1 339 145 ALTERATIONS IN HOMOCYSTEINE METABOLISM AMONG ALCOHOL DEPENDENT PATIENTS--CLINICAL, PATHOBIOCHEMICAL AND GENETIC ASPECTS. ADDICTION RESEARCH FOCUSING ON HOMOCYSTEINE METABOLISM AND ITS ASSOCIATION WITH ASPECTS OF ALCOHOL DEPENDENCE HAS REVEALED IMPORTANT FINDINGS. RECENT LITERATURE ON THIS TOPIC HAS BEEN TAKEN INTO ACCOUNT FOR THE REVIEW PROVIDED. METHYLENETETRAHYDROFOLATE REDUCTASE (MTHFR) IS A KEY ENZYME IN THE HOMOCYSTEINE METABOLISM. PLASMA HOMOCYSTEINE LEVELS ARE INFLUENCED BY THE SINGLE-NUCLEOTIDE POLYMORPHISM (SNP) MTHFR C677T. BESIDES GENETIC FACTORS, ENVIRONMENTAL FACTORS HAVE AN IMPACT ON HOMOCYSTEINE PLASMA LEVELS TOO. THUS, CHRONIC ALCOHOL INTAKE IS ASSOCIATED WITH ELEVATED HOMOCYSTEINE PLASMA CONCENTRATIONS. ELEVATION OF PLASMA HOMOCYSTEINE CONCENTRATION IS CONSIDERED AS A PREDICTOR FOR THE OCCURRENCE OF ALCOHOL WITHDRAWAL SEIZURES AND--AS HOMOCYSTEINE IS A CARDIOVASCULAR RISK FACTOR--MIGHT CONTRIBUTE TO THE HIGHER RISK FOR MYOCARDIAL INFARCTION AMONG ALCOHOL DEPENDENT PATIENTS. HOMOCYSTEINE ACTS AS AN N-METHYL-D-ASPARTATE (NMDA) RECEPTOR AGONIST AND HAS EXCITOTOXIC EFFECTS. FURTHERMORE, IT HAS BEEN DEMONSTRATED THAT HOMOCYSTEINE HAS NEUROTOXIC EFFECTS ESPECIALLY ON DOPAMINERGIC NEURONS. AS THE REWARDING EFFECTS OF ALCOHOL ARE MEDIATED BY THE DOPAMINERGIC SYSTEM, A HOMOCYSTEINE-DEPENDENT IMPAIRMENT OF THE REWARD SYSTEM POSSIBLY LEADS TO AN ALTERED DRINKING BEHAVIOUR ACCORDING TO THE DEFICIT HYPOTHESIS OF ADDICTION. HOMOCYSTEINE IS INVOLVED IN THE METABOLISM OF METHYL GROUPS AND DNA-METHYLATION PLAYS A ROLE IN REGULATION OF GENE EXPRESSION. THEREFORE IT HAS BEEN SUGGESTED THAT HOMOCYSTEINE IS AN IMPORTANT EPIGENETIC FACTOR. IT REMAINS TO BE DETERMINED WHETHER ALCOHOL DEPENDENT PATIENTS BENEFIT FROM HOMOCYSTEINE LOWERING STRATEGIES, E.G., VIA SUPPLEMENTATION OF FOLATE, VITAMIN B6 AND B12. IN THIS RESPECT IT IS NOT CLEAR YET, IF A SUPPLEMENTATION THERAPY CAN REDUCE THE RISK FOR THE OCCURRENCE OF ALCOHOL WITHDRAWAL SEIZURES. 2008 2 318 41 ALCOHOL-INDUCED EPIGENETIC CHANGES IN CANCER. CHRONIC, HEAVY ALCOHOL CONSUMPTION IS ASSOCIATED WITH SERIOUS NEGATIVE HEALTH EFFECTS, INCLUDING THE DEVELOPMENT OF SEVERAL CANCER TYPES. ONE OF THE PATHWAYS AFFECTED BY ALCOHOL TOXICITY IS THE ONE-CARBON METABOLISM. THE ALCOHOL-INDUCED IMPAIRMENT OF THIS METABOLIC PATHWAY RESULTS IN EPIGENETIC CHANGES ASSOCIATED WITH CANCER DEVELOPMENT. THESE EPIGENETIC CHANGES ARE INDUCED BY FOLATE DEFICIENCY AND BY PRODUCTS OF THE ETHANOL METABOLISM. THE CHANGES INDUCED BY LONG-TERM HEAVY ETHANOL CONSUMPTION RESULT IN ELEVATIONS OF HOMOCYSTEINE AND S-ADENOSYL-HOMOCYSTEINE (SAH) AND REDUCTIONS IN S-ADENOSYLMETHIONINE (SAM) AND ANTIOXIDANT GLUTATHIONE (GSH) LEVELS, LEADING TO ABNORMAL PROMOTER GENE HYPERMETHYLATION, GLOBAL HYPOMETHYLATION, AND METABOLIC INSUFFICIENCY OF ANTIOXIDANT DEFENSE MECHANISMS. IN ADDITION, REACTIVE OXYGEN SPECIES (ROS) GENERATED DURING THE ETHANOL METABOLISM INDUCE ALTERATIONS IN DNA METHYLATION PATTERNS THAT PLAY A CRITICAL ROLE IN CANCER DEVELOPMENT. SPECIFIC EPIGENETIC CHANGES IN ESOPHAGEAL, HEPATIC, AND COLORECTAL CANCERS HAVE BEEN DETECTED IN BLOOD SAMPLES AND PROPOSED TO BE USED CLINICALLY AS EPIGENETIC BIOMARKERS FOR DIAGNOSIS AND PROGNOSIS OF THESE CANCERS. ALSO, GENETIC VARIANTS OF GENES INVOLVED IN ONE-CARBON METABOLISM AND ETHANOL METABOLISM WERE FOUND TO MODULATE THE RELATIONSHIP BETWEEN ALCOHOL-INDUCED EPIGENETIC CHANGES AND CANCER RISK. FURTHERMORE, ALCOHOL METABOLISM PRODUCTS HAVE BEEN ASSOCIATED WITH AN INCREASE IN NADH LEVELS, WHICH LEAD TO HISTONE MODIFICATIONS AND CHANGES IN GENE EXPRESSION THAT IN TURN INFLUENCE CANCER SUSCEPTIBILITY. CHRONIC EXCESSIVE USE OF ALCOHOL ALSO AFFECTS SELECTED MEMBERS OF THE FAMILY OF MICRORNAS, AND AS MIRNAS COULD ACT AS EPIGENETIC REGULATORS, THIS MAY PLAY AN IMPORTANT ROLE IN CARCINOGENESIS. IN CONCLUSION, TARGETING ALCOHOL-INDUCED EPIGENETIC CHANGES IN SEVERAL CANCER TYPES COULD MAKE AVAILABLE CLINICAL TOOLS FOR THE DIAGNOSIS, PROGNOSIS, AND TREATMENT OF THESE CANCERS, WITH AN IMPORTANT ROLE IN PRECISION MEDICINE. 