1 2058 72 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 2 3398 32 HOW ALCOHOL DRINKING AFFECTS OUR GENES: AN EPIGENETIC POINT OF VIEW. THIS WORK HIGHLIGHTS RECENT STUDIES IN EPIGENETIC MECHANISMS THAT PLAY A ROLE IN ALCOHOLISM, WHICH IS A COMPLEX MULTIFACTORIAL DISORDER. THERE IS A LARGE BODY OF EVIDENCE SHOWING THAT ALCOHOL CAN MODIFY GENE EXPRESSION THROUGH EPIGENETIC PROCESSES, NAMELY DNA METHYLATION AND NUCLEOSOMAL REMODELING VIA HISTONE MODIFICATIONS. IN THAT REGARD, CHRONIC EXPOSURE TO ETHANOL MODIFIES DNA AND HISTONE METHYLATION, HISTONE ACETYLATION, AND MICRORNA EXPRESSION. THE ALCOHOL-MEDIATED CHROMATIN REMODELING IN THE BRAIN PROMOTES THE TRANSITION FROM USE TO ABUSE AND ADDICTION. UNRAVELLING THE MULTIPLEX PATTERN OF MOLECULAR MODIFICATIONS INDUCED BY ETHANOL COULD SUPPORT THE DEVELOPMENT OF NEW THERAPIES FOR ALCOHOLISM AND DRUG ADDICTION TARGETING EPIGENETIC PROCESSES. 2019 3 2235 38 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 4 2606 35 EPIGENETICS-BEYOND THE GENOME IN ALCOHOLISM. GENETIC AND ENVIRONMENTAL FACTORS PLAY A ROLE IN THE DEVELOPMENT OF ALCOHOLISM. WHOLE-GENOME EXPRESSION PROFILING HAS HIGHLIGHTED THE IMPORTANCE OF SEVERAL GENES THAT MAY CONTRIBUTE TO ALCOHOL ABUSE DISORDERS. IN ADDITION, MORE RECENT FINDINGS HAVE ADDED YET ANOTHER LAYER OF COMPLEXITY TO THE OVERALL MOLECULAR MECHANISMS INVOLVED IN A PREDISPOSITION TO ALCOHOLISM AND ADDICTION BY DEMONSTRATING THAT PROCESSES RELATED TO GENETIC FACTORS THAT DO NOT MANIFEST AS DNA SEQUENCE CHANGES (I.E., EPIGENETIC PROCESSES) PLAY A ROLE. BOTH ACUTE AND CHRONIC ETHANOL EXPOSURE CAN ALTER GENE EXPRESSION LEVELS IN SPECIFIC NEURONAL CIRCUITS THAT GOVERN THE BEHAVIORAL CONSEQUENCES RELATED TO TOLERANCE AND DEPENDENCE. THE UNREMITTING CYCLE OF ALCOHOL CONSUMPTION OFTEN INCLUDES SATIATION AND SELF-MEDICATION WITH ALCOHOL, FOLLOWED BY EXCRUCIATING WITHDRAWAL SYMPTOMS AND THE RESULTANT RELAPSE, WHICH REFLECTS BOTH THE POSITIVE AND NEGATIVE AFFECTIVE STATES OF ALCOHOL ADDICTION. RECENT STUDIES HAVE INDICATED THAT BEHAVIORAL CHANGES INDUCED BY ACUTE AND CHRONIC ETHANOL EXPOSURE MAY INVOLVE CHROMATIN REMODELING RESULTING FROM COVALENT HISTONE MODIFICATIONS AND DNA METHYLATION IN THE NEURONAL CIRCUITS INVOLVING A BRAIN REGION CALLED THE AMYGDALA. THESE FINDINGS HAVE HELPED IDENTIFY ENZYMES INVOLVED IN EPIGENETIC MECHANISMS, SUCH AS THE HISTONE DEACETYLASE, HISTONE ACETYLTRANSFERASE, AND DNA METHYLTRANSFERASE ENZYMES, AS NOVEL THERAPEUTIC TARGETS FOR THE DEVELOPMENT OF FUTURE PHARMACOTHERAPIES FOR THE TREATMENT OF ALCOHOLISM. 