1 3691 138 INFLAMMATORY BOWEL DISEASES: AN UPDATED OVERVIEW ON THE HEAT SHOCK PROTEIN INVOLVEMENT. INFLAMMATORY BOWEL DISEASES (IBDS) REPRESENT CHRONIC IDIOPATHIC DISORDERS, INCLUDING CROHN'S DISEASE (CD) AND ULCERATIVE COLITIS (UC), IN WHICH ONE OF THE TRIGGER FACTORS IS REPRESENTED BY ABERRANT IMMUNE INTERACTIONS BETWEEN THE INTESTINAL EPITHELIUM AND THE INTESTINAL MICROBIOTA. THE INVOLVEMENT OF HEAT SHOCK PROTEINS (HSPS) AS ETIOLOGICAL AND PATHOGENETIC FACTORS IS BECOMING OF INCREASING INTEREST. HSPS WERE FOUND TO BE DIFFERENTIALLY EXPRESSED IN THE INTESTINAL TISSUES AND SERA OF PATIENTS WITH CD AND UC. IT HAS BEEN SHOWN THAT HSPS CAN PLAY A DUAL ROLE IN THE DISEASE, DEPENDING ON THE STAGE OF PROGRESSION. THEY CAN SUPPORT THE INFLAMMATORY AND FIBROSIS PROCESS, BUT THEY CAN ALSO ACT AS PROTECTIVE FACTORS DURING DISEASE PROGRESSION OR BEFORE THE ONSET OF ONE OF THE WORST COMPLICATIONS OF IBD, COLORECTAL CANCER. FURTHERMORE, HSPS ARE ABLE TO MEDIATE THE INTERACTION BETWEEN THE INTESTINAL MICROBIOTA AND INTESTINAL EPITHELIAL CELLS. IN THIS WORK, WE DISCUSS THE INVOLVEMENT OF HSPS IN IBD CONSIDERING THEIR GENETIC, EPIGENETIC, IMMUNE AND MOLECULAR ROLES, REFERRING TO THE MOST RECENT WORKS PRESENT IN THE LITERATURE. WITH OUR REVIEW, WE WANT TO SHED LIGHT ON THE IMPORTANCE OF FURTHER EXPLORING THE ROLE OF HSPS, OR EVEN BETTER, THE ROLE OF THE MOLECULAR CHAPERONE SYSTEM (CS), IN IBD: VARIOUS MOLECULES OF THE CS INCLUDING HSPS MAY HAVE DIAGNOSTIC, PROGNOSTIC AND THERAPEUTIC POTENTIAL, PROMOTING THE CREATION OF NEW DRUGS THAT COULD OVERCOME THE SIDE-EFFECTS OF THE THERAPIES CURRENTLY USED. 2023 2 4682 31 NEW PATHWAYS IDENTIFY NOVEL DRUG TARGETS FOR THE PREVENTION AND TREATMENT OF ALZHEIMER'S DISEASE. ALZHEIMER'S DISEASE (AD) IS AN INCURABLE, PROGRESSIVE NEURODEGENERATIVE DISORDER. AD IS A COMPLEX AND MULTIFACTORIAL DISEASE THAT IS RESPONSIBLE FOR 60-80% OF DEMENTIA CASES. AGING, GENETIC FACTORS, AND EPIGENETIC CHANGES ARE THE MAIN RISK FACTORS FOR AD. TWO AGGREGATION-PRONE PROTEINS PLAY A DECISIVE ROLE IN AD PATHOGENESIS: BETA-AMYLOID (ABETA) AND HYPERPHOSPHORYLATED TAU (PTAU). BOTH OF THEM FORM DEPOSITS AND DIFFUSIBLE TOXIC AGGREGATES IN THE BRAIN. THESE PROTEINS ARE THE BIOMARKERS OF AD. DIFFERENT HYPOTHESES HAVE TRIED TO EXPLAIN AD PATHOGENESIS AND SERVED AS PLATFORMS FOR AD DRUG RESEARCH. EXPERIMENTS DEMONSTRATED THAT BOTH ABETA AND PTAU MIGHT START NEURODEGENERATIVE PROCESSES AND ARE NECESSARY FOR COGNITIVE DECLINE. THE TWO PATHOLOGIES ACT IN SYNERGY. INHIBITION OF THE FORMATION OF TOXIC ABETA AND PTAU AGGREGATES HAS BEEN AN OLD DRUG TARGET. RECENTLY, SUCCESSFUL ABETA CLEARANCE BY MONOCLONAL ANTIBODIES HAS RAISED NEW HOPES FOR AD TREATMENTS IF THE DISEASE IS DETECTED AT EARLY STAGES. MORE RECENTLY, NOVEL TARGETS, E.G., IMPROVEMENTS IN AMYLOID CLEARANCE FROM THE BRAIN, APPLICATION OF SMALL HEAT SHOCK PROTEINS (HSPS), MODULATION OF CHRONIC NEUROINFLAMMATION BY DIFFERENT RECEPTOR LIGANDS, MODULATION OF MICROGLIAL PHAGOCYTOSIS, AND INCREASE IN MYELINATION HAVE BEEN REVEALED IN AD RESEARCH. 2023 3 4629 28 NEUROEPIGENETIC CHANGES IN DNA METHYLATION AFFECTING DIABETES-INDUCED COGNITIVE IMPAIRMENT. CHRONIC DIABETIC CONDITIONS HAVE BEEN ASSOCIATED WITH CERTAIN CEREBRAL COMPLICATIONS, THAT INCLUDE NEUROBEHAVIORAL DYSFUNCTIONAL PATTERNS AND MORPHOLOGICAL ALTERATIONS OF NEURONS, ESPECIALLY THE HIPPOCAMPUS. NEUROANATOMICAL STUDIES DONE BY THE AUTHORS HAVE SHOWN DECREASED TOTAL DENDRITIC LENGTH, INTERSECTIONS, DENDRITIC LENGTH PER BRANCH ORDER AND NODES IN THE CA1 HIPPOCAMPAL REGION OF THE DIABETIC BRAIN AS COMPARED TO ITS NORMAL CONTROL GROUP, INDICATING REDUCED DENDRITIC ARBORIZATION