1 4469 155 MOLECULAR NEUROLOGICAL CORRELATES OF ENDORPHINERGIC/DOPAMINERGIC MECHANISMS IN REWARD CIRCUITRY LINKED TO ENDORPHINERGIC DEFICIENCY SYNDROME (EDS). THE CONSENSUS OF THE CURRENT LITERATURE STRONGLY SUPPORTS THE CONCEPT THAT BRAIN NEUROTRANSMITTERS, AND SECOND MESSENGERS INVOLVED IN THE NET RELEASE OF DOPAMINE IN THE MESOLIMBIC REGION, ESPECIALLY THE NUCLEUS ACCUMBENS (NAC), IS DIRECTLY LINKED TO MOTIVATION, ANTI-STRESS, INCENTIVE SALIENCE (WANTING), AND WELL-BEING. THE ROLE OF DOPAMINE IN TERMS OF ALCOHOL WITHDRAWAL SYMPTOMOLOGY, COCAINE CRAVING BEHAVIOR, DOPAMINE -CONDENSATION PRODUCTS (TIQS), AND MORE RECENTLY, THE GENETIC ASPECTS OF DRUG-SEEKING AND PRO-DOPAMINE REGULATION, PROVIDE COMPELLING EVIDENCE OF THE RELEVANT MOLECULAR NEUROLOGICAL CORRELATES OF DOPAMINERGIC /ENDORPHINERGIC MECHANISMS IN REWARD CIRCUITRY DUE TO GENETIC POLYMORPHISMS AND EPIGENETIC INSULTS. IN THE FACE OF AN AMERICANS OPIOID EPIDEMIC, THE CLINICAL CONSENSUS IS TO TREAT OPIOID USE DISORDER (OUD) WITH LIFE-LONG OPIOID SUBSTITUTION THERAPY. HOWEVER, THE AUTHORS SUGGEST A PARADIGM SHIFT INVOLVING NOVEL MODALITIES LIKE TARGETING THE ENDORPHINERGIC SYSTEM LINKED TO DOPAMINE RELEASE AT THE NAC, IN TERMS OF THE INDUCTION OF REQUIRED "DOPAMINE HOMEOSTASIS." UTILIZING THE KNOWN GENETIC - ENVIRONMENTAL INTERACTION THEOREM P = G +E, THE AUTHORS PROVIDE A CLEAR RATIONALE FOR THE ADOPTION OF GENETIC RISK TESTING COUPLED WITH ENDORPHINERGIC/DOPAMINE REGULATION TO ADDRESS DYSFUNCTION ACROSS THE BRAIN REWARD CIRCUITRY. THE GOAL OF ALTERING RESTING-STATE, FUNCTIONAL CONNECTIVITY MAY REQUIRE A GENTLE "NEUROTRANSMITTER FIX" VIS ENKEPHALINASE INHIBITION TO OVERCOME OR COMBAT - SELF-INDUCTION OF ACUTE DOPAMINE RELEASE VIA PSYCHOACTIVE SUBSTANCE MISUSE RESULTING IN CHRONIC DOPAMINE DOWN-REGULATION. AS SUBSETS OF REWARD DEFICIENCY, WE ARE POISED TO PROVIDE NOVEL, GENETICALLY GUIDED THERAPY FOR ENDORPHINERGIC, OPIOIDERGIC, AND DOPAMINERGIC DEFICIENCIES AND RELATED SYNDROMES, UTILIZING "PRECISION ADDICTION MANAGEMENT. 2020 2 4631 44 NEUROGENETICS OF ACUTE AND CHRONIC OPIATE/OPIOID ABSTINENCE: TREATING SYMPTOMS AND THE CAUSE. THIS REVIEW BEGINS WITH A COMPREHENSIVE HISTORY OF OPIOID DEPENDENCE AND TREATMENT IN THE UNITED STATES. THE FOCUS IS AN EVIDENCE-BASED TREATMENT MODEL FOR OPIOID/OPIATE DEPENDENT INDIVIDUALS. THE ROLE OF REWARD GENETIC POLYMORPHISMS AND THE EPIGENETIC MODIFICATIONS THAT LEAD TO VULNERABILITY TO USE AND MISUSE OF OPIATES/OPIOID TO TREAT PAIN ARE REVIEWED. THE NEUROCHEMICAL MECHANISMS OF ACUTE OPIATE WITHDRAWAL AND OPIATE/OPIOID REWARD MECHANISMS ARE EXPLORED WITH A GOAL OF IDENTIFYING SPECIFIC TREATMENT TARGETS. ALTERATIONS IN FUNCTIONAL BRAIN CONNECTIVITY BASED ON NEUROBIOLOGICAL MECHANISMS IN HEROIN DEPENDENCE AND ABSTINENCE ARE ALSO REVIEWED. A NEW CLINICAL MODEL AN ALTERNATIVE TO MERELY BLOCKING ACUTE WITHDRAWAL SYMPTOMS AS IDENTIFIED IN THE DSM -5 IS PROPOSED. GENETIC DIAGNOSIS AT THE ONSET OF DETOXIFICATION, TO DETERMINE RISK STRATIFICATION, AND IDENTIFY POLYMORPHIC GENE TARGETS FOR PHARMACEUTICAL AND NUTRACEUTICAL INTERVENTIONS, FOLLOWED BY THE SIMULTANEOUS INITIATION OF MEDICATION ASSISTED THERAPY (MAT), TO ENABLE PSYCHOLOGICAL EXTINCTION, AND STEADY PRO-DOPAMINERGIC THERAPY WITH THE GOAL OF DEVELOPING "DOPAMINE HOMEOSTASIS" IS RECOMMENDED. THE OBJECTIVE OF THESE INTERVENTIONS IS TO PREVENT FUTURE RELAPSE BY TREATING ALL "REWARD DEFICIENCY SYNDROME" (RDS) BEHAVIORS AND EVENTUALLY MAKE AN ADDICTION-FREE LIFE POSSIBLE. 