2018 3 315 40 ALCOHOL, DNA METHYLATION, AND CANCER. CANCER IS ONE OF THE MOST SIGNIFICANT DISEASES ASSOCIATED WITH CHRONIC ALCOHOL CONSUMPTION, AND CHRONIC DRINKING IS A STRONG RISK FACTOR FOR CANCER, PARTICULARLY OF THE UPPER AERODIGESTIVE TRACT, LIVER, COLORECTUM, AND BREAST. SEVERAL FACTORS CONTRIBUTE TO ALCOHOL-INDUCED CANCER DEVELOPMENT (I.E., CARCINOGENESIS), INCLUDING THE ACTIONS OF ACETALDEHYDE, THE FIRST AND PRIMARY METABOLITE OF ETHANOL, AND OXIDATIVE STRESS. HOWEVER, INCREASING EVIDENCE SUGGESTS THAT ABERRANT PATTERNS OF DNA METHYLATION, AN IMPORTANT EPIGENETIC MECHANISM OF TRANSCRIPTIONAL CONTROL, ALSO COULD BE PART OF THE PATHOGENETIC MECHANISMS THAT LEAD TO ALCOHOL-INDUCED CANCER DEVELOPMENT. THE EFFECTS OF ALCOHOL ON GLOBAL AND LOCAL DNA METHYLATION PATTERNS LIKELY ARE MEDIATED BY ITS ABILITY TO INTERFERE WITH THE AVAILABILITY OF THE PRINCIPAL BIOLOGICAL METHYL DONOR, S-ADENOSYLMETHIONINE (SAME), AS WELL AS PATHWAYS RELATED TO IT. SEVERAL MECHANISMS MAY MEDIATE THE EFFECTS OF ALCOHOL ON DNA METHYLATION, INCLUDING REDUCED FOLATE LEVELS AND INHIBITION OF KEY ENZYMES IN ONE-CARBON METABOLISM THAT ULTIMATELY LEAD TO LOWER SAME LEVELS, AS WELL AS INHIBITION OF ACTIVITY AND EXPRESSION OF ENZYMES INVOLVED IN DNA METHYLATION (I.E., DNA METHYLTRANSFERASES). FINALLY, VARIATIONS (I.E., POLYMORPHISMS) OF SEVERAL GENES INVOLVED IN ONE-CARBON METABOLISM ALSO MODULATE THE RISK OF ALCOHOL-ASSOCIATED CARCINOGENESIS. 2013 4 4683 44 NEW PERSPECTIVES ON FOLATE TRANSPORT IN RELATION TO ALCOHOLISM-INDUCED FOLATE MALABSORPTION--ASSOCIATION WITH EPIGENOME STABILITY AND CANCER DEVELOPMENT. FOLATES ARE MEMBERS OF THE B-CLASS OF VITAMINS, WHICH ARE REQUIRED FOR THE SYNTHESIS OF PURINES AND PYRIMIDINES, AND FOR THE METHYLATION OF ESSENTIAL BIOLOGICAL SUBSTANCES, INCLUDING PHOSPHOLIPIDS, DNA, AND NEUROTRANSMITTERS. FOLATES CANNOT BE SYNTHESIZED DE NOVO BY MAMMALS; HENCE, AN EFFICIENT INTESTINAL ABSORPTION PROCESS IS REQUIRED. INTESTINAL FOLATE TRANSPORT IS CARRIER-MEDIATED, PH-DEPENDENT AND ELECTRONEUTRAL, WITH SIMILAR AFFINITY FOR OXIDIZED AND REDUCED FOLIC ACID DERIVATIVES. THE VARIOUS TRANSPORTERS, I.E. REDUCED FOLATE CARRIER, PROTON-COUPLED FOLATE TRANSPORTER, FOLATE-BINDING PROTEIN, AND ORGANIC ANION TRANSPORTERS, ARE INVOLVED IN THE FOLATE TRANSPORT PROCESS IN VARIOUS TISSUES. ANY IMPAIRMENT IN UPTAKE OF FOLATE CAN LEAD TO A STATE OF FOLATE DEFICIENCY, THE MOST PREVALENT VITAMIN DEFICIENCY IN WORLD, AFFECTING 10% OF THE POPULATION IN THE USA. SUCH IMPAIRMENTS IN FOLATE TRANSPORT OCCUR IN A VARIETY OF CONDITIONS, INCLUDING CHRONIC USE OF ETHANOL, SOME INBORN HEREDITARY DISORDERS, AND CERTAIN DISEASES. AMONG THESE, ETHANOL INGESTION HAS BEEN THE MAJOR CONTRIBUTOR TO FOLATE DEFICIENCY. ETHANOL-ASSOCIATED FOLATE DEFICIENCY CAN DEVELOP BECAUSE OF DIETARY INADEQUACY, INTESTINAL MALABSORPTION, ALTERED HEPATOBILIARY METABOLISM, ENHANCED COLONIC METABOLISM, AND INCREASED RENAL EXCRETION. ETHANOL REDUCES THE INTESTINAL AND RENAL UPTAKE OF FOLATE BY ALTERING THE BINDING AND TRANSPORT KINETICS OF FOLATE TRANSPORT SYSTEMS. ALSO, ETHANOL REDUCES THE EXPRESSION OF FOLATE TRANSPORTERS IN BOTH INTESTINE AND KIDNEY, AND THIS MIGHT BE A CONTRIBUTING FACTOR FOR FOLATE MALABSORPTION, LEADING TO FOLATE DEFICIENCY. THE MAINTENANCE OF INTRACELLULAR FOLATE HOMEOSTASIS IS ESSENTIAL FOR THE ONE-CARBON TRANSFER REACTIONS NECESSARY FOR DNA SYNTHESIS AND BIOLOGICAL METHYLATION REACTIONS. DNA METHYLATION IS AN IMPORTANT EPIGENETIC DETERMINANT IN GENE EXPRESSION, IN THE MAINTENANCE OF DNA INTEGRITY AND STABILITY, IN CHROMOSOMAL MODIFICATIONS, AND IN THE DEVELOPMENT OF MUTATIONS. ETHANOL, A TOXIN THAT IS CONSUMED REGULARLY, HAS BEEN FOUND TO AFFECT THE METHYLATION OF DNA. IN ADDITION TO ITS EFFECT ON DNA METHYLATION