1 5294 126 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 2 5166 37 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 3 4011 33 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 4 1795 39 EFFECT OF DIFFERENT COMBINATION OF MATERNAL AND POSTNATAL DIET ON ADIPOSE TISSUE MORPHOLOGY IN MALE RAT OFFSPRING. PURPOSE: ADIPOSE TISSUE EXPANSION CAN OCCUR THROUGH SEVERAL DIFFERENT WAYS AND, UNDER CERTAIN CONDITIONS, CAN BE CONNECTED WITH CHRONIC INFLAMMATION. TNF-ALPHA IS ONE OF THE IMPORTANT CYTOKINES INVOLVED IN THIS PROCESS. PROLONGED INFLAMMATION IN OBESITY CAN LEAD TO OBESITY-RELATED INSULIN RESISTANCE AND TISSUE DYSFUNCTION. THE AIM OF OUR STUDY WAS TO INVESTIGATE HOW DIFFERENT COMBINATION OF MATERNAL AND POSTNATAL DIET AFFECTS OFFSPRING ADIPOSE TISSUE MORPHOLOGY AND ADIPOSE TISSUE TNF-ALPHA EXPRESSION. METHODS: TEN FEMALE SPRAGUE DAWLEY RATS, 9 WEEKS OLD, WERE RANDOMLY DIVIDED INTO TWO GROUPS AND FED EITHER STANDARD LABORATORY CHOW OR FOOD RICH IN SATURATED FATTY ACIDS DURING 6 WEEKS AND THEN MATED WITH THE SAME MALE RAT. AFTER BIRTH AND LACTATION MALE RAT OFFSPRING FROM BOTH GROUPS WERE DIVIDED INTO FOUR SUBGROUPS DEPENDING ON THE DIET THEY WERE FED UNTIL 22 WEEKS OLD. SAMPLES OF WHITE ADIPOSE TISSUE WERE TAKEN FROM THE SUBCUTANEOUS, EPIDIDYMAL, AND PERIRENAL FAT PAD. ON TISSUE SECTIONS, HISTOMORPHOMETRIC ANALYSIS WAS CONDUCTED USING CELLPROFILER PROGRAM V 2.1.1, AND IMMUNOHISTOCHEMICAL STAINING FOR TNF-ALPHA WAS PERFORMED. RESULTS: GREATER MEAN SURFACE AREA OF SUBCUTANEOUS AND EPIDIDYMAL ADIPOCYTES WAS FOUND IN GROUPS OF MALE RAT OFFSPRING WITH ALTERED DIET. IN PERIRENAL ADIPOSE TISSUE, THE HIGHEST NUMBER OF ADIPOCYTES WAS MEASURED IN THE GROUP WHERE BOTH MOTHER AND OFFSPRING WERE FED A HIGH-FAT DIET. ADIPOCYTE STAINING INTENSITY FOR TNF-ALPHA DID NOT DIFFER SIGNIFICANTLY BETWEEN THE GROUPS. CONCLUSIONS: TOGETHER WITH OUR PREVIOUSLY PUBLISHED DATA, OUR RESULTS LEAD TO THE CONCLUSION THAT ALTERATION OF POSTNATAL DIET CAN LEAD TO TNF-ALPHA AND ADIPOCYTE MORPHOLOGY CHANGES. 2019 5 4752 51 NOVEL ROLE OF GESTATIONAL HYDRALAZINE IN LIMITING MATERNAL AND DIETARY OBESITY-RELATED CHRONIC KIDNEY DISEASE. BACKGROUND: MATERNAL OBESITY IS A RISK FACTOR FOR CHRONIC KIDNEY DISEASE (CKD) IN OFFSPRING, UNDERPINNING THE THEORY OF THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE. DNA METHYLATION HAS BEEN IMPLICATED IN THE PROGRAMMING OF ADULT CHRONIC DISEASE BY MATERNAL OBESITY, THEREFORE, DNA DEMETHYLATING AGENTS MAY MITIGATE OFFSPRING