2017 3 636 41 BIOLOGICAL SUBSTRATES OF ADDICTION. THIS REVIEW IS AN INTRODUCTION TO ADDICTION, THE REWARD CIRCUITRY, AND LABORATORY ADDICTION MODELS. ADDICTION IS A CHRONIC DISEASE HALLMARKED BY A STATE OF COMPULSIVE DRUG SEEKING THAT PERSISTS DESPITE NEGATIVE CONSEQUENCES. MOST OF THE ADVANCES IN ADDICTION RESEARCH HAVE CENTERED ON THE CANONICAL AND CONTEMPORARY DRUGS OF ABUSE; HOWEVER, ADDICTIONS TO OTHER ACTIVITIES AND STIMULI ALSO EXIST. SUBSTANCES OF ABUSE HAVE THE POTENTIAL TO INDUCE LONG-LASTING CHANGES IN THE BRAIN AT THE BEHAVIORAL, CIRCUIT, AND SYNAPTIC LEVELS. ADDICTION-RELATED BEHAVIORAL CHANGES INVOLVE INITIATION, ESCALATION, AND OBSESSION TO DRUG SEEKING AND MUCH OF THE CURRENT RESEARCH IS FOCUSED ON MAPPING THESE MANIFESTATIONS TO SPECIFIC NEURAL PATHWAYS. DRUG ABUSE IS WELL KNOWN TO RECRUIT COMPONENTS OF THE MESOLIMBIC DOPAMINE SYSTEM, INCLUDING THE NUCLEUS ACCUMBENS AND VENTRAL TEGMENTAL AREA. IN ADDITION, ALTERED FUNCTION OF A WIDE VARIETY OF BRAIN REGIONS IS TIGHTLY ASSOCIATED WITH SPECIFIC MANIFESTATIONS OF DRUG ABUSE. THESE REGIONS PERIPHERAL TO THE MESOLIMBIC PATHWAY LIKELY PLAY A ROLE IN SPECIFIC OBSERVED COMORBIDITIES AND ENDOPHENOTYPES THAT CAN FACILITATE, OR BE CAUSED BY, SUBSTANCE ABUSE. ALTERATIONS IN SYNAPTIC STRUCTURE, FUNCTION, AND CONNECTIVITY, AS WELL AS EPIGENETIC AND GENETIC MECHANISMS ARE THOUGHT TO UNDERLIE THE PATHOLOGIES OF ADDICTION. IN PRECLINICAL MODELS, THESE PERSISTENT CHANGES ARE STUDIED AT THE LEVELS OF MOLECULAR PHARMACOLOGY AND BIOCHEMISTRY, EX VIVO AND IN VIVO ELECTROPHYSIOLOGY, RADIOGRAPHY, AND BEHAVIOR. COORDINATING RESEARCH EFFORTS ACROSS THESE DISCIPLINES AND EXAMINING CELL TYPE- AND CIRCUIT-SPECIFIC PHENOMENA ARE CRUCIAL COMPONENTS FOR TRANSLATING PRECLINICAL FINDINGS TO VIABLE MEDICAL INTERVENTIONS THAT EFFECTIVELY TREAT ADDICTION AND RELATED DISORDERS. WIRES COGN SCI 2014, 5:151-171. DOI: 10.1002/WCS.1273 CONFLICT OF INTEREST: THE AUTHORS HAVE DECLARED NO CONFLICTS OF INTEREST FOR THIS ARTICLE. FOR FURTHER RESOURCES RELATED TO THIS ARTICLE, PLEASE VISIT THE WIRES WEBSITE. 2014 4 2841 49 FREQUENCY OF THE DOPAMINE RECEPTOR D3 (RS6280) VS. OPIOID RECEPTOR MICRO1 (RS1799971) POLYMORPHIC RISK ALLELES IN PATIENTS WITH OPIOID USE DISORDER: A PREPONDERANCE OF DOPAMINERGIC MECHANISMS? WHILE OPIOIDS ARE A POWERFUL CLASS OF DRUGS THAT INHIBIT TRANSMISSION OF PAIN SIGNALS, THEIR USE IS TARNISHED BY THE CURRENT EPIDEMIC OF OPIOID USE DISORDER (OUD) AND OVERDOSE DEATHS. NOTWITHSTANDING PUBLISHED REPORTS, THERE REMAIN GAPS IN OUR KNOWLEDGE OF OPIOID RECEPTOR MECHANISMS AND THEIR ROLE IN OPIOID SEEKING BEHAVIOR. THUS, NOVEL INSIGHTS INTO MOLECULAR, NEUROGENETIC AND NEUROPHARMACOLOGICAL BASES OF OUD ARE NEEDED. WE PROPOSE THAT AN ADDICTIVE ENDOPHENOTYPE MAY NOT BE ENTIRELY SPECIFIC TO THE DRUG OF CHOICE BUT RATHER MAY BE GENERALIZABLE TO ALTERED BRAIN REWARD CIRCUITS IMPACTING NET MESOCORTICOLIMBIC DOPAMINE RELEASE. WE SUGGEST THAT GENETIC OR EPIGENETIC ALTERATIONS ACROSS DOPAMINERGIC REWARD SYSTEMS LEAD TO UNCONTROLLABLE SELF-ADMINISTRATION OF OPIOIDS AND OTHER DRUGS. FOR INSTANCE, DIMINISHED AVAILABILITY VIA KNOCKOUT OF DOPAMINE D3 RECEPTOR (DRD3) INCREASES VULNERABILITY TO OPIOIDS. BUILDING UPON THIS CONCEPT VIA THE USE OF A SOPHISTICATED POLYMORPHIC RISK ANALYSIS IN A HUMAN COHORT OF CHRONIC OPIOID USERS, WE FOUND EVIDENCE FOR A HIGHER FREQUENCY OF POLYMORPHIC DRD3 RISK ALLELE (RS6280) THAN OPIOID RECEPTOR MICRO1 (RS1799971). IN CONCLUSION, WHILE OPIOIDERGIC MECHANISMS ARE INVOLVED IN OUD, DOPAMINE-RELATED RECEPTORS MAY HAVE PRIMARY INFLUENCE ON OPIOID-SEEKING BEHAVIOR IN AFRICAN AMERICANS. THESE FINDINGS SUGGEST OUD-TARGETED NOVEL AND IMPROVED NEUROPHARMACOLOGICAL THERAPIES MAY REQUIRE FOCUS ON DRD3-MEDIATED REGULATION OF DOPAMINERGIC HOMEOSTASIS. 