2012 5 1870 35 EMERGING ROLE OF EPIGENETIC MECHANISMS IN ALCOHOL ADDICTION. ALCOHOL USE DISORDER (AUD) IS A COMPLEX BRAIN DISORDER WITH AN ARRAY OF PERSISTENT BEHAVIORAL AND NEUROCHEMICAL MANIFESTATIONS. BOTH GENETIC AND ENVIRONMENTAL FACTORS ARE KNOWN TO CONTRIBUTE TO THE DEVELOPMENT OF AUD, AND RECENT STUDIES ON ALCOHOL EXPOSURE AND SUBSEQUENT CHANGES IN GENE EXPRESSION SUGGEST THE IMPORTANCE OF EPIGENETIC MECHANISMS. IN PARTICULAR, HISTONE MODIFICATIONS AND DNA METHYLATION HAVE EMERGED AS IMPORTANT REGULATORS OF GENE EXPRESSION AND ASSOCIATED PHENOTYPES OF AUD. GIVEN THE THERAPEUTIC POTENTIAL OF EPIGENETIC TARGETS, THIS REVIEW AIMS TO SUMMARIZE THE ROLE OF EPIGENETIC REGULATION IN OUR CURRENT UNDERSTANDING OF AUD BY EVALUATING KNOWN EPIGENETIC SIGNATURES OF BRAIN REGIONS CRITICAL TO ADDICTIVE BEHAVIORS IN BOTH ANIMAL AND HUMAN STUDIES THROUGHOUT VARIOUS STAGES OF AUD. MORE SPECIFICALLY, THE EFFECTS OF ACUTE AND CHRONIC ALCOHOL EXPOSURE, TOLERANCE, AND POSTEXPOSURE WITHDRAWAL ON EPIGENETICALLY INDUCED CHANGES TO GENE EXPRESSION AND SYNAPTIC PLASTICITY WITHIN KEY BRAIN REGIONS AND THE ASSOCIATED BEHAVIORAL PHENOTYPES HAVE BEEN DISCUSSED. UNDERSTANDING THE CONTRIBUTION OF EPIGENETIC REGULATION TO CRUCIAL SIGNALING PATHWAYS MAY PROVE VITAL FOR FUTURE DEVELOPMENT OF NOVEL BIOMARKERS AND TREATMENT AGENTS IN AMELIORATING OR PREVENTING AUD. 2017 6 2598 28 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 7 6324 29 THE ROLE OF ALPHA-SYNUCLEIN IN THE PATHOPHYSIOLOGY OF ALCOHOLISM. ALCOHOLISM HAS COMPLEX ETIOLOGY AND THERE IS EVIDENCE FOR BOTH GENETIC AND ENVIRONMENTAL FACTORS IN ITS PATHOPHYSIOLOGY. CHRONIC, LONG-TERM ALCOHOL ABUSE AND ALCOHOL DEPENDENCE ARE ASSOCIATED WITH NEURONAL LOSS WITH THE PREFRONTAL CORTEX BEING PARTICULARLY SUSCEPTIBLE TO NEUROTOXIC DAMAGE. THIS BRAIN REGION IS INVOLVED IN THE DEVELOPMENT AND PERSISTENCE OF ALCOHOL ADDICTION AND NEUROTOXIC DAMAGE IS LIKELY TO EXACERBATE THE REINFORCING EFFECTS OF ALCOHOL AND MAY HINDER TREATMENT. UNDERSTANDING THE MECHANISM OF ALCOHOL'S NEUROTOXIC EFFECTS ON THE BRAIN AND THE GENETIC RISK FACTORS ASSOCIATED