1 2596 97 EPIGENETICS OF STRESS ADAPTATIONS IN THE BRAIN. RECENT FINDINGS IN EPIGENETICS SHED NEW LIGHT ON THE REGULATION OF GENE EXPRESSION IN THE CENTRAL NERVOUS SYSTEM (CNS) DURING STRESS. THE MOST FREQUENTLY STUDIED EPIGENETIC MECHANISMS ARE DNA METHYLATION, HISTONE MODIFICATIONS AND MICRORNA ACTIVITY. THESE MECHANISMS STABLY DETERMINE CELL PHENOTYPE BUT CAN ALSO BE RESPONSIBLE FOR DYNAMIC MOLECULAR ADAPTATIONS OF THE CNS TO STRESSORS. THE LIMBIC-HYPOTHALAMIC-PITUITARY-ADRENAL AXIS (LHPA) IS THE PRIMARY CIRCUIT THAT INITIATES, REGULATES AND TERMINATES A STRESS RESPONSE. THE SAME BRAIN AREAS THAT CONTROL STRESS ALSO REACT TO STRESS DYNAMICALLY AND WITH LONG-TERM CONSEQUENCES. ONE OF THE BIOLOGICAL PROCESSES EVOKING POTENT ADAPTIVE CHANGES IN THE CNS SUCH AS CHANGES IN BEHAVIOR, GENE ACTIVITY OR SYNAPTIC PLASTICITY IN THE HIPPOCAMPUS IS PSYCHOGENIC STRESS. THIS REVIEW SUMMARIZES THE CURRENT DATA REGARDING THE EPIGENETIC BASIS OF MOLECULAR ADAPTATIONS IN THE BRAIN INCLUDING GENOME-WIDE EPIGENETIC CHANGES OF DNA METHYLATION AND PARTICULAR GENES INVOLVED IN EPIGENETIC RESPONSES THAT PARTICIPATE IN THE BRAIN RESPONSE TO CHRONIC PSYCHOGENIC STRESSORS. IT IS CONCLUDED THAT SPECIFIC EPIGENETIC MECHANISMS IN THE CNS ARE INVOLVED IN THE STRESS RESPONSE. 2013 2 2235 31 EPIGENETIC MODIFICATIONS, ALCOHOLIC BRAIN AND POTENTIAL DRUG TARGETS. ACUTE AND CHRONIC ALCOHOL EXPOSURE EVIDENTLY INFLUENCES EPIGENETIC CHANGES, BOTH TRANSIENTLY AND PERMANENTLY, AND THESE CHANGES IN TURN INFLUENCE A VARIETY OF CELLS AND ORGAN SYSTEMS THROUGHOUT THE BODY. MANY OF THE ALCOHOL-INDUCED EPIGENETIC MODIFICATIONS CAN CONTRIBUTE TO CELLULAR ADAPTATIONS THAT ULTIMATELY LEAD TO BEHAVIORAL TOLERANCE AND ALCOHOL DEPENDENCE. THE PERSISTENCE OF BEHAVIORAL CHANGES DEMONSTRATES THAT LONG-LASTING CHANGES IN GENE EXPRESSION, WITHIN PARTICULAR REGIONS OF THE BRAIN, MAY CONTRIBUTE IMPORTANTLY TO THE ADDICTION PHENOTYPE. THE RESEARCH ACTIVITIES OVER THE PAST YEARS HAVE DEMONSTRATED A CRUCIAL ROLE OF EPIGENETIC MECHANISMS IN CAUSING LONG LASTING AND TRANSIENT CHANGES IN THE EXPRESSION OF SEVERAL GENES IN DIVERSE TISSUES, INCLUDING BRAIN. THIS HAS STIMULATED RECENT RESEARCH WORK THAT IS AIMED AT CHARACTERIZING THE INFLUENCE OF EPIGENETIC REGULATORY EVENTS IN MEDIATING THE LONG LASTING AND TRANSIENT EFFECTS OF ALCOHOL ABUSE ON THE BRAIN IN HUMANS AND ANIMAL MODELS OF ALCOHOL ADDICTION. IN THIS STUDY, WE UPDATE OUR CURRENT UNDERSTANDING OF THE IMPACT OF ALCOHOL EXPOSURE ON EPIGENETIC MECHANISMS IN THE BRAIN AND REFURBISH THE KNOWLEDGE OF EPIGENETICS IN THE DIRECTION OF NEW DRUGS DEVELOPMENT. 2016 3 6886 38 [ROLE OF EPIGENETIC MODIFICATION IN HIGHER BRAIN DYSFUNCTION AND AGING]. EPIGENETIC MECHANISMS TYPICALLY INVOLVE HERITABLE ALTERATIONS IN CHROMATIN STRUCTURE, WHICH, IN TURN, REGULATE GENE EXPRESSION. FUNDAMENTAL INSIGHTS ABOUT EPIGENETIC HERITABILITY HAVE COME FROM STUDIES OF CELL DIVISION AND DEVELOPMENT. HOWEVER, THERE IS INCREASING EVIDENCE THAT THE REGULATION OF CHROMATIN STRUCTURE THROUGH HISTONE MODIFICATIONS AND DNA METHYLATION MIGHT MEDIATE THE EXPRESSION OF KEY GENES INVOLVED IN ACQUIRED CHRONIC DISORDERS. THIS IDEA IS FASCINATING BECAUSE SIMILAR MECHANISMS ARE USED