1 3571 119 IMPACT OF LOCAL ANESTHETICS ON EPIGENETICS IN CANCER. DEFECTIVE SILENCING OF TUMOR SUPPRESSOR GENES THROUGH EPIGENETIC ALTERATIONS CONTRIBUTES TO ONCOGENESIS BY PERTURBING CELL CYCLE REGULATION, DNA REPAIR OR CELL DEATH MECHANISMS. REVERSAL OF SUCH EPIGENETIC CHANGES INCLUDING DNA HYPERMETHYLATION PROVIDES A PROMISING ANTICANCER STRATEGY. UNTIL NOW, THE NUCLEOSIDE DERIVATIVES 5-AZACYTIDINE AND DECITABINE ARE THE SOLE DNA METHYLTRANSFERASE (DNMT) INHIBITORS APPROVED BY THE FDA FOR THE TREATMENT OF SPECIFIC HEMATOLOGICAL CANCERS. NEVERTHELESS, DUE TO THEIR NUCLEOSIDE STRUCTURE, THESE INHIBITORS DIRECTLY INCORPORATE INTO DNA, WHICH LEADS TO SEVERE SIDE EFFECTS AND COMPROMISES GENOMIC STABILITY. MUCH EMPHASIS HAS BEEN PLACED ON THE DEVELOPMENT OF LESS TOXIC EPIGENETIC MODIFIERS. RECENTLY, SEVERAL PRECLINICAL STUDIES DEMONSTRATED THE POTENT EPIGENETIC EFFECTS OF LOCAL ANESTHETICS, WHICH ARE ROUTINELY USED DURING PRIMARY TUMOR RESECTION TO RELIEF SURGICAL PAIN. THESE NON-NUCLEOSIDE MOLECULES INHIBIT DNMT ACTIVITY, AFFECT THE EXPRESSION OF MICRO-RNAS AND REPRESS HISTONE ACETYLATION, THUS EXERTING CYTOTOXIC EFFECTS ON MALIGNANT CELLS. THE IN-DEPTH MECHANISTIC COMPREHENSION OF THESE EPIGENETIC EFFECTS MIGHT PROMOTE THE USE OF LOCAL ANESTHETICS AS ANTICANCER DRUGS. 2022 2 593 32 BET PROTEIN INHIBITION REGULATES CYTOKINE PRODUCTION AND PROMOTES NEUROPROTECTION AFTER SPINAL CORD INJURY. BACKGROUND: SPINAL CORD INJURY (SCI) USUALLY CAUSES A DEVASTATING LIFELONG DISABILITY FOR PATIENTS. AFTER A TRAUMATIC LESION, DISRUPTION OF THE BLOOD-SPINAL CORD BARRIER INDUCES THE INFILTRATION OF MACROPHAGES INTO THE LESION SITE AND THE ACTIVATION OF RESIDENT GLIAL CELLS, WHICH RELEASE CYTOKINES AND CHEMOKINES. THESE EVENTS RESULT IN A PERSISTENT INFLAMMATION, WHICH HAS BOTH DETRIMENTAL AND BENEFICIAL EFFECTS, BUT EVENTUALLY LIMITS FUNCTIONAL RECOVERY AND CONTRIBUTES TO THE APPEARANCE OF NEUROPATHIC PAIN. BROMODOMAIN AND EXTRA-TERMINAL DOMAIN (BET) PROTEINS ARE EPIGENETIC READERS THAT REGULATE THE EXPRESSION OF INFLAMMATORY GENES BY INTERACTING WITH ACETYLATED LYSINE RESIDUES. WHILE BET INHIBITORS ARE A PROMISING THERAPEUTIC STRATEGY FOR CANCER, LITTLE IS KNOWN ABOUT THEIR IMPLICATION AFTER SCI. THUS, THE CURRENT STUDY WAS AIMED TO INVESTIGATE THE ANTI-INFLAMMATORY ROLE OF BET INHIBITORS IN THIS PATHOLOGIC CONDITION. METHODS: WE EVALUATED THE EFFECTIVENESS OF THE BET INHIBITOR JQ1 TO MODIFY MACROPHAGE REACTIVITY IN VITRO AND TO MODULATE INFLAMMATION IN A SCI MICE MODEL. WE ANALYZED THE EFFECTS OF BET INHIBITION IN PRO-INFLAMMATORY AND ANTI-INFLAMMATORY CYTOKINE PRODUCTION IN VITRO AND IN VIVO. WE DETERMINED THE EFFECTIVENESS OF BET INHIBITION IN TISSUE SPARING, INFLAMMATION, NEURONAL PROTECTION, AND BEHAVIORAL OUTCOME AFTER SCI. RESULTS: WE HAVE FOUND THAT THE BET INHIBITOR JQ1 REDUCED THE LEVELS OF PRO-INFLAMMATORY MEDIATORS AND INCREASED THE EXPRESSION OF ANTI-INFLAMMATORY CYTOKINES. A PROLONGED TREATMENT WITH JQ1 ALSO DECREASED REACTIVITY OF MICROGLIA/MACROPHAGES, ENHANCED NEUROPROTECTION AND FUNCTIONAL RECOVERY, AND ACUTELY REDUCED NEUROPATHIC PAIN AFTER SCI. CONCLUSIONS: BET PROTEIN INHIBITION IS AN EFFECTIVE TREATMENT TO REGULATE CYTOKINE PRODUCTION AND PROMOTE NEUROPROTECTION AFTER SCI. THESE NOVEL RESULTS DEMONSTRATE FOR THE FIRST TIME THAT TARGETING BET PROTEINS IS AN ENCOURAGING APPROACH FOR SCI REPAIR AND A POTENTIAL STRATEGY TO TREAT OTHER INFLAMMATORY PATHOLOGIES. 