OF THE HIPPOCAMPAL CA1 NEURONS. EPIGENETIC ALTERATIONS IN THE BRAIN ARE WELL KNOWN TO AFFECT AGE-ASSOCIATED DISORDERS, HOWEVER ITS ASSOCIATION WITH THE EVOLVING DIABETES-INDUCED DAMAGE IN THE BRAIN IS STILL NOT FULLY UNDERSTOOD. DNA HYPERMETHYLATION WITHIN THE NEURONS, TEND TO SILENT THE GENE EXPRESSION OF SEVERAL REGULATORY PROTEINS. THE FINDINGS IN THE STUDY HAVE SHOWN AN INCREASE IN GLOBAL DNA METHYLATION IN PALMITIC ACID-INDUCED LIPOTOXIC NEURO-2A CELLS AS WELL AS WITHIN THE DIABETIC MICE BRAIN. INHIBITING DNA METHYLATION, RESTORED THE LEVELS OF HSF1 AND CERTAIN HSPS, SUGGESTING PLAUSIBLE EFFECT OF DNMTS IN MAINTAINING THE PROTEOSTASIS AND SYNAPTIC FIDELITY. NEUROINFLAMMATION, AS EXHIBITED BY THE ASTROCYTE ACTIVATION (GFAP), WERE FURTHER SIGNIFICANTLY DECREASED IN THE 5-AZADEOXYCYTIDINE GROUP (DNMT INHIBITOR). THIS WAS FURTHER EVIDENCED BY DECREASE IN PROINFLAMMATORY CYTOKINES TNF?, IL-6, AND MEDIATORS INOS AND PHOSPHO-NFKB. OUR RESULTS SUGGEST THAT CHANGES IN DNA METHYLATION ADVOCATE EPIGENETIC DYSREGULATION AND ITS INVOLVEMENT IN DISRUPTING THE SYNAPTIC EXACTITUDE IN THE HIPPOCAMPUS OF DIABETIC MICE MODEL, PROVIDING AN INSIGHT INTO THE PATHOPHYSIOLOGY OF DIABETES-INDUCED NEUROEPIGENETIC CHANGES. 2023 4 5580 38 ROLE OF NEUROTOXICANTS IN THE PATHOGENESIS OF ALZHEIMER'S DISEASE: A MECHANISTIC INSIGHT. ALZHEIMER'S DISEASE (AD) IS THE MOST CONSPICUOUS CHRONIC NEURODEGENERATIVE SYNDROME, WHICH HAS BECOME A SIGNIFICANT CHALLENGE FOR THE GLOBAL HEALTHCARE SYSTEM. MULTIPLE STUDIES HAVE CORROBORATED A CLEAR ASSOCIATION OF NEUROTOXICANTS WITH AD PATHOGENICITY, SUCH AS AMYLOID BETA (ABETA) PROTEINS AND NEUROFIBRILLARY TANGLES (NFTS), SIGNALLING PATHWAY MODIFICATIONS, CELLULAR STRESS, COGNITIVE DYSFUNCTIONS, NEURONAL APOPTOSIS, NEUROINFLAMMATION, EPIGENETIC MODIFICATION, AND SO ON. THIS REVIEW, THEREFORE, AIMED TO ADDRESS SEVERAL ESSENTIAL MECHANISMS AND SIGNALLING CASCADES, INCLUDING WNT (WINGLESS AND INT.) SIGNALLING PATHWAY, AUTOPHAGY, MAMMALIAN TARGET OF RAPAMYCIN (MTOR), PROTEIN KINASE C (PKC) SIGNALLING CASCADES, CELLULAR REDOX STATUS, ENERGY METABOLISM, GLUTAMATERGIC NEUROTRANSMISSIONS, IMMUNE CELL STIMULATIONS (E.G. MICROGLIA, ASTROCYTES) AS WELL AS AN AMYLOID PRECURSOR PROTEIN (APP), PRESENILIN-1 (PSEN1), PRESENILIN-2 (PSEN2) AND OTHER AD-RELATED GENE EXPRESSIONS THAT HAVE BEEN PRETENTIOUS AND MODULATED BY THE VARIOUS NEUROTOXICANTS. THIS REVIEW CONCLUDED THAT NEUROTOXICANTS PLAY A MOMENTOUS ROLE IN DEVELOPING AD THROUGH MODULATING VARIOUS SIGNALLING CASCADES. NEVERTHELESS, COMPREHENSION OF THIS RISK AGENT-INDUCED NEUROTOXICITY IS FAR TOO LITTLE. MORE IN-DEPTH EPIDEMIOLOGICAL AND SYSTEMATIC INVESTIGATIONS ARE NEEDED TO UNDERSTAND THE POTENTIAL MECHANISMS BETTER TO ADDRESS THESE NEUROTOXICANTS AND IMPROVE APPROACHES TO THEIR RISK EXPOSURE THAT AID IN AD PATHOGENESIS.KEY MESSAGESINEVITABLE CASCADE MECHANISMS OF HOW ALZHEIMER'S DISEASE-RELATED (AD-RELATED) GENE EXPRESSIONS ARE MODULATED BY NEUROTOXICANTS HAVE BEEN DISCUSSED.INVOLVEMENT OF THE NEUROTOXICANTS-INDUCED PATHWAYS CAUSED AN EXTENDED RISK OF AD IS EXPLICITED.INTEGRATION OF CELL CULTURE, ANIMALS AND POPULATION-BASED ANALYSIS ON THE CLINICAL SEVERITY OF AD IS ADDRESSED. 