1 6096 215 THE EFFECTS OF STRESS AND MEDITATION ON THE IMMUNE SYSTEM, HUMAN MICROBIOTA, AND EPIGENETICS. CONTEXT * GLOBALLY, MORE THAN 25% OF INDIVIDUALS ARE AFFECTED BY ANXIETY AND DEPRESSION DISORDERS. MEDITATION IS GAINING POPULARITY IN CLINICAL SETTINGS AND ITS TREATMENT EFFICACY IS BEING STUDIED FOR A WIDE ARRAY OF PSYCHOLOGICAL AND PHYSIOLOGICAL AILMENTS. AN EXPLORATION OF STRESS PHYSIOLOGY IS AN ESSENTIAL PRECURSOR TO DELINEATION OF THE MECHANISMS UNDERLYING THE BENEFICIAL EFFECTS OF MEDITATION PRACTICES. OBJECTIVE * THE REVIEW OUTLINES A MODEL OF INTERCONNECTED PHYSIOLOGICAL PROCESSES THAT MIGHT SUPPORT THE CONTINUED INCLUSION AND EXPANSION OF MEDITATION IN THE TREATMENT OF DIVERSE MEDICAL CONDITIONS AND TO INVESTIGATE THE ROLE THAT GUT MICROBIOTA MAY PLAY IN REALIZING WELL-BEING THROUGH MEDITATION. DESIGN * THE AUTHORS CONDUCTED A SCIENTIFIC LITERATURE DATABASE SEARCH WITH THE GOAL OF REVIEWING THE LINK BETWEEN STRESS MANAGEMENT TECHNIQUES AND HUMAN MICROBIOTA. THEIR GOAL WAS ALSO TO IDENTIFY THE EXTENT OF UNDERLYING EPIGENETIC REACTIONS IN THESE PROCESSES. THE REVIEW WAS COMPLETED IN APPROXIMATELY 2 Y. DATABASES SEARCHED INCLUDED MEDLINE VIA PUBMED AND OVID, PSYCINFO VIA OVID, SPINET, PROQUEST CENTRAL, SAGE RESEARCH METHODS ONLINE, CINAHL PLUS WITH FULL TEXT, SCIENCE DIRECT, SPRINGER LINK, AND WILEY ONLINE LIBRARY. KEYWORDS SEARCHED INCLUDED, BUT WERE NOT LIMITED TO, STRESS, MEDITATION, MINDFULNESS, IMMUNE SYSTEM, HPA AXIS, SYMPATHETIC NERVOUS SYSTEM, PARASYMPATHETIC NERVOUS SYSTEM, MICROBIOTA, MICROBIOME, GUT-BARRIER FUNCTION, LEAKY GUT, VAGUS NERVE, PSYCHONEUROIMMUNOLOGY, EPIGENETIC, AND NF-KAPPAB. SETTING * THE STUDY TOOK PLACE AT NEW YORK UNIVERSITY (NEW YORK, NY, USA), THE UNIVERSITY OF CALIFORNIA, SAN DIEGO (LA JOLLA, CA, USA), AND THE CHOPRA FOUNDATION (CARLSBAD, CA, USA). RESULTS * PSYCHOLOGICAL STRESS TYPICALLY TRIGGERS A FIGHT-OR-FLIGHT RESPONSE, PROMPTING CORTICOTROPIN-RELEASING HORMONE AND CATECHOLAMINE PRODUCTION IN VARIOUS PARTS OF THE BODY, WHICH ULTIMATELY DISTURBS THE MICROBIOTA. IN THE ABSENCE OF STRESS, A HEALTHY MICROBIOTA PRODUCES SHORT-CHAIN FATTY ACIDS THAT EXERT ANTI-INFLAMMATORY AND ANTITUMOR EFFECTS. DURING STRESS, AN ALTERED GUT MICROBIAL POPULATION AFFECTS THE REGULATION OF NEUROTRANSMITTERS MEDIATED BY THE MICROBIOME AND GUT BARRIER FUNCTION. MEDITATION HELPS REGULATE THE STRESS RESPONSE, THEREBY SUPPRESSING CHRONIC INFLAMMATION STATES AND MAINTAINING A HEALTHY GUT-BARRIER FUNCTION. CONCLUSIONS * THE CURRENT RESEARCH TEAM RECOMMENDS THE INTEGRATION OF MEDITATION INTO CONVENTIONAL HEALTH CARE AND WELLNESS MODELS. CONCURRENTLY, STUDIES TO EXPLORE THE EFFECTS OF MEDITATION ON HUMAN MICROBIOTA ARE WARRANTED. 2017 2 2350 37 EPIGENETIC REGULATION OF NEUROINFLAMMATION IN PARKINSON'S DISEASE. NEUROINFLAMMATION IS ONE OF THE MOST SIGNIFICANT FACTORS INVOLVED IN THE INITIATION AND PROGRESSION OF PARKINSON'S DISEASE. PD IS A NEURODEGENERATIVE DISORDER WITH A MOTOR DISABILITY LINKED WITH VARIOUS COMPLEX AND DIVERSIFIED RISK FACTORS. THESE FACTORS TRIGGER MYRIADS OF CELLULAR AND MOLECULAR PROCESSES, SUCH AS MISFOLDING DEFECTIVE PROTEINS, OXIDATIVE STRESS, MITOCHONDRIAL DYSFUNCTION, AND NEUROTOXIC SUBSTANCES THAT INDUCE SELECTIVE NEURODEGENERATION OF DOPAMINE NEURONS. THIS NEURONAL DAMAGE ACTIVATES THE NEURONAL IMMUNE SYSTEM, INCLUDING GLIAL CELLS AND INFLAMMATORY CYTOKINES, TO TRIGGER NEUROINFLAMMATION. THE TRANSITION OF ACUTE TO CHRONIC NEUROINFLAMMATION ENHANCES THE SUSCEPTIBILITY OF INFLAMMATION-INDUCED DOPAMINERGIC NEURON DAMAGE, FORMING A VICIOUS CYCLE AND PROMPTING AN INDIVIDUAL TO PD DEVELOPMENT. EPIGENETIC MECHANISMS RECENTLY HAVE BEEN AT THE FOREFRONT OF THE REGULATION OF NEUROINFLAMMATORY FACTORS IN PD, PROPOSING A NEW DAWN FOR BREAKING THIS VICIOUS CYCLE. THIS REVIEW EXAMINED THE CORE EPIGENETIC MECHANISMS INVOLVED IN THE ACTIVATION AND PHENOTYPIC TRANSFORMATION OF GLIAL CELLS MEDIATED NEUROINFLAMMATION IN PD. WE FOUND THAT EPIGENETIC MECHANISMS DO NOT WORK INDEPENDENTLY, DESPITE BEING COORDINATED WITH EACH OTHER TO ACTIVATE NEUROINFLAMMATORY PATHWAYS. IN THIS REGARD, WE ATTEMPTED TO FIND THE SYNERGIC CORRELATION AND CONTRIBUTION OF THESE EPIGENETIC MODIFICATIONS WITH VARIOUS NEUROINFLAMMATORY PATHWAYS TO BROADEN THE CANVAS OF UNDERLYING PATHOLOGICAL MECHANISMS INVOLVED IN PD DEVELOPMENT. MOREOVER, THIS STUDY HIGHLIGHTED THE DUAL CHARACTERISTICS (NEUROPROTECTIVE/NEUROTOXIC) OF THESE EPIGENETIC MARKS, WHICH MAY COUNTERACT PD PATHOGENESIS AND MAKE THEM POTENTIAL CANDIDATES FOR DEVISING FUTURE PD DIAGNOSIS AND TREATMENT. 