2019 3 4611 21 NEONATAL IMMUNE CHALLENGE FOLLOWED BY ADULT IMMUNE CHALLENGE INDUCES EPIGENETIC-SUSCEPTIBILITY TO AGGRAVATED VISCERAL HYPERSENSITIVITY. BACKGROUND: ABDOMINAL PAIN IS ONE OF THE MAJOR SYMPTOMS OF INFLAMMATORY BOWEL DISEASE (IBD). THE INFLAMMATORY MEDIATORS RELEASED BY COLON INFLAMMATION ARE KNOWN TO SENSITIZE THE AFFERENT NEURONS, WHICH IS ONE OF THE CONTRIBUTORS TO ABDOMINAL PAIN. HOWEVER, NOT ALL IBD PATIENTS HAVE ABDOMINAL PAIN, AND SOME PATIENTS REPORT ABDOMINAL PAIN DURING REMISSION, SUGGESTING CONTRIBUTIONS OF OTHER PATHOLOGICAL FACTORS TO ABDOMINAL PAIN IN IBD. EPIDEMIOLOGICAL STUDIES FOUND EARLY-LIFE GASTROINTESTINAL INFECTIONS A RISK FACTOR FOR IBD SYMPTOMS AND ADULT-LIFE GASTROINTESTINAL INFECTIONS MAY TRIGGER THE ONSET OF IBD. WE INVESTIGATED THE HYPOTHESIS THAT NEONATAL COLON IMMUNE CHALLENGE FOLLOWED BY AN ADULT COLON IMMUNE CHALLENGE UPREGULATES SPINAL CORD BDNF THAT AGGRAVATES VISCERAL SENSITIVITY OVER AND ABOVE THAT INDUCED BY ADULT COLON IMMUNE CHALLENGE ALONE. METHODS: WE INDUCED NEONATAL AND ADULT COLON IMMUNE CHALLENGES BY INTRALUMINAL ADMINISTRATION OF TRINITROBENZENE SULFONIC ACID TO THE RAT COLON. KEY RESULTS: WE FOUND THAT NEONATAL IMMUNE CHALLENGE TRIGGERS EPIGENETIC PROGRAMMING THAT UPREGULATES TYROSINE HYDROXYLASE IN THE LOCUS CERULEUS WHEN THESE RATS ARE SUBJECTED TO AN ADULT COLON IMMUNE CHALLENGE. THE UPREGULATION OF LOCUS CERULEUS TYROSINE HYDROXYLASE, UPREGULATES NOREPINEPHRINE IN THE CEREBROSPINAL FLUID THAT ACTS ON ADRENERGIC RECEPTORS TO ENHANCE PCREB BINDING TO THE CAMP RESPONSE ELEMENT, WHICH RECRUITS HISTONE ACETYLENE TRANSFERASE (HAT) TO THE BDNF GENE TO ENHANCE ITS TRANSCRIPTION RESULTING IN AGGRAVATED VISCEROMOTOR RESPONSE TO COLORECTAL DISTENSION. HAT AND ADRENERGIC RECEPTOR ANTAGONISTS BLOCK THE AGGRAVATION OF VISCERAL SENSITIVITY. CONCLUSION & INFERENCES: HAT AND ADRENERGIC RECEPTOR INHIBITORS MAY SERVE AS ALTERNATES TO OPIOIDS AND NSAIDS IN SUPPRESSING ABDOMINAL PAIN IN IBD. 2017 4 2770 22 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 5 5489 37 REVERSING POST-INFECTIOUS EPIGENETIC-MEDIATED IMMUNE SUPPRESSION. THE IMMUNE RESPONSE MUST BALANCE THE PRO-INFLAMMATORY, CELL-MEDIATED CYTOTOXICITY WITH THE ANTI-INFLAMMATORY AND WOUND REPAIR RESPONSE. EPIGENETIC MECHANISMS MEDIATE THIS BALANCE AND LIMIT HOST IMMUNITY FROM INDUCING EXUBERANT COLLATERAL DAMAGE TO HOST TISSUE AFTER SEVERE AND CHRONIC INFECTIONS. HOWEVER, FOLLOWING TREATMENT FOR THESE INFECTIONS, INCLUDING SEPSIS, PNEUMONIA, HEPATITIS B, HEPATITIS C, HIV, TUBERCULOSIS (TB) OR SCHISTOSOMIASIS, DETRIMENTAL EPIGENETIC SCARS PERSIST, AND RESULT IN LONG-LASTING IMMUNE SUPPRESSION. THIS IS HYPOTHESIZED TO BE ONE OF THE CONTRIBUTING MECHANISMS EXPLAINING WHY SURVIVORS OF INFECTION HAVE INCREASED ALL-CAUSE MORTALITY AND INCREASED RATES OF UNRELATED SECONDARY INFECTIONS. THE MECHANISMS THAT INDUCE EPIGENETIC-MEDIATED IMMUNE SUPPRESSION HAVE BEEN DEMONSTRATED IN-VITRO AND IN ANIMAL MODELS. MODULATION OF THE AMP-ACTIVATED PROTEIN KINASE (AMPK)-MAMMALIAN TARGET OF RAPAMYCIN (MTOR), NUCLEAR FACTOR OF ACTIVATED T CELLS (NFAT) OR NUCLEAR RECEPTOR (NR4A) PATHWAYS IS ABLE TO BLOCK OR REVERSE THE DEVELOPMENT OF DETRIMENTAL EPIGENETIC SCARS. SIMILARLY, DRUGS THAT DIRECTLY MODIFY EPIGENETIC ENZYMES, SUCH AS THOSE THAT INHIBIT HISTONE DEACETYLASES (HDAC) INHIBITORS, DNA HYPOMETHYLATING AGENTS OR MODIFIERS OF THE NUCLEOSOME REMODELING AND DNA METHYLATION (NURD) COMPLEX OR POLYCOMB REPRESSIVE COMPLEX (PRC) HAVE DEMONSTRATED CAPACITY TO RESTORE HOST IMMUNITY IN THE SETTING OF CANCER-, LCMV- OR MURINE SEPSIS-INDUCED EPIGENETIC-MEDIATED IMMUNE SUPPRESSION. A THIRD CLINICALLY FEASIBLE STRATEGY FOR REVERSING DETRIMENTAL EPIGENETIC SCARS INCLUDES BIOENGINEERING APPROACHES TO EITHER DIRECTLY REVERSE THE DETRIMENTAL EPIGENETIC MARKS OR TO MODIFY THE EPIGENETIC ENZYMES OR TRANSCRIPTION FACTORS THAT INDUCE DETRIMENTAL EPIGENETIC SCARS. EACH OF THESE APPROACHES, ALONE OR IN COMBINATION, HAVE ABLATED OR REVERSED DETRIMENTAL EPIGENETIC MARKS IN IN-VITRO OR IN ANIMAL MODELS; TRANSLATIONAL STUDIES ARE NOW REQUIRED TO EVALUATE CLINICAL APPLICABILITY. 