RISK OF DISEASE. IN RODENT MODELS, LOW-DOSE HYDRALAZINE HAS PREVIOUSLY BEEN SHOWN TO REDUCE RENAL FIBROSIS VIA DNA DEMETHYLATION. WE USED MOUSE MODELS OF MATERNAL OBESITY AND OFFSPRING OBESITY TO DETERMINE WHETHER ADMINISTRATION OF LOW-DOSE HYDRALAZINE DURING GESTATION CAN PREVENT FETAL PROGRAMMING OF CKD IN OFFSPRING. METHODS: FEMALE C57BL/6 MICE RECEIVED HIGH FAT DIET (HFD) OR CHOW PRIOR TO MATING, DURING GESTATION AND LACTATION. DURING GESTATION, DAMS RECEIVED SUBCUTANEOUS HYDRALAZINE (5 MG/KG) OR SALINE THRICE-WEEKLY. MALE OFFSPRING WEANED TO HFD OR CHOW, WHICH CONTINUED UNTIL ENDPOINT AT 32 WEEKS. BIOMETRIC AND METABOLIC PARAMETERS, RENAL GLOBAL DNA METHYLATION, RENAL FUNCTIONAL AND STRUCTURAL CHANGES, AND RENAL MARKERS OF FIBROSIS, INFLAMMATION AND OXIDATIVE STRESS WERE ASSESSED AT ENDPOINT. RESULTS: OFFSPRING EXPOSED TO MATERNAL OBESITY OR DIET-INDUCED OBESITY HAD SIGNIFICANTLY INCREASED RENAL GLOBAL DNA METHYLATION, TOGETHER WITH OTHER ADVERSE RENAL EFFECTS INCLUDING ALBUMINURIA, GLOMERULOSCLEROSIS, RENAL FIBROSIS, AND OXIDATIVE STRESS. OFFSPRING EXPOSED TO GESTATIONAL HYDRALAZINE HAD SIGNIFICANTLY REDUCED RENAL GLOBAL DNA METHYLATION. IN OBESE OFFSPRING OF OBESE MOTHERS, GESTATIONAL HYDRALAZINE SIGNIFICANTLY DECREASED ALBUMINURIA, GLOMERULOSCLEROSIS, AND SERUM CREATININE. OBESE OFFSPRING OF HYDRALAZINE-TREATED LEAN MOTHERS DISPLAYED REDUCED MARKERS OF RENAL FIBROSIS AND OXIDATIVE STRESS. CONCLUSION: GESTATIONAL HYDRALAZINE DECREASED RENAL GLOBAL DNA METHYLATION AND EXERTED RENOPROTECTIVE EFFECTS IN OFFSPRING. THIS SUPPORTS A POTENTIAL THERAPEUTIC EFFECT OF HYDRALAZINE IN PREVENTING MATERNAL OBESITY OR DIETARY OBESITY-RELATED CKD, THROUGH AN EPIGENETIC MECHANISM. 2021 6 5773 42 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 7 4079 45 MATERNAL L-CARNITINE SUPPLEMENTATION AMELIORATES RENAL UNDERDEVELOPMENT AND EPIGENETIC CHANGES IN MALE MICE OFFSPRING DUE TO MATERNAL SMOKING. OBJECTIVES: EPIDEMIOLOGICAL AND ANIMAL STUDIES SHOWED THAT L-CARNITINE (LC) SUPPLEMENTATION CAN AMELIORATE OXIDATIVE STRESS-INDUCED TISSUES DAMAGE. WE HAVE PREVIOUSLY SHOWN THAT MATERNAL CIGARETTE SMOKE EXPOSURE (SE) CAN INCREASE RENAL OXIDATIVE STRESS IN NEWBORN OFFSPRING WITH POSTNATAL KIDNEY UNDERDEVELOPMENT AND RENAL DYSFUNCTION IN ADULTHOOD, WHICH WERE NORMALISED BY LC ADMINISTRATION IN THE SE DAMS DURING PREGNANCY. EXPOSURE TO AN ADVERSE INTRAUTERINE ENVIRONMENT MAY LEAD TO ALTERATION IN THE EPIGENOME, A MECHANISM BY WHICH ADVERSE PRENATAL CONDITIONS