DUE TO FOLATE DEFICIENCY, ETHANOL COULD DIRECTLY EXERT ITS EFFECT THROUGH ITS INTERACTION WITH ONE-CARBON METABOLISM, IMPAIRMENT OF METHYL GROUP SYNTHESIS, AND AFFECTING THE ENZYMES REGULATING THE SYNTHESIS OF S-ADENOSYLMETHIONINE, THE PRIMARY METHYL GROUP DONOR FOR MOST BIOLOGICAL METHYLATION REACTIONS. THUS, ETHANOL PLAYS AN IMPORTANT ROLE IN THE PATHOGENESIS OF SEVERAL DISEASES THROUGH ITS POTENTIAL ABILITY TO MODULATE THE METHYLATION OF BIOLOGICAL MOLECULES. THIS REVIEW DISCUSSES THE UNDERLYING MECHANISM OF FOLATE MALABSORPTION IN ALCOHOLISM, THE MECHANISM OF METHYLATION-ASSOCIATED SILENCING OF GENES, AND HOW THE INTERACTION BETWEEN ETHANOL AND FOLATE DEFICIENCY AFFECTS THE METHYLATION OF GENES, THEREBY MODULATING EPIGENOME STABILITY AND THE RISK OF CANCER. 2009 5 3438 51 HYPERHOMOCYSTEINEMIA IN UREMIA--A RED FLAG IN A DISRUPTED CIRCUIT. HYPERHOMOCYSTEINEMIA IS AN INDEPENDENT CARDIOVASCULAR RISK FACTOR, ACCORDING TO MOST OBSERVATIONAL STUDIES AND TO STUDIES USING THE MENDELIAN RANDOMIZATION APPROACH, UTILIZING THE COMMON POLYMORPHISM C677T OF METHYLENE TETRAHYDROFOLATE REDUCTASE. IN CONTRAST, THE MOST RECENT SECONDARY PREVENTIVE INTERVENTION STUDIES, IN THE GENERAL POPULATION AND IN CHRONIC KIDNEY DISEASE (CKD) AND UREMIA, WHICH ARE ALL NEGATIVE (WITH THE POSSIBLE NOTABLE EXCEPTION OF STROKE), POINT TO OTHER DIRECTIONS. HOWEVER, ALL TRIALS USE FOLIC ACID IN VARIOUS DOSAGES AS A MEANS TO REDUCE HOMOCYSTEINE LEVELS, WITH THE ADDITION OF VITAMINS B6 AND B12. IT IS POSSIBLE THAT FOLIC ACID HAS NEGATIVE EFFECTS, WHICH OFFSET THE BENEFITS; ALTERNATIVELY, HOMOCYSTEINE COULD BE AN INNOCENT BY-STANDER, OR A SURROGATE OF THE REAL CULPRIT. THE LATTER POSSIBILITY LEADS US TO THE SEARCH FOR POTENTIAL CANDIDATES. FIRST, THE ACCUMULATION OF HOMOCYSTEINE IN BLOOD LEADS TO AN INTRACELLULAR INCREASE OF S-ADENOSYLHOMOCYSTEINE (ADOHCY), A POWERFUL COMPETITIVE METHYLTRANSFERASE INHIBITOR, WHICH BY ITSELF IS CONSIDERED A PREDICTOR OF CARDIOVASCULAR EVENTS. DNA METHYLTRANSFERASES ARE AMONG THE PRINCIPAL TARGETS OF HYPERHOMOCYSTEINEMIA, AS STUDIES IN SEVERAL CELL CULTURE AND ANIMAL MODELS, AS WELL AS IN HUMANS, SHOW. IN CKD AND IN UREMIA, HYPERHOMOCYSTEINEMIA AND HIGH INTRACELLULAR ADOHCY ARE PRESENT AND ARE ASSOCIATED WITH ABNORMAL ALLELIC EXPRESSION OF GENES REGULATED THROUGH METHYLATION, SUCH AS IMPRINTED GENES, AND PSEUDOAUTOSOMAL GENES, THUS POINTING TO EPIGENETIC DYSREGULATION. THESE ALTERATIONS ARE SUSCEPTIBLE TO REVERSAL UPON HOMOCYSTEINE-LOWERING THERAPY OBTAINED THROUGH FOLATE ADMINISTRATION. SECOND, IT HAS TO BE KEPT IN MIND THAT HOMOCYSTEINE IS MAINLY PROTEIN-BOUND, AND ITS EFFECTS COULD BE LINKED THEREFORE TO PROTEIN HOMOCYSTEINYLATION. IN THIS RESPECT, INCREASED PROTEIN HOMOCYSTEINYLATION HAS BEEN FOUND IN UREMIA, LEADING TO ALTERATIONS IN PROTEIN FUNCTION. 2009 6 2833 27 FOLATE AND DNA METHYLATION: A REVIEW OF MOLECULAR MECHANISMS AND THE EVIDENCE FOR FOLATE'S ROLE. DNA METHYLATION IS AN EPIGENETIC MODIFICATION CRITICAL TO NORMAL GENOME REGULATION AND DEVELOPMENT. THE VITAMIN FOLATE IS A KEY SOURCE OF THE ONE CARBON GROUP USED TO METHYLATE DNA. BECAUSE NORMAL MAMMALIAN DEVELOPMENT IS DEPENDENT ON DNA METHYLATION, THERE IS ENORMOUS INTEREST IN ASSESSING THE POTENTIAL FOR CHANGES IN FOLATE INTAKE TO MODULATE DNA METHYLATION BOTH AS A BIOMARKER FOR FOLATE STATUS AND AS A MECHANISTIC LINK TO DEVELOPMENTAL DISORDERS AND CHRONIC DISEASES INCLUDING CANCER. THIS REVIEW HIGHLIGHTS THE ROLE OF DNA METHYLATION IN NORMAL GENOME FUNCTION, HOW IT CAN BE ALTERED, AND THE EVIDENCE OF THE ROLE OF FOLATE/FOLIC ACID IN THESE PROCESSES. 