FOR TRIGGERING AND STORING LONG-TERM MEMORIES AT THE CELLULAR LEVEL DURING, FOR EXAMPLE, HIGHER-BRAIN DYSFUNCTION, STRESS DISEASE, DRUG DEPENDENCE, AGING, AND CHRONIC PAIN. THIS REVIEW WILL EXPLORE THE MOST CURRENT ISSUES IN THE FIELD OF EPIGENETICS, WITH A FOCUS ON NEXT LEVELS OF TRANSCRIPTIONAL MECHANISMS UNDERLYING AGING, ENRICHED ENVIRONMENT AND DRUG ADDICTION. EPIGENETIC MECHANISMS, WHICH ARE KEY CELLULAR AND MOLECULAR PROCESSES THAT INTEGRATE DIVERSE ENVIRONMENTAL STIMULI TO EXERT POTENT AND OFTEN LONG-LASTING CHANGES IN GENE EXPRESSION THROUGH THE REGULATION OF CHROMATIN STRUCTURE, CONTRIBUTE TO TRANSCRIPTIONAL AND BEHAVIORAL CHANGES. 2012 4 2598 27 EPIGENETICS OF THE DEPRESSED BRAIN: ROLE OF HISTONE ACETYLATION AND METHYLATION. MAJOR DEPRESSIVE DISORDER IS A CHRONIC, REMITTING SYNDROME INVOLVING WIDELY DISTRIBUTED CIRCUITS IN THE BRAIN. STABLE ALTERATIONS IN GENE EXPRESSION THAT CONTRIBUTE TO STRUCTURAL AND FUNCTIONAL CHANGES IN MULTIPLE BRAIN REGIONS ARE IMPLICATED IN THE HETEROGENEITY AND PATHOGENESIS OF THE ILLNESS. EPIGENETIC EVENTS THAT ALTER CHROMATIN STRUCTURE TO REGULATE PROGRAMS OF GENE EXPRESSION HAVE BEEN ASSOCIATED WITH DEPRESSION-RELATED BEHAVIOR, ANTIDEPRESSANT ACTION, AND RESISTANCE TO DEPRESSION OR 'RESILIENCE' IN ANIMAL MODELS, WITH INCREASING EVIDENCE FOR SIMILAR MECHANISMS OCCURRING IN POSTMORTEM BRAINS OF DEPRESSED HUMANS. IN THIS REVIEW, WE DISCUSS RECENT ADVANCES IN OUR UNDERSTANDING OF EPIGENETIC CONTRIBUTIONS TO DEPRESSION, IN PARTICULAR THE ROLE OF HISTONE ACETYLATION AND METHYLATION, WHICH ARE REVEALING NOVEL MECHANISTIC INSIGHT INTO THE SYNDROME THAT MAY AID IN THE DEVELOPMENT OF NOVEL TARGETS FOR DEPRESSION TREATMENT. 2013 5 2292 30 EPIGENETIC REGULATION IN SUBSTANCE USE DISORDERS. SUBSTANCE USE DISORDER IS A CHRONIC CONDITION OF COMPULSIVE DRUG SEEKING AND USE THAT IS MEDIATED BY STABLE CHANGES IN CENTRAL REWARD PATHWAYS. REPEATED USE OF ABUSED DRUGS CAUSES PERSISTENT ALTERATIONS IN GENE EXPRESSION RESPONSIBLE FOR THE LONG-TERM BEHAVIORAL AND STRUCTURAL CHANGES. RECENTLY, IT HAS BEEN SUGGESTED THAT EPIGENETIC MECHANISMS ARE RESPONSIBLE IN PART FOR THESE DRUG-INDUCED CHANGES IN GENE EXPRESSION. ONE OF THE ALLURING ASPECTS OF EPIGENETIC REGULATION OF GENE EXPRESSION IS THAT EPIGENETIC MECHANISMS MAY PROVIDE TRANSIENT AND POTENTIALLY STABLE CONDITIONS THAT IN TURN MAY ULTIMATELY PARTICIPATE IN THE MOLECULAR MECHANISMS REQUIRED FOR NEURONAL CHANGES SUBSERVING LONG-LASTING CHANGES IN BEHAVIOR. THIS REVIEW DESCRIBES EPIGENETIC MECHANISMS OF GENE REGULATION AND THEN DISCUSSES THE EMERGING ROLE OF EPIGENETICS IN DRUG-INDUCED PLASTICITY AND BEHAVIOR. UNDERSTANDING THESE MECHANISMS THAT ESTABLISH AND MAINTAIN DRUG-DEPENDENT PLASTICITY CHANGES MAY LEAD TO DEEPER UNDERSTANDING OF SUBSTANCE USE DISORDERS AS WELL AS NOVEL APPROACHES TO TREATMENT. 