2022 5 1676 30 DRUG ADDICTION: FROM BENCH TO BEDSIDE. DRUG ADDICTION IS RESPONSIBLE FOR MILLIONS OF DEATHS PER YEAR AROUND THE WORLD. STILL, ITS MANAGEMENT AS A CHRONIC DISEASE IS SHADOWED BY MISCONCEPTIONS FROM THE GENERAL PUBLIC. INDEED, DRUG CONSUMERS ARE OFTEN LABELLED AS "WEAK", "IMMORAL" OR "DEPRAVED". CONSEQUENTLY, DRUG ADDICTION IS OFTEN PERCEIVED AS AN INDIVIDUAL PROBLEM AND NOT SOCIETAL. IN TECHNICAL TERMS, DRUG ADDICTION IS DEFINED AS A CHRONIC, RELAPSING DISEASE RESULTING FROM SUSTAINED EFFECTS OF DRUGS ON THE BRAIN. THROUGH A BETTER CHARACTERISATION OF THE CEREBRAL CIRCUITS INVOLVED, AND THE LONG-TERM MODIFICATIONS OF THE BRAIN INDUCED BY ADDICTIVE DRUGS ADMINISTRATIONS, FIRST, WE MIGHT BE ABLE TO CHANGE THE WAY THE GENERAL PUBLIC SEE THE PATIENT WHO IS SUFFERING FROM DRUG ADDICTION, AND SECOND, WE MIGHT BE ABLE TO FIND NEW TREATMENTS TO NORMALISE THE ALTERED BRAIN HOMEOSTASIS. IN THIS REVIEW, WE SYNTHETISE THE CONTRIBUTION OF FUNDAMENTAL RESEARCH TO THE UNDERSTANDING DRUG ADDICTION AND ITS CONTRIBUTION TO POTENTIAL NOVEL THERAPEUTICS. MOSTLY BASED ON DRUG-INDUCED MODIFICATIONS OF SYNAPTIC PLASTICITY AND EPIGENETIC MECHANISMS (AND THEIR BEHAVIOURAL CORRELATES) AND AFTER DEMONSTRATION OF THEIR REVERSIBILITY, WE TRIED TO HIGHLIGHT PROMISING THERAPEUTICS. WE ALSO UNDERLINE THE SPECIFIC TEMPORAL DYNAMICS AND PSYCHOSOCIAL ASPECTS OF THIS COMPLEX PSYCHIATRIC DISEASE ADDING PARAMETERS TO BE CONSIDERED IN CLINICAL TRIALS AND PAVING THE WAY TO TEST NEW THERAPEUTIC VENUES. 2021 6 3708 22 INFLUENCE OF PHARMACOLOGICAL AND EPIGENETIC FACTORS TO SUPPRESS NEUROTROPHIC FACTORS AND ENHANCE NEURAL PLASTICITY IN STRESS AND MOOD DISORDERS. STRESS-INDUCED MAJOR DEPRESSION AND MOOD DISORDERS ARE CHARACTERIZED BY BEHAVIOURAL ABNORMALITIES AND PSYCHIATRIC ILLNESS, LEADING TO DISABILITY AND IMMATURE MORTALITY WORLDWIDE. NEUROBIOLOGICAL MECHANISMS OF STRESS AND MOOD DISORDERS ARE DISCUSSED CONSIDERING RECENT FINDINGS, AND CHALLENGES TO ENHANCE PHARMACOLOGICAL EFFECTS OF ANTIDEPRESSANT, AND MOOD STABILIZERS. PHARMACOLOGICAL ENHANCEMENT OF KETAMINE AND SCOPOLAMINE REGULATES DEPRESSION AT THE MOLECULAR LEVEL, INCREASING SYNAPTIC PLASTICITY IN PREFRONTAL REGIONS. BLOOD-DERIVED NEUROTROPHIC FACTORS FACILITATE MOOD-DEFICIT SYMPTOMS. EPIGENETIC FACTORS MAINTAIN STRESS-RESILIENCE IN HIPPOCAMPAL REGION. REGULATION OF NEUROTROPHIC FACTORS BLOCKADES STRESS, AND ENHANCES NEURONAL SURVIVAL THOUGH IT PARALYZES LIMBIC REGIONS. MOLECULAR AGENTS AND NEUROTROPHIC FACTORS ALSO CONTROL BEHAVIORAL AND SYNAPTIC PLASTICITY IN ADDICTION AND STRESS DISORDERS. FUTURE RESEARCH ON NEURONAL DYNAMICS AND CELLULAR ACTIONS CAN BE DIRECTED TO OBTAIN THE ETIOLOGY OF SYNAPTIC DYSREGULATION IN MOOD DISORDER AND STRESS. FOR THE FIRST TIME, THE CURRENT REVIEW CONTRIBUTES TO THE LITERATURE OF SYNAPTIC PLASTICITY REPRESENTING THE ROLE OF EPIGENETIC MECHANISMS AND GLUCOCORTICOID RECEPTORS TO PREDICT DEPRESSION AND ANXIETY IN CLINICAL CONDITIONS. 2019 7 5855 36 SUBSTANCE USE DISORDER A BIO-DIRECTIONAL SUBSET OF REWARD DEFICIENCY SYNDROME. THIS COMMENTARY IS TO INFORM CLINICIANS CHALLENGED WITH AN INCREASE IN PEOPLE SEEKING TREATMENT FOR SUBSTANCE USE DISORDER (SUD), THAT THE NINETY PERCENT REVOLVING DOOR, IS, IN PART, DUE TO POST-WITHDRAWAL, UNTREATED NEUROTOXICITY. THIS IMPAIRMENT ATTENUATES NEUROTRANSMITTER SIGNALING AND COMPROMISES RESTING STATE FUNCTIONAL CONNECTIVITY, LEADING TO UNWANTED SEQUELAE INCLUDING DEPRESSION, SLEEP DISTURBANCES, SENSATION SEEKING, LACK OF SATISFACTION AND IMPULSIVITY. NEUROIMAGING STUDIES INDICATE THAT NEUROBIOLOGICAL RECOVERY CAN TAKE YEARS. LIKE A "DOUBLE EDGE SWORD" SUD HAS A BIOLOGICAL BI -DIRECTIONAL (BIO-DIRECTIONAL) EFFECT ON