRAL VECTOR (LV) CLASSES CURRENTLY REMAIN THE MOST EFFICIENT AND THUS THE SYSTEM OF CHOICE FOR ACHIEVING TRANSGENE RETENTION AND THEREFORE POTENTIALLY LONG-TERM EXPRESSION AND THERAPEUTIC BENEFIT. HOWEVER, GAMMA-RV AND LV INTEGRATION COMES AT A COST IN THAT TRANSCRIPTION UNITS WILL BE PRESENT WITHIN A NATIVE CHROMATIN ENVIRONMENT AND THUS BE SUBJECT TO EPIGENETIC EFFECTS (DNA METHYLATION, HISTONE MODIFICATIONS) THAT CAN NEGATIVELY IMPACT ON THEIR FUNCTION. INDEED, HIGHLY VARIABLE EXPRESSION AND SILENCING OF GAMMA-RV AND LV TRANSGENES ESPECIALLY RESULTING FROM PROMOTER DNA METHYLATION IS WELL DOCUMENTED AND WAS THE CAUSE OF THE FAILURE OF GENE THERAPY IN A CLINICAL TRIAL FOR X-LINKED CHRONIC GRANULOMATOUS DISEASE. THIS REVIEW WILL CRITICALLY EXPLORE THE USE OF DIFFERENT CLASSES OF GENETIC CONTROL ELEMENTS THAT CAN IN PRINCIPLE REDUCE VECTOR INSERTION SITE POSITION EFFECTS AND EPIGENETIC-MEDIATED SILENCING. THESE TRANSCRIPTIONAL REGULATORY ELEMENTS BROADLY DIVIDE THEMSELVES INTO EITHER THOSE WITH A CHROMATIN BOUNDARY OR BORDER FUNCTION (SCAFFOLD/MATRIX ATTACHMENT REGIONS, INSULATORS) OR THOSE WITH A DOMINANT CHROMATIN REMODELING AND TRANSCRIPTIONAL ACTIVATING CAPABILITY (LOCUS CONTROL REGIONS,, UBIQUITOUS CHROMATIN OPENING ELEMENTS). ALL THESE TYPES OF ELEMENTS HAVE THEIR STRENGTHS AND WEAKNESSES WITHIN THE CONSTRAINTS OF A GAMMA-RV AND LV BACKBONE, SHOWING VARYING DEGREES OF EFFICACY IN IMPROVING REPRODUCIBILITY AND STABILITY OF TRANSGENE FUNCTION. COMBINATIONS OF BOUNDARY AND CHROMATIN REMODELING; TRANSCRIPTIONAL ACTIVATING ELEMENTS, WHICH DO NOT IMPEDE VECTOR PRODUCTION; TRANSDUCTION EFFICIENCY; AND STABILITY ARE MOST LIKELY TO MEET THE REQUIREMENTS WITHIN A GENE THERAPY CONTEXT ESPECIALLY WHEN TARGETING A STEM CELL POPULATION. 2013 8 2813 36 FIBROBLAST REPROGRAMMING IN GASTROINTESTINAL CANCER. GASTROINTESTINAL CANCERS ARE A SIGNIFICANT CAUSE OF CANCER MORTALITY WORLDWIDE AND HAVE BEEN STRONGLY LINKED WITH CHRONIC INFLAMMATION. CURRENT THERAPIES FOCUS ON EPITHELIAL/CANCER CELLS; HOWEVER, THE IMPORTANCE OF THE TUMOR MICROENVIRONMENT IN THE DEVELOPMENT AND TREATMENT OF THE DISEASE IS ALSO NOW WELL ESTABLISHED. CANCER-ASSOCIATED FIBROBLASTS (CAFS) ARE A MAJOR COMPONENT OF THE TUMOR MICROENVIRONMENT, AND ARE ACTIVELY PARTICIPATING IN TUMOR INITIATION, PROMOTION AND METASTASIS. THEY STRUCTURALLY AND FUNCTIONALLY AFFECT CANCER CELL PROLIFERATION, TUMOR IMMUNITY, ANGIOGENESIS, EXTRACELLULAR MATRIX REMODELING AND METASTASIS THROUGH A VARIETY OF SIGNALING PATHWAYS. CAFS ORIGINATE PREDOMINANTLY FROM RESIDENT MESENCHYMAL CELLS, WHICH ARE ACTIVATED AND REPROGRAMMED IN