2010 6 110 30 A ROLE FOR ACTIVITY-DEPENDENT EPIGENETICS IN THE DEVELOPMENT AND TREATMENT OF MAJOR DEPRESSIVE DISORDER. CHRONIC STRESSORS, DURING DEVELOPMENTAL SENSITIVE PERIODS AND BEYOND, CONTRIBUTE TO THE RISK OF DEVELOPING PSYCHIATRIC CONDITIONS, INCLUDING MAJOR DEPRESSIVE DISORDER (MDD). EPIGENETIC MECHANISMS INCLUDING DNA METHYLATION AND HISTONE MODIFICATIONS, AT KEY STRESS RESPONSE AND NEUROTROPHIN GENES, ARE INCREASINGLY IMPLICATED IN MEDIATING THIS RISK. ALTHOUGH THE EXACT MECHANISMS THROUGH WHICH STRESSFUL ENVIRONMENTAL STIMULI ALTER THE EPIGENOME ARE STILL UNCLEAR, RESEARCH FROM THE LEARNING AND MEMORY FIELDS INDICATES THAT EPIGENOMIC MARKS CAN BE ALTERED, AT LEAST IN PART, THROUGH CALCIUM-DEPENDENT SIGNALING CASCADES IN DIRECT RESPONSE TO NEURONAL ACTIVITY. IN THIS REVIEW, WE HIGHLIGHT KEY FINDINGS FROM THE STRESS, MDD, AND LEARNING AND MEMORY FIELDS TO PROPOSE A MODEL WHERE STRESS REGULATES DOWNSTREAM CELLULAR FUNCTIONING THROUGH ACTIVITY-DEPENDENT EPIGENETIC CHANGES. FURTHERMORE, WE SUGGEST THAT BOTH TYPICAL AND NOVEL ANTIDEPRESSANT TREATMENTS MAY EXERT POSITIVE INFLUENCE THROUGH SIMILAR, ACTIVITY-DEPENDENT PATHWAYS. 2018 7 2520 27 EPIGENETICS AND THE GLUCOCORTICOID RECEPTOR: A REVIEW OF THE IMPLICATIONS IN DEPRESSION. DEPRESSION IS A SERIOUS PSYCHIATRIC DISORDER THAT EFFECTS AT LEAST 350 MILLION PEOPLE WORLDWIDE TODAY. DYSREGULATION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS (HPAA) IS A ROBUST FINDING IN THE PATHOPHYSIOLOGY OF DEPRESSION. THIS DYSREGULATION IS HYPOTHESIZED TO RESULT FROM ALTERED CENTRAL GLUCOCORTICOID RECEPTOR (GR) LEVELS AND/OR FUNCTION AS A CONSEQUENCE OF CHRONIC GLUCOCORTICOID (GC) RELEASE, LEADING TO RECEPTOR RESISTANCE. PIVOTAL ANIMAL AND HUMAN RESEARCH TO DATE HAS IDENTIFIED THAT EARLY LIFE EXPOSURE TO PROLONGED LEVELS OF GCS, STRESS AND/OR DEPRESSION, CAN INDUCE EPIGENETIC MODIFICATIONS AT KEY REGIONS ON THE GR GENE THAT LEAD TO ALTERATIONS IN GR EXPRESSION AND FUNCTION. EPIGENETICS PROVIDES AN ATTRACTIVE MECHANISM TO EXPLAIN HOW ONES' GENES AND ENVIRONMENT CAN INTERACT TO PRODUCE DIFFERENT DISEASE PHENOTYPES. THIS REVIEW AIMS TO COMPILE THE INFORMATION THAT HAS BEEN COLLECTED TO DATE AND TO IDENTIFY KEY AREAS FOR FURTHER INVESTIGATION. 2016 8 2252 37 EPIGENETIC MODULATION OF VISCERAL NOCICEPTION. EPIGENETICS IS A PROCESS THAT ALTERS GENE ACTIVITY OR PHENOTYPE WITHOUT ANY CHANGES IN THE UNDERLYING DNA SEQUENCE OR GENOTYPE. THESE BIOLOGICAL CHANGES MAY HAVE DELETERIOUS EFFECTS AND CAN LEAD TO VARIOUS HUMAN DISEASES. ONGOING RESEARCH IS CONTINUING TO ILLUMINATE THE ROLE OF EPIGENETICS IN A VARIETY OF PATHOPHYSIOLOGIC PROCESSES. SEVERAL CATEGORIES OF EPIGENETIC MECHANISMS HAVE BEEN STUDIED INCLUDING CHROMATIN REMODELING, DNA METHYLATION, HISTONE MODIFICATION, AND NON-CODING RNA MECHANISMS. THESE EPIGENETIC CHANGES CAN HAVE A LONG-TERM EFFECT ON GENE EXPRESSION WITHOUT ANY UNDERLYING CHANGES IN THE DNA SEQUENCES. THE UNDERLYING PATHOPHYSIOLOGY OF DISORDERS OF BRAIN-GUT INTERACTION AND STRESS-INDUCED VISCERAL PAIN ARE NOT FULLY UNDERSTOOD AND THE ROLE OF EPIGENETIC MECHANISMS IN THESE DISORDERS ARE STARTING TO BE BETTER UNDERSTOOD. CURRENT WORK IS UNDERWAY TO DETERMINE HOW EPIGENETICS PLAYS A ROLE IN THE NEUROBIOLOGY OF PATIENTS WITH CHRONIC VISCERAL PAIN AND HEIGHTENED VISCERAL NOCICEPTION. MORE RECENTLY, BOTH ANIMAL MODELS AND HUMAN STUDIES HAVE SHOWN HOW EPIGENETIC REGULATION MODULATES STRESS-INDUCED VISCERAL PAIN. WHILE MUCH MORE WORK IS NEEDED TO FULLY DELINEATE THE MECHANISTIC ROLE OF EPIGENETICS IN THE NEUROBIOLOGY OF CHRONIC VISCERAL NOCICEPTION, THE CURRENT STUDY BY LOUWIES ET AL., IN NEUROGASTROENTEROLOGY AND MOTILITY PROVIDES ADDITIONAL EVIDENCE SUPPORTING THE INVOLVEMENT OF EPIGENETIC ALTERATIONS IN THE CENTRAL NUCLEUS OF THE AMYGDALA IN STRESS-INDUCED VISCERAL HYPERSENSITIVITY IN RODENTS. 