1 853 117 CHOLINE, OTHER METHYL-DONORS AND EPIGENETICS. CHOLINE DIETARY INTAKE VARIES SUCH THAT MANY PEOPLE DO NOT ACHIEVE ADEQUATE INTAKES. DIET INTAKE OF CHOLINE CAN MODULATE METHYLATION BECAUSE, VIA BETAINE HOMOCYSTEINE METHYLTRANSFERASE (BHMT), THIS NUTRIENT (AND ITS METABOLITE, BETAINE) REGULATE THE CONCENTRATIONS OF S-ADENOSYLHOMOCYSTEINE AND S-ADENOSYLMETHIONINE. SOME OF THE EPIGENETIC MECHANISMS THAT MODIFY GENE EXPRESSION WITHOUT MODIFYING THE GENETIC CODE DEPEND ON THE METHYLATION OF DNA OR OF HISTONES; AND DIET AVAILABILITY OF CHOLINE AND OTHER METHYL-GROUP DONORS INFLUENCES BOTH OF THESE METHYLATIONS. EXAMPLES OF METHYL-DONOR MEDIATED EPIGENETIC EFFECTS INCLUDE THE CHANGES IN COAT COLOR AND BODY WEIGHT IN OFFSPRING WHEN PREGNANT AGOUTI MICE ARE FED HIGH CHOLINE, HIGH METHYL DIETS; THE CHANGES IN TAIL KINKING IN OFFSPRING WHEN PREGNANT AXIN(FU) MICE ARE FED HIGH CHOLINE, HIGH METHYL DIETS; THE CHANGES IN CDKN3 METHYLATION AND ALTERED BRAIN DEVELOPMENT THAT OCCURS IN OFFSPRING WHEN PREGNANT RODENTS ARE FED LOW CHOLINE DIETS. WHEN CHOLINE METABOLISM IS DISRUPTED BY DELETING THE GENE BHMT, DNA METHYLATION IS AFFECTED (ESPECIALLY IN A REGION OF CHROMOSOME 13), EXPRESSION OF SPECIFIC GENES IS SUPPRESSED, AND LIVER CANCERS DEVELOP. BETTER UNDERSTANDING OF HOW NUTRIENTS SUCH AS CHOLINE AND METHYL-DONORS INFLUENCE EPIGENETIC PROGRAMS HAS IMPORTANCE FOR OUR UNDERSTANDING OF NOT ONLY DEVELOPMENTAL ABNORMALITIES BUT ALSO FOR UNDERSTANDING THE ORIGINS OF CHRONIC DISEASES. 2017 2 2158 50 EPIGENETIC MECHANISMS FOR NUTRITION DETERMINANTS OF LATER HEALTH OUTCOMES. EPIGENETIC MARKING ON GENES CAN DETERMINE WHETHER OR NOT GENES ARE EXPRESSED. EPIGENETIC REGULATION IS MEDIATED BY THE ADDITION OF METHYL GROUPS TO DNA CYTOSINE BASES, OF METHYL AND ACETYL GROUPS TO PROTEINS (HISTONES) AROUND WHICH DNA IS WRAPPED, AND BY SMALL INTERFERING RNA MOLECULES. SOME COMPONENTS OF EPIGENETIC REGULATION HAVE EVOLVED TO PERMIT CONTROL OF WHETHER MATERNAL OR PATERNAL GENES ARE EXPRESSED. THE EPIGENETIC IMPRINTING OF IGF2 EXPRESSION IS AN EXAMPLE OF MATERNAL AND PATERNAL EPIGENETIC MARKING THAT MODULATES FETAL GROWTH AND FETAL SIZE. HOWEVER, EPIGENETIC REGULATION ALSO PERMITS THE FETUS AND THE INFANT TO ADAPT GENE EXPRESSION TO THE ENVIRONMENT IN WHICH IT IS GROWING; SOMETIMES WHEN THIS ADJUSTMENT GOES AWRY, THE RISK OF CHRONIC DISEASE IS INCREASED. RECENT PROGRESS IN THE UNDERSTANDING OF NUTRITIONAL INFLUENCES ON EPIGENETICS SUGGESTS THAT NUTRIENTS