2021 3 1825 24 EFFECTS OF HIGH-DOSE BISPHENOL A ON THE MOUSE ORAL MUCOSA: A POSSIBLE LINK WITH ORAL CANCERS. BISPHENOL A (BPA) IS AN ENDOCRINE DISRUPTING CHEMICAL ABLE TO PROMOTE HORMONE-RESPONSIVE TUMORS. THE MAJOR ROUTE OF BPA CONTAMINATION BEING ORAL, THE AIM OF THE PRESENT STUDY WAS TO INVESTIGATE BPA EFFECTS ON ORAL CELLS. HERE, WE EVALUATED THE IMPACT OF SUB-CHRONIC IN VIVO EXPOSURE TO BPA AND ITS IN VITRO EFFECTS ON NEOPLASTIC AND NON-NEOPLASTIC ORAL CELLS. WE EVALUATED THE ORAL MUCOSA OF MICE CHRONICALLY EXPOSED TO BPA (200 MG/L). THE RESPONSE OF KERATINOCYTES (NOK-SI) AND HEAD AND NECK (HN) SQUAMOUS CELL CARCINOMA (SCC), HN12 AND HN13 CELL LINES TO BPA WAS EXAMINED. IN VIVO, BPA ACCUMULATED IN ORAL TISSUES AND CAUSED AN INCREASE IN EPITHELIAL PROLIFERATIVE ACTIVITY. BPA DISRUPTED THE FUNCTION OF KERATINOCYTES BY ALTERING PRO-SURVIVAL AND PROLIFERATIVE PATHWAYS AND THE SECRETION OF CYTOKINES AND GROWTH FACTORS. IN TUMOR CELLS, BPA INDUCED PROLIFERATIVE, INVASIVE, PRO-ANGIOGENIC, AND EPIGENETIC PATHS. OUR DATA HIGHLIGHT THE HARMFUL EFFECTS OF BPA ON ORAL MUCOSA AND, TUMORIGENIC AND NON-TUMORIGENIC CELLS. ADDITIONALLY, BPA MAY BE A MODIFIER OF ORAL CANCER CELL BEHAVIOR BY PROMPTING A FUNCTIONAL SHIFT TO A MORE AGGRESSIVE PHENOTYPE. 2021 4 3154 32 GLUN2B/CAMKII MEDIATES CFA-INDUCED HYPERALGESIA VIA HDAC4-MODIFIED SPINAL COX2 TRANSCRIPTION. HISTONE DEACETYLASE 4 (HDAC4), WHICH ACTIVELY SHUTTLES BETWEEN THE NUCLEUS AND CYTOPLASM, IS AN ATTRACTIVE CANDIDATE FOR A REPRESSOR MECHANISM IN EPIGENETIC MODIFICATION. HOWEVER, THE POTENTIAL ROLE OF HDAC4-DEPENDENT EPIGENETICS IN THE NEURAL PLASTICITY UNDERLYING THE DEVELOPMENT OF INFLAMMATORY PAIN HAS NOT BEEN WELL ESTABLISHED. BY INJECTING COMPLETE FREUND'S ADJUVANT (CFA) INTO THE HIND-PAW OF SPRAGUE-DAWLEY RATS (200-250 G), WE FOUND ANIMALS DISPLAYED BEHAVIORAL HYPERALGESIA WAS ACCOMPANIED WITH HDAC4 PHOSPHORYLATION AND CYTOPLASMIC REDISTRIBUTION IN THE DORSAL HORN NEURONS. CYTOPLASMIC HDAC4 RETENTION LED TO ITS UNCOUPLING WITH THE COX2 PROMOTER, HENCE PROMPTING SPINAL COX2 TRANSCRIPTION AND EXPRESSION IN THE DORSAL HORN. MOREOVER, THE GLUN2B-BEARING N-METHYL-D-ASPARTATE RECEPTOR (GLUN2B-NMDAR)/CALMODULIN-DEPENDENT PROTEIN KINASE II (CAMKII) ACTED AS AN UPSTREAM CASCADE TO FACILITATE HDAC4 PHOSPHORYLATION/REDISTRIBUTION-ASSOCIATED SPINAL COX2 EXPRESSION AFTER INFLAMMATORY INSULTS. THE RESULTS OF THIS PILOT STUDY DEMONSTRATED THAT THE DEVELOPMENT AND/OR MAINTENANCE OF INFLAMMATORY PAIN INVOLVED THE SPINAL HDAC4-DEPENDENT EPIGENETIC MECHANISMS. OUR FINDINGS OPEN UP A NEW AVENUE FOR THE DEVELOPMENT OF A NOVEL MEDICAL STRATEGY FOR THE RELIEF OF INFLAMMATORY PAIN. 2018 5 6438 24 THERAPEUTIC AND PREVENTIVE INTERVENTIONS FOR POSTULATED VASOACTIVE NEUROPEPTIDE AUTOIMMUNE FATIGUE-RELATED DISORDERS. MAJOR ADVANCES HAVE BEEN MADE IN UNDERSTANDING THE RELATIVELY NOVEL GROUP OF VASOACTIVE (VASODILATORY) NEUROPEPTIDES (VNS) IN HUMANS. VNS COMPRISE A NOVEL BUT EXPANDING GROUP OF SUBSTANCES HAVING IMMUNOREGULATION, INFLAMMATION MODULATION, NEUROTRANSMITTER, NEUROTROPHIC, HORMONAL AND METABOLIC FUNCTIONS. THESE SUBSTANCES MAY CONTROL GENE EXPRESSION FOR MRNA FOR THEMSELVES AND THEIR RECEPTORS. THEY HAVE COMPLEX RELATIONSHIPS WITH GASEOUS AND OTHER NEUROTRANSMITTERS AND XENOBIOTIC SUBSTANCES. THEORETICAL ARGUMENTS HAVE IMPLICATED THESE SUBSTANCES IN AUTOIMMUNE PHENOMENA RESULTING IN FATIGUE-RELATED CONDITIONS SUCH AS CHRONIC FATIGUE SYNDROME (CFS), SUDDEN INFANT DEATH SYNDROME (SIDS), FIBROMYALGIA (FM) AND GULF WAR SYNDROME (GWS) BUT REMAIN UNPROVEN. AS WELL AS POSSIBLY SPONTANEOUS ONSET, THE PRECIPITATING CAUSES OF VN AUTOIMMUNE DYSFUNCTION ARE LIKELY TO BE A COMBINATION OF GENETIC PREDISPOSITION, INFECTION AND XENOBIOTIC SUBSTANCES. THERAPEUTIC AND PREVENTIVE POSSIBILITIES FOR POSTULATED VN AUTOIMMUNE CONDITIONS WILL BE INFLUENCED BY THE COMPLEX PATHOLOPHYSIOLOGY UNDERPINNING THEM. SOME SPECULATIVE POSSIBILITIES ARE VN SUBSTITUTION/REPLACEMENT, PRESERVATION OF BIOLOGICAL EFFECT, EPIGENETIC DNA MODIFICATIONS, PLASMA EXCHANGE, ANTI-CHOLINESTERASES, E.G., PYRIDOSTIGMINE, CORTICOSTEROIDS AND OTHER DRUG TREATMENTS, THYMECTOMY, INTRAVENOUS IMMUNOGLOBULIN AND ANTI-IDIOTYPE ANTIBODIES, AND CPG/DNA VACCINES. PREVENTION AND TREATMENT OF POSSIBLE VN AUTOIMMUNE FATIGUE-RELATED DISORDERS MAY PROVE TO BE IMPORTANT AREAS FOR FUTURE RESEARCH AND DEVELOPMENT. 