2022 9 5828 31 STRESS, EPIGENETICS, AND ALCOHOLISM. ACUTE AND CHRONIC STRESSORS HAVE BEEN ASSOCIATED WITH ALTERATIONS IN MOOD AND INCREASED ANXIETY THAT MAY EVENTUALLY RESULT IN THE DEVELOPMENT OF STRESS-RELATED PSYCHIATRIC DISORDERS. STRESS AND ASSOCIATED DISORDERS, INCLUDING ANXIETY, ARE KEY FACTORS IN THE DEVELOPMENT OF ALCOHOLISM BECAUSE ALCOHOL CONSUMPTION CAN TEMPORARILY REDUCE THE DRINKER'S DYSPHORIA. ONE MOLECULE THAT MAY HELP MEDIATE THE RELATIONSHIP BETWEEN STRESS AND ALCOHOL CONSUMPTION IS BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), A PROTEIN THAT REGULATES THE STRUCTURE AND FUNCTION OF THE SITES WHERE TWO NERVE CELLS INTERACT AND EXCHANGE NERVE SIGNALS (I.E., SYNAPSES) AND WHICH IS INVOLVED IN NUMEROUS PHYSIOLOGICAL PROCESSES. ABERRANT REGULATION OF BDNF SIGNALING AND ALTERATIONS IN SYNAPSE ACTIVITY (I.E., SYNAPTIC PLASTICITY) HAVE BEEN ASSOCIATED WITH THE PATHOPHYSIOLOGY OF STRESS-RELATED DISORDERS AND ALCOHOLISM. MECHANISMS THAT CONTRIBUTE TO THE REGULATION OF GENETIC INFORMATION WITHOUT MODIFICATION OF THE DNA SEQUENCE (I.E., EPIGENETIC MECHANISMS) MAY PLAY A ROLE IN THE COMPLEX CONTROL OF BDNF SIGNALING AND SYNAPTIC PLASTICITY-FOR EXAMPLE, BY MODIFYING THE STRUCTURE OF THE DNA-PROTEIN COMPLEXES (I.E., CHROMATIN) THAT MAKE UP THE CHROMOSOMES AND THEREBY MODULATING THE EXPRESSION OF CERTAIN GENES. STUDIES REGARDING THE EPIGENETIC CONTROL OF BDNF SIGNALING AND SYNAPTIC PLASTICITY PROVIDE A PROMISING DIRECTION TO UNDERSTAND THE MECHANISMS MEDIATING THE INTERACTION BETWEEN STRESS AND ALCOHOLISM. 2012 10 2913 30 GENE REGULATORY MECHANISMS UNDERLYING SEX DIFFERENCES IN BRAIN DEVELOPMENT AND PSYCHIATRIC DISEASE. THE SEXUAL DIFFERENTIATION OF THE MAMMALIAN NERVOUS SYSTEM REQUIRES THE PRECISE COORDINATION OF THE TEMPORAL AND SPATIAL REGULATION OF GENE EXPRESSION IN DIVERSE CELL TYPES. SEX HORMONES ACT AT MULTIPLE DEVELOPMENTAL TIME POINTS TO SPECIFY SEX-TYPICAL DIFFERENTIATION DURING EMBRYONIC AND EARLY DEVELOPMENT AND TO COORDINATE SUBSEQUENT RESPONSES TO GONADAL HORMONES LATER IN LIFE BY ESTABLISHING SEX-TYPICAL PATTERNS OF EPIGENETIC MODIFICATIONS ACROSS THE GENOME. THUS, MUTATIONS ASSOCIATED WITH NEUROPSYCHIATRIC CONDITIONS MAY RESULT IN SEXUALLY DIMORPHIC SYMPTOMS BY ACTING ON DIFFERENT NEURAL SUBSTRATES OR CHROMATIN LANDSCAPES IN MALES AND FEMALES. FINALLY, AS STRESS HORMONE SIGNALING MAY DIRECTLY ALTER THE MOLECULAR MACHINERY THAT INTERACTS WITH SEX HORMONE RECEPTORS TO REGULATE GENE EXPRESSION, THE CONTRIBUTION OF CHRONIC STRESS TO THE PATHOGENESIS OR PRESENTATION OF MENTAL ILLNESS MAY BE ADDITIONALLY DIFFERENT BETWEEN THE SEXES. HERE, WE REVIEW THE MECHANISMS THAT CONTRIBUTE TO SEXUAL DIFFERENTIATION IN THE MAMMALIAN NERVOUS SYSTEM AND CONSIDER SOME OF THE IMPLICATIONS OF THESE PROCESSES FOR SEX DIFFERENCES IN NEUROPSYCHIATRIC CONDITIONS. 