THE BRAIN REWARD CIRCUITRY. THE ACUTE INTAKE OF PSYCHOACTIVE DRUGS RESULTS IN HEIGHTENED DOPAMINERGIC ACTIVITY, WHILE, THE OPPOSITE, HYPODOPAMINERGIA OCCURS FOLLOWING CHRONIC ABUSE. INDIVIDUALS WITH SUD CAN HAVE A GENETIC PREDISPOSITION, COMPOUNDED BY STRESS AND NEUROTOXICALLY INDUCED, EPIGENETIC INSULTS THAT IMPACT RECOVERY FROM PROTRACTED ABSTINENCE. FOLLOW-UP POST -SHORT-TERM RECOVERY USUALLY INCLUDES SUPPORTIVE THERAPIES AND PROGRAMS LIKE 12 -STEPS AND OTHER FELLOWSHIPS. HOWEVER, RELAPSE WILL USUALLY OCCUR IF POST -SHORT-TERM RECOVERY HYPODOPAMINERGIA IS NOT TREATED WITH ATTEMPTS AT EPIGENETIC MANIPULATION OF COMPROMISED BRAIN NEUROCHEMISTRY USING SOME MANNER OF PRO-DOPAMINE REGULATION. 2017 8 1651 55 DOPAMINE AND GLUCOSE, OBESITY, AND REWARD DEFICIENCY SYNDROME. OBESITY AS A RESULT OF OVEREATING AS WELL AS A NUMBER OF WELL DESCRIBED EATING DISORDERS HAS BEEN ACCURATELY CONSIDERED TO BE A WORLD-WIDE EPIDEMIC. RECENTLY A NUMBER OF THEORIES BACKED BY A PLETHORA OF SCIENTIFICALLY SOUND NEUROCHEMICAL AND GENETIC STUDIES PROVIDE STRONG EVIDENCE THAT FOOD ADDICTION IS SIMILAR TO PSYCHOACTIVE DRUG ADDICTION. OUR LABORATORY HAS PUBLISHED ON THE CONCEPT KNOWN AS REWARD DEFICIENCY SYNDROME (RDS) WHICH IS A GENETIC AND EPIGENETIC PHENOMENA LEADING TO IMPAIRMENT OF THE BRAIN REWARD CIRCUITRY RESULTING IN A HYPO-DOPAMINERGIC FUNCTION. RDS INVOLVES THE INTERACTIONS OF POWERFUL NEUROTRANSMITTERS AND RESULTS IN ABNORMAL CRAVING BEHAVIOR. A NUMBER OF IMPORTANT FACTS WHICH COULD HELP TRANSLATE TO POTENTIAL THERAPEUTIC TARGETS ESPOUSED IN THIS FOCUSED REVIEW INCLUDE: (1) CONSUMPTION OF ALCOHOL IN LARGE QUANTITIES OR CARBOHYDRATES BINGING STIMULATES THE BRAIN'S PRODUCTION OF AND UTILIZATION OF DOPAMINE; (2) IN THE MESO-LIMBIC SYSTEM THE ENKEPHALINERGIC NEURONS ARE IN CLOSE PROXIMITY, TO GLUCOSE RECEPTORS; (3) HIGHLY CONCENTRATED GLUCOSE ACTIVATES THE CALCIUM CHANNEL TO STIMULATE DOPAMINE RELEASE FROM P12 CELLS; (4) A SIGNIFICANT CORRELATION BETWEEN BLOOD GLUCOSE AND CEREBROSPINAL FLUID CONCENTRATIONS OF HOMOVANILLIC ACID THE DOPAMINE METABOLITE; (5) 2-DEOXYGLUCOSE (2DG), THE GLUCOSE ANALOG, IN PHARMACOLOGICAL DOSES IS ASSOCIATED WITH ENHANCED DOPAMINE TURNOVER AND CAUSES ACUTE GLUCOPRIVATION. EVIDENCE FROM ANIMAL STUDIES AND FMRI IN HUMANS SUPPORT THE HYPOTHESIS THAT MULTIPLE, BUT SIMILAR BRAIN CIRCUITS ARE DISRUPTED IN OBESITY AND DRUG DEPENDENCE AND FOR THE MOST PART, IMPLICATE THE INVOLVEMENT OF DA-MODULATED REWARD CIRCUITS IN PATHOLOGIC EATING BEHAVIORS. BASED ON A CONSENSUS OF NEUROSCIENCE RESEARCH TREATMENT OF BOTH GLUCOSE AND DRUG LIKE COCAINE, OPIATES SHOULD INCORPORATE DOPAMINE AGONIST THERAPY IN CONTRAST TO CURRENT THEORIES AND PRACTICES THAT UTILIZES DOPAMINE ANTAGONISTIC THERAPY. CONSIDERING THAT UP UNTIL NOW CLINICAL UTILIZATION OF POWERFUL DOPAMINE D2 AGONISTS HAVE FAILED DUE TO CHRONIC DOWN REGULATION OF D2 RECEPTORS NEWER TARGETS BASED ON NOVEL LESS POWERFUL D2 AGONISTS THAT UP-REGULATE D2 RECEPTORS SEEMS PRUDENT. WE ENCOURAGE NEW STRATEGIES TARGETED AT IMPROVING DA FUNCTION IN THE TREATMENT AND PREVENTION OF OBESITY A SUBTYPE OF REWARD DEFICIENCY. 