1 4088 133 MATERNAL OBESITY PROGRAMS OFFSPRING NON-ALCOHOLIC FATTY LIVER DISEASE THROUGH DISRUPTION OF 24-H RHYTHMS IN MICE. BACKGROUND: MATERNAL OBESITY INCREASES OFFSPRING PROPENSITY TO METABOLIC DYSFUNCTIONS AND TO NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD), WHICH MAY LEAD TO CIRRHOSIS OR LIVER CANCER. THE CIRCADIAN CLOCK IS A TRANSCRIPTIONAL/EPIGENETIC MOLECULAR MACHINERY SYNCHRONISING PHYSIOLOGICAL PROCESSES TO COORDINATE ENERGY UTILISATION WITHIN A 24-H LIGHT/DARK PERIOD. ALTERATIONS IN RHYTHMICITY HAVE PROFOUND EFFECTS ON METABOLIC PATHWAYS, WHICH WE SOUGHT TO INVESTIGATE IN OFFSPRING WITH PROGRAMMED NAFLD. METHODS: MICE WERE FED A STANDARD OR AN OBESOGENIC DIET (OD), BEFORE AND THROUGHOUT PREGNANCY, AND DURING LACTATION. OFFSPRING WERE WEANED ONTO STANDARD OR AN OD AT 3 WEEKS POSTPARTUM AND HOUSED IN 12:12 LIGHT/DARK CONDITIONS. BIOCHEMICAL AND HISTOLOGICAL INDICATORS OF NAFLD AND FIBROSIS, ANALYSIS OF CANONICAL CLOCK GENES WITH METHYLATION STATUS AND LOCOMOTOR ACTIVITY WERE INVESTIGATED AT 6 MONTHS. RESULTS: WE SHOW THAT MATERNAL OBESITY INTERACTS WITH AN OBESOGENIC POST-WEANING DIET TO PROMOTE THE DEVELOPMENT OF NAFLD WITH DISRUPTION OF CANONICAL METABOLIC RHYTHMICITY GENE EXPRESSION IN THE LIVER. WE DEMONSTRATE HYPERMETHYLATION OF BMAL-1 (BRAIN AND MUSCLE ARNT LIKE-1) AND PER2 PROMOTER REGIONS AND ALTERED 24-H RHYTHMICITY OF HEPATIC PRO-INFLAMMATORY AND FIBROGENIC MEDIATORS. CONCLUSIONS: THESE DATA IMPLICATE DISORDERED CIRCADIAN RHYTHMS IN NAFLD AND SUGGEST THAT DISRUPTION OF THIS SYSTEM DURING CRITICAL DEVELOPMENTAL PERIODS MAY BE RESPONSIBLE FOR THE ONSET OF CHRONIC LIVER DISEASE IN ADULTHOOD. 2015 2 5294 43 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 3 1017 37 CIRCADIAN RHYTHMS IN LIVER PHYSIOLOGY AND LIVER DISEASES. IN MAMMALS, CIRCADIAN RHYTHMS FUNCTION TO COORDINATE A DIVERSE PANEL OF PHYSIOLOGICAL PROCESSES WITH ENVIRONMENTAL CONDITIONS SUCH AS FOOD AND LIGHT. AS THE DRIVING FORCE FOR CIRCADIAN RHYTHMICITY, THE MOLECULAR CLOCK IS A SELF-SUSTAINED TRANSCRIPTION-TRANSLATIONAL FEEDBACK LOOP SYSTEM CONSISTING OF TRANSCRIPTION FACTORS, EPIGENETIC MODULATORS, KINASES/PHOSPHATASES, AND UBIQUITIN E3 LIGASES. THE MOLECULAR CLOCK EXISTS NOT ONLY IN THE SUPRACHIASMATIC NUCLEI OF THE HYPOTHALAMUS BUT ALSO IN THE PERIPHERAL TISSUES TO REGULATE CELLULAR AND PHYSIOLOGICAL FUNCTION IN A TISSUE-SPECIFIC MANNER. THE CIRCADIAN CLOCK SYSTEM IN THE LIVER PLAYS IMPORTANT ROLES IN REGULATING METABOLISM AND ENERGY HOMEOSTASIS. CLOCK GENE MUTANT ANIMALS DISPLAY IMPAIRED GLUCOSE AND LIPID METABOLISM AND ARE SUSCEPTIBLE TO DIET-INDUCED OBESITY AND METABOLIC DYSFUNCTION, PROVIDING STRONG EVIDENCE FOR THE CONNECTION BETWEEN THE CIRCADIAN CLOCK AND METABOLIC HOMEOSTASIS. CIRCADIAN-CONTROLLED HEPATIC METABOLISM IS PARTIALLY ACHIEVED BY CONTROLLING THE EXPRESSION AND/OR ACTIVITY OF KEY METABOLIC ENZYMES, TRANSCRIPTION FACTORS, SIGNALING MOLECULES, AND TRANSPORTERS. RECIPROCALLY, INTRACELLULAR METABOLITES MODULATE THE MOLECULAR CLOCK ACTIVITY IN RESPONSE TO THE ENERGY STATUS. ALTHOUGH STILL AT THE EARLY STAGE, CIRCADIAN CLOCK DYSFUNCTION HAS BEEN IMPLICATED IN COMMON CHRONIC LIVER DISEASES. CIRCADIAN DYSREGULATION OF LIPID METABOLISM, DETOXIFICATION, REACTIVE OXYGEN SPECIES (ROS) PRODUCTION, AND CELL-CYCLE CONTROL MIGHT CONTRIBUTE TO THE ONSET AND PROGRESSION OF LIVER STEATOSIS, FIBROSIS, AND EVEN CARCINOGENESIS. IN SUMMARY, THESE FINDINGS CALL FOR A COMPREHENSIVE STUDY OF THE FUNCTION AND MECHANISMS OF HEPATIC CIRCADIAN CLOCK TO GAIN BETTER UNDERSTANDING OF LIVER PHYSIOLOGY AND DISEASES. 