2018 11 2058 29 EPIGENETIC CONTROL OF GENE EXPRESSION IN THE ALCOHOLIC BRAIN. CHRONIC ALCOHOL EXPOSURE CAUSES WIDESPREAD CHANGES IN BRAIN GENE EXPRESSION IN HUMANS AND ANIMAL MODELS. MANY OF THESE CONTRIBUTE TO CELLULAR ADAPTATIONS THAT ULTIMATELY LEAD TO BEHAVIORAL TOLERANCE AND ALCOHOL DEPENDENCE. THERE IS AN EMERGING APPRECIATION FOR THE ROLE OF EPIGENETIC PROCESSES IN ALCOHOL-INDUCED CHANGES IN BRAIN GENE EXPRESSION AND BEHAVIOR. FOR EXAMPLE, CHRONIC ALCOHOL EXPOSURE PRODUCES CHANGES IN DNA AND HISTONE METHYLATION, HISTONE ACETYLATION, AND MICRORNA EXPRESSION THAT AFFECT EXPRESSION OF MULTIPLE GENES IN VARIOUS TYPES OF BRAIN CELLS (I.E., NEURONS AND GLIA) AND CONTRIBUTE TO BRAIN PATHOLOGY AND BRAIN PLASTICITY ASSOCIATED WITH ALCOHOL ABUSE AND DEPENDENCE. DRUGS TARGETING THE EPIGENETIC "MASTER REGULATORS" ARE EMERGING AS POTENTIAL THERAPEUTICS FOR NEURODEGENERATIVE DISORDERS AND DRUG ADDICTION. 2013 12 6866 34 [PAIN AND EMOTIONAL DYSREGULATION: CELLULAR MEMORY DUE TO PAIN]. GENETIC FACTORS ARE INVOLVED IN DETERMINANTS FOR THE RISK OF PSYCHIATRIC DISORDERS, AND NEUROLOGICAL AND NEURODEGENERATIVE DISEASES. CHRONIC PAIN STIMULI AND INTENSE PAIN HAVE EFFECTS AT A CELLULAR AND/OR GENE EXPRESSION LEVEL, AND WILL EVENTUALLY INDUCE "CELLULAR MEMORY DUE TO PAIN", WHICH MEANS THAT TISSUE DAMAGE, EVEN IF ONLY TRANSIENT, CAN ELICIT EPIGENETICALLY ABNORMAL TRANSCRIPTION/TRANSLATION AND POST-TRANSLATIONAL MODIFICATION IN RELATED CELLS DEPENDING ON THE DEGREE OR KIND OF INJURY OR ASSOCIATED CONDITIONS. SUCH CELL MEMORY/TRANSFORMATION DUE TO PAIN CAN CAUSE AN ABNORMALITY IN A FUNDAMENTAL INTRACELLULAR RESPONSE, SUCH AS A CHANGE IN THE THREE-DIMENSIONAL STRUCTURE OF DNA, TRANSCRIPTION, OR TRANSLATION. ON THE OTHER HAND, PAIN IS A MULTIDIMENSIONAL EXPERIENCE WITH SENSORY-DISCRIMINATIVE AND MOTIVATIONAL-AFFECTIVE COMPONENTS. RECENT HUMAN BRAIN IMAGING STUDIES HAVE EXAMINED DIFFERENCES IN ACTIVITY IN THE NUCLEUS ACCUMBENS BETWEEN CONTROLS AND PATIENTS WITH CHRONIC PAIN, AND HAVE REVEALED THAT THE NUCLEUS ACCUMBENS PLAYS A ROLE IN PREDICTING THE VALUE OF A NOXIOUS STIMULUS AND ITS OFFSET, AND IN THE CONSEQUENT CHANGES IN THE MOTIVATIONAL STATE. IN THIS REVIEW, WE PROVIDE A VERY BRIEF OVERVIEW OF A COMPREHENSIVE UNDERSTANDING OF CHRONIC PAIN ASSOCIATED WITH EMOTIONAL DYSREGULATION DUE TO TRANSCRIPTIONAL REGULATION, EPIGENETIC MODIFICATION AND MIRNA REGULATION. 2015 13 2386 30 EPIGENETIC REGULATORY MECHANISMS IN STRESS-INDUCED BEHAVIOR. STRESS RESPONSE IS CONSIDERED TO HAVE ADAPTIVE VALUE FOR ORGANISMS FACED WITH STRESSFUL CONDITION. CHRONIC STRESS HOWEVER ADVERSELY AFFECTS THE PHYSIOLOGY AND MAY LEAD TO NEUROPSYCHIATRIC DISORDERS. REPEATED STRESSFUL EVENTS IN ANIMAL MODELS HAVE BEEN SHOWN TO CAUSE LONG-LASTING CHANGES IN NEURAL CIRCUITRIES AT MOLECULAR, CELLULAR, AND PHYSIOLOGICAL LEVEL, LEADING TO DISORDERS OF MOOD AS WELL AS COGNITION. MOLECULAR STUDIES IN RECENT YEARS HAVE IMPLICATED DIVERSE EPIGENETIC MECHANISMS, INCLUDING HISTONE MODIFICATIONS, DNA METHYLATION, AND NONCODING RNAS, THAT UNDERLIE DYSREGULATION OF GENES IN THE AFFECTED NEURAL CIRCUITRIES IN CHRONIC STRESS-INDUCED PATHOPHYSIOLOGY. A REVIEW OF THE MYRIAD EPIGENETIC REGULATORY MECHANISMS ASSOCIATED WITH NEURAL AND BEHAVIORAL RESPONSES IN ANIMAL MODELS OF STRESS-INDUCED NEUROPSYCHIATRIC DISORDERS IS PRESENTED HERE. THE REVIEW ALSO DEALS WITH CLINICAL EVIDENCE OF THE EPIGENETIC DYSREGULATION OF GENES IN PSYCHIATRIC DISORDERS WHERE CHRONIC STRESS APPEARS TO UNDERLIE THE ETIOPATHOLOGY. 