2005 6 1637 35 DOES DYSREGULATION OF KEY EPIGENETIC AND BIOCHEMICAL PATHWAYS OCCUR IN POSTULATED VASOACTIVE NEUROPEPTIDE AUTOIMMUNE DISORDERS? AUTOIMMUNE DYSFUNCTION OF CERTAIN VASOACTIVE NEUROPEPTIDES (VNS) HAS BEEN POSTULATED AS A CONTRIBUTING CAUSE OF SUDDEN INFANT DEATH SYNDROME (SIDS), CHRONIC FATIGUE SYNDROME (CFS), GULF WAR SYNDROME (GWS) AND OTHER FATIGUE-RELATED DISORDERS. THIS FAMILY OF VNS INCLUDES PITUITARY ADENYLATE CYCLASE ACTIVATING POLYPEPTIDE (PACAP), VASOACTIVE INTESTINAL PEPTIDE (VIP) AND CALCITONIN GENE RELATED PEPTIDE (CGRP). THE POSTULATED MECHANISM IS COMPROMISE OF ADENYLATE CYCLASE ACTIVATION, A VITAL AND UNIQUE STEP IN CYCLIC AMP PRODUCTION FROM ATP, THROUGH AUTOIMMUNE DYSFUNCTION OF VNS, THEIR RECEPTORS OR THEIR GENES POSSIBLY INVOLVING CYTOSINE-PHOSPHATE-GUANINE (CPG) FRAGMENTS. CPG FRAGMENTS ARE IMMUNOMODULATORY DINUCLEOTIDES SERVING AS 'FRIEND OR FOE' RECOGNITION SYSTEMS TO DIFFERENTIATE BACTERIAL AND VIRAL (HYPOMETHYLATED CPG) FROM MAMMALIAN (METHYLATED CPG) DNA. HOWEVER HYPOMETHYLATION DISORDERS AFFECTING THESE FRAGMENTS IN MAMMALS MAY CONVERT THEM TO DYSFUNCTIONAL STATES BY PROMOTING AUTOIMMUNE INFLAMMATORY REACTIONS. EPIGENETIC MECHANISMS ACTING ON GENE PROMOTER REGIONS MAY CONTRIBUTE TO THE DEVELOPMENT OF VN AUTOIMMUNE FATIGUE-RELATED DISORDERS THROUGH CPG FRAGMENTS LOCATED IN VITAL SEGMENTS OF VN/RECEPTOR GENES BY CAUSING SIGNALLING DEFECTS WITH PROFOUND IMPLICATIONS FOR VN FUNCTION. NEUROTRANSMITTER DYSFUNCTION PARTICULARLY GLUTAMATERGIC TRANSMISSION COULD ALSO RESULT WITH DISRUPTION OF NEURONAL CELLULAR BIOCHEMICAL FUNCTIONS SUCH AS AMMONIA REGULATION. ENDOSOMAL ACIDITY AND MITOCHONDRIAL MEMBRANE POTENTIAL MODIFIERS SUCH AS CHLOROQUINE, TOGETHER WITH IMMUNOREGULATORY THERAPIES, MAY HAVE THERAPEUTIC IMPLICATIONS IN PROTECTING AGAINST THESE APPARENT AUTOIMMUNE DISORDERS. THIS PAPER EXAMINES SPECIFIC EPIGENETIC AND BIOCHEMICAL MECHANISMS POSSIBLY MEDIATED BY VN OR RECEPTOR GENES RESULTING IN POSTULATED VN AUTOIMMUNE FATIGUE-RELATED DISORDERS. THESE MECHANISMS MAY HAVE IMPLICATIONS FOR TREATMENT AND PREVENTION OPTIONS FOR VN AUTOIMMUNE DISORDERS. VN AUTOIMMUNE PROCESSES HAVE IMPLICATIONS FOR MILITARY MEDICINE WHERE RADIOLOGICAL, CHEMICAL AND BIOLOGICAL AGENTS MAY PLAY AN IMPORTANT ROLE IN PATHOGENESIS. 2005 7 5134 38 POTENTIAL HEALTH RISKS OF MRNA-BASED VACCINE THERAPY: A HYPOTHESIS. THERAPEUTIC APPLICATIONS OF SYNTHETIC MRNA WERE PROPOSED MORE THAN 30 YEARS AGO, AND ARE CURRENTLY THE BASIS OF ONE OF THE VACCINE PLATFORMS USED AT A MASSIVE SCALE AS PART OF THE PUBLIC HEALTH STRATEGY TO GET COVID-19 UNDER CONTROL. TO DATE, THERE ARE NO PUBLISHED STUDIES ON THE BIODISTRIBUTION, CELLULAR UPTAKE, ENDOSOMAL ESCAPE, TRANSLATION RATES, FUNCTIONAL HALF-LIFE AND INACTIVATION KINETICS OF SYNTHETIC MRNA, RATES AND DURATION OF VACCINE-INDUCED ANTIGEN EXPRESSION IN DIFFERENT CELL TYPES. FURTHERMORE, DESPITE THE ASSUMPTION THAT THERE IS NO POSSIBILITY OF GENOMIC INTEGRATION OF THERAPEUTIC SYNTHETIC MRNA, ONLY ONE RECENT STUDY HAS EXAMINED INTERACTIONS BETWEEN VACCINE MRNA AND THE GENOME OF TRANSFECTED CELLS, AND REPORTED THAT AN ENDOGENOUS RETROTRANSPOSON, LINE-1 IS UNSILENCED FOLLOWING MRNA ENTRY TO THE CELL, LEADING TO REVERSE TRANSCRIPTION OF FULL LENGTH VACCINE MRNA SEQUENCES, AND NUCLEAR ENTRY. THIS FINDING SHOULD BE A MAJOR SAFETY CONCERN, GIVEN THE POSSIBILITY OF SYNTHETIC MRNA-DRIVEN EPIGENETIC AND GENOMIC MODIFICATIONS ARISING. WE PROPOSE THAT IN SUSCEPTIBLE INDIVIDUALS, CYTOSOLIC CLEARANCE OF NUCLEOTIDE MODIFIED SYNTHETIC (NMS-MRNAS) IS IMPEDED. SUSTAINED PRESENCE OF NMS-MRNA IN THE CYTOPLASM DEREGULATES AND ACTIVATES ENDOGENOUS TRANSPOSABLE ELEMENTS (TES), CAUSING SOME OF THE MRNA COPIES TO BE REVERSE TRANSCRIBED. THE CYTOSOLIC ACCUMULATION OF THE NMS-MRNA AND THE REVERSE TRANSCRIBED CDNA MOLECULES ACTIVATES RNA AND DNA SENSORY PATHWAYS. THEIR CONCURRENT ACTIVATION INITIATES A SYNCHRONIZED INNATE RESPONSE AGAINST NON-SELF NUCLEIC ACIDS, PROMPTING TYPE-I INTERFERON AND PRO-INFLAMMATORY CYTOKINE PRODUCTION WHICH, IF UNREGULATED, LEADS TO AUTOINFLAMMATORY AND AUTOIMMUNE CONDITIONS, WHILE ACTIVATED TES INCREASE THE RISK OF INSERTIONAL MUTAGENESIS OF THE REVERSE TRANSCRIBED MOLECULES, WHICH CAN DISRUPT CODING REGIONS, ENHANCE THE RISK OF MUTATIONS IN TUMOUR SUPPRESSOR GENES, AND LEAD TO SUSTAINED DNA DAMAGE. SUSCEPTIBLE INDIVIDUALS WOULD THEN EXPECTEDLY HAVE AN INCREASED RISK OF DNA DAMAGE, CHRONIC AUTOINFLAMMATION, AUTOIMMUNITY AND CANCER. IN LIGHT OF THE CURRENT MASS ADMINISTRATION OF NMS-MRNA VACCINES, IT IS ESSENTIAL AND URGENT TO FULLY UNDERSTAND THE INTRACELLULAR CASCADES INITIATED BY CELLULAR UPTAKE OF SYNTHETIC MRNA AND THE CONSEQUENCES OF THESE MOLECULAR EVENTS. 