2021 5 5519 41 RISK FACTORS FOR ALZHEIMER'S DISEASE: ROLE OF MULTIPLE ANTIOXIDANTS, NON-STEROIDAL ANTI-INFLAMMATORY AND CHOLINERGIC AGENTS ALONE OR IN COMBINATION IN PREVENTION AND TREATMENT. THE ETIOLOGY OF ALZHEIMER'S DISEASE (AD) IS NOT WELL UNDERSTOOD. ETIOLOGIC FACTORS, CHRONIC INFLAMMATORY REACTIONS, OXIDATIVE AND NITROSYLATIVE STRESSES AND HIGH CHOLESTEROL LEVELS ARE THOUGHT TO BE IMPORTANT FOR INITIATING AND PROMOTING NEURODEGENERATIVE CHANGES COMMONLY FOUND IN AD BRAINS. EVEN IN FAMILIAL AD, OXIDATIVE STRESS PLAYS AN IMPORTANT ROLE IN THE EARLY ONSET OF THE DISEASE. MITOCHONDRIAL DAMAGE AND PROTEASOME INHIBITION REPRESENT EARLY EVENTS IN THE PATHOGENESIS OF AD, WHEREAS INCREASED PROCESSING OF AMYLOID PRECURSOR PROTEIN (APP) TO BETA-AMYLOID (ABETA) FRAGMENTS (ABETA(40) AND ABETA(42)) AND FORMATION OF SENILE PLAQUES AND NEUROFIBRILLARY TANGLES (NFTS) REPRESENT LATE EVENTS. WE PROPOSE A HYPOTHESIS THAT IN IDIOPATHIC AD, EPIGENETIC COMPONENTS OF NEURONS SUCH AS MITOCHONDRIA, PROTEASOMES AND POST-TRANSLATION PROTEIN MODIFICATIONS (PROCESSING OF AMYLOID PRECURSOR PROTEIN TO BETA-AMYLOID AND HYPERPHOSPHORYLATION OF TAU), RATHER THAN NUCLEAR GENES, ARE THE PRIMARY TARGETS FOR THE ACTION OF DIVERSE GROUPS OF NEUROTOXINS. BASED ON EPIDEMIOLOGIC, LABORATORY AND LIMITED CLINICAL STUDIES, WE PROPOSE THAT A COMBINATION OF NON STEROIDAL ANTI-INFLAMMATORY DRUGS (NSAIDS) AND APPROPRIATE LEVELS AND TYPES OF MULTIPLE MICRONUTRIENTS, INCLUDING ANTIOXIDANTS, MAY BE MORE EFFECTIVE THAN THE INDIVIDUAL AGENTS IN THE PREVENTION, AND THEY, IN COMBINATION WITH A CHOLINERGIC AGENT, MAY BE MORE EFFECTIVE IN THE TREATMENT OF AD THAN THE INDIVIDUAL AGENTS ALONE. IN ADDITION, AGENTS, WHICH CAN PREVENT FORMATION OF PLAQUES OR DISSOLVE THESE PLAQUES MAY FURTHER ENHANCE THE EFFICACY OF OUR PROPOSED TREATMENT STRATEGY. 2002 6 6009 39 THE ANTI-INFLAMMATORY MEDIATOR, VASOACTIVE INTESTINAL PEPTIDE, MODULATES THE DIFFERENTIATION AND FUNCTION OF TH SUBSETS IN RHEUMATOID ARTHRITIS. GENETIC BACKGROUND, EPIGENETIC MODIFICATIONS, AND ENVIRONMENTAL FACTORS TRIGGER AUTOIMMUNE RESPONSE IN RHEUMATOID ARTHRITIS (RA). SEVERAL PATHOGENIC INFECTIONS HAVE BEEN RELATED TO THE ONSET OF RA AND MAY CAUSE AN INADEQUATE IMMUNOLOGICAL TOLERANCE TOWARDS CRITICAL SELF-ANTIGENS LEADING TO CHRONIC JOINT INFLAMMATION AND AN IMBALANCE BETWEEN DIFFERENT T HELPER (TH) SUBSETS. VASOACTIVE INTESTINAL PEPTIDE (VIP) IS A MEDIATOR THAT MODULATES ALL THE STAGES COMPRISED BETWEEN THE ARRIVAL OF PATHOGENS AND TH CELL DIFFERENTIATION IN RA THROUGH ITS KNOWN ANTI-INFLAMMATORY AND IMMUNOMODULATORY ACTIONS. THIS "NEUROIMMUNOPEPTIDE" MODULATES THE PATHOGENIC ACTIVITY OF DIVERSE CELL SUBPOPULATIONS INVOLVED IN RA AS LYMPHOCYTES, FIBROBLAST-LIKE SYNOVIOCYTES (FLS), OR MACROPHAGES. IN ADDITION, VIP DECREASES THE EXPRESSION OF PATTERN RECOGNITION RECEPTOR (PRR) SUCH AS TOLL-LIKE RECEPTORS (TLRS) IN FLS FROM RA PATIENTS. THESE RECEPTORS ACT AS SENSORS OF PATHOGEN-ASSOCIATED MOLECULAR PATTERN (PAMP) AND DAMAGE-ASSOCIATED MOLECULAR PATTERN (DAMP) CONNECTING THE INNATE AND ADAPTIVE IMMUNE SYSTEM. MOREOVER, VIP MODULATES THE IMBALANCE BETWEEN TH SUBSETS IN RA, DECREASING PATHOGENIC TH1 AND TH17 SUBSETS AND FAVORING TH2 OR TREG PROFILE DURING THE DIFFERENTIATION/POLARIZATION OF NAIVE OR MEMORY TH CELLS. FINALLY, VIP REGULATES THE PLASTICITY BETWEEN THESES SUBSETS. IN THIS REVIEW, WE PROVIDE AN OVERVIEW OF VIP EFFECTS ON THE AFOREMENTIONED FEATURES OF RA PATHOLOGY. 2018 7 6893 27 [SLEEP AND DEMENTIA]. AGING IS ASSOCIATED WITH CHANGES IN SLEEP STRUCTURE AND CEREBRAL DEPOSITION OF AMYLOID BETA AND TAU PROTEINS. SLEEP DISTURBANCES PRECEDE THE ONSET OF DEMENTIA BY YEARS. COMORBID SLEEP DISORDERS, SUCH AS INSOMNIA AND SLEEP-DISORDERED BREATHING, A FAMILY HISTORY OF DEMENTIA AND EPIGENETIC FACTORS CAN CONTRIBUTE TO THE DEVELOPMENT OF DEMENTIA. THIS ARTICLE EXPLORES THE QUESTION OF THE INTERACTION BETWEEN SLEEP AND DEMENTIA BASED ON THE EXISTING LITERATURE. ALTERATIONS CAUSED BY SLOW WAVE SLEEP LEAD TO CHANGES IN THE GLYMPHATIC CLEARANCE OF AMYLOID BETA, TAU PROTEINS AND OTHER PROTEINS. TRANSIENT AND CHRONIC SLEEP DISORDERS CAUSE DISTURBANCES IN THE BRAIN AREAS RESPONSIBLE FOR COGNITION AND BEHAVIOR. SLEEP-REGULATING BRAIN AREAS ARE THE FIRST TO BE AFFECTED IN THE NEURODEGENERATIVE PROCESS AND ACCELERATE THE RISK OF DEMENTIA. CIRCADIAN AGE-RELATED CHANGES IN AMYLOID BETA AND TAU PROTEINS AFFECT THE AMOUNT AND DEPTH OF SLEEP AND VICE VERSA. AMYLOID BETA IN CEREBROSPINAL FLUID SHOWS AN INVERSE CORRELATION WITH SLEEP. OREXINS MODULATE AMYLOID BETA AND SLEEP. 