2014 9 677 23 BRAIN CIRCUITS AT RISK IN PSYCHIATRIC DISEASES AND PHARMACOLOGICAL PATHWAYS. THE MULTIPLE BRAIN CIRCUITS INVOLVED IN PSYCHIATRIC DISEASES MAY APPEAR DAUNTING, BUT WE PREFER TO CONCENTRATE ON A SELECT FEW, WITH A PARTICULAR SENSITIVITY TO STRESS AND NEURODEVELOPMENTAL ISSUES, WITH A CLEAR PHARMACOTHERAPY. THIS REVIEW IS STRUCTURED AROUND 1. THE KEY CIRCUITS, THEIR ROLE IN HEALTH AND DISEASE, AND THE NEUROTRANSMITTERS MAINTAINING THEM, 2. THE INFLUENCE OF UPBRINGING, STRESS, CHRONOBIOLOGY, INFLAMMATION AND INFECTION, 3. THE GENETIC AND EPIGENETIC INFLUENCE ON THESE CIRCUITS, PARTICULARLY REGARDING COPY NUMBER VARIANTS AND NEURONAL PLASTICITY, 4. THE USE AND ABUSE OF PHARMACOLOGICAL AGENTS WITH THE PARTICULAR RISKS OF STRESS AND CHRONOBIOLOGY AT CRITICAL PERIODS. A MAJOR EMPHASIS IS PLACED ON THE LINKS BETWEEN HIPPOCAMPUS, PREFRONTAL CORTEX AND AMYGDALA/PERIAQUEDUCTAL GREY WHICH CONTROL SPECIFIC ASPECTS OF COGNITION, MOOD, PAIN AND EVEN VIOLENCE. SOME OF THE RESEARCH FINDINGS WERE FROM THE INNOVATIVE MEDICINE INITIATIVE (IMI) NEWMEDS, A 22MEURO ACADEMIC/INDUSTRIAL CONSORTIUM ON THE BRAIN CIRCUITS CRITICAL FOR PSYCHIATRIC DISEASE. 2021 10 1490 47 DNA DIRECTED PRO-DOPAMINE REGULATION COUPLING SUBLUXATION REPAIR, H-WAVE((R)) AND OTHER NEUROBIOLOGICALLY BASED MODALITIES TO ADDRESS COMPLEXITIES OF CHRONIC PAIN IN A FEMALE DIAGNOSED WITH REWARD DEFICIENCY SYNDROME (RDS): EMERGENCE OF INDUCTION OF "DOPAMINE HOMEOSTASIS" IN THE FACE OF THE OPIOID CRISIS. ADDICTION IS A COMPLEX MULTIFACTORIAL CONDITION. ESTABLISHED GENETIC FACTORS CAN PROVIDE CLEAR GUIDANCE IN ASSESSING THE RISK OF ADDICTION TO SUBSTANCES AND BEHAVIORS. CHRONIC STRESS CAN ACCUMULATE, FORMING DIFFICULT TO RECOGNIZE ADDICTION PATTERNS FROM BOTH GENETIC AND EPIGENETIC (ENVIRONMENTAL) FACTORS. FURTHERMORE, PSYCHOLOGICAL/PHYSICAL/CHEMICAL STRESSORS ARE TYPICALLY CATEGORIZED LINEARLY, DELAYING IDENTIFICATION AND TREATMENT. THE PATIENT IN THIS CASE REPORT IS A CAUCASIAN FEMALE, AGED 36, WHO PRESENTED WITH CHRONIC PAIN AND PARTIAL DISABILITY FOLLOWING A SURGICALLY REPAIRED TRIMALLEOLAR FRACTURE. THE PATIENT HAD A HISTORY OF UNRESOLVED ATTENTION DEFICIT DISORDER AND AN MRI SCAN OF HER BRAIN REVEALED ATROPHY AND FUNCTIONAL ASYMMETRY. IN 2018, THE PATIENT ENTERED THE BAJAJ CHIROPRACTIC CLINIC, WHERE INITIAL TREATMENT FOCUSED ON RE-ESTABLISHING INTEGRITY OF THE SPINE AND LOWER EXTREMITY BIOMECHANICS AND GRADUATED INTO COGNITIVE BEHAVIOR STABILIZATION ASSISTED BY DNA PRO-DOPAMINE REGULATION GUIDED BY GENETIC ADDICTION RISK SEVERITY TESTING. DURING TREATMENT (2018-2021), PROGRESS ACHIEVED INCLUDED: IMPROVED COGNITIVE CLARITY, FOCUS, SLEEP, ANXIETY, AND EMOTIONAL STABILITY IN ADDITION TO PAIN REDUCTION (75%); ELIMINATION OF POWERFUL ANALGESICS; AND REDUCED INTAKE OF PREVIOUSLY UNADDRESSED ALCOHOLISM. TO HELP REDUCE HEDONIC ADDICTIVE BEHAVIORS AND PAIN, COUPLING OF H-WAVE WITH CORRECTIVE CHIROPRACTIC CARE SEEMS PRUDENT. WE EMPHASIZE THE IMPORTANCE OF GENETIC ASSESSMENT ALONG WITH ATTEMPTS AT INDUCING REQUIRED DOPAMINERGIC HOMEOSTASIS VIA PRECISION KB220PAM. IT IS HYPOTHESIZED THAT FROM PREVENTIVE CARE MODELS, A NEW STANDARD IS EMERGING INCLUDING SELF-AWARENESS AND ACCOUNTABILITY FOR REWARD DEFICIENCY AS A FUNCTION OF HYPODOPAMINERGIA. THIS CASE STUDY DOCUMENTS THE PROGRESSION OF A PATIENT DEALING WITH THE COMPLEXITIES OF AN INJURY, PAIN MANAGEMENT, COGNITIVE IMPAIRMENT, ANXIETY, DEPRESSION, AND THE APPLICATION OF UNIVERSAL HEALTH PRINCIPLES TOWARDS CORRECTION VERSUS PALLIATIVE CARE. 2022 11 2000 26 EPIGENETIC AND NON-CODING REGULATION OF ALCOHOL ABUSE AND ADDICTION. ALCOHOL USE DISORDER IS A CHRONIC DEBILITATED CONDITION ADVERSELY AFFECTING THE LIVES OF MILLIONS OF INDIVIDUALS THROUGHOUT THE MODERN WORLD. INDIVIDUALS SUFFERING FROM AN ALCOHOL USE DISORDER DIAGNOSIS FREQUENTLY HAVE SERIOUS COOCCURRING CONDITIONS, WHICH OFTEN FURTHER EXACERBATES PROBLEMATIC DRINKING BEHAVIOR. COMPREHENDING THE BIOCHEMICAL PROCESSES UNDERLYING THE PROGRESSION AND PERPETUATION OF DISEASE IS ESSENTIAL FOR MITIGATING MALADAPTIVE BEHAVIOR IN ORDER TO RESTORE BOTH PHYSIOLOGICAL AND PSYCHOLOGICAL HEALTH. THE RANGE OF CELLULAR AND BIOLOGICAL SYSTEMS CONTRIBUTING