2012 7 948 27 CHRONIC METABOLIC DERANGEMENT-INDUCED COGNITIVE DEFICITS AND NEUROTOXICITY ARE ASSOCIATED WITH REST INACTIVATION. CHRONIC METABOLIC ALTERATIONS MAY REPRESENT A RISK FACTOR FOR THE DEVELOPMENT OF COGNITIVE IMPAIRMENT, DEMENTIA, OR NEURODEGENERATIVE DISEASES. HYPERGLYCEMIA AND OBESITY ARE KNOWN TO IMPRINT EPIGENETIC MARKERS THAT COMPROMISE THE PROPER EXPRESSION OF CELL SURVIVAL GENES. HERE, WE SHOWED THAT CHRONIC HYPERGLYCEMIA (60 DAYS) INDUCED BY A SINGLE INTRAPERITONEAL INJECTION OF STREPTOZOTOCIN COMPROMISED COGNITION BY REDUCING HIPPOCAMPAL ERK SIGNALING AND BY INDUCING NEUROTOXICITY IN RATS. THE MECHANISMS APPEAR TO BE LINKED TO REDUCED ACTIVE DNA DEMETHYLATION AND DIMINISHED EXPRESSION OF THE NEUROPROTECTIVE TRANSCRIPTION FACTOR REST. THE IMPACT OF THE RELATIONSHIP BETWEEN ADIPOSITY AND DNA HYPERMETHYLATION ON REST EXPRESSION WAS ALSO DEMONSTRATED IN PERIPHERAL BLOOD MONONUCLEAR CELLS IN OBESE CHILDREN WITH REDUCED LEVELS OF BLOOD ASCORBATE. THE REVERSIBLE NATURE OF EPIGENETIC MODIFICATIONS AND THE COGNITIVE IMPAIRMENT REPORTED IN OBESE CHILDREN, ADOLESCENTS, AND ADULTS SUGGEST THAT THE CORRECTION OF THE ANTHROPOMETRY AND THE PERIPHERAL METABOLIC ALTERATIONS WOULD PROTECT BRAIN HOMEOSTASIS AND REDUCE THE RISK OF DEVELOPING NEURODEGENERATIVE DISEASES. 2019 8 6717 45 VITAMIN B SUPPLEMENTATION AND NUTRITIONAL INTAKE OF METHYL DONORS IN PATIENTS WITH CHRONIC KIDNEY DISEASE: A CRITICAL REVIEW OF THE IMPACT ON EPIGENETIC MACHINERY. CARDIOVASCULAR MORBIDITY AND MORTALITY ARE SEVERAL-FOLD HIGHER IN PATIENTS WITH ADVANCED CHRONIC KIDNEY DISEASE (CKD) AND END-STAGE RENAL DISEASE (ESRD) THAN IN THE GENERAL POPULATION. HYPERHOMOCYSTEINEMIA HAS UNDOUBTEDLY A CENTRAL ROLE IN SUCH A PROMINENT CARDIOVASCULAR BURDEN. THE LEVELS OF HOMOCYSTEINE ARE REGULATED BY METHYL DONORS (FOLATE, METHIONINE, CHOLINE, BETAINE), AND COFACTORS (VITAMIN B6, VITAMIN B12,). UREMIA-INDUCED HYPERHOMOCYSTEINEMIA HAS AS ITS MAIN TARGETS DNA METHYLTRANSFERASES, AND THIS LEADS TO AN ALTERED EPIGENETIC CONTROL OF GENES REGULATED THROUGH METHYLATION. IN RENAL PATIENTS, THE EPIGENETIC LANDSCAPE IS STRICTLY CORRELATED WITH THE UREMIC PHENOTYPE AND DEPENDENT ON DIETARY INTAKE OF MICRONUTRIENTS, INFLAMMATION, GUT MICROBIOME, INFLAMMATORY STATUS, OXIDATIVE STRESS, AND LIFESTYLE HABITS. ALL THESE FACTORS ARE KEY CONTRIBUTORS IN METHYLOME MAINTENANCE AND IN THE MODULATION OF GENE TRANSCRIPTION THROUGH DNA HYPO- OR HYPERMETHYLATION IN CKD. THIS IS AN OVERVIEW OF THE EPIGENETIC CHANGES RELATED TO DNA METHYLATION IN PATIENTS WITH ADVANCED CKD AND ESRD. WE EXPLORED THE CURRENTLY AVAILABLE DATA ON THE MOLECULAR DYSREGULATIONS RESULTING FROM ALTERED GENE EXPRESSION IN UREMIA. SPECIAL ATTENTION WAS PAID TO THE EFFICACY OF B-VITAMINS SUPPLEMENTATION AND DIETARY INTAKE OF METHYL DONORS ON HOMOCYSTEINE LOWERING AND CARDIOVASCULAR PROTECTION. 2020 9 5587 44 ROLE OF S-ADENOSYLHOMOCYSTEINE IN CARDIOVASCULAR DISEASE AND ITS POTENTIAL EPIGENETIC MECHANISM. TRANSMETHYLATION REACTIONS UTILIZE S-ADENOSYLMETHIONINE (SAM) AS A METHYL DONOR AND ARE CENTRAL TO THE REGULATION OF MANY BIOLOGICAL PROCESSES: MORE THAN FIFTY SAM-DEPENDENT METHYLTRANSFERASES METHYLATE A BROAD SPECTRUM OF CELLULAR COMPOUNDS INCLUDING DNA, HISTONES, PHOSPHOLIPIDS AND OTHER SMALL MOLECULES. COMMON TO ALL SAM-DEPENDENT TRANSMETHYLATION REACTIONS IS THE RELEASE OF THE POTENT INHIBITOR S-ADENOSYLHOMOCYSTEINE (SAH) AS A BY-PRODUCT. SAH IS REVERSIBLY HYDROLYZED TO ADENOSINE AND HOMOCYSTEINE BY SAH HYDROLASE. HYPERHOMOCYSTEINEMIA IS AN INDEPENDENT RISK FACTOR FOR CARDIOVASCULAR DISEASE. HOWEVER, A MAJOR UNANSWERED QUESTION IS IF HOMOCYSTEINE IS CAUSALLY INVOLVED IN DISEASE PATHOGENESIS OR SIMPLY A PASSIVE AND INDIRECT INDICATOR OF A MORE COMPLEX MECHANISM. A CHRONIC ELEVATION IN HOMOCYSTEINE LEVELS RESULTS IN A PARALLEL INCREASE IN INTRACELLULAR OR PLASMA SAH, WHICH IS A MORE SENSITIVE BIOMARKER OF CARDIOVASCULAR DISEASE THAN HOMOCYSTEINE AND SUGGESTS THAT SAH IS A CRITICAL PATHOLOGICAL FACTOR IN HOMOCYSTEINE-ASSOCIATED DISORDERS. PREVIOUS REPORTS INDICATE THAT SUPPLEMENTATION WITH FOLATE AND B VITAMINS EFFICIENTLY LOWERS HOMOCYSTEINE LEVELS BUT NOT PLASMA SAH LEVELS, WHICH POSSIBLY EXPLAINS THE FAILURE OF HOMOCYSTEINE-LOWERING