INCREASE THE SUSCEPTIBILITY TO CHRONIC DISEASE LATER IN LIFE. THE CURRENT STUDY AIMED TO DETERMINE WHETHER MATERNAL SE INDUCES EPIGENETIC CHANGES IN THE OFFSPRING'S KIDNEY ARE ASSOCIATED WITH RENAL UNDERDEVELOPMENT, AND THE PROTECTIVE EFFECT OF MATERNAL LC SUPPLEMENTATION. METHOD: FEMALE BALB/C MICE (7 WEEKS) WERE EXPOSED TO CIGARETTE SMOKE (SE) OR AIR (SHAM) FOR 6 WEEKS PRIOR TO MATING, DURING GESTATION AND LACTATION. A SUBGROUP OF THE SE DAMS RECEIVED LC VIA DRINKING WATER (SE + LC, 1.5 MMOL/L) THROUGHOUT GESTATION AND LACTATION. MALE OFFSPRING WERE STUDIED AT POSTNATAL DAY (P)1, P20, AND 13 WEEKS. RESULTS: MATERNAL SE ALTERED THE EXPRESSION OF RENAL DEVELOPMENT MARKERS GLIAL CELL LINE-DERIVED NEUROTROPHIC FACTOR AND FIBROBLAST GROWTH FACTOR 2, WHICH WERE ASSOCIATED WITH INCREASED RENAL GLOBAL DNA METHYLATION AND DNA METHYLTRANSFERASE 1 MRNA EXPRESSION AT BIRTH. THESE DISORDERS WERE REVERSED BY MATERNAL LC ADMINISTRATION. CONCLUSION: THE EFFECT OF MATERNAL SE ON RENAL UNDERDEVELOPMENT INVOLVES GLOBAL EPIGENETIC ALTERATIONS FROM BIRTH, WHICH CAN BE PREVENTED BY MATERNAL LC SUPPLEMENTATION. 2019 8 4085 38 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 9 4941 32 PATERNAL OBESITY, INTERVENTIONS, AND MECHANISTIC PATHWAYS TO IMPAIRED HEALTH IN OFFSPRING. BACKGROUND: THE GLOBAL RATES OF MALE OVERWEIGHT/OBESITY ARE RISING, APPROACHING 70% OF THE TOTAL ADULT POPULATION IN WESTERN NATIONS. OVERWEIGHT/OBESITY INCREASES THE RISK OF CHRONIC DISEASES; HOWEVER, THERE IS INCREASING AWARENESS THAT MALE OBESITY NEGATIVELY IMPACTS FERTILITY, SUBSEQUENT PREGNANCY, AND THE OFFSPRING HEALTH BURDEN. DEVELOPMENTAL PROGRAMMING IS WELL DEFINED IN MOTHERS; HOWEVER, IT IS BECOMING INCREASINGLY EVIDENT THAT DEVELOPMENTAL PROGRAMMING CAN BE PATERNALLY INITIATED AND MEDIATED THROUGH PATERNAL OBESITY. KEY MESSAGES: BOTH HUMAN AND RODENT MODELS HAVE ESTABLISHED THAT PATERNAL OBESITY IMPAIRS SEX HORMONES, BASIC SPERM FUNCTION, AND MOLECULAR COMPOSITION. THIS RESULTS IN PERTURBED EMBRYO DEVELOPMENT AND HEALTH AND AN INCREASED SUBSEQUENT OFFSPRING DISEASE BURDEN IN BOTH SEXES. THE REVERSIBILITY OF OBESITY-INDUCED PARENTAL PROGRAMMING HAS ONLY RECENTLY RECEIVED ATTENTION. PROMISING RESULTS IN ANIMAL MODELS UTILIZING DIET AND EXERCISE INTERVENTIONS HAVE SHOWN IMPROVEMENTS IN SPERM FUNCTION AND MOLECULAR COMPOSITION, RESULTING IN RESTORATIONS OF BOTH EMBRYO AND FETAL HEALTH AND SUBSEQUENT MALE OFFSPRING FERTILITY. THE DIRECT MODE FOR PATERNAL INHERITANCE IS LIKELY