2023 8 5541 36 ROLE OF DIETARY PHENOLS IN MITIGATING MICROGLIA-MEDIATED NEUROINFLAMMATION. CHRONIC NEUROINFLAMMATION IS A PATHOLOGICAL FEATURE OF A NUMBER OF CENTRAL NERVOUS SYSTEM (CNS) DISEASES AND IS MEDIATED BY SUSTAINED ACTIVATION OF MICROGLIAL CELLS, THE INNATE IMMUNE CELLS OF THE CNS. STUDIES HAVE MAINLY FOCUSED ON IDENTIFYING THE MOLECULAR AND EPIGENETIC MECHANISMS OF MICROGLIAL ACTIVATION. THIS IS CRUCIAL IN DESIGNING THERAPEUTIC STRATEGIES FOR NEUROPATHOLOGIES IN WHICH PROLONGED MICROGLIAL ACTIVATION IS KNOWN TO EXACERBATE DISEASE CONDITION. IN RECENT YEARS, INCREASING EVIDENCE SHOW THAT NATURALLY OCCURRING COMPOUNDS PRESENT IN REGULAR DIET COULD FUNCTION AS "NUTRACEUTICALS," ARRESTING MICROGLIAL ACTIVATION, AND THUS CONFERRING NEUROPROTECTION. THIS REVIEW SUMMARIZES OUR UNDERSTANDING OF THE ROLE OF DIETARY PHENOLIC NUTRACEUTICALS IN MITIGATING MICROGLIA-MEDIATED NEUROINFLAMMATION. STUDIES SHOW THAT THESE NATURAL PHENOLS INHIBIT KEY SIGNALING PATHWAYS IN ACTIVATED MICROGLIA SUCH AS THE NFKAPPAB, MAPK AND JAK-STAT THAT TRIGGER MICROGLIA-MEDIATED INFLAMMATION IN VARIOUS NEUROPATHOLOGICAL CONDITIONS SUCH AS INJURY, INFECTION, STROKE, AUTISM AND NEURODEGENERATIVE DISEASES, I.E., ALZHEIMER'S DISEASE AND PARKINSON'S DISEASE. THE ANTI-INFLAMMATORY AND ANTIOXIDANT EFFECT EXERTED BY THESE NATURAL PHENOLS HAVE SHOWN CONSIDERABLE SUCCESS IN IMPROVING DISEASE CONDITION IN ANIMAL MODELS OF NEUROPATHOLOGIES, AND THUS SEEM TO BE SUITABLE CANDIDATES FOR DEVELOPING THERAPEUTIC STRATEGIES. 2016 9 5766 41 SPECIAL ISSUE: ALZHEIMER'S DISEASE. MORE THAN 45 MILLION PEOPLE WORLDWIDE HAVE ALZHEIMER'S DISEASE (AD), A DETERIORATION OF MEMORY AND OTHER COGNITIVE DOMAINS THAT LEADS TO DEATH WITHIN 3 TO 9 YEARS AFTER DIAGNOSIS. THE PRINCIPAL RISK FACTOR FOR AD IS AGE. AS THE AGING POPULATION INCREASES, THE PREVALENCE WILL APPROACH 131 MILLION CASES WORLDWIDE IN 2050. AD IS THEREFORE A GLOBAL PROBLEM CREATING A RAPIDLY GROWING EPIDEMIC AND BECOMING A MAJOR THREAT TO HEALTHCARE IN OUR SOCIETIES. IT HAS BEEN MORE THAN 20 YEARS SINCE IT WAS FIRST PROPOSED THAT THE NEURODEGENERATION IN AD MAY BE CAUSED BY DEPOSITION OF AMYLOID-BETA (ABETA) PEPTIDES IN PLAQUES IN BRAIN TISSUE. ACCORDING TO THE AMYLOID HYPOTHESIS, ACCUMULATION OF ABETA PEPTIDES, RESULTING FROM A CHRONIC IMBALANCE BETWEEN ABETA PRODUCTION AND ABETA CLEARANCE IN THE BRAIN, IS THE PRIMARY INFLUENCE DRIVING AD PATHOGENESIS. CURRENT AVAILABLE MEDICATIONS APPEAR TO BE ABLE TO PRODUCE MODERATE SYMPTOMATIC BENEFITS BUT NOT TO STOP DISEASE PROGRESSION. THE SEARCH FOR BIOMARKERS AS WELL AS NOVEL THERAPEUTIC APPROACHES FOR AD HAS BEEN A MAJOR FOCUS OF RESEARCH. RECENT FINDINGS, HOWEVER, SHOW THAT NEURONAL-INJURY BIOMARKERS ARE INDEPENDENT OF ABETA SUGGESTING EPIGENETIC MODIFICATIONS, GENE-GENE AND/OR GENE-ENVIRONMENT INTERACTIONS IN THE DISEASE ETIOLOGY, AND CALLING FOR RECONSIDERATION OF THE PATHOLOGICAL CASCADE AND ASSESSMENT OF ALTERNATIVE THERAPEUTIC STRATEGIES. IN ADDITION, RECENT RESEARCH RESULTS REGARDING THE EXPRESSION OF THE BETA-AMYLOID PRECURSOR PROTEIN (APP) GENE RESULTING IN THE PRESENCE OF VARIOUS APP-MRNA ISOFORMS AND THEIR QUANTIFICATION, ESPECIALLY FOR IDENTIFYING THE MOST ABUNDANT ONE THAT MAY DECISIVE FOR THE NORMAL STATUS OR DISEASE RISK, HAVE BEEN REPORTED. AS SUCH, A MORE COMPLETE UNDERSTANDING OF AD PATHOGENESIS WILL LIKELY REQUIRE GREATER INSIGHTS INTO THE PHYSIOLOGICAL FUNCTION OF THE BETA-AMYLOID PRECURSOR PROTEIN (APP). 