2013 4 1373 29 DEVELOPMENTAL ORIGINS OF NONALCOHOLIC FATTY LIVER DISEASE. OBESE PREGNANT WOMEN MAY TRANSMIT THEIR METABOLIC PHENOTYPE TO OFFSPRING, LEADING TO A CYCLE OF OBESITY AND DIABETES OVER GENERATIONS. EARLY CHILDHOOD OBESITY PREDICTS NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), THE MOST COMMON CHRONIC HUMAN LIVER DISEASE. THE FETUS MAY BE VULNERABLE TO STEATOSIS BECAUSE IMMATURE FETAL ADIPOSE DEPOTS ARE NOT AVAILABLE TO BUFFER THE EXCESS TRANSPLACENTAL LIPID DELIVERY IN MATERNAL OBESITY. IN ANIMAL MODELS, IN UTERO HIGH-FAT DIET EXPOSURE RESULTS IN AN INCREASE IN THE ACCUMULATION OF LIVER TRIGLYCERIDES IN OFFSPRING AND INCREASED HEPATIC OXIDATIVE STRESS AND APOPTOSIS, PERHAPS PRIMING THE LIVER FOR LATER DEVELOPMENT OF NAFLD. INNATE IMMUNE DYSFUNCTION AND NECROINFLAMMATORY CHANGES HAVE BEEN OBSERVED IN POSTNATAL OFFSPRING LIVER OF ANIMALS BORN TO HIGH-FAT-FED DAMS. POSTWEANING, LIVERS OF OFFSPRING EXPOSED TO MATERNAL HIGH-FAT FEEDING IN UTERO SHARE PATHOPHYSIOLOGIC FEATURES WITH HUMAN NAFLD, INCLUDING INCREASED DE NOVO LIPOGENESIS AND DECREASED FREE FATTY ACID OXIDATION. HUMAN STUDIES USING MAGNETIC RESONANCE IMAGING HAVE SHOWN THAT MATERNAL BMI PREDICTS INFANT INTRAHEPATOCELLULAR LIPID STORAGE, AS SEEN IN ANIMAL MODELS. THE GENERATIONAL TRANSFER OF NAFLD MAY OCCUR VIA EPIGENETIC CHANGES IN OFFSPRING LIVER. TRANSMISSION OF MICROBIOTA FROM MOTHER TO INFANT MAY IMPACT ENERGY RETENTION AND IMMUNE FUNCTION THAT CONTRIBUTE TO A PREDISPOSITION TO NAFLD. 2014 5 3292 45 HIGH FAT DIET AND EXERCISE LEAD TO A DISRUPTED AND PATHOGENIC DNA METHYLOME IN MOUSE LIVER. HIGH-FAT DIET CONSUMPTION AND SEDENTARY LIFESTYLE ELEVATES RISK FOR OBESITY, NON-ALCOHOLIC FATTY LIVER DISEASE, AND CANCER. EXERCISE TRAINING CONVEYS HEALTH BENEFITS IN POPULATIONS WITH OR WITHOUT THESE CHRONIC CONDITIONS. DIET AND EXERCISE REGULATE GENE EXPRESSION BY MEDIATING EPIGENETIC MECHANISMS IN MANY TISSUES; HOWEVER, SUCH EFFECTS ARE POORLY DOCUMENTED IN THE LIVER, A CENTRAL METABOLIC ORGAN. TO DISSECT THE CONSEQUENCES OF DIET AND EXERCISE ON THE LIVER EPIGENOME, WE MEASURED DNA METHYLATION, USING REDUCED REPRESENTATION BISULFITE SEQUENCING, AND TRANSCRIPTION, USING RNA-SEQ, IN MICE MAINTAINED ON A FAST FOOD DIET WITH SEDENTARY LIFESTYLE OR EXERCISE, COMPARED WITH CONTROL DIET WITH AND WITHOUT EXERCISE. OUR ANALYSES REVEAL THAT GENOME-WIDE DIFFERENTIAL DNA METHYLATION AND EXPRESSION OF GENE CLUSTERS ARE INDUCED BY DIET AND/OR EXERCISE. A COMBINATION OF FAST FOOD AND EXERCISE TRIGGERS EXTENSIVE GENE ALTERATIONS, WITH ENRICHMENT OF CARBOHYDRATE/LIPID METABOLIC PATHWAYS AND MUSCLE DEVELOPMENTAL PROCESSES. THROUGH EVALUATION OF PUTATIVE PROTECTIVE EFFECTS OF EXERCISE ON DIET-INDUCED DNA METHYLATION, WE SHOW THAT HYPERMETHYLATION IS EFFECTIVELY PREVENTED, ESPECIALLY AT PROMOTERS AND ENHANCERS, WHEREAS HYPOMETHYLATION IS ONLY PARTIALLY ATTENUATED. WE ASSESSED DIET-INDUCED DNA METHYLATION CHANGES ASSOCIATED WITH LIVER CANCER-RELATED EPIGENETIC MODIFICATIONS AND IDENTIFIED SIGNIFICANT INCREASES AT LIVER-SPECIFIC ENHANCERS IN FAST FOOD GROUPS, SUGGESTING PARTIAL LOSS OF LIVER CELL IDENTITY. HYPERMETHYLATION AT A SUBSET OF GENE PROMOTERS WAS ASSOCIATED WITH INHIBITION OF TISSUE DEVELOPMENT AND PROMOTION OF CARCINOGENIC PROCESSES. OUR STUDY DEMONSTRATES EXTENSIVE REPROGRAMMING OF THE EPIGENOME BY DIET AND EXERCISE, EMPHASIZING THE FUNCTIONAL RELEVANCE OF EPIGENETIC MECHANISMS AS AN INTERFACE BETWEEN LIFESTYLE MODIFICATIONS AND PHENOTYPIC ALTERATIONS. 