THAT ARE PART OF METHYL-GROUP METABOLISM CAN SIGNIFICANTLY INFLUENCE EPIGENETICS. DURING CRITICAL PERIODS IN DEVELOPMENT, DIETARY METHYL-GROUP INTAKE (CHOLINE, METHIONINE, AND FOLATE) CAN ALTER DNA AND HISTONE METHYLATION, WHICH RESULTS IN LIFELONG CHANGES IN GENE EXPRESSION. IN RODENT MODELS, PREGNANT DAMS THAT WERE FED DIETS HIGH IN METHIONINE, FOLIC ACID, AND CHOLINE PRODUCED OFFSPRING WITH DIFFERENT COAT COLORS OR WITH KINKED TAILS. A NUMBER OF SYNDROMES IN HUMANS CAN BE CAUSED BY DEFECTIVE EPIGENETIC REGULATION, INCLUDING RETT SYNDROME. THERE ARE INTERESTING EXAMPLES OF THE EFFECTS OF NUTRITION IN EARLY LIFE THAT RESULT IN ALTERED HEALTH IN ADULTS, AND SOME OF THESE COULD BE THE RESULT OF ALTERED EPIGENETIC REGULATION OF GENE EXPRESSION. 2009 3 4086 37 MATERNAL OBESITY DISRUPTS THE METHIONINE CYCLE IN BABOON PREGNANCY. MATERNAL INTAKE OF DIETARY METHYL-MICRONUTRIENTS (E.G. FOLATE, CHOLINE, BETAINE AND VITAMIN B-12) DURING PREGNANCY IS ESSENTIAL FOR NORMAL MATERNAL AND FETAL METHIONINE METABOLISM, AND IS CRITICAL FOR IMPORTANT METABOLIC PROCESSES INCLUDING THOSE INVOLVED IN DEVELOPMENTAL PROGRAMMING. MATERNAL OBESITY AND NUTRIENT EXCESS DURING PREGNANCY INFLUENCE DEVELOPMENTAL PROGRAMMING POTENTIALLY PREDISPOSING ADULT OFFSPRING TO A VARIETY OF CHRONIC HEALTH PROBLEMS. IN THE PRESENT STUDY, WE HYPOTHESIZED THAT MATERNAL OBESITY WOULD DYSREGULATE THE MATERNAL AND FETAL METHIONINE CYCLE. TO TEST THIS HYPOTHESIS, WE DEVELOPED A NULLIPAROUS BABOON OBESITY MODEL FED A HIGH FAT, HIGH ENERGY DIET (HF-HED) PRIOR TO AND DURING GESTATION, AND EXAMINED METHIONINE CYCLE BIOMARKERS (E.G., CIRCULATING CONCENTRATIONS OF HOMOCYSTEINE, METHIONINE, CHOLINE, BETAINE, KEY AMINO ACIDS, FOLATE, AND VITAMIN B-12). ANIMALS WERE GROUP HOUSED ALLOWING FULL PHYSICAL ACTIVITY AND SOCIAL INTERACTION. MATERNAL PREPREGNANCY PERCENT BODY FAT WAS 5% IN CONTROLS AND 19% IN HF-HED MOTHERS, WHILE FETAL WEIGHT WAS 16% LOWER IN OFFSPRING OF HF-HED MOTHERS AT TERM. MATERNAL AND FETAL HOMOCYSTEINE WERE HIGHER, WHILE MATERNAL AND FETAL VITAMIN B-12 AND BETAINE WERE LOWER IN THE HF-HED GROUP. ELEVATIONS IN CIRCULATING MATERNAL FOLATE WERE EVIDENT IN THE HF-HED GROUP INDICATING IMPAIRED FOLATE METABOLISM (METHYL-TRAP) AS A CONSEQUENCE OF MATERNAL VITAMIN B-12 DEPLETION. FINALLY, FETAL METHIONINE, GLYCINE, SERINE, AND TAURINE WERE LOWER IN THE HF-HED FETUSES. THESE DATA SHOW THAT MATERNAL OBESITY DISTURBS THE METHIONINE CYCLE IN PRIMATE PREGNANCY, PROVIDING A MECHANISM FOR THE EPIGENETIC CHANGES OBSERVED AMONG OBESE PREGNANT WOMEN AND SUGGESTING DIAGNOSTIC AND THERAPEUTIC OPPORTUNITIES IN HUMAN PREGNANCIES COMPLICATED BY OBESITY. 