WITH ALCOHOL ABUSE ARE THE FOCUS OF CURRENT RESEARCH. BECAUSE OF ITS WELL-ESTABLISHED ROLE IN NEURODEGENERATIVE AND NEUROPSYCHOLOGICAL DISORDERS, AND ITS EMERGING ROLE IN THE PATHOPHYSIOLOGY OF ADDICTION, HERE WE REVIEW THE GENETIC AND EPIGENETIC FACTORS INVOLVED IN REGULATING ALPHA-SYNUCLEIN EXPRESSION AND ITS POTENTIAL ROLE IN THE PATHOPHYSIOLOGY OF CHRONIC ALCOHOL ABUSE. ELUCIDATION OF THE MECHANISMS OF ALPHA-SYNUCLEIN REGULATION MAY PROVE BENEFICIAL IN UNDERSTANDING THE ROLE OF THIS KEY SYNAPTIC PROTEIN IN DISEASE AND ITS POTENTIAL FOR THERAPEUTIC MODULATION IN THE TREATMENT OF SUBSTANCE USE DISORDERS AS WELL AS OTHER NEURODEGENERATIVE DISEASES. 2013 8 2250 36 EPIGENETIC MODULATION OF OPIOID RECEPTORS BY DRUGS OF ABUSE. CHRONIC EXPOSURE TO DRUGS OF ABUSE PRODUCES PROFOUND CHANGES IN GENE EXPRESSION AND NEURAL ACTIVITY ASSOCIATED WITH DRUG-SEEKING AND TAKING BEHAVIOR. DYSREGULATION OF OPIOID RECEPTOR GENE EXPRESSION IS COMMONLY OBSERVED ACROSS A VARIETY OF ABUSED SUBSTANCES INCLUDING OPIOIDS, COCAINE, AND ALCOHOL. EARLY STUDIES IN CULTURED CELLS SHOWED THAT THE SPATIAL AND TEMPORAL GENE EXPRESSION OF OPIOID RECEPTORS ARE REGULATED BY EPIGENETIC MECHANISMS INCLUDING DNA AND HISTONE MODIFICATIONS AND NON-CODING RNAS. ACCUMULATING EVIDENCE INDICATE THAT DRUGS OF ABUSE CAN MODULATE OPIOID RECEPTOR GENE EXPRESSION BY TARGETING VARIOUS EPIGENETIC REGULATORY NETWORKS. BASED ON CURRENT CELLULAR AND ANIMAL MODELS OF SUBSTANCE USE DISORDER AND CLINICAL EVIDENCE, THIS REVIEW SUMMARIZES HOW CHRONIC DRUG EXPOSURE ALTERS THE GENE EXPRESSION OF MU, DELTA, KAPPA, AND NOCICEPTIN RECEPTORS VIA DNA AND HISTONE MODIFICATIONS. THE INFLUENCE OF DRUGS OF ABUSE ON EPIGENETIC MODULATORS, SUCH AS NON-CODING RNAS AND TRANSCRIPTION FACTORS, IS ALSO PRESENTED. FINALLY, THE THERAPEUTIC POTENTIAL OF MANIPULATING EPIGENETIC PROCESSES AS AN AVENUE TO TREAT SUBSTANCE USE DISORDER IS DISCUSSED. 2022 9 4653 25 NEUROSCIENCE OF ALCOHOLISM: MOLECULAR AND CELLULAR MECHANISMS. ALCOHOL USE AND ABUSE APPEAR TO BE RELATED TO NEUROADAPTIVE CHANGES AT FUNCTIONAL, NEUROCHEMICAL, AND STRUCTURAL LEVELS. ACUTE AND CHRONIC ETHANOL EXPOSURE HAVE BEEN SHOWN TO MODULATE FUNCTION OF THE ACTIVITY-DEPENDENT GENE TRANSCRIPTION FACTOR, CAMP-RESPONSIVE ELEMENT BINDING (CREB) PROTEIN IN THE BRAIN, WHICH MAY BE ASSOCIATED WITH THE DEVELOPMENT