2021 6 4386 23 MITOCHONDRIAL STRESS INDUCED BY CONTINUOUS STIMULATION UNDER HYPOXIA RAPIDLY DRIVES T CELL EXHAUSTION. CANCER AND CHRONIC INFECTIONS INDUCE T CELL EXHAUSTION, A HYPOFUNCTIONAL FATE CARRYING DISTINCT EPIGENETIC, TRANSCRIPTOMIC AND METABOLIC CHARACTERISTICS. HOWEVER, DRIVERS OF EXHAUSTION REMAIN POORLY UNDERSTOOD. AS INTRATUMORAL EXHAUSTED T CELLS EXPERIENCE SEVERE HYPOXIA, WE HYPOTHESIZED THAT METABOLIC STRESS ALTERS THEIR RESPONSES TO OTHER SIGNALS, SPECIFICALLY, PERSISTENT ANTIGENIC STIMULATION. IN VITRO, ALTHOUGH CD8(+) T CELLS EXPERIENCING CONTINUOUS STIMULATION OR HYPOXIA ALONE DIFFERENTIATED INTO FUNCTIONAL EFFECTORS, THE COMBINATION RAPIDLY DROVE T CELL DYSFUNCTION CONSISTENT WITH EXHAUSTION. CONTINUOUS STIMULATION PROMOTED BLIMP-1-MEDIATED REPRESSION OF PGC-1ALPHA-DEPENDENT MITOCHONDRIAL REPROGRAMMING, RENDERING CELLS POORLY RESPONSIVE TO HYPOXIA. LOSS OF MITOCHONDRIAL FUNCTION GENERATED INTOLERABLE LEVELS OF REACTIVE OXYGEN SPECIES (ROS), SUFFICIENT TO PROMOTE EXHAUSTED-LIKE STATES, IN PART THROUGH PHOSPHATASE INHIBITION AND THE CONSEQUENT ACTIVITY OF NUCLEAR FACTOR OF ACTIVATED T CELLS. REDUCING T CELL-INTRINSIC ROS AND LOWERING TUMOR HYPOXIA LIMITED T CELL EXHAUSTION, SYNERGIZING WITH IMMUNOTHERAPY. THUS, IMMUNOLOGIC AND METABOLIC SIGNALING ARE INTRINSICALLY LINKED: THROUGH MITIGATION OF METABOLIC STRESS, T CELL DIFFERENTIATION CAN BE ALTERED TO PROMOTE MORE FUNCTIONAL CELLULAR FATES. 2021 7 842 28 CHEMOKINES IN CHRONIC PAIN: CELLULAR AND MOLECULAR MECHANISMS AND THERAPEUTIC POTENTIAL. CHRONIC PAIN RESULTING FROM NERVE INJURY, TISSUE INFLAMMATION, AND TUMOR INVASION OR TREATMENT, IS A MAJOR HEALTH PROBLEM IMPACTING THE QUALITY OF LIFE AND PRODUCING A SIGNIFICANT ECONOMIC AND SOCIAL BURDEN. HOWEVER, THE CURRENT ANALGESIC DRUGS INCLUDING NON-STEROIDAL ANTI-INFLAMMATORY DRUGS AND OPIOIDS ARE INADEQUATE TO RELIEVE CHRONIC PAIN DUE TO THE LACK OF EFFICACY OR SEVERE SIDE-EFFECTS. CHEMOKINES ARE A FAMILY OF SMALL SECRETED PROTEINS THAT BIND TO G PROTEIN-COUPLED RECEPTORS TO TRIGGER INTRACELLULAR SIGNALING PATHWAYS AND DIRECT CELL MIGRATION, PROLIFERATION, SURVIVAL, AND INFLAMMATION UNDER HOMEOSTATIC AND PATHOLOGICAL CONDITIONS. ACCUMULATING EVIDENCE SUPPORTS THE IMPORTANT ROLE OF CHEMOKINES AND CHEMOKINE RECEPTORS IN THE PERIPHERAL AND CENTRAL NERVOUS SYSTEM IN MEDIATING CHRONIC PAIN VIA ENHANCING NEUROINFLAMMATION. IN THIS REVIEW, WE FOCUS ON RECENT PROGRESS IN UNDERSTANDING THE COMPREHENSIVE ROLES OF CHEMOKINES AND CHEMOKINE RECEPTORS IN THE GENERATION AND MAINTENANCE OF DIFFERENT TYPES OF CHRONIC PAIN, INCLUDING NEUROPATHIC PAIN, INFLAMMATORY PAIN, CANCER PAIN, AND VISCERAL PAIN. THE CURRENT REVIEW ALSO SUMMARIZES THE UPSTREAM SIGNALING OF TRANSCRIPTIONAL AND EPIGENETIC REGULATION ON THE EXPRESSION OF CHEMOKINES AND CHEMOKINE RECEPTORS AS WELL AS THE DOWNSTREAM SIGNALING OF CHEMOKINE RECEPTORS UNDERLYING CHRONIC PAIN. AS CHRONIC ITCH AND CHRONIC PAIN SHARE SOME COMMON MECHANISMS, WE ALSO DISCUSS THE EMERGING ROLES OF CHEMOKINES AND CHEMOKINE RECEPTORS IN CHRONIC ITCH. TARGETING SPECIFIC CHEMOKINES OR CHEMOKINE RECEPTORS BY SIRNAS, BLOCKING ANTIBODIES, OR SMALL-MOLECULE ANTAGONISTS MAY OFFER NEW THERAPEUTIC POTENTIAL FOR THE MANAGEMENT OF CHRONIC PAIN. 2020 8 2344 19 EPIGENETIC REGULATION OF MACROPHAGES: FROM