2015 4 48 32 A CRUCIAL ROLE FOR MATERNAL DIETARY METHYL DONOR INTAKE IN EPIGENETIC PROGRAMMING AND FETAL GROWTH OUTCOMES. THE FETAL ORIGINS OF HEALTH AND DISEASE FRAMEWORK HAS IDENTIFIED EXTREMES IN FETAL GROWTH AND BIRTH WEIGHT AS FACTORS ASSOCIATED WITH THE LIFELONG GENERATION OF CHRONIC DISEASES SUCH AS OBESITY, DIABETES, CARDIOVASCULAR DISEASE, AND HYPERTENSION. MATERNAL NUTRITION PLAYS A CRITICAL ROLE IN FETAL AND PLACENTAL DEVELOPMENT, IN PART BY PROVIDING THE METHYL GROUPS REQUIRED TO ESTABLISH THE FETUS'S GENOME STRUCTURE AND FUNCTION, NOTABLY THROUGH DNA METHYLATION. THE GOAL OF THIS NARRATIVE REVIEW IS TO DESCRIBE THE ROLE OF MATERNAL DIETARY METHYL DONOR (METHIONINE, FOLATE, AND CHOLINE) AND COFACTOR (ZINC AND VITAMINS B2, B6, AND B12) INTAKE IN ONE-CARBON METABOLISM AND DNA METHYLATION IN THE FETUS AND PLACENTA, AS WELL AS THEIR IMPACTS ON FETAL GROWTH AND LIFELONG HEALTH OUTCOMES, WITH SPECIFIC EXAMPLES IN ANIMALS AND HUMANS. BASED ON THE AVAILABLE EVIDENCE, IT IS CONCLUDED THAT INTAKE OF DIFFERENT AMOUNTS OF DIETARY METHYL DONORS AND COFACTORS DURING PREGNANCY MAY ALTER FETAL GROWTH AND DEVELOPMENT, THUS ESTABLISHING A MAJOR LINK BETWEEN EARLY ENVIRONMENTAL EXPOSURE AND DISEASE DEVELOPMENT IN THE OFFSPRING LATER IN LIFE. 2018 5 6094 38 THE EFFECTS OF MATERNAL AND POSTNATAL DIETARY METHYL NUTRIENTS ON EPIGENETIC CHANGES THAT LEAD TO NON-COMMUNICABLE DISEASES IN ADULTHOOD. THE RISK FOR NON-COMMUNICABLE DISEASES IN ADULTHOOD CAN BE PROGRAMMED BY EARLY NUTRITION. THIS PROGRAMMING IS MEDIATED BY CHANGES IN EXPRESSION OF KEY GENES IN VARIOUS METABOLIC PATHWAYS DURING DEVELOPMENT, WHICH PERSIST INTO ADULTHOOD. THESE DEVELOPMENTAL MODIFICATIONS OF GENES ARE DUE TO EPIGENETIC ALTERATIONS IN DNA METHYLATION PATTERNS. RECENT STUDIES HAVE DEMONSTRATED THAT DNA METHYLATION CAN BE AFFECTED BY MATERNAL OR EARLY POSTNATAL DIETS. BECAUSE METHYL GROUPS FOR METHYLATION REACTIONS COME FROM METHIONINE CYCLE NUTRIENTS (I.E., METHIONINE, CHOLINE, BETAINE, FOLATE), DEFICIENCY OR SUPPLEMENTATION OF THESE METHYL NUTRIENTS CAN DIRECTLY CHANGE EPIGENETIC REGULATION OF GENES PERMANENTLY. ALTHOUGH MANY STUDIES HAVE DESCRIBED THE EARLY PROGRAMMING OF ADULT DISEASES BY MATERNAL AND INFANT NUTRITION, THIS REVIEW DISCUSSES STUDIES THAT HAVE ASSOCIATED EARLY DIETARY METHYL