OF ALCOHOLISM. STUDY OF THE DOWNSTREAM EFFECTORS OF CREB HAVE IDENTIFIED SEVERAL IMPORTANT CREB-RELATED GENES, SUCH AS NEUROPEPTIDE Y, BRAIN-DERIVED NEUROTROPHIC FACTOR, ACTIVITY-REGULATED CYTOSKELETON-ASSOCIATED PROTEIN, AND CORTICOTROPHIN-RELEASING FACTOR, THAT MAY PLAY A CRUCIAL ROLE IN THE BEHAVIORAL EFFECTS OF ETHANOL AND MOLECULAR CHANGES IN THE SPECIFIC NEUROCIRCUITRY THAT UNDERLIE BOTH ALCOHOL ADDICTION AND A GENETIC PREDISPOSITION TO ALCOHOLISM. BRAIN CHROMATIN REMODELING DUE TO HISTONE COVALENT MODIFICATIONS MAY ALSO BE INVOLVED IN MEDIATING THE BEHAVIORAL EFFECTS AND NEUROADAPTIVE CHANGES THAT OCCUR DURING ETHANOL EXPOSURE. THIS REVIEW OUTLINES PROGRESSIVE NEUROSCIENCE RESEARCH INTO MOLECULAR AND EPIGENETIC MECHANISMS OF ALCOHOLISM. 2010 10 3376 24 HISTONE-MEDIATED EPIGENETICS IN ADDICTION. MANY OF THE BRAIN REGIONS, NEUROTRANSMITTER SYSTEMS, AND BEHAVIORAL CHANGES THAT OCCUR AFTER OCCASIONAL DRUG USE IN HEALTHY SUBJECTS AND AFTER CHRONIC DRUG ABUSE IN ADDICTED PATIENTS ARE WELL CHARACTERIZED. AN EMERGING LITERATURE SUGGESTS THAT EPIGENETIC PROCESSES, THOSE PROCESSES THAT REGULATE THE ACCESSIBILITY OF DNA TO REGULATORY PROTEINS WITHIN THE NUCLEUS, ARE KEYS TO HOW ADDICTION DEVELOPS AND HOW IT MAY BE TREATED. INVESTIGATIONS OF THE REGULATION OF CHROMATIN, THE ORGANIZATIONAL SYSTEM OF DNA, BY HISTONE MODIFICATION ARE LEADING TO A NEW UNDERSTANDING OF THE CELLULAR AND BEHAVIORAL ALTERATIONS THAT OCCUR AFTER DRUG USE. WE WILL DESCRIBE HOW, WHEN, AND WHERE HISTONE TAILS ARE MODIFIED AND HOW SOME OF THE MOST RECOGNIZED HISTONE REGULATION PATTERNS ARE INVOLVED IN THE CYCLE OF ADDICTION, INCLUDING INITIAL AND CHRONIC DRUG INTAKE, WITHDRAWAL, ABSTINENCE, AND RELAPSE. FINALLY, WE CONSIDER HOW AN APPROACH THAT TARGETS HISTONE MODIFICATIONS MAY PROMOTE SUCCESSFUL TREATMENT. 2014 11 5828 28 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 12 2013 32 EPIGENETIC BASIS OF THE DARK SIDE OF ALCOHOL ADDICTION. ALCOHOLISM IS A COMPLEX BRAIN DISEASE CHARACTERIZED BY THREE DISTINCT STAGES OF THE ADDICTION CYCLE THAT MANIFEST AS NEUROADAPTIVE CHANGES IN THE BRAIN. ONE SUCH STAGE OF THE ADDICTION CYCLE IS ALCOHOL WITHDRAWAL AND THE NEGATIVE AFFECTIVE STATES THAT PROMOTE DRINKING AND MAINTAIN ADDICTION. REPEATED ALCOHOL USE, GENETIC PREDISPOSITION TO ALCOHOLISM AND ANXIETY, AND ALCOHOL EXPOSURE