RESPONSE TO CUES FROM CANCER CELLS. IN RECENT YEARS, CHRONIC INFLAMMATION OF THE GASTROINTESTINAL TRACT HAS ALSO PROVEN AN IMPORTANT DRIVER OF MESENCHYMAL CELL ACTIVATION AND SUBSEQUENT CAF DEVELOPMENT, WHICH IN TURN ARE CAPABLE OF REGULATING THE TRANSITION FROM ACUTE TO CHRONIC INFLAMMATION AND CANCER. IN THIS REVIEW, WE WILL PROVIDE A CONCISE OVERVIEW OF THE MECHANISMS THAT DRIVE FIBROBLAST REPROGRAMMING IN CANCER AND THE RECENT ADVANCES ON THE DOWNSTREAM SIGNALING PATHWAYS THAT REGULATE THE FUNCTIONAL PROPERTIES OF THE ACTIVATED MESENCHYME. THIS NEW MECHANISTIC INSIGHT COULD PAVE THE WAY FOR NEW THERAPEUTIC STRATEGIES AND BETTER PROGNOSIS FOR CANCER PATIENTS. 2020 9 2823 39 FLAVONOIDS AS EPIGENETIC MODULATORS FOR PROSTATE CANCER PREVENTION. PROSTATE CANCER (PCA) IS A MULTIFACTORIAL DISEASE WITH AN UNCLEAR ETIOLOGY. DUE TO ITS HIGH PREVALENCE, LONG LATENCY, AND SLOW PROGRESSION, PCA IS AN IDEAL TARGET FOR CHEMOPREVENTION STRATEGIES. MANY RESEARCH STUDIES HAVE HIGHLIGHTED THE POSITIVE EFFECTS OF NATURAL FLAVONOIDS ON CHRONIC DISEASES, INCLUDING PCA. DIFFERENT CLASSES OF DIETARY FLAVONOIDS EXHIBIT ANTI-OXIDATIVE, ANTI-INFLAMMATORY, ANTI-MUTAGENIC, ANTI-AGING, CARDIOPROTECTIVE, ANTI-VIRAL/BACTERIAL AND ANTI-CARCINOGENIC PROPERTIES. WE OVERVIEWED THE MOST RECENT EVIDENCE OF THE ANTITUMORAL EFFECTS EXERTED BY DIETARY FLAVONOIDS, WITH A SPECIAL FOCUS ON THEIR EPIGENETIC ACTION IN PCA. EPIGENETIC ALTERATIONS HAVE BEEN IDENTIFIED AS KEY INITIATING EVENTS IN SEVERAL KINDS OF CANCER. MANY DIETARY FLAVONOIDS HAVE BEEN FOUND TO REVERSE DNA ABERRATIONS THAT PROMOTE NEOPLASTIC TRANSFORMATION, PARTICULARLY FOR PCA. THE EPIGENETIC TARGETS OF THE ACTIONS OF FLAVONOIDS INCLUDE ONCOGENES AND TUMOR SUPPRESSOR GENES, INDIRECTLY CONTROLLED THROUGH THE REGULATION OF EPIGENETIC ENZYMES SUCH AS DNA METHYLTRANSFERASE (DNMT), HISTONE ACETYLTRANSFERASE (HAT), AND HISTONE DEACETYLASE (HDAC). IN ADDITION, FLAVONOIDS WERE FOUND CAPABLE OF RESTORING MIRNA AND LNCRNA EXPRESSION THAT IS ALTERED DURING DISEASES. THE OPTIMIZATION OF THE USE OF FLAVONOIDS AS NATURAL EPIGENETIC MODULATORS FOR CHEMOPREVENTION AND AS A POSSIBLE TREATMENT OF PCA AND OTHER KINDS OF CANCERS COULD REPRESENT A PROMISING AND VALID STRATEGY TO INHIBIT CARCINOGENESIS AND FIGHT CANCER. 