MEDIATED VIA SPERMATOZOA. WE PROPOSE TWO MAIN THEORIES FOR THE ORIGIN OF MALE OBESITY-INDUCED PATERNAL PROGRAMMING: (1) ACCUMULATION OF SPERM DNA DAMAGE RESULTING IN DE NOVO MUTATIONS IN THE EMBRYO AND (2) CHANGES IN SPERM EPIGENETIC MARKS (MICRORNA, METHYLATION, OR ACETYLATION) ALTERING THE ACCESS, TRANSCRIPTION, AND TRANSLATION OF PATERNALLY DERIVED GENES DURING EARLY EMBRYOGENESIS. CONCLUSIONS: PATERNAL OVERWEIGHT/OBESITY INDUCES PATERNAL PROGRAMMING OF OFFSPRING PHENOTYPES LIKELY MEDIATED THROUGH GENETIC AND EPIGENETIC CHANGES IN SPERMATOZOA. THESE PROGRAMMED CHANGES TO OFFSPRING HEALTH APPEAR TO BE PARTIALLY RESTORED VIA DIET/EXERCISE INTERVENTIONS IN OBESE FATHERS PRECONCEPTION, WHICH HAVE BEEN SHOWN TO IMPROVE ASPECTS OF SPERM DNA INTEGRITY. HOWEVER, THE MAJORITY OF DATA SURROUNDING PATERNAL OBESITY AND OFFSPRING PHENOTYPES HAVE COME FROM RODENT MODELS; THEREFORE, WE CONTEND THAT IT WILL BE INCREASINGLY IMPORTANT TO STUDY POPULATION-BASED DATA TO DETERMINE THE LIKELY MODE OF INHERITANCE IN HUMANS. 2014 10 2757 46 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 11 3119 31 GESTATIONAL EXPOSURE TO PARTICULATE AIR POLLUTION EXACERBATES THE GROWTH PHENOTYPES INDUCED BY PRECONCEPTION PATERNAL ALCOHOL USE: A MULTIPLEX MODEL OF EXPOSURE. IT IS NOW CLEAR THAT PARENTAL HISTORIES OF DRUG USE, TOXICANT EXPOSURE, AND SOCIAL STRESS ALL HAVE A SIGNIFICANT INFLUENCE ON THE HEALTH AND DEVELOPMENT OF THE NEXT GENERATION. HOWEVER, THE ABILITY OF EPIGENETIC PARENTAL LIFE MEMORIES TO INTERACT WITH SUBSEQUENT GESTATIONAL EXPOSURES AND CUMULATIVELY MODIFY THE DEVELOPMENTAL TRAJECTORY OF THE OFFSPRING REMAINS AN UNEXPLORED PERSPECTIVE IN TOXICOLOGY. STUDIES FROM OUR LABORATORY HAVE IDENTIFIED MALE-SPECIFIC POSTNATAL GROWTH RESTRICTION IN A MOUSE MODEL OF CHRONIC, PRECONCEPTION PATERNAL ALCOHOL EXPOSURE. THE GOAL OF THE CURRENT STUDY WAS TO DETERMINE IF PATERNAL ALCOHOL USE, BEFORE CONCEPTION, COULD MODIFY THE SUSCEPTIBILITY OF THE OFFSPRING TO A COMPLETELY SEPARATE EXPOSURE ENCOUNTERED BY THE MOTHER DURING PREGNANCY. IN INDEPENDENT EXPERIMENTS, WE PREVIOUSLY IDENTIFIED ALTERED DEVELOPMENTAL PROGRAMMING AND INCREASED MARKERS OF SEVERE ASTHMA INDUCED BY GESTATIONAL EXPOSURE TO PARTICULATE AIR POLLUTION. IN THIS STUDY, MALE MICE WERE EXPOSED TO EITHER THE CONTROL OR ALCOHOL PRECONCEPTION TREATMENTS, THEN MATED TO NAIVE FEMALES, WHICH WE SUBSEQUENTLY EXPOSED TO AN ULTRAFINE MIXTURE OF PARTICULATE MATTER VIA INHALATION. INDIVIDUALLY, NEITHER PRECONCEPTION