TO, AND AFFECTED BY, ALCOHOL USE DISORDER AND OTHER COMORBID DISORDERS NECESSITATES A FUNDAMENTAL GRASP OF INTRICATE FUNCTIONAL RELATIONSHIPS THAT GOVERN MOLECULAR BIOLOGY. EPIGENETIC FACTORS ARE RECOGNIZED AS ESSENTIAL MEDIATORS OF CELLULAR BEHAVIOR, ORCHESTRATING A SYMPHONY OF GENE EXPRESSION CHANGES WITHIN MULTICELLULAR ENVIRONMENTS THAT ARE ULTIMATELY RESPONSIBLE FOR DIRECTING HUMAN BEHAVIOR. UNDERSTANDING THE EPIGENETIC AND TRANSCRIPTIONAL REGULATORY MECHANISMS INVOLVED IN THE PATHOGENESIS OF DISEASE IS IMPORTANT FOR IMPROVING AVAILABLE PHARMACOTHERAPIES AND REDUCING THE INCIDENCE OF ALCOHOL ABUSE AND COOCCURRING CONDITIONS. 2021 12 4846 22 OPIATE ADDICTION AND COCAINE ADDICTION: UNDERLYING MOLECULAR NEUROBIOLOGY AND GENETICS. ADDICTIVE DISEASES, INCLUDING ADDICTION TO HEROIN, PRESCRIPTION OPIOIDS, OR COCAINE, POSE MASSIVE PERSONAL AND PUBLIC HEALTH COSTS. ADDICTIONS ARE CHRONIC RELAPSING DISEASES OF THE BRAIN CAUSED BY DRUG-INDUCED DIRECT EFFECTS AND PERSISTING NEUROADAPTATIONS AT THE EPIGENETIC, MRNA, NEUROPEPTIDE, NEUROTRANSMITTER, OR PROTEIN LEVELS. THESE NEUROADAPTATIONS, WHICH CAN BE SPECIFIC TO DRUG TYPE, AND THEIR RESULTANT BEHAVIORS ARE MODIFIED BY VARIOUS INTERNAL AND EXTERNAL ENVIRONMENTAL FACTORS, INCLUDING STRESS RESPONSIVITY, ADDICT MINDSET, AND SOCIAL SETTING. SPECIFIC GENE VARIANTS, INCLUDING VARIANTS ENCODING PHARMACOLOGICAL TARGET PROTEINS OR GENES MEDIATING NEUROADAPTATIONS, ALSO MODIFY VULNERABILITY AT PARTICULAR STAGES OF ADDICTION. GREATER UNDERSTANDING OF THESE INTERACTING FACTORS THROUGH LABORATORY-BASED AND TRANSLATIONAL STUDIES HAVE THE POTENTIAL TO OPTIMIZE EARLY INTERVENTIONS FOR THE THERAPY OF CHRONIC ADDICTIVE DISEASES AND TO REDUCE THE BURDEN OF RELAPSE. HERE, WE REVIEW THE MOLECULAR NEUROBIOLOGY AND GENETICS OF OPIATE ADDICTION, INCLUDING HEROIN AND PRESCRIPTION OPIOIDS, AND COCAINE ADDICTION. 2012 13 6097 14 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 14 6130 19 THE EPIGENETIC REGULATION OF THE OPIOID SYSTEM: NEW INDIVIDUALIZED PROMPT PREVENTION AND TREATMENT STRATEGIES. THE MOST WELL-KNOWN PHYSIOLOGICAL EFFECT ASSOCIATED WITH OPIOD SYSTEM IS THEIR EFFICACY IN PAIN REDUCTION OR ANALGESIA, ALTHOUGH THEIR EFFECT ON A VARIETY OF OTHER PHYSIOLOGICAL AND PHYSIOPHOLOGICAL FUNCTIONS HAS BECOME APPARENT IN RECENT YEARS. THIS REVIEW IS AN ATTEMPT TO CLARIFY IN MORE DETAIL THE EPIGENETIC REGULATION OF OPIOID SYSTEM TO UNDERSTAND WITH MORE PRECISION THEIR TRANSCRIPTIONAL AND POSTTRANSCRIPTIONAL REGULATION IN MULTIPLE PYISIOLOGICAL AND PHARMACOLOGICAL CONTEXTS. THE OPIOID RECEPTORS SHOW AN EPIGENETIC REGULATION AND OPIOID PEPTIDE PRECURSORS BY METHYLATION, CHROMATIN REMODELING AND MICRORNA. ALTHOUGH THE OPIOID RECEPTOR PROMOTERS HAVE SIMILARITY BETWEEN THEM, THEY USE DIFFERENT EPIGENETIC REGULATION FORMS AND THEY EXHIBIT DIFFERENT PATTERN OF EXPRESSION DURING THE CELL DIFFERENTIATION. DNA METHYLATION IS ALSO CONFIRMED IN OPIOID PEPTIDE PRECURSORS, BEING IMPORTANT FOR GENE EXPRESSION AND TISSUE SPECIFICITY. UNDERSTANDING THE EPIGENETIC BASIS OF THOSE PHYSIOLOGICAL AND PHYSIOPATHOLOGICAL PROCESESS IS ESSENTIAL FOR THE DEVELOPMENT OF INDIVIDUALIZED PROMPT PREVENTION AND TREATMENT STRATEGIES. 