2020 10 4453 39 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 11 5816 34 STRESS AND STEM CELLS. THE UNIQUE PROPERTIES AND FUNCTIONS OF STEM CELLS MAKE THEM PARTICULARLY SUSCEPTIBLE TO STRESSES AND ALSO LEAD TO THEIR REGULATION BY STRESS. STEM CELL DIVISION MUST RESPOND TO THE DEMAND TO REPLENISH CELLS DURING NORMAL TISSUE TURNOVER AS WELL AS IN RESPONSE TO DAMAGE. OXIDATIVE STRESS, MECHANICAL STRESS, GROWTH FACTORS, AND CYTOKINES SIGNAL STEM CELL DIVISION AND DIFFERENTIATION. MANY OF THE CONSERVED PATHWAYS REGULATING STEM CELL SELF-RENEWAL AND DIFFERENTIATION ARE ALSO STRESS-RESPONSE PATHWAYS. THE LONG LIFE SPAN AND DIVISION POTENTIAL OF STEM CELLS CREATE A PROPENSITY FOR TRANSFORMATION (CANCER) AND SPECIFIC STRESS RESPONSES SUCH AS APOPTOSIS AND SENESCENCE ACT AS ANTITUMOR MECHANISMS. QUIESCENCE REGULATED BY CDK INHIBITORS AND A HYPOXIC NICHE REGULATED BY FOXO TRANSCRIPTION FACTOR FUNCTION TO REDUCE STRESS FOR SEVERAL TYPES OF STEM CELLS TO FACILITATE LONG-TERM MAINTENANCE. AGING IS A PARTICULARLY RELEVANT STRESS FOR STEM CELLS, BECAUSE REPEATED DEMANDS ON STEM CELL FUNCTION OVER THE LIFE SPAN CAN HAVE CUMULATIVE CELL-AUTONOMOUS EFFECTS INCLUDING EPIGENETIC DYSREGULATION, MUTATIONS, AND TELOMERE EROSION. IN ADDITION, AGING OF THE ORGANISM IMPAIRS FUNCTION OF THE STEM CELL NICHE AND SYSTEMIC SIGNALS, INCLUDING CHRONIC INFLAMMATION AND OXIDATIVE STRESS. 2012 12 2658 40 EPITHELIAL METAPLASIA: ADULT STEM CELL REPROGRAMMING AND (PRE)NEOPLASTIC TRANSFORMATION MEDIATED BY INFLAMMATION? THROUGHOUT ADULT LIFE, NEW DEVELOPMENTAL COMMITMENT OF ADULT STEM CELLS CAUSES METAPLASTIC CONVERSIONS TO OCCUR FREQUENTLY IN SOME ORGANS. THESE REVERSIBLE EPITHELIAL REPLACEMENTS ARE ALMOST ALWAYS OBSERVED IN ASSOCIATION WITH CHRONIC INFLAMMATION AND PERSISTENT IRRITATION. ALTHOUGH METAPLASIA IS NOT SYNONYMOUS WITH DYSPLASIA, CLINICAL SURVEILLANCE HAS DEMONSTRATED THAT THESE ADAPTIVE PROCESSES HAVE AN INCREASED SUSCEPTIBILITY TO EVOLVE INTO CANCER. WE PROPOSE THAT CYTOKINES AND OTHER SOLUBLE FACTORS RELEASED BY BOTH EPITHELIAL AND INFLAMMATORY CELLS MIGHT ALTER THE TRANSCRIPTION-FACTOR EXPRESSION PROFILE OF STEM CELLS AND LEAD TO THE DEVELOPMENT OF METAPLASIA. FURTHERMORE, INFLAMMATORY MEDIATORS MIGHT ALSO PROMOTE THE MALIGNANT TRANSFORMATION OF EPITHELIAL METAPLASIA BY INDUCING GENETIC AND EPIGENETIC CHANGES AND BY PREVENTING THE IMMUNE SYSTEM FROM MOUNTING AN EFFICIENT ANTI-TUMOUR IMMUNE RESPONSE. A BETTER UNDERSTANDING OF THE MOLECULAR MECHANISMS LEADING TO METAPLASIA MIGHT HELP IN THE DESIGN OF NEW THERAPIES FOR NEOPLASTIC AND DEGENERATIVE DISEASES. 