VITAMINS TO REDUCE VASCULAR EVENTS IN SEVERAL RECENT CLINICAL INTERVENTION STUDIES. FURTHERMORE, MORE STUDIES ARE FOCUSING ON THE ROLE AND MECHANISMS OF SAH IN DIFFERENT CHRONIC DISEASES RELATED TO HYPERHOMOCYSTEINEMIA, SUCH AS CARDIOVASCULAR DISEASE, KIDNEY DISEASE, DIABETES, AND OBESITY. THIS REVIEW SUMMARIZES THE CURRENT ROLE OF SAH IN CARDIOVASCULAR DISEASE AND ITS EFFECT ON SEVERAL RELATED RISK FACTORS. IT ALSO EXPLORES POSSIBLE THE MECHANISMS, SUCH AS EPIGENETICS AND OXIDATIVE STRESS, OF SAH. THIS ARTICLE IS PART OF A DIRECTED ISSUE ENTITLED: EPIGENETIC DYNAMICS IN DEVELOPMENT AND DISEASE. 2015 10 1855 33 ELEVATION IN S-ADENOSYLHOMOCYSTEINE AND DNA HYPOMETHYLATION: POTENTIAL EPIGENETIC MECHANISM FOR HOMOCYSTEINE-RELATED PATHOLOGY. CHRONIC NUTRITIONAL DEFICIENCIES IN FOLATE, CHOLINE, METHIONINE, VITAMIN B-6 AND/OR VITAMIN B-12 CAN PERTURB THE COMPLEX REGULATORY NETWORK THAT MAINTAINS NORMAL ONE-CARBON METABOLISM AND HOMOCYSTEINE HOMEOSTASIS. GENETIC POLYMORPHISMS IN THESE PATHWAYS CAN ACT SYNERGISTICALLY WITH NUTRITIONAL DEFICIENCIES TO ACCELERATE METABOLIC PATHOLOGY ASSOCIATED WITH OCCLUSIVE HEART DISEASE, BIRTH DEFECTS AND DEMENTIA. A MAJOR UNANSWERED QUESTION IS WHETHER HOMOCYSTEINE IS CAUSALLY INVOLVED IN DISEASE PATHOGENESIS OR WHETHER HOMOCYSTEINEMIA IS SIMPLY A PASSIVE AND INDIRECT INDICATOR OF A MORE COMPLEX MECHANISM. S-ADENOSYLMETHIONINE AND S-ADENOSYLHOMOCYSTEINE (SAH), AS THE SUBSTRATE AND PRODUCT OF METHYLTRANSFERASE REACTIONS, ARE IMPORTANT METABOLIC INDICATORS OF CELLULAR METHYLATION STATUS. CHRONIC ELEVATION IN HOMOCYSTEINE LEVELS RESULTS IN PARALLEL INCREASES IN INTRACELLULAR SAH AND POTENT PRODUCT INHIBITION OF DNA METHYLTRANSFERASES. SAH-MEDIATED DNA HYPOMETHYLATION AND ASSOCIATED ALTERATIONS IN GENE EXPRESSION AND CHROMATIN STRUCTURE MAY PROVIDE NEW HYPOTHESES FOR PATHOGENESIS OF DISEASES RELATED TO HOMOCYSTEINEMIA. 2002 11 165 36 ABNORMAL HOMOCYSTEINE METABOLISM: AN INSIGHT OF ALZHEIMER'S DISEASE FROM DNA METHYLATION. ALZHEIMER'S DISEASE (AD) IS A CHRONIC NEURODEGENERATIVE DISEASE IN THE CENTRAL NERVOUS SYSTEM THAT HAS COMPLEX PATHOGENESIS IN THE ELDERLY. THE CURRENT REVIEW FOCUSES ON THE EPIGENETIC MECHANISMS OF AD, ACCORDING TO THE LATEST FINDINGS. ONE OF THE BEST-CHARACTERIZED CHROMATIN MODIFICATIONS IN EPIGENETIC MECHANISMS IS DNA METHYLATION. HIGHLY REPLICABLE DATA SHOWS THAT AD OCCURRENCE IS OFTEN ACCOMPANIED BY METHYLATION LEVEL CHANGES OF THE AD-RELATED GENE. HOMOCYSTEINE (HCY) IS NOT ONLY AN INTERMEDIATE PRODUCT OF ONE-CARBON METABOLISM BUT ALSO AN IMPORTANT INDEPENDENT RISK FACTOR OF AD; IT CAN AFFECT THE COGNITIVE FUNCTION OF THE BRAIN BY CHANGING THE ONE-CARBON METABOLISM AND INTERFERING WITH THE DNA METHYLATION PROCESS, RESULTING IN CEREBROVASCULAR DISEASE. IN GENERAL, HCY MAY BE AN ENVIRONMENTAL FACTOR THAT AFFECTS AD VIA THE DNA METHYLATION PATHWAY WITH A SERIES OF CHANGES IN AD-RELATED SUBSTANCE. THIS REVIEW WILL CONCENTRATE ON THE RELATION BETWEEN DNA METHYLATION AND HCY AND TRY TO FIGURE OUT THEIR RULE IN THE PATHOPHYSIOLOGY OF AD. 2020 12 6889 26 [S-ADENOSYL L-METHIONINE IN CNS DISEASES]. S-ADENOSYL L-METHIONINE (SAME) IS THE NATURAL, UNIVERSAL METHYL GROUP DONOR, PARTICIPATING IN TRANSMETHYLATION REACTIONS, KNOWN AND COMMONLY USED AS A DIETARY SUPPLEMENT SINCE 1952. IT PLAYS AN IMPORTANT ROLE IN THE SYNTHESIS OF NEUROMEDIATORS AND MELATONIN AND MECHANISMS OF EPIGENETIC REGULATION. THE AIM OF THIS ARTICLE IS TO REVIEW THE LITERATURE ABOUT POSSIBILITIES OF SAME APPLICATION IN THE THERAPY OF CNS DISEASES: DEPRESSION, DEMENTIA SYNDROMES, SCHIZOPHRENIA AND SOMATIC DISORDERS. SAME IS THE PROMISING DIETARY SUPPLEMENT, WHICH MAY BE SUCCESSFULLY USED AS A SUBSTANCE INCREASING EFFECTIVENESS OF THE TREATMENT OF DEPRESSION, WITH ANTIDEPRESSANTS IN MONOTHERAPY IN MILD DEPRESSIVE STATES OR DEPRESSIVE SYMPTOMS. SAME ADDITION TO ANTIPSYCHOTIC DRUG, MAY LEAD TO THE IMPROVEMENT OF THE QUALITY OF LIFE AND REDUCTION OF AGGRESSIVENESS OF PATIENTS. SAME MAY BE AN EFFECTIVE SUBSTANCE IN THE THERAPY AND PROPHYLAXIS OF MILD COGNITIVE IMPAIRMENTS AND MILD DEMENTIA SYNDROME. SAME POSSESSES SOME HEPATOPROTECTIVE ACTION, SO IT MAY DECREASE THE RISK OF THE DEVELOPMENT OF NEOPLASM, ALCOHOL-INDUCED LIVER DISEASE (ALD) AND CIRRHOSIS. SAME IMPROVES THE FUNCTIONS OF JOINTS AND DECREASES THE EXPERIENCE OF PAIN IN RHEUMATOID ARTHRITIS (RA). 