2018 10 6347 33 THE ROLE OF EPIGENETICS IN NEUROINFLAMMATORY-DRIVEN DISEASES. NEURODEGENERATIVE DISORDERS ARE CHARACTERIZED BY THE PROGRESSIVE LOSS OF CENTRAL AND/OR PERIPHERAL NERVOUS SYSTEM NEURONS. WITHIN THIS CONTEXT, NEUROINFLAMMATION COMES UP AS ONE OF THE MAIN FACTORS LINKED TO NEURODEGENERATION PROGRESSION. IN FACT, NEUROINFLAMMATION HAS BEEN RECOGNIZED AS AN OUTSTANDING FACTOR FOR ALZHEIMER'S DISEASE (AD), AMYOTROPHIC LATERAL SCLEROSIS (ALS), PARKINSON'S DISEASE (PD), AND MULTIPLE SCLEROSIS (MS). INTERESTINGLY, NEUROINFLAMMATORY DISEASES ARE CHARACTERIZED BY DRAMATIC CHANGES IN THE EPIGENETIC PROFILE, WHICH MIGHT PROVIDE NOVEL PROGNOSTIC AND THERAPEUTIC FACTORS TOWARDS NEUROINFLAMMATORY TREATMENT. DEEP CHANGES IN DNA AND HISTONE METHYLATION, ALONG WITH HISTONE ACETYLATION AND ALTERED NON-CODING RNA EXPRESSION, HAVE BEEN REPORTED AT THE ONSET OF INFLAMMATORY DISEASES. THE AIM OF THIS WORK IS TO REVIEW THE CURRENT KNOWLEDGE ON THIS FIELD. 2022 11 2882 33 G-PROTEIN-COUPLED RECEPTOR GPR17 REGULATES OLIGODENDROCYTE DIFFERENTIATION IN RESPONSE TO LYSOLECITHIN-INDUCED DEMYELINATION. OLIGODENDROCYTES ARE THE MYELIN-PRODUCING CELLS OF THE CENTRAL NERVOUS SYSTEM (CNS). A VARIETY OF BRAIN DISORDERS FROM "CLASSICAL" DEMYELINATING DISEASES, SUCH AS MULTIPLE SCLEROSIS, STROKE, SCHIZOPHRENIA, DEPRESSION, DOWN SYNDROME AND AUTISM, ARE SHOWN MYELINATION DEFECTS. OLIGODENDROCYTE MYELINATION IS REGULATED BY A COMPLEX INTERPLAY OF INTRINSIC, EPIGENETIC AND EXTRINSIC FACTORS. GPR17 (G PROTEIN-COUPLED RECEPTOR 17) IS A G PROTEIN-COUPLED RECEPTOR, AND HAS BEEN IDENTIFIED TO BE A REGULATOR FOR OLIGODENDROCYTE DEVELOPMENT. HERE, WE DEMONSTRATE THAT THE ABSENCE OF GPR17 ENHANCES REMYELINATION IN VIVO WITH A TOXIN-INDUCED MODEL WHEREBY FOCAL DEMYELINATED LESIONS ARE GENERATED IN SPINAL CORD WHITE MATTER OF ADULT MICE BY LOCALIZED INJECTION OF LPC(L-A-LYSOPHOSPHATIDYLCHOLINE). THE INCREASED EXPRESSION OF THE ACTIVATED FORM OF ERK1/2 (PHOSPHO-ERK1/2) IN LESION AREAS SUGGESTED THE POTENTIAL ROLE OF ERK1/2 ACTIVITY ON THE GPR17-DEPENDENT MODULATION OF MYELINATION. THE ABSENCE OF GPR17 ENHANCES REMYELINATION IS CORRELATE WITH THE ACTIVATED ERK1/2 (PHOSPHO-ERK1/2).BEING A MEMBRANE RECEPTOR, GPR17 REPRESENTS AN IDEAL DRUGGABLE TARGET TO BE EXPLOITED FOR INNOVATIVE REGENERATIVE APPROACHES TO ACUTE AND CHRONIC CNS DISEASES. 2018 12 1459 45 DISORDERED APP METABOLISM AND NEUROVASCULATURE IN TRAUMA AND AGING: COMBINED RISKS FOR CHRONIC NEURODEGENERATIVE DISORDERS. TRAUMATIC BRAIN INJURY (TBI), ADVANCED AGE, AND CEREBRAL VASCULAR DISEASE ARE FACTORS CONFERRING INCREASED RISK FOR LATE ONSET ALZHEIMER'S DISEASE (AD). THESE CONDITIONS ARE ALSO RELATED PATHOLOGICALLY THROUGH MULTIPLE INTERACTING MECHANISMS. THE HALLMARK PATHOLOGY OF AD CONSISTS OF PATHOLOGICAL AGGREGATES OF AMYLOID-BETA (ABETA) PEPTIDES AND TAU PROTEINS. THESE MOLECULES ARE ALSO INVOLVED IN NEUROPATHOLOGY OF SEVERAL OTHER CHRONIC NEURODEGENERATIVE DISEASES, AND ARE UNDER INTENSE INVESTIGATION IN THE AFTERMATH OF TBI AS POTENTIAL CONTRIBUTORS TO THE RISK FOR DEVELOPING AD AND CHRONIC TRAUMATIC ENCEPHALOPATHY (CTE). THE PATHOLOGY OF TBI IS COMPLEX AND DEPENDENT ON INJURY SEVERITY, AGE-AT-INJURY, AND LENGTH OF TIME BETWEEN INJURY AND NEUROPATHOLOGICAL EVALUATION. IN ADDITION, THE MECHANISMS INFLUENCING PATHOLOGY AND RECOVERY AFTER TBI LIKELY INVOLVE