2023 8 2772 35 EXTRACELLULAR ATP AND NEURODEGENERATION. ATP IS A POTENT SIGNALING MOLECULE ABUNDANTLY PRESENT IN THE CNS. IT ELICITS A WIDE ARRAY OF PHYSIOLOGICAL EFFECTS AND IS REGARDED AS THE PHYLOGENETICALLY MOST ANCIENT EPIGENETIC FACTOR PLAYING CRUCIAL BIOLOGICAL ROLES IN SEVERAL DIFFERENT TISSUES. THESE CAN RANGE FROM NEUROTRANSMISSION, SMOOTH MUSCLE CONTRACTION, CHEMOSENSORY SIGNALING, SECRETION AND VASODILATATION, TO MORE COMPLEX PHENOMENA SUCH AS IMMUNE RESPONSES, PAIN, MALE REPRODUCTION, FERTILIZATION AND EMBRYONIC DEVELOPMENT. ATP IS RELEASED INTO THE EXTRACELLULAR SPACE EITHER EXOCYTOTICALLY OR FROM DAMAGED AND DYING CELLS. IT IS OFTEN CO-RELEASED WITH OTHER NEUROTRANSMITTERS AND IT CAN INTERACT WITH GROWTH FACTORS AT BOTH RECEPTOR- AND/OR SIGNAL TRANSDUCTION-LEVEL. ONCE IN THE EXTRACELLULAR ENVIRONMENT, ATP BINDS TO SPECIFIC RECEPTORS TERMED P2. BASED ON PHARMACOLOGICAL PROFILES, ON SELECTIVITY OF COUPLING TO SECOND-MESSENGER PATHWAYS AND ON MOLECULAR CLONING, TWO MAIN SUBCLASSES WITH MULTIPLE SUBTYPES HAVE BEEN DISTINGUISHED. THEY ARE P2X, I.E. FAST CATION-SELECTIVE RECEPTOR CHANNELS (NA+, K+, CA2+), POSSESSING LOW AFFINITY FOR ATP AND RESPONSIBLE FOR FAST EXCITATORY NEUROTRANSMISSION, AND P2Y, I.E. SLOW G PROTEIN-COUPLED METABOTROPIC RECEPTORS, POSSESSING HIGHER AFFINITY FOR THE LIGAND. IN THE NERVOUS SYSTEM, THEY ARE BROADLY EXPRESSED IN BOTH NEURONS AND GLIAL CELLS AND CAN MEDIATE DUAL EFFECTS: SHORT-TERM SUCH AS NEUROTRANSMISSION, AND LONG-TERM SUCH AS TROPHIC ACTIONS. SINCE MASSIVE EXTRACELLULAR RELEASE OF ATP OFTEN OCCURS AFTER METABOLIC STRESS, BRAIN ISCHEMIA AND TRAUMA, PURINERGIC MECHANISMS ARE ALSO CORRELATED TO AND INVOLVED IN THE ETIOPATHOLOGY OF MANY NEURODEGENERATIVE CONDITIONS. FURTHERMORE, EXTRACELLULAR ATP PER SE IS TOXIC FOR PRIMARY NEURONAL DISSOCIATED AND ORGANOTYPIC CNS CULTURES FROM CORTEX, STRIATUM AND CEREBELLUM AND P2 RECEPTORS CAN MEDIATE AND AGGRAVATE HYPOXIC SIGNALING IN MANY CNS NEURONS. CONVERSELY, SEVERAL P2 RECEPTOR ANTAGONISTS ABOLISH THE CELL DEATH FATE OF PRIMARY NEURONAL CULTURES EXPOSED TO EXCESSIVE GLUTAMATE, SERUM/POTASSIUM DEPRIVATION, HYPOGLYCEMIA AND CHEMICAL HYPOXIA. IN PARALLEL WITH THESE DETRIMENTAL EFFECTS, ALSO TROPHIC FUNCTIONS HAVE BEEN EXTENSIVELY DESCRIBED FOR EXTRACELLULAR PURINES (BOTH FOR NEURONAL AND NON-NEURONAL CELLS), BUT THESE MIGHT EITHER AGGRAVATE OR AMELIORATE THE NORMAL CELLULAR CONDITIONS. IN SUMMARY, EXTRACELLULAR ATP PLAYS A VERY COMPLEX ROLE NOT ONLY IN THE REPAIR, REMODELING AND SURVIVAL OCCURRING IN THE NERVOUS SYSTEM, BUT EVEN IN CELL DEATH AND THIS CAN OCCUR EITHER AFTER NORMAL DEVELOPMENTAL CONDITIONS, AFTER INJURY, OR ACUTE AND CHRONIC DISEASES. 2003 9 5280 27 PROMOTING SYMPATHOVAGAL BALANCE IN MULTIPLE SCLEROSIS; PHARMACOLOGICAL, NON-PHARMACOLOGICAL, AND SURGICAL STRATEGIES. ACCUMULATED EVIDENCE SUGGESTS THAT CARDIOVASCULAR AUTONOMIC NERVOUS SYSTEM (ANS) DYSFUNCTION MAY BE THE UNDERLYING CAUSE OF MANY MS CLINICAL PRESENTATIONS, INCLUDING NEURODEGENERATION AND REDUCED RESPONSE TO IMMUNOMODULATORY THERAPIES, DEPRESSION, FATIGUE AND SLEEP DISORDERS, MIGRAINE, OSTEOPOROSIS, AND CHRONIC CEREBROSPINAL VENOUS INSUFFICIENCY, THE NEWER MS VASCULAR ETIOLOGY. WE HAVE RECENTLY DESCRIBED THE GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS WITH THE POTENTIAL INFLUENCING ANS ACTIVITY, AND THE INTERACTIONS AMONG THESE FACTORS. THIS REVIEW EXPANDS UPON PREVIOUS ONES, DESCRIBING THE PHARMACOLOGICAL, NON-PHARMACOLOGICAL, AND SURGICAL STRATEGIES THAT COULD BE ADOPTED TO PREVENT AND MINIMIZE THE DETERIORATION IN ANS FUNCTION, PROMOTING A STATE OF SYMPATHOVAGAL BALANCE. HOWEVER, THESE STRATEGIES SHOULD NOT BE APPLIED AS "ONE SIZE FITS ALL", BUT SHOULD TAKE INTO ACCOUNT THE NATURE AND THE DEGREE OF ANS DYSFUNCTION. THESE STRATEGIES WOULD BE EFFECTIVE IN IMPROVING ANS FUNCTION NOT ONLY IN MS, BUT ALSO IN OTHER AUTOIMMUNE AND NEURODEGENERATIVE DISEASES, WHERE THE DYSFUNCTION OF THIS SYSTEM PLAYS A ROLE. 2016 10 6403 33 THE ROLES OF INDUCIBLE CHROMATIN AND TRANSCRIPTIONAL MEMORY IN CELLULAR DEFENSE SYSTEM RESPONSES TO