PATERNAL DRINKING NOR GESTATIONAL EXPOSURES TO PARTICULATE AIR POLLUTION IMPACTED THE POSTNATAL GROWTH OF FEMALE OFFSPRING. HOWEVER, WHEN BOTH EXPOSURES WERE COMBINED, FEMALES DISPLAYED A 30% REDUCTION IN WEIGHT GAIN. UNEXPECTEDLY, THIS EXPOSURE PARADIGM RESULTED IN A DRAMATIC POSTNATAL INCREASE IN LITTER LOSS DUE TO MATERNAL CANNIBALISM, WHICH PREVENTED ADDITIONAL MEASURES OF OFFSPRING HEALTH. THESE PRELIMINARY STUDIES PROVIDE EVIDENCE OF A COMPLEX INTERPLAY BETWEEN PRECONCEPTION LIFE HISTORY AND INTRAUTERINE ENVIRONMENTAL FACTORS IN THE CONTROL OF POSTNATAL GROWTH. 2020 12 4069 40 MATERNAL CHRONIC FOLATE SUPPLEMENTATION AMELIORATES BEHAVIOR DISORDERS INDUCED BY PRENATAL HIGH-FAT DIET THROUGH METHYLATION ALTERATION OF BDNF AND GRIN2B IN OFFSPRING HIPPOCAMPUS. SCOPE: MATERNAL CONSUMPTION OF A HIGH-FAT DIET (HFD) DURING PREGNANCY INCREASES THE RISK OF BEHAVIORAL PROBLEMS. FOLATE PLAYS AN IMPORTANT ROLE IN NEUROPLASTICITY AND THE PRESERVATION OF NEURONAL INTEGRITY. THIS STUDY AIMS AT DETERMINING THE INFLUENCE OF DIETS SUPPLEMENTED WITH FOLATE ON OFFSPRING BEHAVIOR, AND THE MECHANISMS INVOLVED. METHODS AND RESULTS: FEMALE MICE WERE FED A CONTROL DIET, AN HFD, CONTROL DIET SUPPLEMENTED WITH FOLATE, OR AN HFD SUPPLEMENTED WITH FOLATE FOR 5 WEEKS BEFORE MATING. OPEN FIELD TASK AND ELEVATED PLUS MAZE ARE USED TO EVALUATE THE OFFSPRING BEHAVIORS. RESULTS SHOWED THAT OFFSPRING COGNITIVE PERFORMANCE AND ANXIETY-RELATED BEHAVIORS, INCLUDING THOSE RELATED TO OPEN FIELD EXPLORATION AND ELEVATED PLUS MAZE, WERE SIGNIFICANTLY IMPROVED WHEN DAMS WERE TREATED WITH FOLATE IN PREGNANCY. MOREOVER, THE MATERNAL FOLATE SUPPLEMENT DECREASED BDNF AND GRIN2B METHYLATION AND UPREGULATED THEIR EXPRESSIONS IN THE BRAIN OF OFFSPRING, WHICH WERE ASSOCIATED WITH DECREASING THE EXPRESSION OF DNA METHYLTRANSFERASES COMPARED WITH THOSE DAMS WERE TREATED ONLY HFD IN PREGNANCY. CONCLUSION: MATERNAL FOLATE SUPPLEMENTATION AMELIORATES BEHAVIOR DISORDERS INDUCED BY PRENATAL HIGH-FAT DIET. THE BENEFICIAL EFFECTS WERE ASSOCIATED WITH METHYLATION AND EXPRESSION ALTERATION OF BDNF AND GRIN2B GENES. 2017 13 4066 37 MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION AS AN INDICATOR OF OFFSPRING METABOLIC SYNDROME RISK IN LATER LIFE THROUGH EPIGENETIC IMPRINTING: A SYSTEMATIC REVIEW. AIMS: THIS REVIEW EXAMINED WHETHER MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION EFFECTS AN OFFSPRING'S LIKELIHOOD OF DEVELOPING CHRONIC METABOLIC RELATED CONDITIONS DUE TO EPIGENETIC