2011 13 6133 42 THE EPIGENETIC ROLE OF VITAMIN C IN NEURODEVELOPMENT. THE MATERNAL DIET DURING PREGNANCY IS A KEY DETERMINANT OF OFFSPRING HEALTH. EARLY STUDIES HAVE LINKED POOR MATERNAL NUTRITION DURING GESTATION WITH A PROPENSITY FOR THE DEVELOPMENT OF CHRONIC CONDITIONS IN OFFSPRING. THESE CONDITIONS INCLUDE CARDIOVASCULAR DISEASE, TYPE 2 DIABETES AND EVEN COMPROMISED MENTAL HEALTH. WHILE MULTIPLE FACTORS MAY CONTRIBUTE TO THESE OUTCOMES, DISTURBED EPIGENETIC PROGRAMMING DURING EARLY DEVELOPMENT IS ONE POTENTIAL BIOLOGICAL MECHANISM. THE EPIGENOME IS PROGRAMMED PRIMARILY IN UTERO, AND DURING THIS TIME, THE DEVELOPING FETUS IS HIGHLY SUSCEPTIBLE TO ENVIRONMENTAL FACTORS SUCH AS NUTRITIONAL INSULTS. DURING NEURODEVELOPMENT, EPIGENETIC PROGRAMMING COORDINATES THE FORMATION OF PRIMITIVE CENTRAL NERVOUS SYSTEM STRUCTURES, NEUROGENESIS, AND NEUROPLASTICITY. DYSREGULATED EPIGENETIC PROGRAMMING HAS BEEN IMPLICATED IN THE AETIOLOGY OF SEVERAL NEURODEVELOPMENTAL DISORDERS SUCH AS TATTON-BROWN-RAHMAN SYNDROME. ACCORDINGLY, THERE IS GREAT INTEREST IN DETERMINING HOW MATERNAL NUTRIENT AVAILABILITY IN PREGNANCY MIGHT AFFECT THE EPIGENETIC STATUS OF OFFSPRING, AND HOW SUCH INFLUENCES MAY PRESENT PHENOTYPICALLY. IN RECENT YEARS, A NUMBER OF EPIGENETIC ENZYMES THAT ARE ACTIVE DURING EMBRYONIC DEVELOPMENT HAVE BEEN FOUND TO REQUIRE VITAMIN C AS A COFACTOR. THESE ENZYMES INCLUDE THE TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASES (TETS) AND THE JUMONJI C DOMAIN-CONTAINING HISTONE LYSINE DEMETHYLASES THAT CATALYSE THE OXIDATIVE REMOVAL OF METHYL GROUPS ON CYTOSINES AND HISTONE LYSINE RESIDUES, RESPECTIVELY. THESE ENZYMES ARE INTEGRAL TO EPIGENETIC REGULATION AND HAVE FUNDAMENTAL ROLES IN CELLULAR DIFFERENTIATION, THE MAINTENANCE OF PLURIPOTENCY AND DEVELOPMENT. THE DEPENDENCE OF THESE ENZYMES ON VITAMIN C FOR OPTIMAL CATALYTIC ACTIVITY ILLUSTRATES A POTENTIALLY CRITICAL CONTRIBUTION OF THE NUTRIENT DURING MAMMALIAN DEVELOPMENT. THESE INSIGHTS ALSO HIGHLIGHT A POTENTIAL RISK ASSOCIATED WITH VITAMIN C INSUFFICIENCY DURING PREGNANCY. THE LINK BETWEEN VITAMIN C INSUFFICIENCY AND DEVELOPMENT IS PARTICULARLY APPARENT IN THE CONTEXT OF NEURODEVELOPMENT AND HIGH VITAMIN C CONCENTRATIONS IN THE BRAIN ARE INDICATIVE OF IMPORTANT FUNCTIONAL REQUIREMENTS IN THIS ORGAN. ACCORDINGLY, THIS REVIEW CONSIDERS THE EVIDENCE FOR THE POTENTIAL IMPACT OF MATERNAL VITAMIN C STATUS ON NEURODEVELOPMENTAL EPIGENETICS. 2022 14 4788 37 NUTRITION, EPIGENETICS, AND METABOLIC SYNDROME. SIGNIFICANCE: EPIDEMIOLOGICAL AND ANIMAL STUDIES HAVE DEMONSTRATED A CLOSE LINK BETWEEN MATERNAL NUTRITION AND CHRONIC METABOLIC DISEASE IN CHILDREN AND ADULTS. COMPELLING EXPERIMENTAL RESULTS ALSO INDICATE THAT ADVERSE EFFECTS OF INTRAUTERINE GROWTH RESTRICTION ON OFFSPRING CAN BE CARRIED FORWARD TO SUBSEQUENT GENERATIONS THROUGH COVALENT MODIFICATIONS OF DNA AND CORE HISTONES. RECENT ADVANCES: DNA METHYLATION IS CATALYZED BY S-ADENOSYLMETHIONINE-DEPENDENT DNA METHYLTRANSFERASES. METHYLATION, DEMETHYLATION, ACETYLATION, AND DEACETYLATION OF HISTONE PROTEINS ARE PERFORMED BY HISTONE METHYLTRANSFERASE, HISTONE DEMETHYLASE, HISTONE ACETYLTRANSFERASE, AND HISTONE DEACETYLTRANSFERASE, RESPECTIVELY. HISTONE ACTIVITIES ARE ALSO INFLUENCED BY PHOSPHORYLATION, UBIQUITINATION, ADP-RIBOSYLATION, SUMOYLATION, AND GLYCOSYLATION. METABOLISM OF AMINO ACIDS (GLYCINE, HISTIDINE, METHIONINE, AND SERINE) AND VITAMINS (B6, B12, AND FOLATE) PLAYS A KEY ROLE IN PROVISION