REDOX-ACTIVE POLLUTANTS. PEOPLE ARE EXPOSED TO WIDE RANGE OF REDOX-ACTIVE ENVIRONMENTAL POLLUTANTS. AIR POLLUTION, HEAVY METALS, PESTICIDES, AND ENDOCRINE DISRUPTING CHEMICALS CAN DISRUPT CELLULAR REDOX STATUS. REDOX-ACTIVE POLLUTANTS IN OUR ENVIRONMENT ALL TRIGGER THEIR OWN SETS OF SPECIFIC CELLULAR RESPONSES, BUT THEY ALSO ACTIVATE A COMMON SET OF GENERAL STRESS RESPONSES THAT BUFFER THE CELL AGAINST HOMEOSTATIC INSULTS. THESE CELLULAR DEFENSE SYSTEM (CDS) PATHWAYS INCLUDE THE HEAT SHOCK RESPONSE, THE OXIDATIVE STRESS RESPONSE, THE HYPOXIA RESPONSE, THE UNFOLDED PROTEIN RESPONSE, THE DNA DAMAGE RESPONSE, AND THE GENERAL STRESS RESPONSE MEDIATED BY THE STRESS-ACTIVATED P38 MITOGEN-ACTIVATED PROTEIN KINASE. OVER THE PAST TWO DECADES, THE FIELD OF ENVIRONMENTAL EPIGENETICS HAS INVESTIGATED EPIGENETIC RESPONSES TO ENVIRONMENTAL POLLUTANTS, INCLUDING REDOX-ACTIVE POLLUTANTS. STUDIES OF THESE RESPONSES HIGHLIGHT THE ROLE OF CHROMATIN MODIFICATIONS IN CONTROLLING THE TRANSCRIPTIONAL RESPONSE TO POLLUTANTS AND THE ROLE OF TRANSCRIPTIONAL MEMORY, OFTEN REFERRED TO AS "EPIGENETIC REPROGRAMMING", IN PREDISPOSING PREVIOUSLY EXPOSED INDIVIDUALS TO MORE POTENT TRANSCRIPTIONAL RESPONSES ON SECONDARY CHALLENGE. MY CENTRAL THESIS IN THIS REVIEW IS THAT HIGH DOSE OR CHRONIC EXPOSURE TO REDOX-ACTIVE POLLUTANTS LEADS TO TRANSCRIPTIONAL MEMORIES AT CDS TARGET GENES THAT INFLUENCE THE CELL'S ABILITY TO MOUNT PROTECTIVE RESPONSES. TO SUPPORT THIS THESIS, I WILL: (1) SUMMARIZE THE KNOWN CHROMATIN FEATURES REQUIRED FOR INDUCIBLE GENE ACTIVATION; (2) REVIEW THE KNOWN FORMS OF TRANSCRIPTIONAL MEMORY; (3) DISCUSS THE ROLES OF INDUCIBLE CHROMATIN AND TRANSCRIPTIONAL MEMORY IN CDS RESPONSES THAT ARE ACTIVATED BY REDOX-ACTIVE ENVIRONMENTAL POLLUTANTS; AND (4) PROPOSE A CONCEPTUAL FRAMEWORK FOR CDS PATHWAY RESPONSIVENESS AS A READOUT OF TOTAL CELLULAR EXPOSURE TO REDOX-ACTIVE POLLUTANTS. 2021 11 4136 30 MECHANISMS OF MANGANESE-INDUCED NEUROTOXICITY AND THE PURSUIT OF NEUROTHERAPEUTIC STRATEGIES. CHRONIC EXPOSURE TO ELEVATED LEVELS OF MANGANESE VIA OCCUPATIONAL OR ENVIRONMENTAL SETTINGS CAUSES A NEUROLOGICAL DISORDER KNOWN AS MANGANISM, RESEMBLING THE SYMPTOMS OF PARKINSON'S DISEASE, SUCH AS MOTOR DEFICITS AND COGNITIVE IMPAIRMENT. NUMEROUS STUDIES HAVE BEEN CONDUCTED TO CHARACTERIZE MANGANESE'S NEUROTOXICITY MECHANISMS IN SEARCH OF EFFECTIVE THERAPEUTICS, INCLUDING NATURAL AND SYNTHETIC COMPOUNDS TO TREAT MANGANESE TOXICITY. SEVERAL POTENTIAL MOLECULAR TARGETS OF MANGANESE TOXICITY AT THE EPIGENETIC AND TRANSCRIPTIONAL LEVELS HAVE BEEN IDENTIFIED RECENTLY, WHICH MAY CONTRIBUTE TO DEVELOP MORE PRECISE AND EFFECTIVE GENE THERAPIES. THIS REVIEW UPDATES FINDINGS ON MANGANESE-INDUCED NEUROTOXICITY MECHANISMS ON INTRACELLULAR INSULTS SUCH AS OXIDATIVE STRESS, INFLAMMATION, EXCITOTOXICITY, AND MITOPHAGY, AS WELL AS TRANSCRIPTIONAL DYSREGULATIONS INVOLVING YIN YANG 1, RE1-SILENCING TRANSCRIPTION FACTOR, TRANSCRIPTION FACTOR EB, AND NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 THAT COULD BE TARGETS OF MANGANESE NEUROTOXICITY THERAPIES. THIS REVIEW ALSO FEATURES INTRACELLULAR PROTEINS SUCH AS PTEN-INDUCIBLE KINASE 1, PARKIN, SIRTUINS, LEUCINE-RICH REPEAT KINASE 2, AND ALPHA-SYNUCLEIN, WHICH ARE ASSOCIATED WITH MANGANESE-INDUCED DYSREGULATION OF AUTOPHAGY/MITOPHAGY. IN ADDITION, NEWER THERAPEUTIC APPROACHES TO TREAT MANGANESE'S NEUROTOXICITY INCLUDING NATURAL AND SYNTHETIC COMPOUNDS MODULATING EXCITOTOXICITY, AUTOPHAGY, AND MITOPHAGY, WERE REVIEWED. TAKEN TOGETHER, IN-DEPTH MECHANISTIC KNOWLEDGE ACCOMPANIED BY ADVANCES IN GENE AND DRUG DELIVERY STRATEGIES WILL MAKE SIGNIFICANT PROGRESS IN THE DEVELOPMENT OF RELIABLE THERAPEUTIC INTERVENTIONS AGAINST MANGANESE-INDUCED NEUROTOXICITY. 2022 12 4470 41 MOLECULAR NEUROPATHOLOGY OF ASTROCYTES AND OLIGODENDROCYTES IN ALCOHOL USE DISORDERS. POSTMORTEM STUDIES REVEAL STRUCTURAL AND MOLECULAR ALTERATIONS OF ASTROCYTES AND OLIGODENDROCYTES IN BOTH THE GRAY AND WHITE MATTER (GM AND WM) OF THE PREFRONTAL CORTEX (PFC) IN HUMAN SUBJECTS WITH CHRONIC ALCOHOL ABUSE OR DEPENDENCE. THESE GLIAL CELLULAR CHANGES APPEAR TO PARALLEL AND MAY LARGELY EXPLAIN STRUCTURAL AND FUNCTIONAL ALTERATIONS DETECTED USING NEUROIMAGING TECHNIQUES IN SUBJECTS WITH ALCOHOL USE DISORDERS (AUDS). MOREOVER, DUE TO THE CRUCIAL ROLES OF ASTROCYTES AND OLIGODENDROCYTES IN NEUROTRANSMISSION AND SIGNAL CONDUCTION, THESE CELLS ARE VERY LIKELY MAJOR PLAYERS IN THE