2009 13 6154 38 THE GENE EXPRESSION PROGRAM OF PROSTATE FIBROBLAST SENESCENCE MODULATES NEOPLASTIC EPITHELIAL CELL PROLIFERATION THROUGH PARACRINE MECHANISMS. THE GREATEST RISK FACTOR FOR DEVELOPING CARCINOMA OF THE PROSTATE IS ADVANCED AGE. POTENTIAL MOLECULAR AND PHYSIOLOGIC CONTRIBUTORS TO THE FREQUENCY OF CANCER OCCURRENCE IN OLDER INDIVIDUALS INCLUDE THE ACCUMULATION OF SOMATIC MUTATIONS THROUGH DEFECTS IN GENOME MAINTENANCE, EPIGENETIC GENE SILENCING, OXIDATIVE STRESS, LOSS OF IMMUNE SURVEILLANCE, TELOMERE DYSFUNCTION, CHRONIC INFLAMMATION, AND ALTERATIONS IN TISSUE MICROENVIRONMENT. IN THIS CONTEXT, THE PROCESS OF PROSTATE CARCINOGENESIS CAN BE INFLUENCED THROUGH INTERACTIONS BETWEEN INTRINSIC CELLULAR ALTERATIONS AND THE EXTRINSIC MICROENVIRONMENT AND MACROENVIRONMENT, BOTH OF WHICH CHANGE SUBSTANTIALLY AS A CONSEQUENCE OF AGING. IN THIS STUDY, WE SOUGHT TO CHARACTERIZE THE MOLECULAR ALTERATIONS THAT OCCUR DURING THE PROCESS OF PROSTATE FIBROBLAST SENESCENCE TO IDENTIFY FACTORS IN THE AGED TISSUE MICROENVIRONMENT CAPABLE OF PROMOTING THE PROLIFERATION AND POTENTIALLY THE NEOPLASTIC PROGRESSION OF PROSTATE EPITHELIUM. WE EVALUATED THREE MECHANISMS LEADING TO CELL SENESCENCE: OXIDATIVE STRESS, DNA DAMAGE, AND REPLICATIVE EXHAUSTION. WE IDENTIFIED A CONSISTENT PROGRAM OF GENE EXPRESSION THAT INCLUDES A SUBSET OF PARACRINE FACTORS CAPABLE OF INFLUENCING ADJACENT PROSTATE EPITHELIAL GROWTH. BOTH DIRECT COCULTURE AND CONDITIONED MEDIUM FROM SENESCENT PROSTATE FIBROBLASTS STIMULATED EPITHELIAL CELL PROLIFERATION, 3-FOLD AND 2-FOLD, RESPECTIVELY. THE PARACRINE-ACTING PROTEINS FIBROBLAST GROWTH FACTOR 7, HEPATOCYTE GROWTH FACTOR, AND AMPHIREGULIN (AREG) WERE ELEVATED IN THE EXTRACELLULAR ENVIRONMENT OF SENESCENT PROSTATE FIBROBLASTS. EXOGENOUS AREG ALONE STIMULATED PROSTATE EPITHELIAL CELL GROWTH, AND NEUTRALIZING ANTIBODIES AND SMALL INTERFERING RNA TARGETING AREG ATTENUATED, BUT DID NOT COMPLETELY ABROGATE THE GROWTH-PROMOTING EFFECTS OF SENESCENT FIBROBLAST CONDITIONED MEDIUM. THESE RESULTS SUPPORT THE CONCEPT THAT AGING-RELATED CHANGES IN THE PROSTATE MICROENVIRONMENT MAY CONTRIBUTE TO THE PROGRESSION OF PROSTATE NEOPLASIA. 2006 14 1149 55 CONNECTING THE IMMUNE SYSTEM, SYSTEMIC CHRONIC INFLAMMATION AND THE GUT MICROBIOME: THE ROLE OF SEX. UNRESOLVED LOW GRADE SYSTEMIC INFLAMMATION REPRESENTS THE UNDERLYING PATHOLOGICAL MECHANISM DRIVING IMMUNE AND METABOLIC PATHWAYS INVOLVED IN AUTOIMMUNE DISEASES (AID). MECHANISTIC STUDIES IN ANIMAL MODELS OF AID AND OBSERVATIONAL STUDIES IN PATIENTS HAVE FOUND ALTERATIONS IN GUT MICROBIOTA COMMUNITIES AND THEIR METABOLITES, SUGGESTING A MICROBIAL CONTRIBUTION TO THE ONSET OR PROGRESSION OF AID. THE GUT MICROBIOTA AND ITS METABOLITES HAVE BEEN SHOWN TO INFLUENCE IMMUNE FUNCTIONS AND IMMUNE HOMEOSTASIS BOTH WITHIN THE GUT AND SYSTEMATICALLY. MICROBIAL DERIVED-SHORT CHAIN FATTY ACID (SCFA) AND BIO-TRANSFORMED BILE ACID (BA) HAVE BEEN SHOWN TO INFLUENCE THE IMMUNE SYSTEM ACTING AS