OF METHYL DONORS FOR DNA AND PROTEIN METHYLATION. CRITICAL ISSUES: DISRUPTION OF EPIGENETIC MECHANISMS CAN RESULT IN OXIDATIVE STRESS, OBESITY, INSULIN RESISTANCE, DIABETES, AND VASCULAR DYSFUNCTION IN ANIMALS AND HUMANS. DESPITE A RECOGNIZED ROLE FOR EPIGENETICS IN FETAL PROGRAMMING OF METABOLIC SYNDROME, RESEARCH ON THERAPIES IS STILL IN ITS INFANCY. POSSIBLE INTERVENTIONS INCLUDE: 1) INHIBITION OF DNA METHYLATION, HISTONE DEACETYLATION, AND MICRORNA EXPRESSION; 2) TARGETING EPIGENETICALLY DISTURBED METABOLIC PATHWAYS; AND 3) DIETARY SUPPLEMENTATION WITH FUNCTIONAL AMINO ACIDS, VITAMINS, AND PHYTOCHEMICALS. FUTURE DIRECTIONS: MUCH WORK IS NEEDED WITH ANIMAL MODELS TO UNDERSTAND THE BASIC MECHANISMS RESPONSIBLE FOR THE ROLES OF SPECIFIC NUTRIENTS IN FETAL AND NEONATAL PROGRAMMING. SUCH NEW KNOWLEDGE IS CRUCIAL TO DESIGN EFFECTIVE THERAPEUTIC STRATEGIES FOR PREVENTING AND TREATING METABOLIC ABNORMALITIES IN OFFSPRING BORN TO MOTHERS WITH A PREVIOUS EXPERIENCE OF MALNUTRITION. 2012 15 2539 45 EPIGENETICS IN HYPERHOMOCYSTEINEMIC STATES. A SPECIAL FOCUS ON UREMIA. AIM OF THIS ARTICLE IS TO REVIEW THE TOPIC OF EPIGENETIC CONTROL OF GENE EXPRESSION, ESPECIALLY REGARDING DNA METHYLATION, IN CHRONIC KIDNEY DISEASE AND UREMIA. HYPERHOMOCYSTEINEMIA IS CONSIDERED AN INDEPENDENT CARDIOVASCULAR RISK FACTOR, ALTHOUGH THE MOST RECENT INTERVENTION STUDIES UTILIZING FOLIC ACID ARE NEGATIVE. THE ACCUMULATION OF HOMOCYSTEINE IN BLOOD LEADS TO AN INTRACELLULAR INCREASE OF S-ADENOSYLHOMOCYSTEINE (ADOHCY), A POWERFUL COMPETITIVE METHYLTRANSFERASE INHIBITOR, WHICH IS ITSELF CONSIDERED A PREDICTOR OF CARDIOVASCULAR EVENTS. THE EXTENT OF METHYLATION INHIBITION OF EACH INDIVIDUAL METHYLTRANSFERASE DEPENDS ON THE METHYL DONOR S-ADENOSYLMETHIONINE (ADOMET) AVAILABILITY, ON THE [ADOMET]/[ADOHCY] RATIO, AND ON THE INDIVIDUAL KM VALUE FOR ADOMET AND KI FOR ADOHCY. DNA METHYLTRANSFERASES ARE AMONG THE PRINCIPAL TARGETS OF HYPERHOMOCYSTEINEMIA, AS STUDIES IN SEVERAL CELL CULTURE AND ANIMAL MODELS, AS WELL AS IN HUMANS, ALMOST UNEQUIVOCALLY SHOW. IN VIVO, DNA METHYLATION MAY BE ALSO INFLUENCED BY VARIOUS FACTORS IN DIFFERENT TISSUES, FOR EXAMPLE BY RATE OF CELL GROWTH, FOLATE STATUS, ETC. AND IMPORTANTLY INFLAMMATION. IN CHRONIC KIDNEY DISEASE AND IN UREMIA, HYPERHOMOCYSTEINEMIA IS COMMONLY SEEN, AND CAN BE ASSOCIATED WITH GLOBAL DNA HYPOMETHYLATION, AND WITH ABNORMAL ALLELIC EXPRESSION OF GENES REGULATED THROUGH METHYLATION. THIS ALTERATION IS SUSCEPTIBLE OF REVERSAL UPON HOMOCYSTEINE-LOWERING THERAPY OBTAINED THROUGH FOLATE ADMINISTRATION. IF THIS ABNORMALITY WILL TRANSLATE ITSELF IN ALTERATIONS OF EXPRESSION OF GENES RELEVANT TO THE PATHOGENESIS OF THIS DISEASE STILL REMAINS TO BE ESTABLISHED. IN ADDITION, THESE RESULTS ESTABLISH A LINK BETWEEN THE EPIGENETIC CONTROL OF GENE EXPRESSION AND XENOBIOTIC INFLUENCES, SUCH AS FOLATE THERAPY. 2009 16 6257 27 THE MOLECULAR BASIS OF TOLERANCE. TOLERANCE IS DEFINED AS THE DIMINISHED RESPONSE TO ALCOHOL OR OTHER DRUGS OVER THE COURSE OF REPEATED OR PROLONGED EXPOSURE. THIS MECHANISM ALLOWS PHYSIOLOGICAL PROCESSES TO ACHIEVE STABILITY IN A CONSTANTLY CHANGING ENVIRONMENT. THE ONSET OF TOLERANCE MAY OCCUR WITHIN MINUTES, DURING A SINGLE EXPOSURE TO ALCOHOL (I.E., ACUTE TOLERANCE), OR OVER LONGER TIMEFRAMES AND WITH PROLONGED EXPOSURE TO ALCOHOL (I.E., RAPID OR CHRONIC TOLERANCE). CHANGES IN TOLERANCE INDUCED BY ALCOHOL MAY AFFECT SEVERAL PROCESSES AT THE MOLECULAR, CELLULAR, OR BEHAVIORAL LEVEL. THESE EFFECTS OFTEN ARE INTERRELATED AND MAY BE DIFFICULT TO SEPARATE. THIS ARTICLE DESCRIBES CHANGES AT THE MOLECULAR LEVEL THAT ARE RELATED TO THE ONSET OF ACUTE, RAPID, OR CHRONIC TOLERANCE. IT FOCUSES ON NEURONAL MEMBRANE-BOUND CHANNELS AND THE FACTORS THAT AFFECT THEIR FUNCTION AND PRODUCTION, SUCH AS MODIFICATION OF PROTEIN SYNTHESIS AND ACTIVITY, INTERACTION WITH THE MEMBRANE LIPID MICROENVIRONMENT, EPIGENETIC EFFECTS ON CYTOPLASMIC REGULATION, AND GENE TRANSCRIPTION. ALSO CONSIDERED IS THE GENETICS OF TOLERANCE. 