NUTRIENT MANIPULATION WITH DIRECT EFFECTS ON EPIGENETIC PATTERNS THAT COULD LEAD TO CHRONIC DISEASES IN ADULTHOOD. THE MATERNAL SUPPLY OF METHYL NUTRIENTS DURING GESTATION AND LACTATION CAN ALTER EPIGENETICS, BUT PROGRAMMING EFFECTS VARY DEPENDING ON THE TIMING OF DIETARY INTERVENTION, THE TYPE OF METHYL NUTRIENT MANIPULATED, AND THE TISSUE RESPONSIBLE FOR THE PHENOTYPE. MOREOVER, THE POSTNATAL MANIPULATION OF METHYL NUTRIENTS CAN PROGRAM EPIGENETICS, BUT MORE RESEARCH IS NEEDED ON WHETHER THIS APPROACH CAN RESCUE MATERNALLY PROGRAMMED OFFSPRING. 2020 6 1855 29 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 7 4219 38 METHYL-DONOR DEFICIENCY IN ADOLESCENCE AFFECTS MEMORY AND EPIGENETIC STATUS IN THE MOUSE HIPPOCAMPUS. DNA METHYLATION IS ONE OF THE ESSENTIAL FACTORS IN THE CONTROL OF GENE EXPRESSION. ALTERATION OF THE DNA METHYLATION PATTERN HAS BEEN LINKED TO VARIOUS NEUROLOGICAL, BEHAVIORAL AND NEUROCOGNITIVE DYSFUNCTIONS. RECENT STUDIES HAVE POINTED OUT THE IMPORTANCE OF EPIGENETICS IN BRAIN DEVELOPMENT AND FUNCTIONS INCLUDING LEARNING AND MEMORY. NUTRIENTS RELATED TO ONE-CARBON METABOLISM ARE KNOWN TO PLAY IMPORTANT ROLES IN THE MAINTENANCE OF GENOMIC DNA METHYLATION. PREVIOUS STUDIES HAVE SHOWN THAT THE LONG-TERM ADMINISTRATION OF A DIET LACKING ESSENTIAL ONE-CARBON NUTRIENTS SUCH AS METHIONINE, CHOLINE AND FOLIC ACID (METHYL DONORS) CAUSED GLOBAL DNA HYPERMETHYLATION IN THE BRAIN. THEREFORE, THE LONG-TERM FEEDING OF A METHYL-DONOR-DEFICIENT DIET MAY CAUSE ABNORMAL BRAIN DEVELOPMENT INCLUDING LEARNING AND MEMORY. TO CONFIRM THIS HYPOTHESIS, 3-WEEK-OLD MICE WERE MAINTAINED ON A FOLATE-, METHIONINE- AND CHOLINE-DEFICIENT (FMCD) OR CONTROL (CON) DIET FOR 3 WEEKS. WE FOUND THAT THE METHYL-DONOR DEFICIENCY IMPAIRED BOTH NOVEL OBJECT RECOGNITION AND FEAR EXTINCTION AFTER 3 WEEKS OF TREATMENT. THE FMCD GROUP SHOWED SPONTANEOUS RECOVERY OF FEAR THAT DIFFERED FROM THAT IN CON. IN ADDITION, WE FOUND DECREASED GRIA1 GENE EXPRESSION AND SPECIFIC CPG HYPERMETHYLATION OF THE GRIA1 PROMOTER REGION IN THE FMCD HIPPOCAMPUS. OUR DATA SUGGEST THAT A CHRONIC DIETARY LACK OF METHYL DONORS IN THE DEVELOPMENTAL PERIOD AFFECTS LEARNING, MEMORY AND GENE EXPRESSIONS IN THE HIPPOCAMPUS. 