2015 15 4418 26 MOLECULAR AND EPIGENETIC ASPECTS OF OPIOID RECEPTORS IN DRUG ADDICTION AND PAIN MANAGEMENT IN SPORT. OPIOIDS ARE SUBSTANCES DERIVED FROM OPIUM (NATURAL OPIOIDS). IN ITS RAW STATE, OPIUM IS A GUMMY LATEX EXTRACTED FROM PAPAVER SOMNIFERUM. THE USE OF OPIOIDS AND THEIR NEGATIVE HEALTH CONSEQUENCES AMONG PEOPLE WHO USE DRUGS HAVE BEEN STUDIED. TODAY, OPIOIDS ARE STILL THE MOST COMMONLY USED AND EFFECTIVE ANALGESIC TREATMENTS FOR SEVERE PAIN, BUT THEIR USE AND ABUSE CAUSES DETRIMENTAL SIDE EFFECTS FOR HEALTH, INCLUDING ADDICTION, THUS IMPACTING THE USER'S QUALITY OF LIFE AND CAUSING OVERDOSE. THE MESOCORTICOLIMBIC DOPAMINERGIC CIRCUITRY REPRESENTS THE BRAIN CIRCUIT MEDIATING BOTH NATURAL REWARDS AND THE REWARDING ASPECTS OF NEARLY ALL DRUGS OF ABUSE, INCLUDING OPIOIDS. HENCE, UNDERSTANDING HOW OPIOIDS AFFECT THE FUNCTION OF DOPAMINERGIC CIRCUITRY MAY BE USEFUL FOR BETTER KNOWLEDGE OF THE PROCESS AND TO DEVELOP EFFECTIVE THERAPEUTIC STRATEGIES IN ADDICTION. THE AIM OF THIS REVIEW WAS TO SUMMARIZE THE MAIN FEATURES OF OPIOIDS AND OPIOID RECEPTORS AND FOCUS ON THE MOLECULAR AND UPCOMING EPIGENETIC MECHANISMS LEADING TO OPIOID ADDICTION. SINCE SYNTHETIC OPIOIDS CAN BE EFFECTIVE FOR PAIN MANAGEMENT, THEIR ABILITY TO INDUCE ADDICTION IN ATHLETES, WITH THE RISK OF INCURRING DOPING, IS ALSO DISCUSSED. 2023 16 1984 27 EPIGENETIC ALTERATIONS IN PRESCRIPTION OPIOID MISUSE: NEW STRATEGIES FOR PRECISION PAIN MANAGEMENT. PRESCRIPTION OPIOIDS ARE USED FOR SOME CHRONIC PAIN CONDITIONS. HOWEVER, GENERALLY, LONG-TERM THERAPY HAS UNWANTED SIDE EFFECTS WHICH MAY TRIGGER ADDICTION, OVERDOSE, AND EVENTUALLY CAUSE DEATHS. OPIOID ADDICTION AND CHRONIC PAIN CONDITIONS HAVE BOTH BEEN ASSOCIATED WITH EVIDENCE OF GENETIC AND EPIGENETIC ALTERATIONS. DESPITE INTENSE RESEARCH INTEREST, MANY QUESTIONS ABOUT THE CONTRIBUTION OF EPIGENETIC CHANGES TO THIS TYPOLOGY OF ADDICTION VULNERABILITY AND DEVELOPMENT REMAIN UNANSWERED. THE AIM OF THIS REVIEW WAS TO SUMMARIZE THE EPIGENETIC MODIFICATIONS DETECTED IN SPECIFIC TISSUES OR BRAIN AREAS AND ASSOCIATED WITH OPIOID PRESCRIPTION AND MISUSE IN PATIENTS WHO HAVE INITIATED PRESCRIBED OPIOID MANAGEMENT FOR CHRONIC NON-CANCER PAIN. THE REVIEW CONSIDERS THE EFFECTS OF OPIOID EXPOSURE ON THE EPIGENOME IN CENTRAL AND PERIPHERAL TISSUES IN ANIMAL MODELS AND HUMAN SUBJECTS AND HIGHLIGHTS THE MECHANISMS IN WHICH OPIOID EPIGENETICS MAY BE INVOLVED. THIS WILL IMPROVE OUR CURRENT UNDERSTANDING, PROVIDE THE BASIS FOR TARGETED, PERSONALIZED PAIN MANAGEMENT, AND THUS BALANCE OPIOID RISKS AND BENEFITS IN MANAGING CHRONIC PAIN. 2021 17 1088 33 COCAINE DIRECTLY IMPAIRS MEMORY EXTINCTION AND ALTERS BRAIN DNA METHYLATION DYNAMICS IN HONEY BEES. DRUG ADDICTION IS A CHRONIC RELAPSING BEHAVIORAL DISORDER. THE HIGH RELAPSE RATE HAS OFTEN BEEN ATTRIBUTED TO THE PERSEVERANCE OF DRUG-ASSOCIATED MEMORIES DUE TO HIGH INCENTIVE SALIENCE OF STIMULI LEARNT UNDER THE INFLUENCE OF DRUGS. DRUG ADDICTION HAS ALSO BEEN INTERPRETED AS A MEMORY DISORDER SINCE DRUG ASSOCIATED MEMORIES ARE UNUSUALLY ENDURING AND SOME DRUGS, SUCH AS COCAINE, INTERFERE WITH NEUROEPIGENETIC MACHINERY KNOWN TO BE INVOLVED IN MEMORY PROCESSING. HERE WE USED THE HONEY BEE (AN ESTABLISHED INVERTEBRATE MODEL FOR EPIGENOMICS AND BEHAVIORAL STUDIES) TO EXAMINE WHETHER OR NOT COCAINE AFFECTS MEMORY PROCESSING INDEPENDENTLY OF ITS EFFECT ON INCENTIVE SALIENCE. USING THE PROBOSCIS EXTENSION REFLEX TRAINING PARADIGM WE FOUND THAT COCAINE STRONGLY IMPAIRS CONSOLIDATION OF EXTINCTION MEMORY. BASED ON CORRELATION BETWEEN THE OBSERVED EFFECT OF COCAINE ON LEARNING AND EXPRESSION OF EPIGENETIC PROCESSES, WE PROPOSE THAT COCAINE INTERFERES WITH MEMORY PROCESSING INDEPENDENTLY OF INCENTIVE SALIENCE BY DIRECTLY ALTERING DNA METHYLATION DYNAMICS. OUR FINDINGS EMPHASIZE THE IMPACT OF COCAINE ON MEMORY SYSTEMS, WITH RELEVANCE FOR UNDERSTANDING HOW COCAINE CAN HAVE SUCH AN ENDURING IMPACT ON BEHAVIOR. 