GENETIC/EPIGENETIC FACTORS AS WELL AS ADDITIONAL DISORDERS OR COMORBID STATES RELATED TO AGE AND CENTRAL AND PERIPHERAL VASCULAR HEALTH. IN THIS REGARD, DYSFUNCTION OF THE AGING NEUROVASCULAR SYSTEM COULD BE AN IMPORTANT LINK BETWEEN TBI AND CHRONIC NEURODEGENERATIVE DISEASES, EITHER AS A PRECIPITATING EVENT OR RELATED TO ACCUMULATION OF AD-LIKE PATHOLOGY WHICH IS AMPLIFIED IN THE CONTEXT OF AGING. THUS WITH ADVANCED AGE AND VASCULAR DYSFUNCTION, TBI CAN TRIGGER SELF-PROPAGATING CYCLES OF NEURONAL INJURY, PATHOLOGICAL PROTEIN AGGREGATION, AND SYNAPTIC LOSS RESULTING IN CHRONIC NEURODEGENERATIVE DISEASE. IN THIS REVIEW WE DISCUSS EVIDENCE SUPPORTING TBI AND AGING AS DUAL, INTERACTING RISK FACTORS FOR AD, AND THE ROLE OF ABETA AND CEREBRAL VASCULAR DYSFUNCTION IN THIS RELATIONSHIP. EVIDENCE IS DISCUSSED THAT ABETA IS INVOLVED IN CYTO- AND SYNAPTO-TOXICITY AFTER SEVERE TBI, AND THAT ITS CHRONIC EFFECTS ARE POTENTIATED BY AGING AND IMPAIRED CEREBRAL VASCULAR FUNCTION. FROM A THERAPEUTIC PERSPECTIVE, WE EMPHASIZE THAT IN THE FIELDS OF TBI- AND AGING-RELATED NEURODEGENERATION PROTECTIVE STRATEGIES SHOULD INCLUDE PRESERVATION OF NEUROVASCULAR FUNCTION. 2017 13 1829 31 EFFECTS OF INHIBITING ASTROCYTES AND BET/BRD4 CHROMATIN READER ON SPATIAL MEMORY AND SYNAPTIC PROTEINS IN RATS WITH ALZHEIMER'S DISEASE. COMMUNICATION BETWEEN ASTROCYTES AND NEURONS HAS A PROFOUND EFFECT ON THE PATHOPHYSIOLOGY OF ALZHEIMER'S DISEASE (AD). ASTROCYTES REGULATE HOMEOSTASIS AND INCREASE SYNAPTIC PLASTICITY IN PHYSIOLOGICAL SITUATIONS, HOWEVER, THEY BECOME ACTIVATED DURING THE PROGRESSION OF AD. WHETHER OR NOT THESE REACTIONS ARE SUPPORTIVE OR DETRIMENTAL FOR THE CENTRAL NERVOUS SYSTEM HAVE NOT BEEN UNDERSTOOD YET. CONSIDERING EPIGENETIC REGULATION OF NEUROINFLAMMATORY GENES BY CHROMATIN READERS, PARTICULARLY BROMODOMAIN AND EXTRATERMINAL DOMAIN (BET) FAMILY, HERE WE EXAMINED THE EFFECT OF CHRONIC CO-INHIBITION OF ASTROCYTES METABOLISM (WITH FLUOROCITRATE) AND ALSO BRD4 (WITH JQ1) ON COGNITION DEFICIT AT EARLY STAGES OF AD. FORTY ADULT MALE WISTAR RATS UNDERWENT STEREOTAXIC CANNULATION FOR INDUCING AD BY INTRAHIPPOCAMPAL INJECTION OF ABETA(1-42) (4 MUG/8 MUL/RAT). THEN ANIMALS WERE DIVIDED INTO FIVE GROUPS OF SALINE+DMSO, ABETA + SALINE+DMSO, ABETA + JQ1, ABETA + FC (FLUOROCITRATE), AND ABETA + JQ1 + FC AND RECEIVED THE RELATED TREATMENTS. TWO WEEKS LATER, SPATIAL MEMORY WAS RECORDED BY MORRIS WATER MAZE (MWM), AND THE LEVELS OF PHOSPHORYLATED CYCLIC-AMP RESPONSE ELEMENT BINDING PROTEIN (CREB), POSTSYNAPTIC DENSITY 95 (PSD95), SYNAPTOPHYSIN (SYP), AND TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA) WERE MEASURED IN THE HIPPOCAMPUS BY WESTERN BLOTTING AND RT-QPCR. ADMINISTRATION OF JQ1 SIGNIFICANTLY IMPROVED BOTH ACQUISITION AND RETRIEVAL OF SPATIAL MEMORY, WHICH WERE EVIDENT BY DECREASED ESCAPE LATENCY AND INCREASED TOTAL TIME SPENT (TTS) IN TARGET QUADRANT, AND SIGNIFICANT RISE IN P-CREB, PSD95, AND SYNAPTOPHYSIN COMPARED WITH ABETA + SALINE+DMSO GROUP. IN CONTRAST, BOTH GROUPS RECEIVING FC DEMONSTRATED MEMORY DECLINE, AND REDUCTION IN P-CREB, PSD95 AND SYNAPTOPHYSIN IN PARALLEL WITH INCREASE IN TNF-ALPHA. OUR DATA INDICATE THAT CHRONIC INHIBITION OF BRD4 SIGNIFICANTLY RESTORES MEMORY IMPAIRED BY AMYLOID BETA PARTLY VIA CREB SIGNALING AND UPREGULATING SYNAPTIC PROTEINS OF PSD95 AND SYNAPTOPHYSIN. HOWEVER, INHIBITION OF ASTROCYTES NULLIFIES THE MEMORY-BOOSTING EFFECTS OF JQ1 AND REDUCES CREB/PSD95/SYNAPTOPHYSIN LEVELS IN HIPPOCAMPUS. 