2015 8 6717 35 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 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 10 3649 30 INCREASED STRESS AND ALTERED EXPRESSION OF HISTONE MODIFYING ENZYMES IN BRAIN ARE ASSOCIATED WITH ABERRANT BEHAVIOUR IN VITAMIN B12 DEFICIENT FEMALE MICE. A SUB-OPTIMAL NUTRITIONAL ENVIRONMENT FROM EARLY LIFE CAN BE ENVISAGED AS A STRESSOR THAT TRANSLATES INTO MENTAL HEALTH PROBLEMS IN ADULTHOOD. AFTER CONSIDERING (A) THE WIDESPREAD PREVALENCE OF VITAMIN B12 DEFICIENCY ESPECIALLY AMONGST WOMEN IN DEVELOPING COUNTRIES AND (B) THE IMPORTANCE OF VITAMIN B12 IN NORMAL BRAIN FUNCTION, IN THIS STUDY WE HAVE ELUCIDATED THE BEHAVIOURAL CORRELATES OF CHRONIC SEVERE AND MODERATE VITAMIN B12 DEFICIENCY IN C57BL/6 MICE. FEMALE WEANLING MICE WERE ASSIGNED TO THREE DIETARY GROUPS: (A) CONTROL AIN-76A DIET WITH CELLULOSE AS DIETARY FIBRE (B) VITAMIN B12 RESTRICTED AIN-76A DIET WITH PECTIN AS DIETARY FIBRE (SEVERE DEFICIENCY GROUP) AND (C) VITAMIN B12 RESTRICTED AIN-76A DIET WITH CELLULOSE AS DIETARY FIBRE (MODERATE DEFICIENCY GROUP). THE MICE RECEIVED THESE DIETS THROUGHOUT PREGNANCY, LACTATION AND THEREAFTER. NEST-BUILDING, MATERNAL CARE, ANXIETY AND DEPRESSIVE BEHAVIOURS WERE EVALUATED. OXIDATIVE STRESS, ACTIVITIES OF ANTIOXIDANT ENZYMES AND EXPRESSION OF VARIOUS HISTONE MODIFYING ENZYMES IN BRAIN WERE INVESTIGATED TO UNRAVEL THE PROBABLE UNDERLYING MECHANISMS. OUR DATA SUGGESTS THAT BOTH SEVERE AND MODERATE VITAMIN B12 DEFICIENCY INDUCED ANXIETY AND IMPAIRED MATERNAL CARE. HOWEVER, ONLY SEVERE VITAMIN B12 DEFICIENCY INDUCED DEPRESSION. OXIDATIVE STRESS AND POOR ANTIOXIDANT DEFENSE UNDERLIE THE DELETERIOUS EFFECTS OF BOTH SEVERE AND MODERATE VITAMIN B12 DEFICIENCY. ALTERED EXPRESSION OF HISTONE MODIFYING ENZYMES IN THE BRAIN OF SEVERELY DEFICIENT MICE IS SUGGESTIVE OF EPIGENETIC REPROGRAMMING. THIS STUDY SUGGESTS THAT CHRONIC VITAMIN B12 DEFICIENCY LEADS TO BEHAVIOURAL ANOMALIES IN FEMALE C57BL/6 MICE AND THE SEVERITY OF THESE OUTCOMES CAN BE CORRELATED TO THE LEVEL OF DEFICIENCY. 2020 11 315 33 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 12 4683 42 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 13 4406 25 MOLECULAR ALTERATIONS IN HEPATOCARCINOGENESIS INDUCED BY DIETARY METHYL DEFICIENCY. A CHRONIC DEFICIENCY OF MAJOR DIETARY METHYL GROUP DONORS--METHIONINE, CHOLINE, FOLIC ACID, AND VITAMIN B12--CAN INDUCE THE DEVELOPMENT OF LIVER CANCER IN RODENTS. FEEDING METHYL-DEFICIENT DIETS CAUSES SEVERAL MOLECULAR ALTERATIONS, INCLUDING ALTERED LIPID METABOLISM, OXIDATIVE STRESS, DEREGULATED ONE-CARBON METABOLISM, AND A NUMBER OF EPIGENETIC ABNORMALITIES THAT RESULT IN PROGRESSIVE LIVER INJURY CULMINATING IN THE DEVELOPMENT OF PRIMARY LIVER