2018 18 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 19 1677 33 DRUG ADDICTION: HYPERKATIFEIA/NEGATIVE REINFORCEMENT AS A FRAMEWORK FOR MEDICATIONS DEVELOPMENT. COMPULSIVE DRUG SEEKING THAT IS ASSOCIATED WITH ADDICTION IS HYPOTHESIZED TO FOLLOW A HEURISTIC FRAMEWORK THAT INVOLVES THREE STAGES (BINGE/INTOXICATION, WITHDRAWAL/NEGATIVE AFFECT, AND PREOCCUPATION/ANTICIPATION) AND THREE DOMAINS OF DYSFUNCTION (INCENTIVE SALIENCE/PATHOLOGIC HABITS, NEGATIVE EMOTIONAL STATES, AND EXECUTIVE FUNCTION, RESPECTIVELY) VIA CHANGES IN THE BASAL GANGLIA, EXTENDED AMYGDALA/HABENULA, AND FRONTAL CORTEX, RESPECTIVELY. THIS REVIEW FOCUSES ON NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS THAT CONTRIBUTE TO HYPERKATIFEIA, DEFINED AS A GREATER INTENSITY OF NEGATIVE EMOTIONAL/MOTIVATIONAL SIGNS AND SYMPTOMS DURING WITHDRAWAL FROM DRUGS OF ABUSE IN THE WITHDRAWAL/NEGATIVE AFFECT STAGE OF THE ADDICTION CYCLE. HYPERKATIFEIA PROVIDES AN ADDITIONAL SOURCE OF MOTIVATION FOR COMPULSIVE DRUG SEEKING VIA NEGATIVE REINFORCEMENT. NEGATIVE REINFORCEMENT REFLECTS AN INCREASE IN THE PROBABILITY OF A RESPONSE TO REMOVE AN AVERSIVE STIMULUS OR DRUG SEEKING TO REMOVE HYPERKATIFEIA THAT IS AUGMENTED BY GENETIC/EPIGENETIC VULNERABILITY, ENVIRONMENTAL TRAUMA, AND PSYCHIATRIC COMORBIDITY. NEUROBIOLOGICAL TARGETS FOR HYPERKATIFEIA IN ADDICTION INVOLVE NEUROCIRCUITRY OF THE EXTENDED AMYGDALA AND ITS CONNECTIONS VIA WITHIN-SYSTEM NEUROADAPTATIONS IN DOPAMINE, ENKEPHALIN/ENDORPHIN OPIOID PEPTIDE, AND GAMMA-AMINOBUTYRIC ACID/GLUTAMATE SYSTEMS AND BETWEEN-SYSTEM NEUROADAPTATIONS IN PROSTRESS CORTICOTROPIN-RELEASING FACTOR, NOREPINEPHRINE, GLUCOCORTICOID, DYNORPHIN, HYPOCRETIN, AND NEUROIMMUNE SYSTEMS AND ANTISTRESS NEUROPEPTIDE Y, NOCICEPTIN, ENDOCANNABINOID, AND OXYTOCIN SYSTEMS. SUCH NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS ARE HYPOTHESIZED TO MEDIATE A NEGATIVE HEDONIC SET POINT THAT GRADUALLY GAINS ALLOSTATIC LOAD AND SHIFTS FROM A HOMEOSTATIC HEDONIC STATE TO AN ALLOSTATIC HEDONIC STATE. BASED ON PRECLINICAL STUDIES AND TRANSLATIONAL STUDIES TO DATE, MEDICATIONS AND BEHAVIORAL THERAPIES THAT RESET BRAIN STRESS, ANTISTRESS, AND EMOTIONAL PAIN SYSTEMS AND RETURN THEM TO HOMEOSTASIS WOULD BE PROMISING NEW TARGETS FOR MEDICATION DEVELOPMENT. SIGNIFICANCE STATEMENT: THE FOCUS OF THIS REVIEW IS ON NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS THAT CONTRIBUTE TO HYPERKATIFEIA, DEFINED AS A GREATER INTENSITY OF NEGATIVE EMOTIONAL/MOTIVATIONAL SIGNS AND SYMPTOMS DURING WITHDRAWAL FROM DRUGS OF ABUSE IN THE WITHDRAWAL/NEGATIVE AFFECT STAGE OF THE DRUG ADDICTION CYCLE AND A DRIVING FORCE FOR NEGATIVE REINFORCEMENT IN ADDICTION. MEDICATIONS AND BEHAVIORAL THERAPIES THAT REVERSE HYPERKATIFEIA BY RESETTING BRAIN STRESS, ANTISTRESS, AND EMOTIONAL PAIN SYSTEMS AND RETURNING THEM TO HOMEOSTASIS WOULD BE PROMISING NEW TARGETS FOR MEDICATION DEVELOPMENT. 2021 20 4440 31 MOLECULAR GENETIC TESTING IN PAIN AND ADDICTION: FACTS, FICTION AND CLINICAL UTILITY. THE BRAIN REWARD CASCADE (BRC) IS AN INTERACTION OF NEUROTRANSMITTERS AND THEIR RESPECTIVE GENES TO CONTROL THE AMOUNT OF DOPAMINE RELEASED WITHIN THE BRAIN. ANY VARIATIONS WITHIN THIS PATHWAY, WHETHER GENETIC OR ENVIRONMENTAL (EPIGENETIC), MAY RESULT IN ADDICTIVE BEHAVIORS AS WELL AS ALTERED PAIN TOLERANCE. WHILE THERE ARE MANY STUDIES CLAIMING A GENETIC ASSOCIATION WITH ADDICTION AND OTHER BEHAVIORAL INFRACTIONS, DEFINED AS REWARD DEFICIENCY SYNDROME (RDS), NOT ALL ARE SCIENTIFICALLY ACCURATE AND IN SOME CASE JUST WRONG. ALBEIT OUR BIAS, WE DISCUSS HEREIN THE FACTS AND FICTIONS BEHIND MOLECULAR GENETIC TESTING IN RDS (INCLUDING PAIN AND ADDICTION) AND THE SIGNIFICANCE BEHIND THE DEVELOPMENT OF THE GENETIC ADDICTION RISK SCORE (GARSPREDX), THE FIRST TEST TO ACCURATELY PREDICT ONE'S GENETIC RISK FOR RDS. 2015