2014 14 6228 25 THE LINKS BETWEEN STRESS AND DEPRESSION: PSYCHONEUROENDOCRINOLOGICAL, GENETIC, AND ENVIRONMENTAL INTERACTIONS. THE ROLE OF STRESS IN THE ORIGIN AND DEVELOPMENT OF DEPRESSION MAY BE CONCEIVED AS THE RESULT OF MULTIPLE CONVERGING FACTORS, INCLUDING THE CHRONIC EFFECT OF ENVIRONMENTAL STRESSORS AND THE LONG-LASTING EFFECTS OF STRESSFUL EXPERIENCES DURING CHILDHOOD, ALL OF WHICH MAY INDUCE PERSISTENT HYPERACTIVITY OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS. THESE CHANGES, INCLUDING INCREASED AVAILABILITY OF CORTICOTROPIN-RELEASING FACTOR AND CORTISOL, ARE ALSO ASSOCIATED WITH HYPERACTIVITY OF THE AMYGDALA, HYPOACTIVITY OF THE HIPPOCAMPUS, AND DECREASED SEROTONERGIC NEUROTRANSMISSION, WHICH TOGETHER RESULT IN INCREASED VULNERABILITY TO STRESS. THE ROLE OF OTHER MONOAMINERGIC NEUROTRANSMITTERS, GENETIC POLYMORPHISMS, EPIGENETIC MECHANISMS, INFLAMMATORY PROCESSES, AND ALTERED COGNITIVE PROCESSING HAS ALSO BEEN CONSIDERED IN THE DEVELOPMENT OF A COMPREHENSIVE MODEL OF THE INTERACTIONS BETWEEN DIFFERENT FACTORS OF VULNERABILITY. FURTHER UNDERSTANDING OF THE UNDERLYING MECHANISMS THAT LINK THESE FACTORS MAY CONTRIBUTE SIGNIFICANTLY TO THE DEVELOPMENT OF MORE EFFECTIVE TREATMENTS AND PREVENTIVE STRATEGIES IN THE INTERFACE BETWEEN STRESS AND MOOD DISORDERS. 2016 15 1364 36 DEVELOPMENTAL NEUROENDOCRINOLOGY OF EARLY-LIFE STRESS: IMPACT ON CHILD DEVELOPMENT AND BEHAVIOR. OUR INTERNAL BALANCE, OR HOMEOSTASIS, IS THREATENED OR PERCEIVED AS THREATENED BY STRESSFUL STIMULI, THE STRESSORS. THE STRESS SYSTEM IS A HIGHLY CONSERVED SYSTEM THAT ADJUSTS HOMEOSTASIS TO THE RESTING STATE. THROUGH THE CONCURRENT ACTIVATION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS AND THE LOCUS COERULEUS/NOREPINEPHRINE-AUTONOMIC NERVOUS SYSTEMS, THE STRESS SYSTEM PROVIDES THE APPROPRIATE PHYSICAL AND BEHAVIORAL RESPONSES, COLLECTIVELY TERMED AS "STRESS RESPONSE", TO RESTORE HOMEOSTASIS. IF THE STRESS RESPONSE IS PROLONGED, EXCESSIVE OR EVEN INADEQUATE, SEVERAL ACUTE OR CHRONIC STRESS-RELATED PATHOLOGIC CONDITIONS MAY DEVELOP IN CHILDHOOD, ADOLESCENCE AND ADULT LIFE. ON THE OTHER HAND, EARLY-LIFE EXPOSURE TO STRESSORS HAS BEEN RECOGNIZED AS A MAJOR CONTRIBUTING FACTOR UNDERLYING THE PATHOGENESIS OF NON-COMMUNICABLE DISORDERS, INCLUDING NEURODEVELOPMENTAL DISORDERS. ACCUMULATING EVIDENCE SUGGESTS THAT EARLY-LIFE STRESS HAS BEEN ASSOCIATED WITH AN INCREASED RISK FOR ATTENTION DEFICIT HYPERACTIVITY DISORDER AND AUTISM SPECTRUM DISORDER IN THE OFFSPRING, ALTHOUGH FINDINGS ARE STILL CONTROVERSIAL. NEVERTHELESS, AT THE MOLECULAR LEVEL, EARLY-LIFE STRESSORS ALTER THE CHEMICAL STRUCTURE OF CYTOSINES LOCAT- ED IN THE REGULATORY REGIONS OF GENES, MOSTLY THROUGH THE ADDITION OF METHYL GROUPS. THESE EPIGENETIC MODIFICATIONS RESULT IN THE SUPPRESSION OF GENE EXPRESSION WITHOUT CHANGING THE DNA SEQUENCE. IN ADDITION TO DNA METHYLATION, SEVERAL LINES OF EVIDENCE SUPPORT THE ROLE OF NON-CODING RNAS IN THE EVOLVING FIELD OF EPIGENETICS. IN THIS REVIEW ARTICLE, WE PRESENT THE ANATOMICAL AND FUNCTIONAL COMPO- NENTS OF THE STRESS SYSTEM, DISCUSS THE PROPER, IN TERMS OF QUALITY AND QUANTITY, STRESS RESPONSE, AND PROVIDE AN UPDATE ON THE IMPACT OF EARLY-LIFE STRESS ON CHILD DEVELOPMENT AND BEHAVIOR. 