DURING CRUCIAL DEVELOPMENTAL PERIODS ALL CONTRIBUTE TO THE DEVELOPMENT OF ALCOHOL-INDUCED WITHDRAWAL AND NEGATIVE AFFECTIVE SYMPTOMS. EPIGENETIC MODIFICATIONS WITHIN THE AMYGDALA HAVE PROVIDED A MOLECULAR BASIS OF THESE NEGATIVE AFFECTIVE SYMPTOMS, ALSO KNOWN AS THE DARK SIDE OF ADDICTION. HERE, WE PROPOSE THAT ALLOSTATIC CHANGE WITHIN THE EPIGENOME IN THE AMYGDALA IS A PRIME MECHANISM OF THE BIOLOGICAL BASIS OF NEGATIVE AFFECTIVE STATES RESULTING FROM, AND CONTRIBUTING TO, ALCOHOLISM. ACUTE ALCOHOL EXPOSURE PRODUCES AN ANXIOLYTIC RESPONSE WHICH IS ASSOCIATED WITH THE OPENING OF CHROMATIN DUE TO INCREASED HISTONE ACETYLATION, INCREASED CREB BINDING PROTEIN (CBP) LEVELS, AND HISTONE DEACETYLASE (HDAC) INHIBITION. AFTER CHRONIC ETHANOL EXPOSURE, THESE CHANGES RETURN TO BASELINE ALONG WITH ANXIETY-LIKE BEHAVIORS. HOWEVER, DURING WITHDRAWAL, HISTONE ACETYLATION DECREASES DUE TO INCREASED HDAC ACTIVITY AND DECREASED CBP LEVELS IN THE AMYGDALA CIRCUITRY LEADING TO THE DEVELOPMENT OF ANXIETY-LIKE BEHAVIORS. ADDITIONALLY, INNATELY HIGHER EXPRESSION OF THE HDAC2 ISOFORM LEADS TO A DEFICIT IN GLOBAL AND GENE-SPECIFIC HISTONE ACETYLATION IN THE AMYGDALA THAT IS ASSOCIATED WITH A DECREASE IN THE EXPRESSION OF SEVERAL SYNAPTIC PLASTICITY-ASSOCIATED GENES AND MAINTAINING HEIGHTENED ANXIETY-LIKE BEHAVIOR AND EXCESSIVE ALCOHOL INTAKE. ADOLESCENT ALCOHOL EXPOSURE ALSO LEADS TO HIGHER EXPRESSION OF HDAC2 AND A DEFICIT IN HISTONE ACETYLATION LEADING TO DECREASED EXPRESSION OF SYNAPTIC PLASTICITY-ASSOCIATED GENES AND HIGH ANXIETY AND DRINKING BEHAVIOR IN ADULTHOOD. ALL THESE STUDIES INDICATE THAT THE EPIGENOME CAN UNDERGO ALLOSTATIC REPROGRAMMING IN THE AMYGDALOID CIRCUITRY DURING VARIOUS STAGES OF ALCOHOL EXPOSURE. FURTHERMORE, OPENING THE CHROMATIN BY INHIBITING HDACS USING PHARMACOLOGICAL OR GENETIC MANIPULATIONS CAN LEAD TO THE ATTENUATION OF ANXIETY AS WELL AS ALCOHOL INTAKE. CHROMATIN REMODELING PROVIDES A CLEAR BIOLOGICAL BASIS FOR THE NEGATIVE AFFECTIVE STATES SEEN DURING ALCOHOL ADDICTION AND PRESENTS OPPORTUNITIES FOR NOVEL DRUG DEVELOPMENT AND TREATMENT OPTIONS. THIS ARTICLE IS PART OF THE SPECIAL ISSUE ENTITLED "ALCOHOLISM". 