IMPRINTING. METHODS: A LITERATURE SEARCH WAS CONDUCTED IN MULTIPLE SCIENCE DATABASES AND LIMITED TO STUDIES PUBLISHED AFTER 2012, IN ENGLISH LANGUAGE AND PEER REVIEWED. THE DATA FROM SELECTED ARTICLES WERE EXTRACTED AND A QUALITATIVE APPROACH WAS EMPLOYED DUE TO HETEROGENEITY OF RESULTS. RESULTS: NEWBORNS FROM OBESE FATHERS SHOWED ALTERED METHYLATION OVERALL AND SIGNIFICANT HYPOMETHYLATION AT THE INSULIN-LIKE GROWTH FACTOR 2 (IGF2) GENE. HIGH MATERNAL PRE-PREGNANCY BODY MASS INDEX (BMI) WAS ASSOCIATED WITH ALTERED OFFSPRING DNA METHYLATION LEVELS AND GESTATIONAL DIABETES MELLITUS INDUCED SIGNIFICANTLY INCREASED METHYLATION LEVELS IN OFFSPRING. GESTATIONAL WEIGHT GAIN WAS NOT ASSOCIATED WITH DIFFERENTIALLY METHYLATED CORD BLOOD. BIRTH WEIGHT WAS HIGHER IN OFFSPRING EXPOSED TO FAMINE IN EARLY GESTATION. OFFSPRING BORN POST MATERNAL BARIATRIC SURGERY SHOWED A LOWER PERCENTAGE OF BODY FAT AND IMPROVED FASTING INSULIN LEVELS COMPARED TO SIBLINGS BORN PRE-MATERNAL BARIATRIC SURGERY. CONCLUSIONS: THE AVAILABLE EVIDENCE SUGGESTS THAT POOR MATERNAL AND PATERNAL PERICONCEPTIONAL NUTRITION CAN INCREASE THE RISK OF METABOLIC SYNDROME IN OFFSPRING, THROUGH EPIGENETIC IMPRINTING. POTENTIAL PARENTS SHOULD BE ADVISED THAT MAINTAINING A HEALTHY DIET AND BMI IS LIKELY TO REDUCE THE RISK OF METABOLIC SYNDROME IN OFFSPRING. 2017 14 249 37 ADVANCED AGING PHENOTYPE IS REVEALED BY EPIGENETIC MODIFICATIONS IN RAT LIVER AFTER IN UTERO MALNUTRITION. ADVERSE ENVIRONMENTAL EXPOSURES OF MOTHERS DURING FETAL PERIOD PREDISPOSE OFFSPRING TO A RANGE OF AGE-RELATED DISEASES EARLIER IN LIFE. HERE, WE SET TO DETERMINE WHETHER A DEREGULATED EPIGENETIC PATTERN IS SIMILAR IN YOUNG ANIMALS WHOSE MOTHERS' NUTRITION WAS MODULATED DURING FETAL GROWTH TO THAT ACQUIRED DURING NORMAL AGING IN ANIMALS. USING A RODENT MODEL OF MATERNAL UNDERNUTRITION (UN) OR OVERNUTRITION (ON), WE EXAMINED CYTOSINE METHYLATION PROFILES OF LIVER FROM YOUNG FEMALE OFFSPRING AND COMPARED THEM TO AGE-MATCHED YOUNG CONTROLS AND AGED (20-MONTH-OLD) ANIMALS. HELP-TAGGING, A GENOMEWIDE RESTRICTION ENZYME AND SEQUENCING ASSAY DEMONSTRATES THAT FETAL EXPOSURE TO TWO DIFFERENT MATERNAL DIETS IS ASSOCIATED WITH NONRANDOM DYSREGULATION OF METHYLATION LEVELS WITH PROFILES SIMILAR TO THOSE SEEN IN NORMAL AGING ANIMALS AND OCCUR IN REGIONS MAPPED TO GENES RELEVANT TO METABOLIC DISEASES AND AGING. FUNCTIONAL CONSEQUENCES WERE ASSESSED BY GENE EXPRESSION AT 9 WEEKS OLD WITH MORE SIGNIFICANT CHANGES AT 6 MONTHS OF AGE. EARLY DEVELOPMENTAL EXPOSURES TO UNFAVORABLE MATERNAL DIETS RESULT IN ALTERED METHYLATION PROFILES AND TRANSCRIPTIONAL DYSREGULATION IN PRKCB, PC, NCOR2, AND SMAD3 THAT IS ALSO SEEN WITH NORMAL AGING. THESE NOTCH PATHWAY AND LIPOGENESIS GENES MAY BE USEFUL FOR PREDICTION OF LATER SUSCEPTIBILITY TO CHRONIC DISEASE. 