TUMORS. IMPORTANTLY, THIS METHYL-DEFICIENT MODEL OF ENDOGENOUS HEPATOCARCINOGENESIS IS ONE OF THE MOST RELEVANT MODELS OF HUMAN LIVER CARCINOGENESIS THAT ALLOWS STUDYING LIVER CANCER PATHOGENESIS BY SUBSTANTIALLY COMPLEMENTING MANY SHORTCOMINGS OF HUMANS-ONLY STUDIES. IN THIS REVIEW, WE DESCRIBE MOLECULAR CHANGES AND THEIR ROLE IN PATHOGENESIS OF LIVER CARCINOGENESIS INDUCED BY METHYL DEFICIENCY. 2012 14 1520 37 DNA METHYLATION AT DIFFERENTIALLY METHYLATED REGIONS OF IMPRINTED GENES IS RESISTANT TO DEVELOPMENTAL PROGRAMMING BY MATERNAL NUTRITION. THE NUTRITIONAL ENVIRONMENT IN WHICH THE MAMMALIAN FETUS OR INFANT DEVELOP IS RECOGNIZED AS INFLUENCING THE RISK OF CHRONIC DISEASES, SUCH AS TYPE 2 DIABETES AND HYPERTENSION, IN A PHENOMENON THAT HAS BECOME KNOWN AS DEVELOPMENTAL PROGRAMMING. THE LATE ONSET OF SUCH DISEASES IN RESPONSE TO EARLIER TRANSIENT EXPERIENCES HAS LED TO THE SUGGESTION THAT DEVELOPMENTAL PROGRAMMING MAY HAVE AN EPIGENETIC COMPONENT, BECAUSE EPIGENETIC MARKS SUCH AS DNA METHYLATION OR HISTONE TAIL MODIFICATIONS COULD PROVIDE A PERSISTENT MEMORY OF EARLIER NUTRITIONAL STATES. ONE CLASS OF GENES THAT HAS BEEN CONSIDERED A POTENTIAL TARGET OR MEDIATOR OF PROGRAMMING EVENTS IS IMPRINTED GENES, BECAUSE THESE GENES CRITICALLY DEPEND UPON EPIGENETIC MODIFICATIONS FOR CORRECT EXPRESSION AND BECAUSE MANY IMPRINTED GENES HAVE ROLES IN CONTROLLING FETAL GROWTH AS WELL AS NEONATAL AND ADULT METABOLISM. IN THIS STUDY, WE HAVE USED AN ESTABLISHED MODEL OF DEVELOPMENTAL PROGRAMMING-ISOCALORIC PROTEIN RESTRICTION TO FEMALE MICE DURING GESTATION OR LACTATION-TO EXAMINE WHETHER THERE ARE EFFECTS ON EXPRESSION AND DNA METHYLATION OF IMPRINTED GENES IN THE OFFSPRING. WE FIND THAT ALTHOUGH EXPRESSION OF SOME IMPRINTED GENES IN LIVER OF OFFSPRING IS ROBUSTLY AND SUSTAINABLY CHANGED, METHYLATION OF THE DIFFERENTIALLY METHYLATED REGIONS (DMRS) THAT CONTROL THEIR MONOALLELIC EXPRESSION REMAINS LARGELY UNALTERED. WE CONCLUDE THAT DEREGULATION OF IMPRINTING THROUGH A GENERAL EFFECT ON DMR METHYLATION IS UNLIKELY TO BE A COMMON FACTOR IN DEVELOPMENTAL PROGRAMMING. 2012 15 5294 36 PROTECTIVE EFFECTS OF MATERNAL METHYL DONOR SUPPLEMENTATION ON ADULT OFFSPRING OF HIGH FAT DIET-FED DAMS. OBESITY HAS BECOME A GLOBAL PUBLIC HEALTH PROBLEM ASSOCIATED WITH METABOLIC DYSFUNCTION AND CHRONIC DISORDERS. IT HAS BEEN SHOWN THAT THE RISK OF OBESITY AND THE DNA METHYLATION PROFILES OF THE OFFSPRING CAN BE AFFECTED BY MATERNAL NUTRITION, SUCH AS HIGH-FAT