2017 13 6527 34 TRANSCRIPTIONAL CONTROL OF MALADAPTIVE AND PROTECTIVE RESPONSES IN ALCOHOLICS: A ROLE OF THE NF-KAPPAB SYSTEM. ALCOHOL DEPENDENCE AND ASSOCIATED COGNITIVE IMPAIRMENT APPEAR TO RESULT FROM MALADAPTIVE NEUROPLASTICITY IN RESPONSE TO CHRONIC ALCOHOL CONSUMPTION, NEUROINFLAMMATION AND NEURODEGENERATION. THE INHERENT STABILITY OF BEHAVIORAL ALTERATIONS ASSOCIATED WITH THE ADDICTED STATE SUGGESTS THAT TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS ARE OPERATIVE. NF-KAPPAB TRANSCRIPTION FACTORS ARE REGULATORS OF SYNAPTIC PLASTICITY AND INFLAMMATION, AND RESPONSIVE TO A VARIETY OF STIMULI INCLUDING ALCOHOL. THESE FACTORS ARE ABUNDANT IN THE BRAIN WHERE THEY HAVE DIVERSE FUNCTIONS THAT DEPEND ON THE COMPOSITION OF THE NF-KAPPAB COMPLEX AND CELLULAR CONTEXT. IN NEURON CELL BODIES, NF-KAPPAB IS CONSTITUTIVELY ACTIVE, AND INVOLVED IN NEURONAL INJURY AND NEUROPROTECTION. HOWEVER, AT THE SYNAPSE, NF-KAPPAB IS PRESENT IN A LATENT FORM AND UPON ACTIVATION IS TRANSPORTED TO THE CELL NUCLEUS. IN GLIA, NF-KAPPAB IS INDUCIBLE AND REGULATES INFLAMMATORY PROCESSES THAT EXACERBATE ALCOHOL-INDUCED NEURODEGENERATION. ANIMAL STUDIES DEMONSTRATE THAT ACUTE ALCOHOL EXPOSURE TRANSIENTLY ACTIVATES NF-KAPPAB, WHICH INDUCES NEUROINFLAMMATORY RESPONSES AND NEURODEGENERATION. POSTMORTEM STUDIES OF BRAINS OF HUMAN ALCOHOLICS SUGGEST THAT REPEATED CYCLES OF ALCOHOL CONSUMPTION AND WITHDRAWAL CAUSE ADAPTIVE CHANGES IN THE NF-KAPPAB SYSTEM THAT MAY PERMIT THE SYSTEM TO BETTER TOLERATE EXCESSIVE STIMULATION. THIS TYPE OF TOLERANCE, ENSURING A LOW DEGREE OF RESPONSIVENESS TO APPLIED STIMULI, APPARENTLY DIFFERS FROM THAT IN THE IMMUNE SYSTEM, AND MAY REPRESENT A COMPENSATORY RESPONSE THAT PROTECTS BRAIN CELLS AGAINST ALCOHOL NEUROTOXICITY. THIS VIEW IS SUPPORTED BY FINDINGS SHOWING PREFERENTIAL DOWNREGULATION OF PRO-APOPTOTIC GENE EXPRESSION IN THE AFFECTED BRAIN AREAS IN HUMAN ALCOHOLICS. ALTHOUGH FURTHER VERIFICATION IS NEEDED, WE SPECULATE THAT NF-KAPPAB-DRIVEN NEUROINFLAMMATION AND DISRUPTION TO NEUROPLASTICITY PLAY A SIGNIFICANT ROLE IN REGULATING ALCOHOL DEPENDENCE AND COGNITIVE IMPAIRMENT. 2011 14 6806 31 [EPIGENETICS AND DRUG ADDICTION: A FOCUS ON MECP2 AND ON HISTONE ACETYLATION]. CHRONIC DRUG EXPOSURE ALTERS GENE EXPRESSION IN THE BRAIN, WHICH IS BELIEVED TO UNDERLIE COMPULSIVE DRUG SEEKING AND DRUG TAKING BEHAVIOR. RECENT EVIDENCE SHOWS THAT DRUG-INDUCED LONG-TERM NEUROADAPTATIONS IN THE BRAIN ARE MEDIATED IN PART BY EPIGENETIC MECHANISMS. BY REMODELING