HOMEOSTASIS MAINTENANCE TO HOST DEFENSE. MACROPHAGES ARE CRUCIAL MEMBERS OF THE INNATE IMMUNE RESPONSE AND IMPORTANT REGULATORS. THE DIFFERENTIATION AND ACTIVATION OF MACROPHAGES REQUIRE THE TIMELY REGULATION OF GENE EXPRESSION, WHICH DEPENDS ON THE INTERACTION OF A VARIETY OF FACTORS, INCLUDING TRANSCRIPTION FACTORS AND EPIGENETIC MODIFICATIONS. EPIGENETIC CHANGES ALSO GIVE MACROPHAGES THE ABILITY TO SWITCH RAPIDLY BETWEEN CELLULAR PROGRAMS, INDICATING THE ABILITY OF EPIGENETIC MECHANISMS TO AFFECT PHENOTYPE PLASTICITY. IN THIS REVIEW, WE FOCUS ON KEY EPIGENETIC EVENTS ASSOCIATED WITH MACROPHAGE FATE, HIGHLIGHTING EVENTS RELATED TO THE MAINTENANCE OF TISSUE HOMEOSTASIS, RESPONSES TO DIFFERENT STIMULI AND THE FORMATION OF INNATE IMMUNE MEMORY. FURTHER UNDERSTANDING OF THE EPIGENETIC REGULATION OF MACROPHAGES WILL BE HELPFUL FOR MAINTAINING TISSUE INTEGRITY, PREVENTING CHRONIC INFLAMMATORY DISEASES AND DEVELOPING THERAPIES TO ENHANCE HOST DEFENSE. 2020 9 2342 21 EPIGENETIC REGULATION OF MACROPHAGE POLARIZATION AND FUNCTION. MACROPHAGE POLARIZATION REFERS TO DEVELOPMENT OF A SPECIFIC PHENOTYPE IMPORTANT FOR TISSUE HOMEOSTASIS OR HOST DEFENSE IN RESPONSE TO ENVIRONMENTAL CUES. ENVIRONMENTAL FACTORS THAT INDUCE MACROPHAGE POLARIZATION INCLUDE CYTOKINES AND MICROBIAL FACTORS PRODUCED BY PATHOGENS OR COMMENSAL MICROBIOTA. SIGNALING PATHWAYS UTILIZED BY THESE POLARIZING FACTORS HAVE BEEN WELL CHARACTERIZED, BUT IT IS LESS CLEAR HOW SIGNALS ARE CONVERTED INTO COMPLEX AND SUSTAINED PATTERNS OF GENE EXPRESSION, AND HOW MACROPHAGES ARE REPROGRAMMED DURING POLARIZATION TO ALTER THEIR RESPONSES TO SUBSEQUENT ENVIRONMENTAL CHALLENGES. EMERGING EVIDENCE, REVIEWED HERE, SUGGESTS AN IMPORTANT ROLE FOR EPIGENETIC MECHANISMS IN MODULATING AND TRANSMITTING SIGNALS DURING MACROPHAGE POLARIZATION AND REPROGRAMMING. DEEPER UNDERSTANDING OF EPIGENETIC REGULATION OF MACROPHAGE PHENOTYPE WILL ENABLE DEVELOPMENT OF GENE-SPECIFIC THERAPEUTIC APPROACHES TO ENHANCE HOST DEFENSE WHILE PRESERVING TISSUE INTEGRITY AND PREVENTING CHRONIC INFLAMMATORY DISEASES. 2013 10 6527 23 TRANSCRIPTIONAL CONTROL OF MALADAPTIVE AND PROTECTIVE RESPONSES IN ALCOHOLICS: A ROLE OF THE NF-KAPPAB SYSTEM. ALCOHOL DEPENDENCE AND ASSOCIATED COGNITIVE IMPAIRMENT APPEAR TO RESULT FROM MALADAPTIVE NEUROPLASTICITY IN RESPONSE TO CHRONIC ALCOHOL CONSUMPTION, NEUROINFLAMMATION AND NEURODEGENERATION. THE INHERENT STABILITY OF BEHAVIORAL ALTERATIONS ASSOCIATED WITH THE ADDICTED STATE SUGGESTS THAT TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS ARE OPERATIVE. NF-KAPPAB TRANSCRIPTION FACTORS ARE REGULATORS OF SYNAPTIC PLASTICITY AND INFLAMMATION, AND RESPONSIVE TO A VARIETY OF STIMULI INCLUDING ALCOHOL. THESE FACTORS ARE ABUNDANT IN THE BRAIN WHERE THEY HAVE DIVERSE FUNCTIONS THAT DEPEND ON THE COMPOSITION OF THE NF-KAPPAB COMPLEX AND CELLULAR CONTEXT. IN NEURON CELL BODIES, NF-KAPPAB IS CONSTITUTIVELY ACTIVE, AND INVOLVED IN NEURONAL INJURY AND NEUROPROTECTION. HOWEVER, AT THE SYNAPSE, NF-KAPPAB IS PRESENT IN A LATENT FORM AND UPON ACTIVATION IS TRANSPORTED TO THE CELL NUCLEUS. IN GLIA, NF-KAPPAB IS INDUCIBLE AND REGULATES INFLAMMATORY PROCESSES THAT EXACERBATE ALCOHOL-INDUCED NEURODEGENERATION. ANIMAL STUDIES DEMONSTRATE THAT ACUTE ALCOHOL EXPOSURE TRANSIENTLY ACTIVATES NF-KAPPAB, WHICH INDUCES NEUROINFLAMMATORY RESPONSES AND NEURODEGENERATION. POSTMORTEM STUDIES OF BRAINS OF HUMAN ALCOHOLICS SUGGEST THAT REPEATED CYCLES OF ALCOHOL CONSUMPTION AND WITHDRAWAL CAUSE ADAPTIVE CHANGES IN THE NF-KAPPAB SYSTEM THAT MAY PERMIT THE SYSTEM TO BETTER TOLERATE EXCESSIVE STIMULATION. THIS TYPE OF TOLERANCE, ENSURING