2017 6 4972 33 PATHOPHYSIOLOGICAL BASIS FOR COMPROMISED HEALTH BEYOND GENERATIONS: ROLE OF MATERNAL HIGH-FAT DIET AND LOW-GRADE CHRONIC INFLAMMATION. EARLY EXPOSURE TO A FAT-ENRICHED DIET PROGRAMS THE DEVELOPMENTAL PROFILE AND THUS IS ASSOCIATED WITH DISEASE SUSCEPTIBILITY IN SUBSEQUENT GENERATIONS. CHRONIC LOW-GRADE INFLAMMATION, RESULTING FROM MATERNAL HIGH-FAT DIET, IS ACTIVATED IN THE FETAL ENVIRONMENT AND IN MANY ORGANS OF OFFSPRING, INCLUDING PLACENTA, ADIPOSE, LIVER, VASCULAR SYSTEM AND BRAIN. THE PREVALENCE OF AN INFLAMMATORY RESPONSE IS HIGHLY ASSOCIATED WITH OBESITY INCIDENCE, CARDIOVASCULAR DISEASES, NONALCOHOLIC FATTY LIVER DISEASE AND BRAIN DAMAGE. SUBSTANTIAL STUDIES USING HIGH-FAT MODEL HAVE CONSISTENTLY DEMONSTRATED THE INCIDENCE OF SUCH INFLAMMATORY REACTIONS; HOWEVER, THE POTENTIAL CONTRIBUTION OF ACTIVE INFLAMMATION TOWARD THE PHYSIOLOGICAL OUTCOMES AND DEVELOPMENTAL DISEASES IS NEITHER DISCUSSED IN DEPTH NOR SYSTEMICALLY INTEGRATED. THEREFORE, WE AIM TO SUMMARIZE THE CURRENT FINDINGS IN REGARDS TO HOW A MATERNAL HIGH-FAT DIET INFLUENCES THE INFLAMMATORY STATUS, AND PROBABLE PATHOGENIC EFFECTS ON THE OFFSPRING. MORE IMPORTANTLY, SINCE LIMITED RESEARCH HAS BEEN CONDUCTED TO REVEAL THE EPIGENETIC REGULATION OF THESE INFLAMMATORY MARKERS BY MATERNAL HIGH-FAT DIET, WE SINCERELY HOPE THAT OUR REVIEW WILL NOT ONLY OUTLINE THE PATHOPHYSIOLOGICAL RELEVANCE OF INFLAMMATION BUT ALSO IDENTIFY A FUTURE DIRECTION FOR MECHANISTIC INVESTIGATION AND CLINICAL APPLICATION. 2015 7 1520 41 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 8 2158 39 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 9 5693 30 SILENCING OF MATERNAL HEPATIC GLUCOCORTICOID RECEPTOR IS ESSENTIAL FOR NORMAL FETAL DEVELOPMENT IN MICE. EXCESSIVE OR CHRONIC STRESS CAN LEAD TO A VARIETY OF DISEASES DUE TO ABERRANT ACTIVATION OF THE GLUCOCORTICOID RECEPTOR (GR), A LIGAND ACTIVATED TRANSCRIPTION FACTOR. PREGNANCY REPRESENTS A PARTICULAR WINDOW OF SENSITIVITY IN WHICH EXCESSIVE STRESS CAN HAVE ADVERSE OUTCOMES, PARTICULARLY ON THE DEVELOPING FETUS. HERE WE SHOW MATERNAL HEPATIC STRESS HORMONE RESPONSIVENESS IS DIMINISHED VIA EPIGENETIC SILENCING OF THE GLUCOCORTICOID RECEPTOR DURING PREGNANCY. PROVOCATIVELY, REINSTALLATION OF GR TO HEPATOCYTES DURING PREGNANCY BY ADENO-ASSOCIATED VIRAL TRANSDUCTION DYSREGULATES GENES INVOLVED IN PROLIFERATION, RESULTING IN IMPAIRED PREGNANCY-INDUCED HEPATOMEGALY. DISRUPTION OF THE MATERNAL HEPATIC ADAPTATION TO PREGNANCY RESULTS IN IN UTERO GROWTH RESTRICTION (IUGR). THESE DATA DEMONSTRATE PREGNANCY ANTAGONIZES THE LIVER-SPECIFIC EFFECTS OF STRESS HORMONE SIGNALING IN THE MATERNAL COMPARTMENT TO ULTIMATELY SUPPORT THE HEALTHY DEVELOPMENT OF EMBRYOS. 2019 10 6133 35 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 11 5166 39 PRECONCEPTION PATERNAL ALCOHOL EXPOSURE EXERTS SEX-SPECIFIC EFFECTS ON OFFSPRING GROWTH AND LONG-TERM METABOLIC PROGRAMMING. BACKGROUND: ALTHOUGH CLINICAL DATA SUPPORT AN ASSOCIATION BETWEEN PATERNAL ALCOHOL USE AND DEFICITS IN CHILD NEUROCOGNITIVE DEVELOPMENT, THE RELATIONSHIP BETWEEN PATERNAL DRINKING AND ALCOHOL-INDUCED GROWTH PHENOTYPES REMAINS CHALLENGING TO DEFINE. USING AN ESTABLISHED MOUSE MODEL OF CHRONIC EXPOSURE, PREVIOUS WORK BY OUR GROUP HAS LINKED PRECONCEPTION PATERNAL ALCOHOL USE TO SEX-SPECIFIC PATTERNS OF FETAL GROWTH RESTRICTION AND PLACENTAL DYSFUNCTION. THE AIM OF THE PRESENT STUDY WAS TO INVESTIGATE THE LONG-TERM IMPACT OF CHRONIC PRECONCEPTION PATERNAL ALCOHOL USE ON OFFSPRING GROWTH AND METABOLIC PROGRAMMING. RESULTS: PRECONCEPTION PATERNAL ALCOHOL EXPOSURE INDUCED A PROLONGED PERIOD OF FETAL GESTATION AND AN INCREASED INCIDENCE OF INTRAUTERINE GROWTH RESTRICTION, WHICH AFFECTED THE MALE OFFSPRING TO A GREATER EXTENT THAN THE FEMALES. WHILE THE FEMALE OFFSPRING OF ETHANOL-EXPOSED MALES WERE ABLE TO MATCH THE BODY WEIGHTS OF THE CONTROLS WITHIN THE FIRST 2 WEEKS OF POSTNATAL LIFE, MALE OFFSPRING CONTINUED TO DISPLAY AN 11% REDUCTION IN WEIGHT AT 5 WEEKS OF AGE AND A 6% REDUCTION AT 8 WEEKS OF AGE. THE OBSERVED GROWTH DEFICITS ASSOCIATED WITH INSULIN HYPERSENSITIVITY IN THE MALE OFFSPRING, WHILE