2008 17 6775 42 [ALCOHOL DEPENDENCE MEDIATED BY MONOAMINE NEUROTRANSMITTERS IN THE CENTRAL NERVOUS SYSTEM]. ALCOHOL DEPENDENCE, A CHRONIC RELAPSING BRAIN DISEASE WITH THE CHARACTERISTICS OF DRINKING ALCOHOL OUT OF CONTROL, HAS BECOME A SERIOUS SOCIAL PROBLEM. MONOAMINE NEUROTRANSMITTERS, MAINLY INCLUDING DOPAMINE AND 5-HYDROXYTRYP NOTTAMINE, PLAY IMPORTANT ROLES IN THE OCCURRENCE, DEVELOPMENT AND NEURAL DYSFUNCTION OF ALCOHOL DEPENDENCE SYNDROME. IN THIS REVIEW, THE ROLES OF KEY FACTORS OF THE MONOAMINE SYSTEM (DOPAMINE RECEPTOR GENES, 5-HYDROXYTRYPTAMINE RECEPTOR GENES, TRANSPORTER GENES, TYROSINE HYDROXYLASE GENE, TRYPTOPHANHYDROXYLASE GENE AND MONOAMINE OXIDASE GENE) IN ALCOHOL DEPENDENCE WERE DISCUSSED, AND STRATEGIES FOR FURTHER STUDIES OF MOLECULAR MECHANISMS WERE PROPOSED BASED ON GENE KNOCKOUT MICE MODELS GENERATED IN OUR LABORATORY. THEN, COMBINING WITH STUDIES ON TYROSINE HYDROXYLASE ACTIVATOR CAMKII IN OUR LAB, THERAPEUTIC TARGETS WERE DISCUSSED. BESIDES, EPIGENETIC STRATEGIES FOR PREVENTION AND TREATMENT OF ALCOHOL DEPENDENCE SYNDROME WERE PROPOSED. FURTHERMORE, MANIPULATING METHYLATION LEVELS IN GENE REGULATORY REGIONS AND ALTERNATIVE SPLICING OF PRE-MRNAS MIGHT ALSO HAVE CLINICAL IMPLICATIONS. FINALLY, BASED ON NEW FINDINGS ON GENETIC POLYMORPHISM, IT IS OF GREAT POTENTIAL TO CARRY OUT INDIVIDUAL PREVENTION AND TREATMENT FOR PATIENTS SUFFERING FROM ALCOHOL DEPENDENCE. 2014 18 679 23 BRAIN FOODS - THE ROLE OF DIET IN BRAIN PERFORMANCE AND HEALTH. THE PERFORMANCE OF THE HUMAN BRAIN IS BASED ON AN INTERPLAY BETWEEN THE INHERITED GENOTYPE AND EXTERNAL ENVIRONMENTAL FACTORS, INCLUDING DIET. FOOD AND NUTRITION, ESSENTIAL IN MAINTENANCE OF BRAIN PERFORMANCE, ALSO AID IN PREVENTION AND TREATMENT OF MENTAL DISORDERS. BOTH THE OVERALL COMPOSITION OF THE HUMAN DIET AND SPECIFIC DIETARY COMPONENTS HAVE BEEN SHOWN TO HAVE AN IMPACT ON BRAIN FUNCTION IN VARIOUS EXPERIMENTAL MODELS AND EPIDEMIOLOGICAL STUDIES. THIS NARRATIVE REVIEW PROVIDES AN OVERVIEW OF THE ROLE OF DIET IN 5 KEY AREAS OF BRAIN FUNCTION RELATED TO MENTAL HEALTH AND PERFORMANCE, INCLUDING: (1) BRAIN DEVELOPMENT, (2) SIGNALING NETWORKS AND NEUROTRANSMITTERS IN THE BRAIN, (3) COGNITION AND MEMORY, (4) THE BALANCE BETWEEN PROTEIN FORMATION AND DEGRADATION, AND (5) DETERIORATIVE EFFECTS DUE TO CHRONIC INFLAMMATORY PROCESSES. FINALLY, THE ROLE OF DIET IN EPIGENETIC REGULATION OF BRAIN PHYSIOLOGY IS DISCUSSED. 2021 19 6324 34 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 20 5645 31 SEX DEPENDENT ALTERATION OF EPIGENETIC MARKS AFTER CHRONIC MORPHINE TREATMENT IN MICE ORGANS. EPIGENETIC MARKS MAY BE ALSO AFFECTED BY SEVERAL FACTORS, SUCH AS AGE, LIFESTYLE, EARLY LIFE EXPERIENCES AND EXPOSURE TO CHEMICALS OR DRUGS, SUCH AS OPIOIDS. PREVIOUS STUDIES HAVE FOCUSED ON HOW MORPHINE EPIGENETICALLY REGULATES DIFFERENT REGIONS OF THE BRAIN THAT ARE IMPLICATED IN TOLERANCE, DEPENDENCE AND OTHER PSYCHIATRIC DISORDERS MORE RELATED TO THE PHYSIO-PATHOLOGICAL EFFECTS OF OPIOIDS. NEVERTHELESS, A SIGNIFICANT KNOWLEDGE GAP REMAINS REGARDING THE EFFECT OF CHRONIC TREATMENT ON OTHER ORGANS AND BIOLOGICAL SYSTEMS. THEREFORE, THE AIM OF THIS WORK IS TO INCREASE OUR KNOWLEDGE ABOUT THE IMPACT OF CHRONIC MORPHINE EXPOSURE ON DNA METHYLATION AND HISTONE MODIFICATION LEVELS IN EACH OF THE ORGANS OF MALE AND FEMALE MODEL MICE IN VIVO. OUR RESULTS REVEAL, FOR THE FIRST TIME, THAT CHRONIC MORPHINE TREATMENT INDUCED CHANGES IN DNA METHYLATION/HYDROXYMETHYLATION AND HISTONE MODIFICATION IN-VIVO AT THE SYSTEMIC LEVEL, REVEALING A POTENTIAL PHYSIOLOGICAL EFFECT ON THE REGULATION OF GENE EXPRESSION. NOTABLY, MORPHINE-INDUCED EPIGENETIC MODIFICATION OCCURS IN A SEX-DEPENDENT MANNER, REVEALING THE EXISTENCE OF DIFFERENT UNDERLYING MECHANISMS OF EPIGENETIC MODIFICATION IN MALE AND FEMALE MICE. 2021