A LOW DEGREE OF RESPONSIVENESS TO APPLIED STIMULI, APPARENTLY DIFFERS FROM THAT IN THE IMMUNE SYSTEM, AND MAY REPRESENT A COMPENSATORY RESPONSE THAT PROTECTS BRAIN CELLS AGAINST ALCOHOL NEUROTOXICITY. THIS VIEW IS SUPPORTED BY FINDINGS SHOWING PREFERENTIAL DOWNREGULATION OF PRO-APOPTOTIC GENE EXPRESSION IN THE AFFECTED BRAIN AREAS IN HUMAN ALCOHOLICS. ALTHOUGH FURTHER VERIFICATION IS NEEDED, WE SPECULATE THAT NF-KAPPAB-DRIVEN NEUROINFLAMMATION AND DISRUPTION TO NEUROPLASTICITY PLAY A SIGNIFICANT ROLE IN REGULATING ALCOHOL DEPENDENCE AND COGNITIVE IMPAIRMENT. 2011 11 3678 31 INFLAMMATION AND REGENERATION IN THE DENTIN-PULP COMPLEX: A DOUBLE-EDGED SWORD. DENTAL TISSUE INFECTION AND DISEASE RESULT IN ACUTE AND CHRONIC ACTIVATION OF THE INNATE IMMUNE RESPONSE, WHICH IS MEDIATED BY MOLECULAR AND CELLULAR SIGNALING. DIFFERENT CELL TYPES WITHIN THE DENTIN-PULP COMPLEX ARE ABLE TO DETECT INVADING BACTERIA AT ALL STAGES OF THE INFECTION. INDEED, AT RELATIVELY EARLY DISEASE STAGES, ODONTOBLASTS WILL RESPOND TO BACTERIAL COMPONENTS, AND AS THE DISEASE PROGRESSES, CORE PULPAL CELLS INCLUDING FIBROBLASTS, STEMS CELLS, ENDOTHELIAL CELLS, AND IMMUNE CELLS WILL BECOME INVOLVED. PATTERN RECOGNITION RECEPTORS, SUCH AS TOLL-LIKE RECEPTORS EXPRESSED ON THESE CELL TYPES, ARE RESPONSIBLE FOR DETECTING BACTERIAL COMPONENTS, AND THEIR LIGAND BINDING LEADS TO THE ACTIVATION OF THE NUCLEAR FACTOR-KAPPA B AND P38 MITOGEN-ACTIVATED PROTEIN (MAP) KINASE INTRACELLULAR SIGNALING CASCADES. SUBSEQUENT NUCLEAR TRANSLOCATION OF THE TRANSCRIPTION FACTOR SUBUNITS FROM THESE PATHWAYS WILL LEAD TO PROINFLAMMATORY MEDIATOR EXPRESSION, INCLUDING INCREASES IN CYTOKINES AND CHEMOKINES, WHICH TRIGGER HOST CELLULAR DEFENSE MECHANISMS. THE COMPLEX MOLECULAR SIGNALING WILL RESULT IN THE RECRUITMENT OF IMMUNE SYSTEM CELLS TARGETED AT COMBATING THE INVADING MICROBES; HOWEVER, THE TRAFFICKING AND ANTIBACTERIAL ACTIVITY OF THESE CELLS CAN LEAD TO COLLATERAL TISSUE DAMAGE. RECENT EVIDENCE SUGGESTS THAT IF INFLAMMATION IS RESOLVED RELATIVELY LOW LEVELS OF PROINFLAMMATORY MEDIATORS MAY PROMOTE TISSUE REPAIR, WHEREAS IF CHRONIC INFLAMMATION ENSUES REPAIR MECHANISMS BECOME INHIBITED. THUS, THE EFFECTS OF MEDIATORS ARE TEMPORAL CONTEXT DEPENDENT. ALTHOUGH CONTAINMENT AND REMOVAL OF THE INFECTION ARE KEYS TO ENABLE DENTAL TISSUE REPAIR, IT IS FEASIBLE THAT THE DEVELOPMENT OF ANTI-INFLAMMATORY AND IMMUNOMODULATORY APPROACHES, BASED ON MOLECULAR, EPIGENETIC, AND PHOTOBIOMODULATORY TECHNOLOGIES, MAY ALSO BE BENEFICIAL FOR FUTURE ENDODONTIC TREATMENTS. 2014 12 601 17 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 13 2493 38 EPIGENETICS AND CHROMATIN REMODELING PLAY A ROLE IN LUNG DISEASE. EPIGENETICS IS DEFINED AS HERITABLE CHANGES THAT AFFECT GENE EXPRESSION WITHOUT ALTERING THE DNA SEQUENCE. EPIGENETIC REGULATION OF GENE EXPRESSION IS FACILITATED THROUGH DIFFERENT MECHANISMS SUCH AS DNA METHYLATION, HISTONE MODIFICATIONS AND RNA-ASSOCIATED SILENCING BY SMALL NON-CODING RNAS. ALL THESE MECHANISMS ARE CRUCIAL FOR NORMAL DEVELOPMENT, DIFFERENTIATION AND TISSUE-SPECIFIC GENE EXPRESSION. THESE THREE SYSTEMS INTERACT AND STABILIZE ONE ANOTHER AND CAN INITIATE AND SUSTAIN EPIGENETIC SILENCING, THUS DETERMINING HERITABLE CHANGES IN GENE EXPRESSION. HISTONE ACETYLATION REGULATES DIVERSE CELLULAR FUNCTIONS INCLUDING INFLAMMATORY GENE EXPRESSION, DNA REPAIR AND CELL PROLIFERATION. TRANSCRIPTIONAL COACTIVATORS POSSESS INTRINSIC HISTONE ACETYLTRANSFERASE ACTIVITY AND THIS ACTIVITY DRIVES INFLAMMATORY GENE EXPRESSION. ELEVEN CLASSICAL HISTONE DEACETYLASES (HDACS) ACT TO REGULATE THE EXPRESSION OF