MOLECULAR MECHANISMS UNDERPINNING ALCOHOLISM-RELATED CONNECTIVITY DISTURBANCES BETWEEN THE PFC AND RELEVANT INTERCONNECTING BRAIN REGIONS. THE GLIA-MEDIATED ETIOLOGY OF ALCOHOL-RELATED BRAIN DAMAGE IS LIKELY MULTIFACTORIAL SINCE METABOLIC, HORMONAL, HEPATIC AND HEMODYNAMIC FACTORS AS WELL AS DIRECT ACTIONS OF ETHANOL OR ITS METABOLITES HAVE THE POTENTIAL TO DISRUPT DISTINCT ASPECTS OF GLIAL NEUROBIOLOGY. STUDIES IN ANIMAL MODELS OF ALCOHOLISM AND POSTMORTEM HUMAN BRAINS HAVE IDENTIFIED ASTROCYTE MARKERS ALTERED IN RESPONSE TO SIGNIFICANT EXPOSURES TO ETHANOL OR DURING ALCOHOL WITHDRAWAL, SUCH AS GAP-JUNCTION PROTEINS, GLUTAMATE TRANSPORTERS OR ENZYMES RELATED TO GLUTAMATE AND GAMMA-AMINOBUTYRIC ACID (GABA) METABOLISM. CHANGES IN THESE PROTEINS AND THEIR REGULATORY PATHWAYS WOULD NOT ONLY CAUSE GM NEURONAL DYSFUNCTION, BUT ALSO DISTURBANCES IN THE ABILITY OF WM AXONS TO CONVEY IMPULSES. IN ADDITION, ALCOHOLISM ALTERS THE EXPRESSION OF ASTROCYTE AND MYELIN PROTEINS AND OF OLIGODENDROCYTE TRANSCRIPTION FACTORS IMPORTANT FOR THE MAINTENANCE AND PLASTICITY OF MYELIN SHEATHS IN WM AND GM. THESE CHANGES ARE CONCOMITANT WITH EPIGENETIC DNA AND HISTONE MODIFICATIONS AS WELL AS ALTERATIONS IN REGULATORY MICRORNAS (MIRNAS) THAT LIKELY CAUSE PROFOUND DISTURBANCES OF GENE EXPRESSION AND PROTEIN TRANSLATION. KNOWLEDGE IS ALSO AVAILABLE ABOUT INTERACTIONS BETWEEN ASTROCYTES AND OLIGODENDROCYTES NOT ONLY AT THE NODES OF RANVIER (NR), BUT ALSO IN GAP JUNCTION-BASED ASTROCYTE-OLIGODENDROCYTE CONTACTS AND OTHER FORMS OF CELL-TO-CELL COMMUNICATION NOW UNDERSTOOD TO BE CRITICAL FOR THE MAINTENANCE AND FORMATION OF MYELIN. CLOSE INTERACTIONS BETWEEN ASTROCYTES AND OLIGODENDROCYTES ALSO SUGGEST THAT THERAPIES FOR ALCOHOLISM BASED ON A SPECIFIC GLIAL CELL TYPE PATHOLOGY WILL REQUIRE A BETTER UNDERSTANDING OF MOLECULAR INTERACTIONS BETWEEN DIFFERENT CELL TYPES, AS WELL AS CONSIDERING THE POSSIBILITY OF USING COMBINED MOLECULAR APPROACHES FOR MORE EFFECTIVE THERAPIES. 2018 13 2617 53 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 14 6375 44 THE ROLE OF NEURO-IMMUNE INTERACTION IN CHRONIC PAIN CONDITIONS; FUNCTIONAL SOMATIC SYNDROME, NEUROGENIC INFLAMMATION, AND PERIPHERAL NEUROPATHY. FUNCTIONAL SOMATIC SYNDROMES ARE INCREASINGLY DIAGNOSED IN CHRONICALLY ILL PATIENTS PRESENTING WITH AN ARRAY OF SYMPTOMS NOT ATTRIBUTED TO PHYSICAL AILMENTS. CONDITIONS SUCH AS CHRONIC FATIGUE SYNDROME, FIBROMYALGIA SYNDROME, OR IRRITABLE BOWEL SYNDROME ARE COMMON DISORDERS THAT BELONG IN THIS BROAD CATEGORY. SUCH SYNDROMES ARE CHARACTERISED BY THE PRESENCE OF ONE OR MULTIPLE CHRONIC SYMPTOMS INCLUDING WIDESPREAD MUSCULOSKELETAL PAIN, FATIGUE, SLEEP DISORDERS, AND ABDOMINAL PAIN, AMONGST OTHER ISSUES. SYMPTOMS ARE BELIEVED TO RELATE TO A COMPLEX INTERACTION OF BIOLOGICAL AND PSYCHOSOCIAL FACTORS, WHERE A DEFINITE AETIOLOGY HAS NOT BEEN ESTABLISHED. THEORIES SUGGEST CAUSATIVE PATHWAYS BETWEEN THE IMMUNE AND NERVOUS SYSTEMS OF AFFECTED INDIVIDUALS WITH SEVERAL RISK FACTORS IDENTIFIED IN PATIENTS PRESENTING WITH ONE OR MORE FUNCTIONAL SYNDROMES. RISK FACTORS INCLUDING STRESS AND CHILDHOOD TRAUMA ARE NOW RECOGNISED AS IMPORTANT CONTRIBUTORS TO CHRONIC PAIN CONDITIONS. EMOTIONAL, PHYSICAL, AND SEXUAL ABUSE DURING CHILDHOOD IS CONSIDERED A SEVERE STRESSOR HAVING A HIGH PREVALENCE IN FUNCTIONAL SOMATIC SYNDROME SUFFERS. SUCH TRAUMA PERMANENTLY ALTERS THE BIOLOGICAL STRESS RESPONSE OF THE SUFFERS LEADING TO NEUROEXCITATORY AND OTHER NERVE ISSUES ASSOCIATED WITH CHRONIC PAIN IN ADULTS. TRAUMATIC AND CHRONIC STRESS RESULTS IN EPIGENETIC CHANGES IN STRESS RESPONSE GENES, WHICH ULTIMATELY LEADS TO DYSREGULATION OF THE HYPOTHALAMIC-PITUITARY AXIS, THE AUTONOMIC NERVOUS SYSTEM, AND THE IMMUNE SYSTEM MANIFESTING IN A BROAD ARRAY OF SYMPTOMS. IMPORTANTLY, THESE SYSTEMS ARE KNOWN TO BE DYSREGULATED IN PATIENTS SUFFERING FROM FUNCTIONAL SOMATIC SYNDROME. FUNCTIONAL SOMATIC SYNDROMES ARE ALSO HIGHLY PREVALENT CO-MORBIDITIES OF PSYCHIATRIC CONDITIONS, MOOD DISORDERS, AND ANXIETY. CONSEQUENTLY, THIS REVIEW AIMS TO PROVIDE INSIGHT INTO THE ROLE OF THE NERVOUS SYSTEM AND IMMUNE SYSTEM IN CHRONIC PAIN DISORDERS ASSOCIATED WITH THE MUSCULOSKELETAL SYSTEM, AND CENTRAL AND PERIPHERAL NERVOUS SYSTEMS. 