LIGANDS SPECIFIC CELL SIGNALING RECEPTORS LIKE GPRCS, TGR5 AND FXR, OR VIA EPIGENETIC PROCESSES. SIMILARLY, INTESTINAL PERMEABILITY (LEAKY GUT) AND BACTERIAL TRANSLOCATION ARE IMPORTANT CONTRIBUTORS TO CHRONIC SYSTEMIC INFLAMMATION AND, WITHOUT REPAIR OF THE INTESTINAL BARRIER, MIGHT REPRESENT A CONTINUOUS INFLAMMATORY STIMULUS CAPABLE OF TRIGGERING AUTOIMMUNE PROCESSES. RECENT STUDIES INDICATE GENDER-SPECIFIC DIFFERENCES IN IMMUNITY, WITH THE GUT MICROBIOTA SHAPING AND BEING CONCOMITANTLY SHAPED BY THE HORMONAL MILIEU GOVERNING DIFFERENCES BETWEEN THE SEXES. A BI-DIRECTIONAL CROSS-TALK BETWEEN MICROBIOTA AND THE ENDOCRINE SYSTEM IS EMERGING WITH BACTERIA BEING ABLE TO PRODUCE HORMONES (E.G. SEROTONIN, DOPAMINE AND SOMATOSTATINE), RESPOND TO HOST HORMONES (E.G. ESTROGENS) AND REGULATE HOST HORMONES' HOMEOSTASIS (E.G BY INHIBITING GENE PROLACTIN TRANSCRIPTION OR CONVERTING GLUCOCORTICOIDS TO ANDROGENS). WE REVIEW HEREIN HOW GUT MICROBIOTA AND ITS METABOLITES REGULATE IMMUNE FUNCTION, INTESTINAL PERMEABILITY AND POSSIBLY AID PATHOLOGICAL PROCESSES. FURTHER, WE DESCRIBE THE DYSBIOSIS WITHIN THE GUT MICROBIOTA OBSERVED IN DIFFERENT AID AND SPECULATE HOW RESTORING GUT MICROBIOTA COMPOSITION AND ITS REGULATORY METABOLITES BY DIETARY INTERVENTION INCLUDING PREBIOTICS AND PROBIOTICS COULD HELP IN PREVENTING OR AMELIORATING AID. FINALLY, WE SUGGEST THAT, GIVEN CONSISTENT OBSERVATIONS OF MICROBIOTA DYSBIOSIS ASSOCIATED WITH AID AND THE ABILITY OF SCFA AND BA TO REGULATE INTESTINAL PERMEABILITY AND INFLAMMATION, FURTHER MECHANISTIC STUDIES, EXAMINING HOW DIETARY MICROBIOTA MODULATION CAN PROTECT AGAINST AID, HOLD CONSIDERABLE POTENTIAL TO TACKLE INCREASED INCIDENCE OF AID AT THE POPULATION LEVEL. 2018 15 6604 37 TYPE 1 DIABETES AND VIRAL INFECTIONS: WHAT IS THE RELATIONSHIP? TYPE 1 DIABETES (T1D) IS THE MOST COMMON CHRONIC METABOLIC DISORDER IN CHILDREN. EPIGENETIC AND ENVIRONMENTAL FACTORS CAPABLE OF ALTERING THE PENETRANCE OF MAJOR SUSCEPTIBILITY GENES OR CAPABLE OF INCREASING THE PENETRANCE OF LOW-RISK GENES ARE CURRENTLY THOUGHT TO PLAY A ROLE IN TRIGGERING AUTOIMMUNITY AND T1D DEVELOPMENT. THIS PAPER DISCUSSES THE CURRENT KNOWLEDGE OF THE ROLE OF VIRUSES IN T1D. MOST STUDIES THAT HAVE EVALUATED THE POTENTIAL ASSOCIATION BETWEEN VIRAL INFECTIONS AND T1D HAVE INDICATED THAT IT IS HIGHLY LIKELY THAT SOME OF THESE INFECTIOUS AGENTS PLAY A ROLE IN T1D DEVELOPMENT. HOWEVER, MOST T1D CASES ARE IMMUNE-MEDIATED, AND IT IS SUPPOSED THAT THE INITIAL VIRAL INFECTION IS CAPABLE OF CREATING, IN GENETICALLY PREDISPOSED SUBJECTS, A PARTICULAR CONDITION IN WHICH CHRONIC LOCAL