DISTINCT SUBSETS OF INFLAMMATORY/IMMUNE GENES. THUS, LOSS OF HDAC ACTIVITY OR THE PRESENCE OF HDAC INHIBITORS CAN FURTHER ENHANCE INFLAMMATORY GENE EXPRESSION BY PRODUCING A GENE-SPECIFIC CHANGE IN HAT ACTIVITY. FOR EXAMPLE, HDAC2 EXPRESSION AND ACTIVITY ARE REDUCED IN LUNG MACROPHAGES, BIOPSY SPECIMENS, AND BLOOD CELLS FROM PATIENTS WITH SEVERE ASTHMA AND SMOKING ASTHMATICS, AS WELL AS IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). THIS MAY ACCOUNT, AT LEAST IN PART, FOR THE ENHANCED INFLAMMATION AND REDUCED STEROID RESPONSIVENESS SEEN IN THESE PATIENTS. OTHER PROTEINS, PARTICULARLY TRANSCRIPTION FACTORS, ARE ALSO ACETYLATED AND ARE TARGETS FOR DEACETYLATION BY HDACS AND SIRTUINS, A RELATED FAMILY OF 7 PREDOMINANTLY PROTEIN DEACETYLASES. THUS THE ACETYLATION/DEACETYLATION STATUS OF NF-KAPPAB AND THE GLUCOCORTICOID RECEPTOR CAN ALSO AFFECT THE OVERALL EXPRESSION PATTERN OF INFLAMMATORY GENES AND REGULATE THE INFLAMMATORY RESPONSE. UNDERSTANDING AND TARGETING SPECIFIC ENZYMES INVOLVED IN THIS PROCESS MIGHT LEAD TO NEW THERAPEUTIC AGENTS, PARTICULARLY IN SITUATIONS IN WHICH CURRENT ANTI-INFLAMMATORY THERAPIES ARE SUBOPTIMAL. 2011 14 5592 30 ROLE OF TUMOR NECROSIS FACTOR-ALPHA IN THE HUMAN SYSTEMIC ENDOTOXIN-INDUCED TRANSCRIPTOME. TNFALPHA HAS BEEN IMPLICATED IN THE PATHOGENESIS OF VARIOUS INFLAMMATORY DISEASES. DIFFERENT STRATEGIES TO INHIBIT TNFALPHA IN PATIENTS WITH SEPSIS AND CHRONIC INFLAMMATORY CONDITIONS HAVE SHOWN CONTRASTING OUTCOMES. ALTHOUGH TNFALPHA INHIBITORS ARE WIDELY USED IN CLINICAL PRACTICE, THE IMPACT OF TNFALPHA ANTAGONISM ON WHITE BLOOD CELL GENE EXPRESSION PROFILES DURING ACUTE INFLAMMATION IN HUMANS IN VIVO HAS NOT BEEN ASSESSED. WE HERE LEVERAGED THE ESTABLISHED MODEL OF HUMAN ENDOTOXEMIA TO EXAMINE THE EFFECT OF THE TNFALPHA ANTAGONIST, ETANERCEPT, ON THE GENOME-WIDE TRANSCRIPTIONAL RESPONSES IN CIRCULATING LEUKOCYTES INDUCED BY INTRAVENOUS LPS ADMINISTRATION IN MALE SUBJECTS. ETANERCEPT PRE-TREATMENT RESULTED IN A MARKEDLY DAMPENED TRANSCRIPTIONAL RESPONSE TO LPS. GENE CO-EXPRESSION NETWORK ANALYSIS REVEALED THIS LPS-INDUCED TRANSCRIPTOME CAN BE CATEGORIZED AS TNFALPHA RESPONSIVE AND NON-RESPONSIVE MODULES. HIGHLY SIGNIFICANT TNFALPHA RESPONSIVE MODULES INCLUDE NF-KB SIGNALING, ANTIVIRAL RESPONSES AND T-CELL MEDIATED RESPONSES. WITHIN THESE TNFALPHA RESPONSIVE MODULES WE DELINEATE FUNDAMENTAL GENES INVOLVED IN EPIGENETIC MODIFICATIONS, TRANSCRIPTIONAL INITIATION AND ELONGATION. THUS, WE PROVIDE COMPREHENSIVE INFORMATION ABOUT MOLECULAR PATHWAYS THAT MIGHT BE TARGETED BY THERAPEUTIC INTERVENTIONS THAT SEEK TO INHIBIT TNFALPHA ACTIVITY DURING HUMAN INFLAMMATORY DISEASES. 2013 15 6151 24 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 16 4149 22 MECHANISTIC INSIGHT INTO THE EFFECTS OF CURCUMIN ON NEUROINFLAMMATION-DRIVEN CHRONIC PAIN. CHRONIC PAIN IS A PERSISTENT AND UNREMITTING CONDITION THAT HAS IMMENSE EFFECTS ON PATIENTS' QUALITY OF LIFE. STUDIES HAVE SHOWN THAT NEUROINFLAMMATION IS ASSOCIATED WITH THE INDUCTION AND PROGRESSION OF CHRONIC PAIN. THE ACTIVATION OF MICROGLIA AND ASTROCYTES IS THE MAJOR HALLMARK OF SPINAL NEUROINFLAMMATION LEADING TO NEURONAL EXCITABILITY IN THE PROJECTION NEURONS. EXCESSIVE ACTIVATION OF MICROGLIA AND ASTROCYTES IS ONE OF THE MAJOR CONTRIBUTING FACTORS TO THE EXACERBATION OF PAIN. HOWEVER, THE CURRENT CHRONIC PAIN TREATMENTS, MAINLY BY TARGETING THE NEURONAL CELLS, REMAIN INEFFECTIVE AND UNABLE TO MEET THE PATIENTS' NEEDS. CURCUMIN, A NATURAL PLANT PRODUCT FOUND IN THE CURCUMA GENUS, IMPROVES CHRONIC PAIN BY DIMINISHING THE RELEASE OF INFLAMMATORY MEDIATORS FROM THE SPINAL