IN CONTRAST, FEMALES DISPLAYED A MODEST LAG IN THEIR GLUCOSE TOLERANCE TEST. THESE METABOLIC DEFECTS WERE ASSOCIATED WITH AN UP-REGULATION OF GENES WITHIN THE PRO-FIBROTIC TGF-BETA SIGNALING PATHWAY AND INCREASED LEVELS OF CELLULAR HYDROXYPROLINE WITHIN THE LIVERS OF THE MALE OFFSPRING. WE OBSERVED SUPPRESSED CYTOKINE PROFILES WITHIN THE LIVER AND PANCREAS OF BOTH THE MALE AND FEMALE OFFSPRING, WHICH CORRELATED WITH THE UP-REGULATION OF GENES IN THE LIVERX/RETINOIDX/FARNESOIDX RECEPTOR PATHWAYS. HOWEVER, PATTERNS OF GENE EXPRESSION WERE HIGHLY VARIABLE BETWEEN THE OFFSPRING OF ALCOHOL-EXPOSED SIRES. IN THE ADULT OFFSPRING OF ALCOHOL-EXPOSED MALES, WE DID NOT OBSERVE ANY DIFFERENCES IN THE ALLELIC EXPRESSION OF IGF2 OR ANY OTHER IMPRINTED GENES. CONCLUSIONS: THE IMPACT OF PATERNAL ALCOHOL USE ON CHILD DEVELOPMENT IS POORLY EXPLORED AND REPRESENTS A SIGNIFICANT GAP IN OUR UNDERSTANDING OF THE TERATOGENIC EFFECTS OF ETHANOL. OUR STUDIES IMPLICATE PATERNAL EXPOSURE HISTORY AS AN ADDITIONAL AND IMPORTANT MODIFIER OF ALCOHOL-INDUCED GROWTH PHENOTYPES AND CHALLENGE THE CURRENT MATERNAL-CENTRIC EXPOSURE PARADIGM. 2019 12 4085 44 MATERNAL OBESITY AND GESTATIONAL DIABETES REPROGRAM THE METHYLOME OF OFFSPRING BEYOND BIRTH BY INDUCING EPIGENETIC SIGNATURES IN METABOLIC AND DEVELOPMENTAL PATHWAYS. BACKGROUND: OBESITY IS A NEGATIVE CHRONIC METABOLIC HEALTH CONDITION THAT REPRESENTS AN ADDITIONAL RISK FOR THE DEVELOPMENT OF MULTIPLE PATHOLOGIES. EPIDEMIOLOGICAL STUDIES HAVE SHOWN HOW MATERNAL OBESITY OR GESTATIONAL DIABETES MELLITUS DURING PREGNANCY CONSTITUTE SERIOUS RISK FACTORS IN RELATION TO THE APPEARANCE OF CARDIOMETABOLIC DISEASES IN THE OFFSPRING. FURTHERMORE, EPIGENETIC REMODELLING MAY HELP EXPLAIN THE MOLECULAR MECHANISMS THAT UNDERLIE THESE EPIDEMIOLOGICAL FINDINGS. THUS, IN THIS STUDY WE EXPLORED THE DNA METHYLATION LANDSCAPE OF CHILDREN BORN TO MOTHERS WITH OBESITY AND GESTATIONAL DIABETES DURING THEIR FIRST YEAR OF LIFE. METHODS: WE USED ILLUMINA INFINIUM METHYLATIONEPIC BEADCHIP ARRAYS TO PROFILE MORE THAN 770,000 GENOME-WIDE CPG SITES IN BLOOD SAMPLES FROM A PAEDIATRIC LONGITUDINAL COHORT CONSISTING OF 26 CHILDREN BORN TO MOTHERS WHO SUFFERED FROM OBESITY OR OBESITY WITH GESTATIONAL DIABETES MELLITUS DURING PREGNANCY AND 13 HEALTHY CONTROLS (MEASUREMENTS TAKEN AT 0, 6 AND 12 MONTH; TOTAL N = 90). WE CARRIED OUT CROSS-SECTIONAL AND LONGITUDINAL ANALYSES TO DERIVE DNA METHYLATION ALTERATIONS ASSOCIATED WITH DEVELOPMENTAL AND PATHOLOGY-RELATED EPIGENOMICS. RESULTS: WE IDENTIFIED ABUNDANT DNA METHYLATION CHANGES DURING CHILD DEVELOPMENT FROM BIRTH TO 6 MONTHS AND, TO A LESSER EXTENT, UP TO 12 MONTHS OF AGE. USING CROSS-SECTIONAL ANALYSES, WE DISCOVERED DNA METHYLATION BIOMARKERS MAINTAINED ACROSS THE FIRST YEAR OF LIFE THAT COULD DISCRIMINATE CHILDREN BORN TO MOTHERS WHO SUFFERED FROM OBESITY OR OBESITY WITH GESTATIONAL DIABETES. IMPORTANTLY, ENRICHMENT ANALYSES SUGGESTED THAT THESE ALTERATIONS CONSTITUTE EPIGENETIC SIGNATURES THAT AFFECT GENES AND PATHWAYS INVOLVED IN THE METABOLISM OF FATTY ACIDS, POSTNATAL DEVELOPMENTAL PROCESSES AND MITOCHONDRIAL BIOENERGETICS, SUCH AS CPT1B, SLC38A4, SLC35F3 AND FN3K. FINALLY, WE OBSERVED EVIDENCE OF AN INTERACTION BETWEEN DEVELOPMENTAL DNA METHYLATION CHANGES AND MATERNAL METABOLIC CONDITION ALTERATIONS. CONCLUSIONS: OUR OBSERVATIONS HIGHLIGHT THE FIRST SIX MONTHS OF DEVELOPMENT AS BEING THE MOST CRUCIAL FOR EPIGENETIC REMODELLING. FURTHERMORE, OUR RESULTS SUPPORT THE EXISTENCE OF SYSTEMIC INTRAUTERINE FOETAL PROGRAMMING LINKED TO OBESITY AND GESTATIONAL DIABETES THAT AFFECTS THE CHILDHOOD METHYLOME BEYOND BIRTH, WHICH INVOLVES ALTERATIONS RELATED TO METABOLIC PATHWAYS, AND WHICH MAY INTERACT WITH ORDINARY POSTNATAL DEVELOPMENT PROGRAMMES. 