INFLAMMATION OCCURS THROUGH THE PERSISTENCE OF THE INFECTING VIRUS IN PANCREATIC TISSUE AND THE ACTIVATION OF AUTOIMMUNITY BY MEANS OF MOLECULAR MIMICRY, BYSTANDER ACTIVATION, OR BOTH. THEORETICALLY, THIS KNOWLEDGE COULD LEAD TO POSSIBLE PROPHYLAXIS AND THERAPY FOR T1D. FURTHER STUDIES DEVOTED TO EVALUATING WHICH INFECTIOUS AGENTS ARE LINKED TO T1D AND WHICH IMMUNE MECHANISMS INDUCE OR PROTECT AGAINST THE DISEASE ARE NEEDED BEFORE ADEQUATE PROPHYLACTIC AND THERAPEUTIC MEASURES CAN BE DEVELOPED. 2017 16 6715 43 VITAMIN A AND THE EPIGENOME. THE EPIGENETIC PHENOMENA REFER TO HERITABLE CHANGES IN GENE EXPRESSION OTHER THAN THOSE IN THE DNA SEQUENCE, SUCH AS DNA METHYLATION AND HISTONE MODIFICATIONS. MAJOR RESEARCH PROGRESS IN THE LAST FEW YEARS HAS PROVIDED FURTHER PROOF THAT ENVIRONMENTAL FACTORS, INCLUDING DIET AND NUTRITION, CAN INFLUENCE PHYSIOLOGIC AND PATHOLOGIC PROCESSES THROUGH EPIGENETIC ALTERATIONS, WHICH IN TURN INFLUENCE GENE EXPRESSION. THIS INFLUENCE IS TERMED NUTRITIONAL EPIGENETICS, AND ONE PROMINENT EXAMPLE IS THE REGULATION OF GENE TRANSCRIPTION BY VITAMIN A THROUGH INTERACTION TO ITS NUCLEAR RECEPTOR. VITAMIN A IS CRITICAL THROUGHOUT LIFE. TOGETHER WITH ITS DERIVATIVES, IT REGULATES DIVERSE PROCESSES INCLUDING REPRODUCTION, EMBRYOGENESIS, VISION, GROWTH, CELLULAR DIFFERENTIATION AND PROLIFERATION, MAINTENANCE OF EPITHELIAL CELLULAR INTEGRITY AND IMMUNE FUNCTION. HERE WE REVIEW THE EPIGENETIC ROLE OF VITAMIN A IN CANCER, STEM CELLS DIFFERENTIATION, PROLIFERATION, AND IMMUNITY. THE DATA PRESENTED HERE SHOW THAT RETINOIC ACID IS A POTENT AGENT CAPABLE OF INDUCING ALTERATIONS IN EPIGENETIC MODIFICATIONS THAT PRODUCE VARIOUS EFFECTS ON THE PHENOTYPE. MEDICAL BENEFITS OF VITAMIN A AS AN EPIGENETIC MODULATOR, ESPECIALLY WITH RESPECT TO ITS CHRONIC USE AS NUTRITIONAL SUPPLEMENT, SHOULD RELY ON OUR FURTHER UNDERSTANDING OF ITS EPIGENETIC EFFECTS DURING HEALTH AND DISEASE, AS WELL AS THROUGH DIFFERENT GENERATIONS. 2017 17 1300 37 DEDIFFERENTIATION AND IN VIVO REPROGRAMMING OF COMMITTED CELLS IN WOUND REPAIR (REVIEW). ACCUMULATING EVIDENCE HAS SHOWN THAT CELL DEDIFFERENTIATION OR REPROGRAMMING IS A PIVOTAL PROCEDURE FOR ANIMALS TO DEAL WITH INJURY AND PROMOTE ENDOGENOUS TISSUE REPAIR. TISSUE DAMAGE IS A CRITICAL FACTOR THAT TRIGGERS CELL DEDIFFERENTIATION OR REPROGRAMMING IN VIVO. BY CONTRAST, MICROENVIRONMENTAL CHANGES, INCLUDING THE LOSS OF STEM CELLS, HYPOXIA, CELL SENESCENCE, INFLAMMATION AND IMMUNITY, CAUSED BY TISSUE DAMAGE CAN RETURN CELLS TO AN UNSTABLE STATE. IF THE WOUND PERSISTS IN THE LONG?TERM DUE TO CHRONIC DAMAGE, THEN DEDIFFERENTIATION OR