CHROMATIN, THIS TYPE OF REGULATION CONTRIBUTES TO DRUG-INDUCED SYNAPTIC PLASTICITY THAT TRANSLATES INTO BEHAVIORAL MODIFICATIONS. HOW DRUG-INDUCED ALTERATIONS IN DNA METHYLATION REGULATE GENE EXPRESSION IS REVIEWED HERE, WITH A FOCUS ON MECP2, A PROTEIN BINDING METHYLATED DNA. THE IMPORTANCE OF HISTONE MODIFICATIONS, ESPECIALLY ACETYLATION IS ALSO DISCUSSED, WITH AN EMPHASIS ON THE EFFECTS OF INHIBITORS OF HISTONE DEACETYLASES ON DRUG-INDUCED BEHAVIORAL CHANGES. THE PRECISE IDENTIFICATION OF THE EPIGENETIC MECHANISMS THAT ARE UNDER THE CONTROL OF DRUGS OF ABUSE MAY HELP TO UNCOVER NOVEL TARGETS FOR THE TREATMENT OF DRUG SEEKING AND RELAPSE. 2015 15 6400 26 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 16 110 20 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 17 2292 29 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 18 4327 29 MICRORNAS MODULATE INTERACTIONS BETWEEN STRESS AND RISK FOR COCAINE ADDICTION. EXPOSURE TO STRESS INCREASES VULNERABILITY TO DRUG ABUSE, AS WELL AS RELAPSE LIABILITY IN ADDICTED INDIVIDUALS. CHRONIC DRUG USE ALTERS STRESS RESPONSE IN A MANNER THAT INCREASES DRUG SEEKING BEHAVIORS AND RELAPSE. DRUG EXPOSURE AND WITHDRAWAL HAVE BEEN SHOWN TO ALTER STRESS RESPONSES, AND CORTICOSTEROID MEDIATORS OF STRESS HAVE BEEN SHOWN TO IMPACT ADDICTION-RELATED BRAIN FUNCTION AND DRUG-SEEKING BEHAVIOR. DESPITE THE DOCUMENTED INTERPLAY BETWEEN STRESS AND SUBSTANCE ABUSE, THE MECHANISMS BY WHICH STRESS EXPOSURE AND DRUG SEEKING INTERACT REMAIN LARGELY UNKNOWN. RECENT STUDIES INDICATE THAT MICRORNAS (MIRNA) PLAY A SIGNIFICANT ROLE IN STRESS MODULATION AS WELL AS ADDICTION-RELATED PROCESSES INCLUDING NEUROGENESIS, SYNAPSE DEVELOPMENT, PLASTICITY, DRUG ACQUISITION, WITHDRAWAL AND RELAPSE. MIRNAS ARE SHORT NON-CODING RNAS THAT FUNCTION AS BIDIRECTIONAL EPIGENETIC MODULATORS OF GENE EXPRESSION THROUGH IMPERFECT SEQUENCE TARGETED DEGRADATION AND/OR TRANSLATIONAL REPRESSION OF MRNAS. THEY SERVE AS DYNAMIC REGULATORS OF CNS PHYSIOLOGY AND PATHOPHYSIOLOGY, AND FACILITATE RAPID AND LONG-LASTING CHANGES TO COMPLEX SYSTEMS AND BEHAVIORS. MIRNAS FUNCTION IN GLUCOCORTICOID SIGNALING AND THE MESOLIMBIC DOPAMINE REWARD SYSTEM, AS WELL AS MOOD DISORDERS RELATED TO DRUG WITHDRAWAL. THE LITERATURE SUGGESTS MIRNAS PLAY A PIVOTAL ROLE IN THE INTERACTION BETWEEN EXPOSURES TO