2016 15 2158 46 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 16 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 17 4065 32 MATERNAL AND GESTATIONAL INFLUENCES ON CHILDHOOD BLOOD PRESSURE. EXPOSURES THAT CONTRIBUTE TO A SUB-OPTIMAL INTRAUTERINE ENVIRONMENT CAN HAVE AN EFFECT ON THE DEVELOPING FETUS. IMPAIRED FETAL GROWTH THAT RESULTS IN LOW BIRTH WEIGHT IS AN ESTABLISHED RISK FACTOR FOR CARDIO-METABOLIC DISORDERS LATER IN LIFE. RECENT EPIDEMIOLOGIC AND PROSPECTIVE COHORT STUDIES THAT INCLUDE THE MATERNAL AND GESTATIONAL PERIOD HAVE IDENTIFIED MATERNAL AND GESTATIONAL CONDITIONS THAT CONFER INCREASED RISK FOR SUBSEQUENT CARDIO-METABOLIC DISORDERS IN THE ABSENCE OF LOW BIRTH WEIGHT. MATERNAL PRE-CONCEPTION HEALTH STATUS, INCLUDING CHRONIC OBESITY AND TYPE 2 DIABETES, INCREASE RISK FOR CHILDHOOD OBESITY AND OBESITY-RELATED HIGHER BLOOD PRESSURE (BP) IN CHILD OFFSPRING. MATERNAL GESTATIONAL EXPOSURES, INCLUDING GESTATIONAL DIABETES, GESTATIONAL HYPERTENSION, AND PREECLAMPSIA, ARE ASSOCIATED WITH HIGHER BP IN OFFSPRING. OTHER MATERNAL EXPOSURES SUCH AS CIGARETTE SMOKE AND AIR POLLUTION ALSO INCREASE RISK FOR HIGHER BP IN CHILD OFFSPRING. RECENT, BUT LIMITED, DATA INDICATE THAT ASSISTED REPRODUCTIVE TECHNOLOGIES CAN BE ASSOCIATED WITH HYPERTENSION IN CHILDHOOD, DESPITE OTHERWISE NORMAL GESTATION AND HEALTHY NEWBORN. GESTATIONAL EXPOSURES ASSOCIATED WITH HIGHER BP IN CHILDHOOD CAN BE RELATED TO FAMILIAL LIFESTYLE FACTORS, GENETICS, OR EPIGENETIC MODIFICATION OF FETAL DEOXYRIBONUCLEIC ACID (DNA). THESE FACTORS, OR COMBINATION OF FACTORS, AS WELL AS OTHER ADVERSE INTRAUTERINE CONDITIONS, COULD INDUCE FETAL PROGRAMING LEADING TO HEALTH CONSEQUENCES IN LATER LIFE. CURRENT AND DEVELOPING RESEARCH WILL PROVIDE ADDITIONAL INSIGHTS ON GESTATIONAL EXPOSURES AND FETAL ADJUSTMENTS THAT INCREASE RISK FOR HIGHER BP LEVELS IN CHILDHOOD. 