REPROGRAMMING OF THE SURROUNDING CELLS MAY LEAD TO CARCINOGENESIS. IN RECENT YEARS, EXTENSIVE RESEARCH HAS BEEN PERFORMED INVESTIGATING CELL DEDIFFERENTIATION OR REPROGRAMMING IN VIVO, WHICH CAN HAVE SIGNIFICANT IMPLICATIONS FOR WOUND REPAIR, TREATMENT AND PREVENTION OF CANCER IN THE FUTURE. THE CURRENT REVIEW SUMMARIZES THE MOLECULAR EVENTS THAT ARE KNOWN TO DRIVE CELL DEDIFFERENTIATION DIRECTLY FOLLOWING TISSUE INJURY AND THE EFFECTS OF EPIGENETIC MODIFICATION ON DEDIFFERENTIATION OR REPROGRAMMING IN VIVO. IN ADDITION, THE PRESENT REVIEW EXPLORES THE INTRACELLULAR MECHANISM OF ENDOGENOUS TISSUE REPAIR AND ITS RELATIONSHIP WITH CANCER, WHICH IS ESSENTIAL FOR BALANCING THE RISK BETWEEN TISSUE REPAIR AND MALIGNANT TRANSFORMATION AFTER INJURY. 2022 18 2770 40 EXTENDING INJURY- AND DISEASE-RESISTANT CNS PHENOTYPES BY REPETITIVE EPIGENETIC CONDITIONING. SIGNIFICANT REDUCTIONS IN THE EXTENT OF ACUTE INJURY IN THE CNS CAN BE ACHIEVED BY EXPOSURE TO DIFFERENT PRECONDITIONING STIMULI, BUT THE DURATION OF THE INDUCED PROTECTIVE PHENOTYPE IS TYPICALLY SHORT-LASTING, AND THUS IS DEEMED AS LIMITING ITS CLINICAL APPLICABILITY. EXTENDING THE PERIOD OVER WHICH SUCH ADAPTIVE EPIGENETIC CHANGES PERSIST - IN EFFECT, EXPANDING CONDITIONING'S "THERAPEUTIC WINDOW" - WOULD SIGNIFICANTLY BROADEN THE POTENTIAL APPLICATIONS OF SUCH A TREATMENT APPROACH IN PATIENTS. THE FREQUENCY OF THE CONDITIONING STIMULUS MAY HOLD THE KEY. WHILE TRANSIENT (1-3 DAYS) PROTECTION AGAINST CNS ISCHEMIC INJURY IS WELL ESTABLISHED PRECLINICALLY FOLLOWING A SINGLE PRECONDITIONING STIMULUS, REPETITIVELY PRESENTING PRECONDITIONING STIMULI EXTENDS THE DURATION OF ISCHEMIC TOLERANCE BY MANY WEEKS. MOREOVER, REPETITIVE INTERMITTENT POSTCONDITIONING ENHANCES POST-ISCHEMIC RECOVERY METRICS AND IMPROVES LONG-TERM SURVIVAL. INTERMITTENT CONDITIONING IS ALSO EFFICACIOUS FOR PREVENTING OR DELAYING INJURY IN PRECLINICAL MODELS OF CHRONIC NEURODEGENERATIVE DISEASE, AND FOR PROMOTING LONG-LASTING FUNCTIONAL IMPROVEMENTS IN A NUMBER OF OTHER PATHOLOGIES AS WELL. ALTHOUGH THE DETAILED MECHANISMS UNDERLYING THESE PROTRACTED KINDS OF NEUROPLASTICITY REMAIN LARGELY UNSTUDIED, ACCUMULATING EMPIRICAL EVIDENCE SUPPORTS THE CONTENTION THAT ALL OF THESE ADAPTIVE PHENOTYPES ARE EPIGENETICALLY MEDIATED. GOING FORWARD, ADDITIONAL PRECLINICAL DEMONSTRATIONS OF THE ABILITY TO INDUCE SUSTAINED BENEFICIAL PHENOTYPES THAT REDUCE THE BURDEN OF ACUTE AND CHRONIC NEURODEGENERATION, AND EXPERIMENTAL INTERROGATIONS OF THE REGULATORY CONSTRUCTS RESPONSIBLE FOR THESE EPIGENETIC RESPONSES, WILL ACCELERATE THE IDENTIFICATION OF NOT ONLY EFFICACIOUS BUT ALSO PRACTICAL, ADAPTIVE EPIGENETICS-BASED TREATMENTS FOR INDIVIDUALS WITH NEUROLOGICAL DISEASE. 