GLIA. THIS REVIEW DETAILS THE ROLE OF CURCUMIN IN MICROGLIA AND ASTROCYTES BOTH IN VITRO AND IN VIVO AND HOW IT IMPROVES PAIN. WE ALSO DESCRIBE THE MECHANISM OF CURCUMIN BY HIGHLIGHTING THE MAJOR GLIA-MEDIATED CASCADES IN PAIN. MOREOVER, THE ROLE OF CURCUMIN ON INFLAMMASOME AND EPIGENETIC REGULATION IS DISCUSSED. FURTHERMORE, WE DISCUSS THE STRATEGIES USED TO IMPROVE THE EFFICACY OF CURCUMIN. THIS REVIEW ILLUSTRATES THAT CURCUMIN MODULATING MICROGLIA AND ASTROCYTES COULD ASSURE THE TREATMENT OF CHRONIC PAIN BY SUPPRESSING SPINAL NEUROINFLAMMATION. 2021 17 1793 33 EFFECT OF COLD ATMOSPHERIC PLASMA ON EPIGENETIC CHANGES, DNA DAMAGE, AND POSSIBILITIES FOR ITS USE IN SYNERGISTIC CANCER THERAPY. COLD ATMOSPHERIC PLASMA HAS GREAT POTENTIAL FOR USE IN MODERN MEDICINE. IT HAS BEEN USED IN THE CLINICAL TREATMENT OF SKIN DISEASES AND CHRONIC WOUNDS, AND IN LABORATORY SETTINGS IT HAS SHOWN EFFECTS ON SELECTIVE DECREASE IN TUMOUR-CELL VIABILITY, REDUCED TUMOUR MASS IN ANIMAL MODELS AND STEM-CELL PROLIFERATION. MANY RESEARCHERS ARE CURRENTLY FOCUSING ON ITS APPLICATION TO INTERNAL STRUCTURES AND THE USE OF PLASMA-ACTIVATED LIQUIDS IN TOLERATED AND EFFECTIVE HUMAN TREATMENT. THERE HAS ALSO BEEN ANALYSIS OF PLASMA'S BENEFICIAL SYNERGY WITH STANDARD PHARMACEUTICALS TO ENHANCE THEIR EFFECT. COLD ATMOSPHERIC PLASMA TRIGGERS VARIOUS RESPONSES IN TUMOUR CELLS, AND THIS CAN RESULT IN EPIGENETIC CHANGES IN BOTH DNA METHYLATION LEVELS AND HISTONE MODIFICATION. THE EXPRESSION AND ACTIVITY OF NON-CODING RNAS WITH THEIR MANY IMPORTANT CELL REGULATORY FUNCTIONS CAN ALSO BE ALTERED BY COLD ATMOSPHERIC PLASMA ACTION. FINALLY, THERE IS ONGOING DEBATE WHETHER PLASMA-PRODUCED RADICALS CAN DIRECTLY AFFECT DNA DAMAGE IN THE NUCLEUS OR ONLY INITIATE APOPTOSIS OR OTHER FORMS OF CELL DEATH. THIS ARTICLE THEREFORE SUMMARISES ACCEPTED KNOWLEDGE OF COLD ATMOSPHERIC PLASMA'S INFLUENCE ON EPIGENETIC CHANGES, THE EXPRESSION AND ACTIVITY OF NON-CODING RNAS, AND DNA DAMAGE AND ITS EFFECT IN SYNERGISTIC TREATMENT WITH ROUTINELY USED PHARMACEUTICALS. 2021 18 1711 28 DYSFUNCTIONAL STATE OF T CELLS OR EXHAUSTION DURING CHRONIC VIRAL INFECTIONS AND COVID-19: A REVIEW. CORONAVIRUS DISEASE 2019 (COVID-19) CONTINUOUSLY AFFECTING THE LIVES OF MILLIONS OF PEOPLE. THE VIRUS IS SPREAD THROUGH THE RESPIRATORY ROUTE TO AN UNINFECTED PERSON, CAUSING MILD-TO-MODERATE RESPIRATORY DISEASE-LIKE SYMPTOMS THAT SOMETIMES PROGRESS TO SEVERE FORM AND CAN BE FATAL. WHEN THE HOST IS INFECTED WITH THE VIRUS, BOTH INNATE AND ADAPTIVE IMMUNITY COMES INTO PLAY. THE EFFECTOR T CELLS ACT AS THE MASTER PLAYER OF ADAPTIVE IMMUNE RESPONSE IN ERADICATING THE VIRUS FROM THE SYSTEM. BUT DURING CANCER AND CHRONIC VIRAL INFECTIONS, THE FATE OF AN EFFECTOR T CELL IS ALTERED, AND THE T CELL MAY ENTERS A STATE OF EXHAUSTION, WHICH IS MARKED BY LOSS OF EFFECTOR FUNCTION, DEPLETED PROLIFERATIVE CAPACITY AND CYTOTOXIC EFFECT ACCOMPLISHED BY AN INCREASED EXPRESSION OF NUMEROUS INHIBITORY RECEPTORS SUCH AS PROGRAMMED CELL DEATH PROTEIN 1 (PD-1), LYMPHOCYTE-ACTIVATION PROTEIN 3 (LAG-3), AND CYTOTOXIC T LYMPHOCYTE-ASSOCIATED ANTIGEN 4 (CTLA-4) ON THEIR SURFACE. VARIOUS OTHER TRANSCRIPTIONAL AND EPIGENETIC CHANGES TAKE PLACE INSIDE THE T CELL WHEN IT ENTERS INTO AN EXHAUSTED STATE. LATEST STUDIES POINT TOWARD THE INDUCTION OF AN ABNORMAL IMMUNE RESPONSE SUCH AS LYMPHOPENIA, CYTOKINE STORM, AND T CELL EXHAUSTION DURING SARS-COV-2 (SEVERE ACUTE RESPIRATORY SYNDROME CORONAVIRUS 2) INFECTION. THIS REVIEW SHEDS LIGHT ON THE DYSFUNCTIONAL STATE OF T CELLS DURING CHRONIC VIRAL INFECTION AND COVID-19. UNDERSTANDING THE CAUSE AND THE EFFECT OF T CELL EXHAUSTION OBSERVED DURING COVID-19 MAY HELP RESOLVE NEW THERAPEUTIC POTENTIALS FOR TREATING CHRONIC INFECTIONS AND OTHER DISEASES. 