STRESS, ADDICTION-RELATED PROCESSES, AND NEGATIVE AFFECTIVE STATES RESULTING FROM EXTENDED DRUG WITHDRAWAL. THIS MANUSCRIPT REVIEWS RECENT EVIDENCE FOR THE ROLE OF MIRNAS IN THE MODULATION OF STRESS AND COCAINE RESPONSES, AND DISCUSSES POTENTIAL MEDIATION OF THE INTERACTION OF THESE SYSTEMS BY MIRNAS. UNCOVERING THE MECHANISM BEHIND THE ASSOCIATION OF STRESS AND DRUG TAKING HAS THE POTENTIAL TO IMPACT THE TREATMENT OF DRUG ABUSE AND PREVENTION OF RELAPSE. FURTHER COMPREHENSION OF THESE COMPLEX INTERACTIONS MAY PROVIDE PROMISING NEW TARGETS FOR THE TREATMENT OF DRUG ADDICTION. 2016 19 1181 20 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 20 4714 34 NON-CODING RNA IN ALCOHOL USE DISORDER BY AFFECTING SYNAPTIC PLASTICITY. ALCOHOL USE DISORDER (AUD) IS ONE OF THE MOST SERIOUS PUBLIC HEALTH PROBLEMS WORLDWIDE. AUD IS A COMPLEX DISORDER, AND THERE IS AMPLE EVIDENCE THAT GENETIC PREDISPOSITION IS CRITICAL TO ITS DEVELOPMENT. RECENT STUDIES HAVE SHOWN THAT GENETIC PREDISPOSITION LEADS TO THE ONSET OF AUD, AND ALCOHOL METABOLISM CAN AFFECT EPIGENETIC INHERITANCE, WHICH IN TURN AFFECTS SYNAPTIC PLASTICITY, ALTERS BRAIN FUNCTION, AND LEADS TO MORE SEVERE ADDICTIVE BEHAVIORS. NON-CODING RNAS (NCRNAS), ESPECIALLY MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS), PLAY AN IMPORTANT ROLE IN ALCOHOL ADDICTION. THIS PAPER REVIEWS THE REGULATORY ROLE OF NCRNAS. NCRNAS ARE INVOLVED IN ENZYME AND NEUROTRANSMITTER REACTION SYSTEMS DURING ALCOHOL USE DISORDER. ALCOHOL CONSUMPTION REGULATES THE EXPRESSION OF NCRNAS THAT MEDIATE EPIGENETIC MODIFICATION AND SYNAPTIC PLASTICITY, WHICH PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF CHRONIC AUD. NCRNAS MAY BE USED NOT ONLY AS PREDICTORS OF THERAPEUTIC RESPONSES BUT ALSO AS THERAPEUTIC TARGETS OF AUD. CHRONIC ALCOHOLISM IS MORE LIKELY TO LEAD TO NEUROIMMUNE DISORDERS, INCLUDING PERMANENT BRAIN DYSFUNCTION. AUD INDUCED BY LONG-TERM ALCOHOLISM GREATLY ALTERS THE EXPRESSION OF GENES IN THE HUMAN GENOME, ESPECIALLY THE EXPRESSION OF NCRNAS. ALCOHOL CAN CAUSE A SERIES OF PATHOLOGICAL CHANGES BY INTERFERING WITH GENE EXPRESSION, SUCH AS THROUGH DISORDERED MIRNA-MRNA EXPRESSION NETWORKS, EPIGENETIC MODIFICATIONS, DISORDERED METABOLISM, AND EVEN SYNAPTIC REMODELING. NCRNAS ARE INVOLVED IN THE TRANSITION FROM MODERATE DRINKING TO ALCOHOL DEPENDENCE. 2022