2023 16 6846 34 [MIGRAINE: IGNITION OF THE BRAIN]. ALTHOUGH OUR KNOWLEDGE OF WHICH SYSTEMS ARE ACTIVATED DURING MIGRAINE IS REASONABLY COMPLETE, WHY THE SYSTEM IS ACTIVATED REMAINS UNKNOWN. INCORPORATING THE FINDINGS OBTAINED IN STUDIES ON PAIN IN GENERAL HAS ALLOWED A MORE INTEGRATED MODEL TO BE GENERATED. ACCORDING TO THIS NEW MODEL, THERE IS AN ANATOMICAL SUBSTRATE CONSISTING IN A COMPLEX FRAMEWORK OF PAIN THAT IS MADE UP NOT ONLY OF THE TRIGEMINOVASCULAR SYSTEM (END PATHWAY) BUT OF A NUMBER OF NETWORKS THAT ARE IN TURN CONNECTED TO ONE ANOTHER, LIKE THE NEUROLIMBIC, THE ASCENDING AND DESCENDING MODULATORY SYSTEM. THIS COMPLEX NETWORK IS RESPONSIBLE FOR MODULATING AND CONVEYING NOCICEPTIVE SIGNALS. IN PATIENTS WITH MIGRAINE, HYPEREXCITABILITY OF THIS FRAMEWORK IS CONDITIONED BY GENETIC AND EPIGENETIC ALTERATIONS. EPIGENETIC CHANGES ARE CHEMICAL MODIFICATIONS AFFECTING CHROMATIN, WHICH MODULATES THE ACTIVITY OF GENES WITHOUT MODIFYING THE DNA SEQUENCE, AND WHICH ARE CAPABLE OF MODULATING THE EXPRESSION OF GENES INVOLVED IN A NUMBER OF DIFFERENT ASPECTS, SUCH AS PLASTICITY, SYSTEM EXCITABILITY, MEMORY OF PAIN OR MOODS. IN TURN, THE PRESENCE OF EXTERNAL FACTORS (SUCH AS ENVIRONMENTAL CHANGES OR ALCOHOL) AND INTERNAL FACTORS (SUCH AS HORMONES OR SLEEP DISORDERS) CONTRIBUTE TO ACTIVATE THIS LOADED ANATOMICAL SUBSTRATE, RESULTING IN THE ATTACK OF MIGRAINE. 2013 17 6400 34 THE ROLES OF CLASS I HISTONE DEACETYLASES (HDACS) IN MEMORY, LEARNING, AND EXECUTIVE COGNITIVE FUNCTIONS: A REVIEW. COORDINATED CHANGES IN GENE EXPRESSION ARE CRITICAL FOR SYNAPTIC PLASTICITY SUPPORTING LEARNING, MEMORY, AND OPTIMAL COGNITIVE TASK PERFORMANCE. THESE GENE EXPRESSION CHANGES ARE NOT ONLY MEDIATED BY SIGNALING PATHWAYS THAT ACTIVATE TRANSCRIPTION FACTORS, BUT ALSO BY CHROMATIN MODIFICATIONS THAT INFLUENCE THE ACCESSIBILITY OF THE TRANSCRIPTIONAL MACHINERY TO SPECIFIC GENOMIC REGIONS. DURING THE PAST DECADE, EVIDENCE ACCUMULATED THAT ALTERATIONS IN CHROMATIN-BASED EPIGENETIC REGULATION OF GENE EXPRESSION ARE LINKED TO COGNITIVE DYSFUNCTIONS IN THE AGEING OR NEURODEGENERATING BRAIN AS WELL AS TO COGNITIVE DYSFUNCTIONS RESULTING FROM CHRONIC STRESS EXPOSURE. THIS REVIEW SUMMARIZES THE RESULTS OF STUDIES THAT UNRAVELED A ROLE OF HISTONE MODIFYING ENZYMES AND HISTONE MODIFICATIONS IN NORMAL AND IMPAIRED LEARNING AND MEMORY, AND IN THE DISRUPTION OF EXECUTIVE COGNITIVE TASK PERFORMANCE. IT EMPHASIZES THE DIFFERENT ROLES OF SPECIFIC CLASS I HISTONE DEACETYLASES (HDACS) IN COGNITIVE PROCESSES GOVERNED BY THE HIPPOCAMPUS AND PREFRONTAL CORTEX AND DISCUSSES THE POTENTIAL THERAPEUTIC IMPLICATIONS OF TARGETING THEM TO HOLD THE PROGRESSION OF DISEASE-RELATED COGNITIVE DYSFUNCTIONS. 