2023 13 2757 45 EXPRESSION OF EPIGENETIC MACHINERY GENES IS SENSITIVE TO MATERNAL OBESITY AND WEIGHT LOSS IN RELATION TO FETAL GROWTH IN MICE. BACKGROUND: MATERNAL OBESITY IMPACTS FETAL GROWTH AND PREGNANCY OUTCOMES. TO COUNTERACT THE DELETERIOUS EFFECTS OF OBESITY ON FERTILITY AND PREGNANCY ISSUE, PRECONCEPTIONAL WEIGHT LOSS IS RECOMMENDED TO OBESE WOMEN. WHETHER THIS WEIGHT LOSS IS BENEFICIAL/DETRIMENTAL FOR OFFSPRING REMAINS POORLY EXPLORED. EPIGENETIC MECHANISMS COULD BE AFFECTED BY MATERNAL WEIGHT CHANGES, PERTURBING EXPRESSION OF KEY DEVELOPMENTAL GENES IN THE PLACENTA OR FETUS. OUR AIM WAS TO INVESTIGATE THE EFFECTS OF CHRONIC MATERNAL OBESITY ON FETO-PLACENTAL GROWTH ALONG WITH THE UNDERLYING EPIGENETIC MECHANISMS. WE ALSO TESTED WHETHER PRECONCEPTIONAL WEIGHT LOSS COULD ALLEVIATE THESE EFFECTS. RESULTS: FEMALE MICE WERE FED EITHER A CONTROL DIET (CTRL GROUP), A HIGH-FAT DIET (OBESE (OB) GROUP), OR A HIGH-FAT DIET SWITCHED TO A CONTROL DIET 2 MONTHS BEFORE CONCEPTION (WEIGHT LOSS (WL) GROUP). AT MATING, OB FEMALES PRESENTED AN OBESE PHENOTYPE WHILE WL FEMALES NORMALIZED METABOLIC PARAMETERS. AT EMBRYONIC DAY 18.5 (E18.5), FETUSES FROM OB FEMALES PRESENTED FETAL GROWTH RESTRICTION (FGR; -13 %) AND 28 % OF THE FETUSES WERE SMALL FOR GESTATIONAL AGE (SGA). FETUSES FROM WL FEMALES NORMALIZED THIS PHENOTYPE. THE EXPRESSION OF 60 EPIGENETIC MACHINERY GENES AND 32 METABOLIC GENES WAS MEASURED IN THE FETAL LIVER, PLACENTAL LABYRINTH, AND JUNCTIONAL ZONE. WE REVEALED 23 GENES ALTERED BY MATERNAL WEIGHT TRAJECTORIES IN AT LEAST ONE OF THREE TISSUES. THE FETAL LIVER AND PLACENTAL LABYRINTH WERE MORE RESPONSIVE TO MATERNAL OBESITY THAN JUNCTIONAL ZONE. ONE THIRD (18/60) OF THE EPIGENETIC MACHINERY GENES WERE DIFFERENTIALLY EXPRESSED BETWEEN AT LEAST TWO MATERNAL GROUPS. INTERESTINGLY, GENES INVOLVED IN THE HISTONE ACETYLATION PATHWAY WERE PARTICULARLY ALTERED (13/18). IN OB GROUP, LYSINE ACETYLTRANSFERASES AND BROMODOMAIN-CONTAINING PROTEIN 2 WERE UPREGULATED, WHILE MOST HISTONE DEACETYLASES WERE DOWNREGULATED. IN WL GROUP, THE EXPRESSION OF ONLY A SUBSET OF THESE GENES WAS NORMALIZED. CONCLUSIONS: THIS STUDY HIGHLIGHTS THE HIGH SENSITIVITY OF THE EPIGENETIC MACHINERY GENE EXPRESSION, AND PARTICULARLY THE HISTONE ACETYLATION PATHWAY, TO MATERNAL OBESITY. THESE OBESITY-INDUCED TRANSCRIPTIONAL CHANGES COULD ALTER THE PLACENTAL AND THE HEPATIC EPIGENOME, LEADING TO FGR. PRECONCEPTIONAL WEIGHT LOSS APPEARS BENEFICIAL TO FETAL GROWTH, BUT SOME EFFECTS OF PREVIOUS OBESITY WERE RETAINED IN OFFSPRING PHENOTYPE. 2016 14 420 41 ANDROGEN-MEDIATED PERTURBATION OF THE HEPATIC CIRCADIAN SYSTEM THROUGH EPIGENETIC MODULATION PROMOTES NAFLD IN PCOS MICE. IN WOMEN, EXCESS ANDROGEN CAUSES POLYCYSTIC OVARY SYNDROME (PCOS), A COMMON FERTILITY DISORDER WITH COMORBID METABOLIC DYSFUNCTIONS INCLUDING DIABETES, OBESITY, AND NONALCOHOLIC FATTY LIVER DISEASE. USING A PCOS MOUSE MODEL, THIS STUDY SHOWS THAT CHRONIC HIGH ANDROGEN LEVELS CAUSE HEPATIC STEATOSIS WHILE HEPATOCYTE-SPECIFIC ANDROGEN RECEPTOR (AR)-KNOCKOUT RESCUES THIS PHENOTYPE. MOREOVER, THROUGH RNA-SEQUENCING AND METABOLOMIC STUDIES, WE HAVE IDENTIFIED KEY METABOLIC GENES AND PATHWAYS AFFECTED BY HYPERANDROGENISM. OUR STUDIES REVEAL THAT A LARGE NUMBER OF METABOLIC GENES ARE DIRECTLY REGULATED BY ANDROGENS THROUGH AR BINDING TO ANDROGEN RESPONSE ELEMENT SEQUENCES ON THE PROMOTER REGION OF THESE GENES. INTERESTINGLY, A NUMBER OF CIRCADIAN GENES ARE ALSO DIFFERENTIALLY REGULATED BY ANDROGENS. IN VIVO AND IN VITRO STUDIES USING A CIRCADIAN REPORTER [PERIOD2::LUCIFERASE (PER2::LUC)] MOUSE MODEL DEMONSTRATE THAT ANDROGENS CAN DIRECTLY DISRUPT THE HEPATIC TIMING SYSTEM, WHICH IS A KEY REGULATOR OF LIVER