DIET (HFD) CONSUMPTION. THE AIM OF THIS STUDY WAS TO INVESTIGATE WHETHER METABOLIC DYSREGULATION AND PHYSIOLOGICAL ABNORMALITIES IN OFFSPRING CAUSED BY MATERNAL HFD CAN BE ALLEVIATED BY THE TREATMENT OF METHYL DONORS DURING PREGNANCY AND LACTATION OF DAMS. FEMALE C57BL/6 MICE WERE ASSIGNED TO SPECIFIC GROUPS AND GIVEN DIFFERENT NUTRIENTS (CONTROL DIET, CONTROL+MET, HFD AND HFD+MET) THROUGHOUT GESTATION AND LACTATION. OFFSPRING OF EACH GROUP WERE WEANED ONTO A CONTROL DIET AT 3 WEEKS OF AGE. PHYSIOLOGICAL (WEIGHT GAIN AND ADIPOSE COMPOSITION) AND METABOLIC (PLASMA BIOCHEMICAL ANALYSES) OUTCOMES WERE ASSESSED IN MALE AND FEMALE ADULT OFFSPRING. EXPRESSION AND DNA METHYLATION PROFILES OF OBESOGENIC-RELATED GENES INCLUDING PPAR GAMMA, FATTY ACID SYNTHASE, LEPTIN AND ADIPONECTIN WERE ALSO DETECTED IN VISCERAL FAT OF OFFSPRING. THE RESULTS SHOWED THAT DIETARY SUPPLEMENTATION WITH METHYL DONORS CAN PREVENT THE ADVERSE EFFECTS OF MATERNAL HFD ON OFFSPRING. CHANGES IN THE EXPRESSION AND DNA METHYLATION OF OBESOGENIC-RELATED GENES INDICATED THAT EPIGENETIC REGULATION MAY CONTRIBUTE TO THE EFFECTS OF MATERNAL DIETARY FACTORS ON OFFSPRING OUTCOMES. 2016 16 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 17 4011 35 LOW PATERNAL DIETARY FOLATE ALTERS THE MOUSE SPERM EPIGENOME AND IS ASSOCIATED WITH NEGATIVE PREGNANCY OUTCOMES. EPIDEMIOLOGICAL STUDIES SUGGEST THAT A FATHER'S DIET CAN INFLUENCE OFFSPRING HEALTH. A PROPOSED MECHANISM FOR PATERNAL TRANSMISSION OF ENVIRONMENTAL INFORMATION IS VIA THE SPERM EPIGENOME. THE EPIGENOME INCLUDES HERITABLE INFORMATION SUCH AS DNA METHYLATION. WE HYPOTHESIZE THAT THE DIETARY SUPPLY OF METHYL DONORS WILL ALTER EPIGENETIC REPROGRAMMING IN SPERM. HERE WE FEED MALE MICE EITHER A FOLATE-DEFICIENT OR FOLATE-SUFFICIENT DIET THROUGHOUT LIFE. PATERNAL FOLATE DEFICIENCY IS ASSOCIATED WITH INCREASED BIRTH DEFECTS IN THE OFFSPRING, WHICH INCLUDE CRANIOFACIAL AND MUSCULOSKELETAL MALFORMATIONS. GENOME-WIDE DNA METHYLATION ANALYSIS AND THE SUBSEQUENT FUNCTIONAL ANALYSIS IDENTIFY DIFFERENTIAL METHYLATION IN SPERM OF GENES IMPLICATED IN DEVELOPMENT, CHRONIC DISEASES SUCH AS CANCER, DIABETES, AUTISM AND SCHIZOPHRENIA. WHILE >300 GENES ARE DIFFERENTIALLY EXPRESSED IN OFFSPRING PLACENTA, ONLY TWO CORRESPOND TO GENES WITH DIFFERENTIAL METHYLATION IN SPERM. THIS MODEL SUGGESTS EPIGENETIC TRANSMISSION MAY INVOLVE SPERM HISTONE H3 METHYLATION OR DNA METHYLATION AND THAT ADEQUATE PATERNAL DIETARY FOLATE IS ESSENTIAL FOR OFFSPRING HEALTH. 