2022 14 2952 22 GENETIC AND EPIGENETIC ETIOLOGY OF INFLAMMATORY BOWEL DISEASE: AN UPDATE. INFLAMMATORY BOWEL DISEASE (IBD) IS A CHRONIC DISEASE WITH PERIODS OF EXACERBATION AND REMISSION OF THE DISEASE. THE ETIOLOGY OF IBD IS NOT FULLY UNDERSTOOD. MANY STUDIES POINT TO THE PRESENCE OF GENETIC, IMMUNOLOGICAL, ENVIRONMENTAL, AND MICROBIOLOGICAL FACTORS AND THE INTERACTIONS BETWEEN THEM IN THE OCCURRENCE OF IBD. THE REVIEW LOOKS AT GENETIC FACTORS IN THE CONTEXT OF BOTH IBD PREDISPOSITION AND PHARMACOGENETICS. 2022 15 4149 33 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 16 1275 48 DAMAGE-ASSOCIATED MOLECULAR PATTERNS IN INFLAMMATORY BOWEL DISEASE: FROM BIOMARKERS TO THERAPEUTIC TARGETS. THE CHRONIC INFLAMMATORY PROCESS UNDERLYING INFLAMMATORY BOWEL DISEASE (IBD), COMPRISING CROHN'S DISEASE AND ULCERATIVE COLITIS, DERIVES FROM THE INTERPLAY OF SEVERAL COMPONENTS IN A GENETICALLY SUSCEPTIBLE HOST. THESE COMPONENTS INCLUDE ENVIRONMENTAL ELEMENTS AND GUT MICROBIOTA A DYSBIOSIS. FOR DECADES, IMMUNE ABNORMALITIES HAVE BEEN INVESTIGATED AS CRITICALLY IMPORTANT IN IBD PATHOGENESIS, AND ATTEMPTS TO DEVELOP EFFECTIVE THERAPIES HAVE PREDOMINANTLY TARGETED THE IMMUNE SYSTEM. NEVERTHELESS, IMMUNE EVENTS REPRESENT ONLY ONE OF THE CONSTITUENTS CONTRIBUTING TO IBD PATHOGENESIS WITHIN THE CONTEXT OF THE COMPLEX CELLULAR AND MOLECULAR NETWORK UNDERLYING CHRONIC INTESTINAL INFLAMMATION. THESE FACTORS NEED TO BE APPRECIATED WITHIN THE MILIEU OF NON-IMMUNE COMPONENTS. DAMAGE-ASSOCIATED MOLECULAR PATTERNS (DAMPS), WHICH ARE ESSENTIALLY ENDOGENOUS STRESS PROTEINS EXPRESSED OR RELEASED AS A RESULT OF CELL OR TISSUE DAMAGE, HAVE BEEN SHOWN TO ACT AS DIRECT PRO-INFLAMMATORY MEDIATORS. EXCESSIVE OR PERSISTENT SIGNALLING MEDIATED BY SUCH MOLECULES CAN UNDERLIE SEVERAL CHRONIC INFLAMMATORY DISORDERS, INCLUDING IBD. THE RELEASE OF ENDOGENOUS DAMPS AMPLIFIES THE INFLAMMATORY RESPONSE DRIVEN BY IMMUNE AND NON-IMMUNE CELLS AND PROMOTES EPIGENETIC REPROGRAMMING IN IBD. THE EFFECTS DETERMINE PATHOLOGIC CHANGES, WHICH MAY SUSTAIN CHRONIC INTESTINAL INFLAMMATION AND ALSO UNDERLIE SPECIFIC DISEASE PHENOTYPES. IN ADDITION TO HIGHLIGHTING THE POTENTIAL USE OF DAMPS SUCH AS CALPROTECTIN AS BIOMARKERS, RESEARCH ON DAMPS MAY REVEAL NOVEL MECHANISTIC ASSOCIATIONS IN IBD PATHOGENESIS AND IS EXPECTED TO UNCOVER PUTATIVE THERAPEUTIC TARGETS. 2018 17 4207 34 METABOTROPIC GLUTAMATE RECEPTORS AND THE CONTROL OF CHRONIC PAIN. OVER THE PAST TWO DECADES METABOTROPIC GLUTAMATE (MGLU) RECEPTOR LIGANDS HAVE BEEN INVESTIGATED FOR THEIR POTENTIAL THERAPEUTIC EFFECTS IN DIFFERENT DISORDERS OF THE CENTRAL NERVOUS SYSTEM (CNS), INCLUDING ANXIETY, DEPRESSION, SCHIZOPHRENIA, AND NEURODEGENERATIVE DISEASES. IN ADDITION, IT HAS BEEN WIDELY DEMONSTRATED THAT MGLU RECEPTORS ARE ABLE TO MODULATE PAIN TRANSMISSION BOTH IN INFLAMMATORY AND NEUROPATHIC PAIN MODELS. A LARGE NUMBER OF PRECLINICAL STUDIES COMBINING THE USE OF SELECTIVE LIGANDS WITH THE KNOCKOUT STRATEGY HAVE REVEALED MORE DETAILS ABOUT THE ROLE OF THE DIFFERENT MGLU RECEPTOR SUBTYPES IN THE MODULATION OF PAIN INFORMATION. THIS REVIEW WILL ADDRESS THE ROLE OF MGLU RECEPTORS IN PAIN SENSITIVITY FOCUSING ON DIFFERENT STRATEGIES TO ACHIEVE PAIN CONTROL BY TARGETING SPECIFIC MGLU RECEPTOR SUBTYPES. SPECIFICALLY, PHARMACOLOGICAL INTERVENTIONS AIMED AT INHIBITING GROUP I MGLU RECEPTOR-MEDIATED SIGNALING AND/OR POTENTIATING GROUPS II AND III MGLU RECEPTOR SIGNALING TOGETHER WITH AN EPIGENETIC APPROACH LEADING TO AN INCREASED EXPRESSION OF MGLU2 RECEPTORS WILL BE DISCUSSED. 