METABOLISM. CONSEQUENTLY, STUDIES SHOW THAT ANDROGENS DECREASE H3K27ME3, A GENE SILENCING MARK ON THE PROMOTER OF CORE CLOCK GENES, BY INHIBITING THE EXPRESSION OF HISTONE METHYLTRANSFERASE, EZH2, WHILE INDUCING THE EXPRESSION OF THE HISTONE DEMETHYLASE, JMJD3, WHICH IS RESPONSIBLE FOR ADDING AND REMOVING THE H3K27ME3 MARK, RESPECTIVELY. FINALLY, WE REPORT THAT UNDER HYPERANDROGENIC CONDITIONS, SOME OF THE SAME CIRCADIAN/METABOLIC GENES THAT ARE UPREGULATED IN THE MOUSE LIVER ARE ALSO ELEVATED IN NONHUMAN PRIMATE LIVERS. IN SUMMARY, THESE STUDIES NOT ONLY PROVIDE AN OVERALL UNDERSTANDING OF HOW HYPERANDROGENISM ASSOCIATED WITH PCOS AFFECTS LIVER GENE EXPRESSION AND METABOLISM BUT ALSO OFFER INSIGHT INTO THE UNDERLYING MECHANISMS LEADING TO HEPATIC STEATOSIS IN PCOS. 2022 15 4064 28 MATERNAL AND EARLY-LIFE CIRCADIAN DISRUPTION HAVE LONG-LASTING NEGATIVE CONSEQUENCES ON OFFSPRING DEVELOPMENT AND ADULT BEHAVIOR IN MICE. MODERN LIFE INVOLVES CHRONIC CIRCADIAN DISRUPTION THROUGH ARTIFICIAL LIGHT AND THESE DISRUPTIONS ARE ASSOCIATED WITH NUMEROUS MENTAL AND PHYSICAL HEALTH MALADIES. BECAUSE THE DEVELOPING NERVOUS SYSTEM IS PARTICULARLY VULNERABLE TO PERTURBATION, WE HYPOTHESIZED THAT EARLY-LIFE CIRCADIAN DISRUPTION WOULD NEGATIVELY IMPACT OFFSPRING DEVELOPMENT AND ADULT FUNCTION. PREGNANT MICE WERE SUBJECTED TO CHRONIC CIRCADIAN DISRUPTION FROM THE TIME OF UTERINE IMPLANTATION THROUGH WEANING. TO DISSOCIATE IN UTERO FROM POSTNATAL EFFECTS, A SUBSET OF LITTERS WAS CROSS-FOSTERED AT BIRTH FROM DISRUPTED DAMS TO CONTROL DAMS AND VICE VERSA. POSTNATAL CIRCADIAN DISRUPTION WAS ASSOCIATED WITH REDUCED ADULT BODY MASS, SOCIAL AVOIDANCE, AND HYPERACTIVITY. IN UTERO DISRUPTION RESULTED IN MORE PRONOUNCED SOCIAL AVOIDANCE AND HYPERACTIVITY, PHENOTYPES NOT ABROGATED BY CROSS-FOSTERING TO CONTROL MOTHERS. TO EXAMINE WHETHER CIRCADIAN DISRUPTION AFFECTS DEVELOPMENT BY ACTING AS AN EARLY LIFE STRESSOR, WE EXAMINED BIRTHWEIGHT, LITTER SIZE, MATERNAL CANNIBALISM, AND EPIGENETIC MODIFICATIONS. NONE OF THESE VARIABLES DIFFERED BETWEEN CONTROL AND DISRUPTED DAMS, OR RESEMBLED PATTERNS SEEN FOLLOWING EARLY-LIFE STRESS. OUR FINDINGS INDICATE THAT DEVELOPMENTAL CHRONIC CIRCADIAN DISRUPTION PERMANENTLY AFFECTS SOMATIC AND BEHAVIORAL DEVELOPMENT IN A STAGE-OF-LIFE-DEPENDENT MANNER, INDEPENDENT OF EARLY LIFE STRESS MECHANISMS, UNDERSCORING THE IMPORTANCE OF TEMPORAL STRUCTURE DURING DEVELOPMENT, BOTH IN UTERO AND EARLY POSTNATAL LIFE. 2017 16 4710 23 NON-ALCOHOLIC FATTY LIVER DISEASE AND THE IMPACT OF GENETIC, EPIGENETIC AND ENVIRONMENTAL FACTORS IN THE OFFSPRING. NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE MOST COMMON CHRONIC LIVER DISEASE WORLDWIDE AND IS STRONGLY ASSOCIATED WITH METABOLIC DEREGULATION. MORE RECENTLY, A SIGNIFICANT IMPACT OF PARENTAL NAFLD IN THE OFFSPRING WAS DEMONSTRATED AND HAS BEEN WIDELY DISCUSSED. HOWEVER, PATHOGENETIC PATHWAYS IMPLICATED IN THE INHERITANCE BY THE OFFSPRING AND RELATIVES ARE STILL UNDER DEBATE. PROBABLY, MULTIPLE MECHANISMS ARE INVOLVED AS WELL AS IN NAFLD PATHOGENESIS ITSELF. AMONG THE MULTIFACTORIAL INVOLVED MECHANISMS, GENETIC, EPIGENETIC AND ENVIRONMENTAL BACKGROUNDS ARE STRONGLY RELATED TO NAFLD DEVELOPMENT IN THE OFFSPRING. THUS, BASED ON RECENT EVIDENCE FROM THE AVAILABLE LITERATURE CONCERNING GENETIC, EPIGENETIC AND ENVIRONMENTAL DISEASE MODIFIERS, THIS REVIEW AIMED TO DISCUSS THE RELATIONSHIP BETWEEN PARENTAL NAFLD AND ITS IMPACT ON THE OFFSPRING. 