2015 19 6151 27 THE FIRE WITHIN: CELL-AUTONOMOUS MECHANISMS IN INFLAMMATION-DRIVEN CANCER. INFLAMMATORY CELLS ARE IMPORTANT FOR TUMOR INITIATION AND PROMOTION, PROVIDING CANCER CELLS WITH CYTOKINES THAT ENHANCE CELL PROLIFERATION AND SURVIVAL. ALTHOUGH MALIGNANT EPITHELIAL CELLS WERE TRADITIONALLY CONSIDERED TO BE ON THE RECEIVING END OF THESE MICROENVIRONMENTAL INTERACTIONS, RECENT STUDIES SHOW THAT EPITHELIAL CELLS CAN UNDERGO INFLAMMATORY REPROGRAMMING ON THEIR OWN. SUCH EPIGENETIC SWITCHES ARE OFTEN TRIGGERED BY CHRONIC TISSUE INJURY AND PLAY IMPORTANT ROLES IN TISSUE REPAIR. BY CONVERTING TERMINALLY DIFFERENTIATED CELLS THAT HARBOR EVEN A SINGLE ONCOGENIC MUTATION TO A LESS DIFFERENTIATED STATE WITH A HIGHER PROLIFERATIVE POTENTIAL, CELL-AUTONOMOUS INFLAMMATION IS AN IMPORTANT CONTRIBUTOR TO TUMOR INITIATION. 2019 20 2906 39 GENE EDITING FOR INFLAMMATORY DISORDERS. TECHNOLOGY FOR PRECISE AND EFFICIENT GENETIC EDITING IS CONSTANTLY EVOLVING AND IS NOW CAPABLE OF HUMAN CLINICAL APPLICATIONS. AUTOIMMUNE AND INFLAMMATORY DISEASES ARE CHRONIC, DISABLING, SOMETIMES LIFE-THREATENING, CONDITIONS THAT FEATURE HERITABLE COMPONENTS. BOTH PRIMARY GENETIC LESIONS AND THE INFLAMMATORY PATHOBIOLOGY UNDERLYING THESE DISEASES REPRESENT FERTILE SOIL FOR NEW THERAPIES BASED ON THE CAPABILITIES OF GENE EDITING. THE ABILITY TO ORCHESTRATE PRECISE TARGETED MODIFICATIONS TO THE GENOME WILL LIKELY ENABLE CELL-BASED THERAPIES FOR INFLAMMATORY DISEASES SUCH AS MONOGENIC AUTOINFLAMMATORY DISEASE, ACQUIRED AUTOIMMUNE DISEASE AND FOR REGENERATIVE MEDICINE IN THE SETTING OF AN INFLAMMATORY ENVIRONMENT. HERE, WE DISCUSS RECENT ADVANCES IN GENOME EDITING AND THEIR EVOLVING APPLICATIONS IN IMMUNOINFLAMMATORY DISEASES. STRENGTHS AND LIMITATIONS OF OLDER GENETIC MODIFICATION TOOLS ARE COMPARED WITH CRISPR/CAS9, BASE EDITING, RNA EDITING, TARGETED ACTIVATORS AND REPRESSORS OF TRANSCRIPTION AND TARGETED EPIGENETIC MODIFIERS. COMMONLY EMPLOYED DELIVERY VEHICLES TO TARGET CELLS OR TISSUES OF INTEREST WITH GENETIC MODIFICATION MACHINERY, INCLUDING VIRAL, NON-VIRAL AND CELLULAR VECTORS, ARE DESCRIBED. FINALLY, APPLICATIONS IN ANIMAL AND HUMAN MODELS OF INFLAMMATORY DISEASES ARE DISCUSSED. USE OF CHIMERIC AUTOANTIGEN RECEPTOR T CELLS, CORRECTION OF MONOGENIC DISEASES WITH GENETICALLY EDITED HAEMATOPOIETIC STEM AND PROGENITOR CELLS, ENGINEERING OF INDUCED PLURIPOTENT STEM CELLS AND EX VIVO EXPANSION AND MODIFICATION OF REGULATORY T CELLS FOR A RANGE OF CHRONIC INFLAMMATORY DISEASES ARE REVIEWED. 2019