2022 15 375 28 AN ENERGETIC VIEW OF STRESS: FOCUS ON MITOCHONDRIA. ENERGY IS REQUIRED TO SUSTAIN LIFE AND ENABLE STRESS ADAPTATION. AT THE CELLULAR LEVEL, ENERGY IS LARGELY DERIVED FROM MITOCHONDRIA - UNIQUE MULTIFUNCTIONAL ORGANELLES WITH THEIR OWN GENOME. FOUR MAIN ELEMENTS CONNECT MITOCHONDRIA TO STRESS: (1) ENERGY IS REQUIRED AT THE MOLECULAR, (EPI)GENETIC, CELLULAR, ORGANELLAR, AND SYSTEMIC LEVELS TO SUSTAIN COMPONENTS OF STRESS RESPONSES; (2) GLUCOCORTICOIDS AND OTHER STEROID HORMONES ARE PRODUCED AND METABOLIZED BY MITOCHONDRIA; (3) RECIPROCALLY, MITOCHONDRIA RESPOND TO NEUROENDOCRINE AND METABOLIC STRESS MEDIATORS; AND (4) EXPERIMENTALLY MANIPULATING MITOCHONDRIAL FUNCTIONS ALTERS PHYSIOLOGICAL AND BEHAVIORAL RESPONSES TO PSYCHOLOGICAL STRESS. THUS, MITOCHONDRIA ARE ENDOCRINE ORGANELLES THAT PROVIDE BOTH THE ENERGY AND SIGNALS THAT ENABLE AND DIRECT STRESS ADAPTATION. NEURAL CIRCUITS REGULATING SOCIAL BEHAVIOR - AS WELL AS PSYCHOPATHOLOGICAL PROCESSES - ARE ALSO INFLUENCED BY MITOCHONDRIAL ENERGETICS. AN INTEGRATIVE VIEW OF STRESS AS AN ENERGY-DRIVEN PROCESS OPENS NEW OPPORTUNITIES TO STUDY MECHANISMS OF ADAPTATION AND REGULATION ACROSS THE LIFESPAN. 2018 16 4647 41 NEUROPEPTIDE AND SMALL TRANSMITTER COEXISTENCE: FUNDAMENTAL STUDIES AND RELEVANCE TO MENTAL ILLNESS. NEUROPEPTIDES ARE AUXILIARY MESSENGER MOLECULES THAT ALWAYS CO-EXIST IN NERVE CELLS WITH ONE OR MORE SMALL MOLECULE (CLASSIC) NEUROTRANSMITTERS. NEUROPEPTIDES ACT BOTH AS TRANSMITTERS AND TROPHIC FACTORS, AND PLAY A ROLE PARTICULARLY WHEN THE NERVOUS SYSTEM IS CHALLENGED, AS BY INJURY, PAIN OR STRESS. HERE NEUROPEPTIDES AND COEXISTENCE IN MAMMALS ARE REVIEWED, BUT WITH SPECIAL FOCUS ON THE 29/30 AMINO ACID GALANIN AND ITS THREE RECEPTORS GALR1, -R2 AND -R3. IN PARTICULAR, GALANIN'S ROLE AS A CO-TRANSMITTER IN BOTH RODENT AND HUMAN NORADRENERGIC LOCUS COERULEUS (LC) NEURONS IS ADDRESSED. EXTENSIVE EXPERIMENTAL ANIMAL DATA STRONGLY SUGGEST A ROLE FOR THE GALANIN SYSTEM IN DEPRESSION-LIKE BEHAVIOR. THE TRANSLATIONAL POTENTIAL OF THESE RESULTS WAS TESTED BY STUDYING THE GALANIN SYSTEM IN POSTMORTEM HUMAN BRAINS, FIRST IN NORMAL BRAINS, AND THEN IN A COMPARISON OF FIVE REGIONS OF BRAINS OBTAINED FROM DEPRESSED PEOPLE WHO COMMITTED SUICIDE, AND FROM MATCHED CONTROLS. THE DISTRIBUTION OF GALANIN AND THE FOUR GALANIN SYSTEM TRANSCRIPTS IN THE NORMAL HUMAN BRAIN WAS DETERMINED, AND SELECTIVE AND PARALLEL CHANGES IN LEVELS OF TRANSCRIPTS AND DNA METHYLATION FOR GALANIN AND ITS THREE RECEPTORS WERE ASSESSED IN DEPRESSED PATIENTS WHO COMMITTED SUICIDE: UPREGULATION OF TRANSCRIPTS, E.G., FOR GALANIN AND GALR3 IN LC, PARALLELED BY A DECREASE IN DNA METHYLATION, SUGGESTING INVOLVEMENT OF EPIGENETIC MECHANISMS. IT IS HYPOTHESIZED THAT, WHEN EXPOSED TO SEVERE STRESS, THE NORADRENERGIC LC NEURONS FIRE IN BURSTS AND RELEASE GALANIN FROM THEIR SOMA/DENDRITES. GALANIN THEN ACTS ON SOMATO-DENDRITIC, INHIBITORY GALANIN AUTORECEPTORS, OPENING POTASSIUM CHANNELS AND INHIBITING FIRING. THE PURPOSE OF THESE AUTORECEPTORS IS TO ACT AS A 'BRAKE' TO PREVENT OVEREXCITATION, A BRAKE THAT IS ALSO PART OF RESILIENCE TO STRESS THAT PROTECTS AGAINST DEPRESSION. DEPRESSION THEN ARISES WHEN THE INHIBITION IS TOO STRONG AND LONG LASTING - A MALADAPTION, ALLOSTATIC LOAD, LEADING TO DEPLETION OF NA LEVELS IN THE FOREBRAIN. IT IS SUGGESTED THAT DISINHIBITION BY A GALANIN ANTAGONIST MAY HAVE ANTIDEPRESSANT ACTIVITY BY RESTORING FOREBRAIN NA LEVELS. A ROLE OF GALANIN IN DEPRESSION IS ALSO SUPPORTED BY A RECENT CANDIDATE GENE STUDY, SHOWING THAT VARIANTS IN GENES FOR GALANIN AND ITS THREE RECEPTORS CONFER INCREASED RISK OF DEPRESSION AND ANXIETY IN PEOPLE WHO EXPERIENCED CHILDHOOD ADVERSITY OR RECENT NEGATIVE LIFE EVENTS. IN SUMMARY, GALANIN, A NEUROPEPTIDE COEXISTING IN LC NEURONS, MAY PARTICIPATE IN THE MECHANISM UNDERLYING RESILIENCE AGAINST A SERIOUS AND COMMON DISORDER, MDD. EXISTING AND FURTHER RESULTS MAY LEAD TO AN INCREASED UNDERSTANDING OF HOW THIS ILLNESS DEVELOPS, WHICH IN TURN COULD PROVIDE A BASIS FOR ITS TREATMENT. 