2022 17 3984 40 LONG-TERM IMPACT OF MATERNAL HIGH-FAT DIET ON OFFSPRING CARDIAC HEALTH: ROLE OF MICRO-RNA BIOGENESIS. HEART FAILURE IS A WORLDWIDE LEADING CAUSE OF DEATH. DIET AND OBESITY ARE PARTICULARLY OF HIGH CONCERN IN HEART DISEASE ETIOLOGY. GRAVELY, ALTERED NUTRITION DURING DEVELOPMENTAL WINDOWS OF VULNERABILITY CAN HAVE LONG-TERM IMPACT ON HEART HEALTH; HOWEVER, THE UNDERLYING MECHANISMS ARE POORLY UNDERSTOOD. IN THE UNDERSTANDING OF THE INITIATION OF CHRONIC DISEASES RELATED TO DEVELOPMENTAL EXPOSURE TO ENVIRONMENTAL CHALLENGES, DEREGULATIONS IN EPIGENETIC MECHANISMS INCLUDING MICRO-RNAS HAVE BEEN PROPOSED AS KEY EVENTS. IN THIS CONTEXT, WE AIMED AT DELINEATING THE ROLE OF MICRO-RNAS IN THE PROGRAMMING OF CARDIAC ALTERATIONS INDUCED BY EARLY DEVELOPMENTAL EXPOSURE TO NUTRITIONAL IMBALANCE. TO REACH OUR AIM, WE DEVELOPED A HUMAN RELEVANT MODEL OF DEVELOPMENTAL EXPOSURE TO NUTRITIONAL IMBALANCE BY MATERNALLY EXPOSING RAT TO HIGH-FAT DIET DURING GESTATION AND LACTATION. IN THIS MODEL, OFFSPRING EXPOSED TO MATERNAL HIGH-FAT DIET DEVELOPED CARDIAC HYPERTROPHY AND INCREASED EXTRACELLULAR MATRIX DEPOT COMPARED TO THOSE EXPOSED TO CHOW DIET. MICROARRAY APPROACH PERFORMED ON CARDIAC TISSUE ALLOWED THE IDENTIFICATION OF A MICRO-RNA SUBSET WHICH WAS DOWN-REGULATED IN HIGH-FAT DIET-EXPOSED ANIMALS AND WHICH WERE PREDICTED TO REGULATE TRANSFORMING GROWTH FACTOR-BETA (TGFBETA)-MEDIATED REMODELING. AS INDICATED BY IN VITRO APPROACHES AND GENE EXPRESSION MEASUREMENT IN THE HEART OF OUR ANIMALS, DECREASE IN DIGEORGE CRITICAL REGION 8 (DGCR8) EXPRESSION, INVOLVED IN MICRO-RNA BIOGENESIS, SEEMS TO BE A CRITICAL POINT IN THE ALTERATIONS OF THE MICRO-RNA PROFILE AND THE TGFBETA-MEDIATED REMODELING INDUCED BY MATERNAL EXPOSURE TO HIGH-FAT DIET. FINALLY, INCREASING DGCR8 ACTIVITY AND/OR EXPRESSION THROUGH HEMIN TREATMENT IN VITRO REVEALED ITS POTENTIAL IN THE RESCUE OF THE PRO-FIBROTIC PHENOTYPE IN CARDIOMYOCYTES DRIVEN BY DGCR8 DECREASE. THESE FINDINGS SUGGEST THAT CARDIAC ALTERATIONS INDUCED BY MATERNAL EXPOSURE TO HIGH-FAT DIET IS RELATED TO ABNORMALITIES IN TGFBETA PATHWAY AND ASSOCIATED WITH DOWN-REGULATED MICRO-RNA PROCESSING. OUR STUDY HIGHLIGHTED DGCR8 AS A POTENTIAL THERAPEUTIC TARGET FOR HEART DISEASES RELATED TO EARLY EXPOSURE TO DIETARY CHALLENGE. 2019 18 5773 38 SPERM MICRORNA CONTENT IS ALTERED IN A MOUSE MODEL OF MALE OBESITY, BUT THE SAME SUITE OF MICRORNAS ARE NOT ALTERED IN OFFSPRING'S SPERM. THE PREVALENCE OF OBESITY IS INCREASING WORLDWIDE AND HAS TRIPLED IN MEN OF REPRODUCTIVE AGE SINCE THE 1970S. CONCERNINGLY, OBESITY IS NOT ONLY COMORBID WITH OTHER CHRONIC DISEASES, BUT THERE IS MOUNTING EVIDENCE THAT IT INCREASES THE NON-COMMUNICABLE DISEASE LOAD IN THEIR CHILDREN (EG MORTALITY, OBESITY, AUTISM). ANIMAL STUDIES HAVE DEMONSTRATED THAT PATERNAL OBESITY INCREASES THE RISK OF METABOLIC (EG GLUCOSE METABOLISM DEFECTS, OBESITY) AND REPRODUCTIVE DISORDERS IN OFFSPRING. EPIGENETIC CHANGES WITHIN SPERM ARE CLEAR MECHANISTIC CANDIDATES THAT ARE ASSOCIATED WITH BOTH CHANGES TO THE FATHER'S ENVIRONMENT AND OFFSPRING PHENOTYPE. SPECIFICALLY THERE IS EMERGING EVIDENCE THAT A FATHER'S SPERM MICRORNA CONTENT BOTH RESPONDS TO PATERNAL ENVIRONMENTAL CUES AND ALTERS THE GENE EXPRESSION PROFILE AND SUBSEQUENT DEVELOPMENT OF THE EARLY EMBRYO. WE USED A MOUSE MODEL OF HIGH FAT DIET (HFD) INDUCED OBESITY TO INVESTIGATE WHETHER MALE OBESITY COULD MODULATE SPERM MICRORNA CONTENT. WE ALSO INVESTIGATED WHETHER THIS ALTERATION TO A FATHER'S SPERM MICRORNA CONTENT LEAD TO A SIMILAR CHANGE IN THE SPERM OF MALE OFFSPRING. OUR INVESTIGATIONS WERE INITIALLY GUIDED BY A TAQMAN PCR ARRAY, WHICH INDICATED THE DIFFERENTIAL ABUNDANCE OF 28 SPERM BORNE MICRORNAS IN HFD MICE. QPCR CONFIRMATION IN A MUCH LARGER COHORT OF FOUNDER MALES DEMONSTRATED THAT 13 OF THESE MICRORNAS WERE DIFFERENTIALLY ABUNDANT (11 UP-REGULATED; 2 DOWN-REGULATED) DUE TO HFD FEEDING. DESPITE METABOLIC AND REPRODUCTIVE PHENOTYPES ALSO BEING OBSERVED IN GRAND-OFFSPRING FATHERED VIA THE MALE