2012 18 4535 43 MULTIPLE ROLES OF TOLL-LIKE RECEPTOR 4 IN COLORECTAL CANCER. TOLL-LIKE RECEPTOR (TLR) SIGNALING HAS BEEN IMPLICATED IN THE INFLAMMATORY RESPONSES IN INTESTINAL EPITHELIAL CELLS (IECS). SUCH INFLAMMATORY SIGNALS MEDIATE COMPLEX INTERACTIONS BETWEEN COMMENSAL BACTERIA AND TLRS AND ARE REQUIRED FOR IEC PROLIFERATION, IMMUNE RESPONSE, REPAIR, AND HOMEOSTASIS. THE UPREGULATION OF CERTAIN TLRS IN COLORECTAL CANCER (CRC) TISSUES SUGGESTS THAT TLRS MAY PLAY AN ESSENTIAL ROLE IN THE PROGNOSIS OF CHRONIC AND INFLAMMATORY DISEASES THAT ULTIMATELY CULMINATE IN CRC. HERE, WE PROVIDE A COMPREHENSIVE REVIEW OF THE LITERATURE ON THE INVOLVEMENT OF THE TLR PATHWAY IN THE INITIATION, PROGRESSION, AND METASTASIS OF CRC, AS WELL AS INHERITED GENETIC VARIATION AND EPIGENETIC REGULATION. THE DIFFERENTIAL EXPRESSION OF TLRS IN EPITHELIAL CELLS HAS ALSO BEEN DISCUSSED. IN PARTICULAR, WE EMPHASIZE THE PHYSIOLOGICAL ROLE OF TLR4 IN CRC DEVELOPMENT AND PATHOGENESIS, AND PROPOSE NOVEL AND PROMISING APPROACHES FOR CRC THERAPEUTICS WITH THE AID OF TLR LIGANDS. 2014 19 5408 39 REGULATION AND SIGNALING OF THE GPR17 RECEPTOR IN OLIGODENDROGLIAL CELLS. REMYELINATION, NAMELY, THE FORMATION OF NEW MYELIN SHEATHS AROUND DENUDED AXONS, COUNTERACTS AXONAL DEGENERATION AND RESTORES NEURONAL FUNCTION. CONSIDERABLE ADVANCES HAVE BEEN MADE IN UNDERSTANDING THIS REGENERATIVE PROCESS THAT OFTEN FAILS IN DISEASES LIKE MULTIPLE SCLEROSIS, LEAVING AXONS DEMYELINATED AND VULNERABLE TO DAMAGE, THUS CONTRIBUTING TO DISEASE PROGRESSION. THE IDENTIFICATION OF THE MEMBRANE RECEPTOR GPR17 ON A SUBSET OF OLIGODENDROCYTE PRECURSOR CELLS (OPCS), WHICH MEDIATE REMYELINATION IN THE ADULT CENTRAL NERVOUS SYSTEM (CNS), HAS LED TO A HUGE AMOUNT OF EVIDENCE THAT VALIDATED THIS RECEPTOR AS A NEW ATTRACTIVE TARGET FOR REMYELINATING THERAPIES. HERE, WE SUMMARIZE THE ROLE OF GPR17 IN OPC FUNCTION, MYELINATION AND REMYELINATION, DESCRIBING ITS ATYPICAL PHARMACOLOGY, ITS DOWNSTREAM SIGNALING, AND THE GENETIC AND EPIGENETIC FACTORS MODULATING ITS ACTIVITY. WE ALSO HIGHLIGHT CRUCIAL INSIGHTS INTO GPR17 PATHOPHYSIOLOGY COMING FROM THE DEMONSTRATION THAT OLIGODENDROCYTE INJURY, ASSOCIATED WITH INFLAMMATION IN CHRONIC NEURODEGENERATIVE CONDITIONS, IS INVARIABLY CHARACTERIZED BY ABNORMAL AND PERSISTENT GPR17 UPREGULATION, WHICH, IN TURN, IS ACCOMPANIED BY A BLOCK OF OPCS AT IMMATURE PREMYELINATING STAGES. FINALLY, WE DISCUSS THE CURRENT LITERATURE IN LIGHT OF THE POTENTIAL EXPLOITMENT OF GPR17 AS A THERAPEUTIC TARGET TO PROMOTE REMYELINATION. 2020 20 4380 37 MITOCHONDRIAL DYSFUNCTION AND OXIDATIVE STRESS IN RHEUMATOID ARTHRITIS. CONTROL OF EXCESSIVE MITOCHONDRIAL OXIDATIVE STRESS COULD PROVIDE NEW TARGETS FOR BOTH PREVENTIVE AND THERAPEUTIC INTERVENTIONS IN THE TREATMENT OF CHRONIC INFLAMMATION OR ANY PATHOLOGY THAT DEVELOPS UNDER AN INFLAMMATORY SCENARIO, SUCH AS RHEUMATOID ARTHRITIS (RA). INCREASING EVIDENCE HAS DEMONSTRATED THE ROLE OF MITOCHONDRIAL ALTERATIONS IN AUTOIMMUNE DISEASES MAINLY DUE TO THE INTERPLAY BETWEEN METABOLISM AND INNATE IMMUNITY, BUT ALSO IN THE MODULATION OF INFLAMMATORY RESPONSE OF RESIDENT CELLS, SUCH AS SYNOVIOCYTES. THUS, MITOCHONDRIAL DYSFUNCTION DERIVED FROM SEVERAL DANGER SIGNALS COULD ACTIVATE TRICARBOXYLIC ACID (TCA) DISRUPTION, THEREBY FAVORING A VICIOUS CYCLE OF OXIDATIVE/MITOCHONDRIAL STRESS. MITOCHONDRIAL DYSFUNCTION CAN ACT THROUGH MODULATING INNATE IMMUNITY VIA REDOX-SENSITIVE INFLAMMATORY PATHWAYS OR DIRECT ACTIVATION OF THE INFLAMMASOME. BESIDES, MITOCHONDRIA ALSO HAVE A CENTRAL ROLE IN REGULATING CELL DEATH, WHICH IS DEEPLY ALTERED IN RA. ADDITIONALLY, MULTIPLE EVIDENCE SUGGESTS THAT PATHOLOGICAL PROCESSES IN RA CAN BE SHAPED BY EPIGENETIC MECHANISMS AND THAT IN TURN, MITOCHONDRIA ARE INVOLVED IN EPIGENETIC REGULATION. FINALLY, WE WILL DISCUSS ABOUT THE INVOLVEMENT OF SOME DIETARY COMPONENTS IN THE ONSET AND PROGRESSION OF RA. 2022