2013 18 5569 32 ROLE OF MATERNAL VITAMINS IN PROGRAMMING HEALTH AND CHRONIC DISEASE. VITAMIN CONSUMPTION PRIOR TO AND DURING PREGNANCY HAS INCREASED AS A RESULT OF PROACTIVE RECOMMENDATIONS BY HEALTH PROFESSIONALS, WIDE AVAILABILITY OF VITAMIN SUPPLEMENTS, AND LIBERAL FOOD-FORTIFICATION POLICIES. FOLIC ACID, ALONE OR IN COMBINATION WITH OTHER B VITAMINS, IS THE MOST RECOMMENDED VITAMIN CONSUMED DURING PREGNANCY BECAUSE DEFICIENCY OF THIS VITAMIN LEADS TO BIRTH DEFECTS IN THE INFANT. FOLIC ACID AND OTHER B VITAMINS ARE ALSO INTEGRAL COMPONENTS OF BIOCHEMICAL PROCESSES THAT ARE ESSENTIAL TO THE DEVELOPMENT OF REGULATORY SYSTEMS THAT CONTROL THE ABILITY OF THE OFFSPRING TO ADAPT TO THE EXTERNAL ENVIRONMENT. ALTHOUGH FEW HUMAN STUDIES HAVE INVESTIGATED THE LASTING EFFECTS OF HIGH VITAMIN INTAKES DURING PREGNANCY, ANIMAL MODELS HAVE SHOWN THAT EXCESS VITAMIN SUPPLEMENTATION DURING GESTATION IS ASSOCIATED WITH NEGATIVE METABOLIC EFFECTS IN BOTH THE MOTHERS AND THEIR OFFSPRING. THIS RESEARCH FROM ANIMAL MODELS, COMBINED WITH THE RECOGNITION THAT EPIGENETIC REGULATION OF GENE EXPRESSION IS PLASTIC, PROVIDES EVIDENCE FOR FURTHER EXAMINATION OF THESE RELATIONSHIPS IN THE LATER LIFE OF PREGNANT WOMEN AND THEIR CHILDREN. 2016 19 4217 29 METHYL DONOR NUTRIENTS IN CHRONIC KIDNEY DISEASE: IMPACT ON THE EPIGENETIC LANDSCAPE. EPIGENETIC ALTERATIONS, SUCH AS THOSE LINKED TO DNA METHYLATION, MAY POTENTIALLY PROVIDE MOLECULAR EXPLANATIONS FOR COMPLICATIONS ASSOCIATED WITH ALTERED GENE EXPRESSION IN ILLNESSES, SUCH AS CHRONIC KIDNEY DISEASE (CKD). ALTHOUGH BOTH DNA HYPO- AND HYPERMETHYLATION HAVE BEEN OBSERVED IN THE UREMIC MILIEU, THIS REMAINS ONLY A SINGLE ASPECT OF THE EPIGENETIC LANDSCAPE AND, THUS, OF ANY BIOCHEMICAL DYSREGULATION ASSOCIATED WITH CKD. NEVERTHELESS, THE ROLE OF UREMIA-PROMOTING ALTERATIONS ON THE EPIGENETIC LANDSCAPE REGULATING GENE EXPRESSION IS STILL A NOVEL AND SCARCELY STUDIED FIELD. ALTHOUGH FEW STUDIES HAVE ACTUALLY REPORTED ALTERATIONS OF DNA METHYLATION VIA METHYL DONOR NUTRIENT INTAKE, EMERGING EVIDENCE INDICATES THAT NUTRITIONAL MODIFICATION OF THE MICROBIOME CAN AFFECT ONE-CARBON METABOLISM AND THE CAPACITY TO METHYLATE THE GENOME IN CKD. IN THIS REVIEW, WE DISCUSS THE NUTRITIONAL MODIFICATIONS THAT MAY AFFECT ONE-CARBON METABOLISM AND THE POSSIBLE IMPACT OF METHYL DONOR NUTRIENTS ON THE MICROBIOME, CKD, AND ITS PHENOTYPE. 2019 20 6133 33 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