OFFSPRING LINEAGE, THERE WAS NO EVIDENCE THAT ANY OF THE 13 MICRORNAS WERE ALSO DYSREGULATED IN MALE OFFSPRING SPERM. THIS WAS PRESUMABLY DUE TO THE VARIATION SEEN WITHIN BOTH GROUPS OF OFFSPRING AND SUGGESTS OTHER MECHANISMS MIGHT ACT BETWEEN OFFSPRING AND GRAND-OFFSPRING. THUS 13 SPERM BORNE MICRORNAS ARE MODULATED BY A FATHER'S HFD AND THE PRESUMED TRANSFER OF THIS ALTERED MICRORNA PAYLOAD TO THE EMBRYO AT FERTILISATION POTENTIALLY ACTS TO ALTER THE EMBRYONIC MOLECULAR MAKEUP POST-FERTILISATION, ALTERING ITS GROWTH TRAJECTORY, ULTIMATELY AFFECTING ADULT OFFSPRING PHENOTYPE AND MAY CONTRIBUTE TO PATERNAL PROGRAMMING. 2016 19 5160 43 PREADOLESCENT ADVERSITY PROGRAMS A DISRUPTED MATERNAL STRESS REACTIVITY IN HUMANS AND MICE. BACKGROUND: ADVERSE CHILDHOOD EXPERIENCES (ACES) ARE ONE OF THE GREATEST PREDICTORS OF AFFECTIVE DISORDERS FOR WOMEN. PERIODS OF DYNAMIC HORMONAL FLUX, INCLUDING PREGNANCY, EXACERBATE THE RISK FOR AFFECTIVE DISTURBANCE AND PROMOTE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS DYSREGULATION, A KEY FEATURE OF AFFECTIVE DISORDERS. LITTLE IS UNDERSTOOD AS TO HOW STRESS EXPERIENCED IN LATE CHILDHOOD, DEFINED AS PREADOLESCENCE, ALTERS THE PROGRAMMING UNIQUE TO THIS PERIOD OF BRAIN MATURATION AND ITS INTERACTION WITH THE HORMONAL CHANGES OF PREGNANCY AND POSTPARTUM. METHODS: PREADOLESCENT FEMALE MICE WERE EXPOSED TO CHRONIC STRESS AND EXAMINED FOR CHANGES IN THEIR HPA AXIS DURING PREGNANCY AND POSTPARTUM, INCLUDING ASSESSMENT OF MATERNAL-SPECIFIC STRESS RESPONSIVENESS AND TRANSCRIPTOMICS OF THE PARAVENTRICULAR NUCLEUS OF THE HYPOTHALAMUS. TRANSLATIONALLY, PREGNANT WOMEN WITH LOW OR HIGH ACES WERE EXAMINED FOR THEIR MATERNAL STRESS RESPONSIVENESS. RESULTS: AS PREDICTED, PREADOLESCENT STRESS IN MICE RESULTED IN A SIGNIFICANT BLUNTING OF THE CORTICOSTERONE RESPONSE DURING PREGNANCY. TRANSCRIPTOMIC ANALYSIS OF THE PARAVENTRICULAR NUCLEUS REVEALED WIDESPREAD CHANGES IN EXPRESSION OF IMMEDIATE EARLY GENES AND THEIR TARGETS, SUPPORTING THE LIKELY INVOLVEMENT OF AN UPSTREAM EPIGENETIC MECHANISM. CRITICALLY, IN OUR HUMAN STUDIES, THE HIGH ACE WOMEN SHOWED A SIGNIFICANT BLUNTING OF THE HPA RESPONSE. CONCLUSIONS: THIS UNIQUE MOUSE MODEL RECAPITULATES A CLINICAL OUTCOME OF A HYPORESPONSIVE HPA STRESS AXIS, AN IMPORTANT FEATURE OF AFFECTIVE DISORDERS, DURING A DYNAMIC HORMONAL PERIOD, AND SUGGESTS INVOLVEMENT OF TRANSCRIPTIONAL REGULATION IN THE HYPOTHALAMUS. THESE STUDIES IDENTIFY A NOVEL MOUSE MODEL OF FEMALE ACES THAT CAN BE USED TO EXAMINE HOW ADDITIONAL LIFE ADVERSITY MAY PROVOKE DISEASE RISK OR RESILIENCE. 2017 20 5438 30 REMOVAL OF EPIGENETIC REPRESSIVE MARK ON INFLAMMATORY GENES IN FAT LIVER. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE MOST COMMON CHRONIC LIVER DISEASE WORLDWIDE. THE DETAILED EPIGENOMIC CHANGES DURING FAT ACCUMULATION IN LIVER ARE NOT CLEAR YET. HERE, WE PERFORMED CHIP-SEQ ANALYSIS IN THE LIVER TISSUES OF HIGH-FAT DIET AND REGULAR CHOW DIET MICE AND INVESTIGATED THE DYNAMIC LANDSCAPES OF H3K27AC AND H3K9ME3 MARKS ON CHROMATIN. WE FIND THAT THE ACTIVATED TYPICAL ENHANCERS MARKED WITH H3K27AC ARE ENRICHED ON LIPID METABOLIC PATHWAYS IN FAT LIVER; HOWEVER, SUPER ENHANCERS DO NOT CHANGE MUCH. THE REGIONS COVERED WITH H3K9ME3 REPRESSIVE MARK SEEM TO UNDERGO GREAT CHANGES, AND ITS PEAK NUMBER AND INTENSITY BOTH DECREASE IN FAT LIVER. THE ENHANCERS LOCATED IN LOST H3K9ME3 REGIONS ARE ENRICHED IN LIPID METABOLISM AND INFLAMMATORY PATHWAYS; AND MOTIF ANALYSIS SHOWS THAT THEY ARE POTENTIAL TARGETS FOR TRANSCRIPTION FACTORS INVOLVED IN METABOLIC AND INFLAMMATORY PROCESSES. OUR STUDY HAS REVEALED THAT H3K9ME3 MAY PLAY AN IMPORTANT ROLE DURING THE PATHOGENESIS OF NAFLD THROUGH REGULATING THE ACCESSIBILITY OF ENHANCERS. 2023