2017 18 291 35 AGING AND STRESS: PAST HYPOTHESES, PRESENT APPROACHES AND PERSPECTIVES. BRAIN AGING HAS BEEN SUGGESTED TO BE CONDITIONED BY AN EXCESSIVE GLUCOCORTIOID SECRETION LEADING TO DAMAGES ON BRAIN AREAS INVOLVED NOT ONLY IN COGNITIVE AND EMOTIONAL PROCESSES BUT ALSO IN THE CONTROL OF THE ACTIVITY OF THE HYPOTHALAMIC-PITUITARY ADRENAL AXIS. THIS REVIEW DESCRIBES SOME OF THE HYPOTHESIS THAT TRY TO EXPLAIN THE RELATION BETWEEN THE DYSREGULATION OF THE STRESS RESPONSE AND BRAIN AGING, FOCUSING ON CORTICOSTERONE BUT ALSO ON NEUROTRANSMISSION IN THE HIPPOCAMPUS, THE PREFRONTAL CORTEX AND THE AMYGDALA. MOREOVER, DIFFERENT MOLECULAR FACTORS CAN ACCOUNT FOR AN ENHANCED VULNERABILITY OF THE AGED BRAIN TO STRESS EXPOSURE, SPECIALLY FOR RESILIENCE. AMONG THEM, GOOD CANDIDATES COULD BE THOSE MECHANISMS DETERMINING THE LEVELS OF CORTICOSTERONE IN THE BRAIN, SEVERAL MOLECULES DOWNSTREAM GLUCOCORTICOID RECEPTOR ACTIVATION (IE: HEAT SHOCK PROTEINS, BAG-1) OR EVEN THE EPIGENETIC PROGRAMMING OF THE HPA AXIS IN EARLY STAGES. IN CONCLUSION, GENETIC AND ENVIRONMENTAL FACTORS (EARLY LIFE STRESS, CHRONIC STRESS DURING ADULTHOOD) CAN PRODUCE AN ENHANCED VULNERABILITY AND A REDUCED RESILIENCE OF THE BRAIN TO SUBSEQUENT STRESS EXPOSURES OR TO METABOLIC CHALLENGES LEADING, IN TURN, TO AN UNSUCCESSFUL AGING OF THE BRAIN. HOWEVER, RESULTS OBTAINED WITH THE USE OF THE ENVIRONMENTAL ENRICHMENT MODEL IN ANIMALS, ADDED TO SEVERAL RESULTS IN HUMANS ALSO DESCRIBED IN THIS REVIEW SUGGEST THAT POSITIVE ENVIRONMENTAL FACTORS (COGNITIVE-DEMANDING TASKS OR PHYSICAL EXERCISE) CAN HELP TO MAINTAIN NEURONAL PLASTICITY DURING AGING AND TO PROTECT THE BRAIN AGAINST THE DAMAGING EFFECTS OF STRESS EXPOSURE. 2011 19 6097 19 THE EFFECTS OF STRESS ON GLUTAMATERGIC TRANSMISSION IN THE BRAIN. STRESS LEADS TO DETRIMENTAL EFFECTS ON BRAIN FUNCTIONS AND RESULTS IN VARIOUS DISEASES. RECENT STUDIES HIGHLIGHT THE INVOLVEMENT OF GLUTAMATERGIC TRANSMISSION IN PATHOGENESIS OF DEPRESSIVE BEHAVIORS AND FEARS. ACUTE STRESS GENERATES DIFFERENT IMPACTS ON THE EXCITATORY TRANSMISSION COMPARED TO CHRONIC STRESS. DIFFERENT NEUROMODULATORS AND EPIGENETIC FACTORS ALSO PARTICIPATE IN THE ALTERATION OF SYNAPTIC TRANSMISSION AND THE REGULATION OF SYNAPTIC PLASTICITY. RESTORATION OF THE GLUTAMATERGIC TRANSMISSION IN STRESS-AFFECTED BRAIN AREAS THEREFORE PROVIDES NOVEL DIRECTIONS OF THERAPEUTIC INTERVENTIONS AGAINST STRESS. 2015 20 1181 28 CONVERGENT ACTIONS OF STRESS AND STIMULANTS VIA EPIGENETIC REGULATION OF NEURAL CIRCUITRY. THE DORSAL STRIATUM INTEGRATES PRIOR AND CURRENT INFORMATION TO GUIDE APPROPRIATE DECISION-MAKING. CHRONIC STRESS AND STIMULANT EXPOSURE INTERFERES WITH DECISION-MAKING, AND CAN CONFER SIMILAR COGNITIVE AND BEHAVIORAL INFLEXIBILITIES. THIS REVIEW EXAMINES THE LITERATURE ON ACUTE AND CHRONIC REGULATION OF THE EPIGENOME BY STRESS AND STIMULANTS. RECENT EVIDENCE SUGGESTS THAT EXPOSURES TO STRESS AND STIMULANTS SHARE SIMILARITIES IN THE MANNERS IN WHICH THEY REGULATE THE DORSAL STRIATUM EPIGENOME THROUGH DNA METHYLATION, TRANSPOSABLE ELEMENT ACTIVITY, AND HISTONE POST-TRANSLATIONAL MODIFICATIONS. THESE FINDINGS SUGGEST THAT CHRONIC STRESS AND STIMULANT EXPOSURE LEADS TO THE ACCUMULATION OF EPIGENETIC MODIFICATIONS THAT IMPAIR IMMEDIATE AND FUTURE NEURON FUNCTION AND ACTIVITY. SUCH EPIGENETIC MECHANISMS REPRESENT POTENTIAL THERAPEUTIC TARGETS FOR AMELIORATING CONVERGENT SYMPTOMS OF STRESS AND ADDICTION. 2022