2018 17 4778 32 NUTRACEUTICALS AND THE NETWORK OF OBESITY MODULATORS. OBESITY IS CONSIDERED AN INCREASINGLY WIDESPREAD DISEASE IN THE WORLD POPULATION, REGARDLESS OF AGE AND GENDER. GENETIC BUT ALSO LIFESTYLE-DEPENDENT CAUSES HAVE BEEN IDENTIFIED. NUTRITION AND PHYSICAL EXERCISE PLAY AN IMPORTANT ROLE, ESPECIALLY IN NON-GENETIC OBESITY. IN A THREE-COMPARTMENT MODEL, THE BODY IS DIVIDED INTO FAT MASS, FAT-FREE MASS AND WATER, AND OBESITY CAN BE CONSIDERED A CONDITION IN WHICH THE PERCENTAGE OF TOTAL FAT MASS IS IN EXCESS. PEOPLE WITH A HIGH BMI INDEX OR OVERWEIGHT USE SELF-MEDICATIONS, SUCH AS FOOD SUPPLEMENTS OR TEAS, WITH THE AIM TO PREVENT OR TREAT THEIR PROBLEM. UNFORTUNATELY, THERE ARE SEVERAL OBESITY MODULATORS THAT ACT BOTH ON THE PATHWAYS THAT PROMOTE ADIPOGENESIS AND THOSE THAT INHIBIT LIPOLYSIS. MOREOVER, THESE PATHWAYS INVOLVE DIFFERENT TISSUES AND ORGANS, SO IT IS VERY DIFFICULT TO IDENTIFY ANTI-OBESITY SUBSTANCES. A NETWORK OF FACTORS AND CELLS CONTRIBUTES TO THE ACCUMULATION OF FAT IN COMPLETELY DIFFERENT BODY DISTRICTS. THE IDENTIFICATION OF NATURAL ANTI-OBESITY AGENTS SHOULD CONSIDER THIS NETWORK, WHICH WE WOULD LIKE TO CALL "OBESOSOME". THE NUTRIGENOMIC, NUTRIGENETIC AND EPIGENETIC CONTRIBUTE TO MAKING THE IDENTIFICATION OF ACTIVE COMPOUNDS VERY DIFFICULT. THIS NARRATIVE REVIEW AIMS TO HIGHLIGHT NUTRACEUTICALS THAT, IN VITRO OR IN VIVO, SHOWED AN ANTI-OBESITY ACTIVITY OR WERE FOUND TO BE USEFUL IN THE CONTROL OF DYSFUNCTIONS WHICH ARE SECONDARY TO OBESITY. THE RESULTS SUGGEST THAT IT IS NOT POSSIBLE TO USE A SINGLE COMPOUND TO TREAT OBESITY, BUT THAT THE STUDIES HAVE TO BE ADDRESSED TOWARDS THE IDENTIFICATION OF MIXTURES OF NUTRACEUTICALS. 2022 18 6166 36 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 19 6026 38 THE BIOLOGY OF STRESS INTOLERANCE IN PATIENTS WITH CHRONIC PAIN-STATE OF THE ART AND FUTURE DIRECTIONS. STRESS HAS BEEN CONSISTENTLY LINKED TO NEGATIVE IMPACTS ON PHYSICAL AND MENTAL HEALTH. MORE SPECIFICALLY, PATIENTS WITH CHRONIC PAIN EXPERIENCE STRESS INTOLERANCE, WHICH IS AN EXACERBATION OR OCCURRENCE OF SYMPTOMS IN RESPONSE TO ANY TYPE OF STRESS. THE PATHOPHYSIOLOGICAL MECHANISMS UNDERLYING THIS PHENOMENON REMAIN UNSOLVED. IN THIS STATE-OF-THE-ART PAPER, WE SUMMARISED THE ROLE OF THE AUTONOMIC NERVOUS SYSTEM (ANS) AND HYPOTHALAMUS-PITUITARY-ADRENAL (HPA) AXIS, THE TWO MAJOR STRESS RESPONSE SYSTEMS IN STRESS INTOLERANCE. WE PROVIDED INSIGHTS INTO SUCH MECHANISMS BASED ON EVIDENCE FROM CLINICAL STUDIES IN BOTH PATIENTS WITH CHRONIC PAIN, SHOWING DYSREGULATED STRESS SYSTEMS, AND HEALTHY CONTROLS SUPPORTED BY PRECLINICAL STUDIES, HIGHLIGHTING THE LINK BETWEEN THESE SYSTEMS AND SYMPTOMS OF STRESS INTOLERANCE. FURTHERMORE, WE EXPLORED THE POSSIBLE REGULATING ROLE FOR (EPI)GENETIC MECHANISMS INFLUENCING THE ANS AND HPA AXIS. THE LINK BETWEEN STRESS AND CHRONIC PAIN HAS BECOME AN IMPORTANT AREA OF RESEARCH AS IT HAS THE POTENTIAL TO INFORM THE DEVELOPMENT OF INTERVENTIONS TO IMPROVE THE QUALITY OF LIFE FOR INDIVIDUALS LIVING WITH CHRONIC PAIN. AS STRESS HAS BECOME A PREVALENT CONCERN IN MODERN SOCIETY, UNDERSTANDING THE CONNECTION BETWEEN STRESS, HPA AXIS, ANS, AND CHRONIC HEALTH CONDITIONS SUCH AS CHRONIC PAIN IS CRUCIAL TO IMPROVE PUBLIC HEALTH AND WELL-BEING. 2023 20 367 33 AMPLIFIED PAIN SYNDROMES IN CHILDREN: TREATMENT AND NEW INSIGHTS INTO DISEASE PATHOGENESIS. PURPOSE OF REVIEW: ALTHOUGH MANY DIAGNOSTIC TERMS ARE USED FOR PEDIATRIC CHRONIC PAIN, EVIDENCE SUGGESTS A COMMON THREAD OF SIGNAL AMPLIFICATION, LEADING TO THE UNIFYING TERM 'AMPLIFIED PAIN SYNDROMES'. ONGOING RESEARCH PROVIDES NEW INSIGHTS INTO BIOPSYCHOSOCIAL CONTRIBUTORS AND TREATMENTS FOR PEDIATRIC AMPLIFIED PAIN SYNDROMES. RECENT FINDINGS: BASIC SCIENCE INDICATES A COMPLEX INTERPLAY OF GENETIC, EPIGENETIC, NEUROCHEMICAL, ENDOCRINE, AND INFLAMMATORY CONTRIBUTORS, ALONG WITH ENVIRONMENTAL AND PSYCHOLOGICAL FACTORS. ALTHOUGH MEDICATIONS AND INTERVENTIONS REMAIN COMMON APPROACHES TO CHILDREN WITH CHRONIC PAIN, THEIR EVIDENCE IS LIMITED. PRELIMINARY EVIDENCE EXISTS FOR MINDFULNESS-BASED THERAPIES, YOGA, AND OTHER COMPLEMENTARY/ALTERNATIVE MEDICINE APPROACHES. THE STRONGEST EVIDENCE IS FOR EXERCISE-BASED AND COGNITIVE-BEHAVIORAL TREATMENTS, IN PARTICULAR, WHEN COMBINED IN A MULTIDISCIPLINARY FORMAT. INTENSIVE APPROACHES (PAIN REHABILITATION) HAVE THE POTENTIAL TO EFFECTIVELY AND EFFICIENTLY TREAT THOSE MOST DISABLED BY AMPLIFIED PAIN SYNDROMES, AND LEAD TO SUSTAINED IMPROVEMENT IN PAIN, FUNCTIONING, AND MEDICAL UTILIZATION. SUMMARY: ALTHOUGH UNDERSTANDING OF THE MECHANISMS UNDERLYING PEDIATRIC AMPLIFIED PAIN SYNDROMES EVOLVES, STANDARD OF CARE IS MULTIDISCIPLINARY EMPHASIZING EXERCISE THERAPY, COGNITIVE-BEHAVIORAL TREATMENT, AND SELF-REGULATION. TREATMENT SHOULD TARGET FULL RETURN TO PHYSICAL FUNCTION, WHICH LEADS TO SUBSEQUENT IMPROVEMENT OR RESOLUTION OF PAIN. MULTIDISCIPLINARY CARE CAN BE COORDINATED BY A RHEUMATOLOGIST OR OTHER PHYSICIAN WITH APPROPRIATE REFERRALS, OR THROUGH A MULTIDISCIPLINARY TEAM. 2014