2022 19 1150 33 CONNECTION BETWEEN INFLAMMATION AND CARCINOGENESIS IN GASTROINTESTINAL TRACT: FOCUS ON TGF-BETA SIGNALING. INFLAMMATION IS A PRIMARY DEFENSE PROCESS AGAINST VARIOUS EXTRACELLULAR STIMULI, SUCH AS VIRUSES, PATHOGENS, FOODS, AND ENVIRONMENTAL POLLUTANTS. WHEN CELLS RESPOND TO STIMULI FOR SHORT PERIODS OF TIME, IT RESULTS IN ACUTE OR PHYSIOLOGICAL INFLAMMATION. HOWEVER, IF THE STIMULATION IS SUSTAINED FOR LONGER TIME OR A PATHOLOGICAL STATE OCCURS, IT IS KNOWN AS CHRONIC OR PATHOLOGICAL INFLAMMATION. SEVERAL STUDIES HAVE SHOWN THAT TUMORIGENESIS IN THE GASTROINTESTINAL (GI) TRACT IS CLOSELY ASSOCIATED WITH CHRONIC INFLAMMATION, FOR WHICH ABNORMAL CELLULAR ALTERATIONS THAT ACCOMPANY CHRONIC INFLAMMATION SUCH AS OXIDATIVE STRESSES, GENE MUTATIONS, EPIGENETIC CHANGES, AND INFLAMMATORY CYTOKINES, ARE SHARED WITH CARCINOGENIC PROCESSES, WHICH FORMS A CRITICAL CROSS-LINK BETWEEN CHRONIC INFLAMMATION AND CARCINOGENESIS. TRANSFORMING GROWTH FACTOR (TGF)-BETA IS A MULTI-POTENT CYTOKINE THAT PLAYS AN IMPORTANT ROLE IN REGULATION OF CELL GROWTH, APOPTOSIS AND DIFFERENTIATION. MOST IMPORTANTLY, TGF-BETA IS A STRONG ANTI-INFLAMMATORY CYTOKINE THAT REGULATES THE DEVELOPMENT OF EFFECTOR CELLS. TGF-BETA HAS A SUPPRESSIVE EFFECT ON CARCINOGENESIS UNDER NORMAL CONDITIONS BY INHIBITING ABNORMAL CELL GROWTH, BUT ON THE OTHER HAND, MANY GI CANCERS ORIGINATE FROM UNCONTROLLED CELL GROWTH AND DIFFERENTIATION BY GENETIC LOSS OF TGF-BETA SIGNALING MOLECULES OR PERTURBATION OF TGF-BETA ADAPTORS. ONCE A TUMOR HAS DEVELOPED, TGF-BETA EXERTS A PROMOTING EFFECT ON THE TUMOR ITSELF AND STROMAL CELLS TO ENHANCE CELL GROWTH, ALTER THE RESPONSIVENESS OF TUMOR CELLS TO STIMULATE INVASION AND METASTASIS, AND INHIBITED IMMUNE SURVEILLANCE. THEREFORE, NOVEL DEVELOPMENT OF THERAPEUTIC AGENTS TO INHIBIT TGF-BETA-INDUCED PROGRESSION OF TUMOR AND TO RETAIN ITS GROWTH INHIBITORY ACTIVITIES, IN ADDITION TO ANTI-INFLAMMATORY ACTIONS, COULD BE USEFUL IN ONCOLOGY. IN THIS REVIEW, WE DISCUSS THE ROLE OF TGF-BETA IN INFLAMMATION AND CARCINOGENESIS OF THE GI TRACT RELATED TO ABNORMAL TGF-BETA SIGNALING. 2010 20 6532 24 TRANSCRIPTIONAL REGULATION OF INFLAMMASOMES. INFLAMMASOMES ARE MULTIMOLECULAR COMPLEXES WITH POTENT INFLAMMATORY ACTIVITY. AS SUCH, THEIR ACTIVITY IS TIGHTLY REGULATED AT THE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL LEVELS. IN THIS REVIEW, WE PRESENT THE TRANSCRIPTIONAL REGULATION OF INFLAMMASOME GENES FROM SENSORS (E.G., NLRP3) TO SUBSTRATES (E.G., IL-1BETA). LINEAGE-DETERMINING TRANSCRIPTION FACTORS SHAPE INFLAMMASOME RESPONSES IN DIFFERENT CELL TYPES WITH PROFOUND CONSEQUENCES ON THE RESPONSIVENESS TO INFLAMMASOME-ACTIVATING STIMULI. PRO-INFLAMMATORY SIGNALS (STERILE OR MICROBIAL) HAVE A KEY TRANSCRIPTIONAL IMPACT ON INFLAMMASOME GENES, WHICH IS LARGELY MEDIATED BY NF-KAPPAB AND THAT TRANSLATES INTO HIGHER ANTIMICROBIAL IMMUNE RESPONSES. FURTHERMORE, DIVERSE INTRINSIC (E.G., CIRCADIAN CLOCK, METABOLITES) OR EXTRINSIC (E.G., XENOBIOTICS) SIGNALS ARE INTEGRATED BY SIGNAL-DEPENDENT TRANSCRIPTION FACTORS AND CHROMATIN STRUCTURE CHANGES TO MODULATE TRANSCRIPTIONALLY INFLAMMASOME RESPONSES. FINALLY, ANTI-INFLAMMATORY SIGNALS (E.G., IL-10) COUNTERBALANCE INFLAMMASOME GENES INDUCTION TO LIMIT DELETERIOUS INFLAMMATION. TRANSCRIPTIONAL REGULATIONS THUS APPEAR AS THE FIRST LINE OF INFLAMMASOME REGULATION TO RAISE THE DEFENSE LEVEL IN FRONT OF STRESS AND INFECTIONS BUT ALSO TO LIMIT EXCESSIVE OR CHRONIC INFLAMMATION. 2020