2020 18 1520 40 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 19 2472 33 EPIGENETIC TRANSMISSION OF THE IMPACT OF EARLY STRESS ACROSS GENERATIONS. BACKGROUND: TRAUMATIC EXPERIENCES IN EARLY LIFE ARE RISK FACTORS FOR THE DEVELOPMENT OF BEHAVIORAL AND EMOTIONAL DISORDERS. SUCH DISORDERS CAN PERSIST THROUGH ADULTHOOD AND HAVE OFTEN BEEN REPORTED TO BE TRANSMITTED ACROSS GENERATIONS. METHODS: TO INVESTIGATE THE TRANSGENERATIONAL EFFECT OF EARLY STRESS, MICE WERE EXPOSED TO CHRONIC AND UNPREDICTABLE MATERNAL SEPARATION FROM POSTNATAL DAY 1 TO 14. RESULTS: WE SHOW THAT CHRONIC AND UNPREDICTABLE MATERNAL SEPARATION INDUCES DEPRESSIVE-LIKE BEHAVIORS AND ALTERS THE BEHAVIORAL RESPONSE TO AVERSIVE ENVIRONMENTS IN THE SEPARATED ANIMALS WHEN ADULT. MOST OF THE BEHAVIORAL ALTERATIONS ARE FURTHER EXPRESSED BY THE OFFSPRING OF MALES SUBJECTED TO MATERNAL SEPARATION, DESPITE THE FACT THAT THESE MALES ARE REARED NORMALLY. CHRONIC AND UNPREDICTABLE MATERNAL SEPARATION ALSO ALTERS THE PROFILE OF DNA METHYLATION IN THE PROMOTER OF SEVERAL CANDIDATE GENES IN THE GERMLINE OF THE SEPARATED MALES. COMPARABLE CHANGES IN DNA METHYLATION ARE ALSO PRESENT IN THE BRAIN OF THE OFFSPRING AND ARE ASSOCIATED WITH ALTERED GENE EXPRESSION. CONCLUSIONS: THESE FINDINGS HIGHLIGHT THE NEGATIVE IMPACT OF EARLY STRESS ON BEHAVIORAL RESPONSES ACROSS GENERATIONS AND ON THE REGULATION OF DNA METHYLATION IN THE GERMLINE. 2010 20 6426 25 THE TRANSGENERATIONAL TRANSMISSION OF THE PATERNAL TYPE 2 DIABETES-INDUCED SUBFERTILITY PHENOTYPE. DIABETES IS A CHRONIC METABOLIC DISORDER CHARACTERIZED BY HYPERGLYCEMIA AND ASSOCIATED WITH MANY HEALTH COMPLICATIONS DUE TO THE LONG-TERM DAMAGE AND DYSFUNCTION OF VARIOUS ORGANS. A CONSEQUENTIAL COMPLICATION OF DIABETES IN MEN IS REPRODUCTIVE DYSFUNCTION, REDUCED FERTILITY, AND POOR REPRODUCTIVE OUTCOMES. HOWEVER, THE MOLECULAR MECHANISMS RESPONSIBLE FOR DIABETIC ENVIRONMENT-INDUCED SPERM DAMAGE AND OVERALL DECREASED REPRODUCTIVE OUTCOMES ARE NOT FULLY ESTABLISHED. WE EVALUATED THE EFFECTS OF TYPE 2 DIABETES EXPOSURE ON THE REPRODUCTIVE SYSTEM AND THE REPRODUCTIVE OUTCOMES OF MALES AND THEIR MALE OFFSPRING, USING A MOUSE MODEL. WE DEMONSTRATE THAT PATERNAL EXPOSURE TO TYPE 2 DIABETES MEDIATES INTERGENERATIONAL AND TRANSGENERATIONAL EFFECTS ON THE REPRODUCTIVE HEALTH OF THE OFFSPRING, ESPECIALLY ON SPERM QUALITY, AND ON METABOLIC CHARACTERISTICS. GIVEN THE TRANSGENERATIONAL IMPAIRMENT OF REPRODUCTIVE AND METABOLIC PARAMETERS THROUGH TWO GENERATIONS, THESE CHANGES LIKELY TAKE THE FORM OF INHERITED EPIGENETIC MARKS THROUGH THE GERMLINE. OUR RESULTS EMPHASIZE THE IMPORTANCE OF IMPROVING METABOLIC HEALTH NOT ONLY IN WOMEN OF REPRODUCTIVE AGE, BUT ALSO IN POTENTIAL FATHERS, IN ORDER TO REDUCE THE NEGATIVE IMPACTS OF DIABETES ON SUBSEQUENT GENERATIONS. 2021