1 2263 153 EPIGENETIC PROGRAMMING AT THE MOGAT1 LOCUS MAY LINK NEONATAL OVERNUTRITION WITH LONG-TERM HEPATIC STEATOSIS AND INSULIN RESISTANCE. POSTNATAL OVERFEEDING INCREASES THE RISK OF CHRONIC DISEASES LATER IN LIFE, INCLUDING OBESITY, INSULIN RESISTANCE, HEPATIC STEATOSIS, AND TYPE 2 DIABETES. EPIGENETIC MECHANISMS MIGHT UNDERLIE THE LONG-LASTING EFFECTS ASSOCIATED WITH EARLY NUTRITION. HERE WE AIMED TO EXPLORE THE MOLECULAR PATHWAYS INVOLVED IN EARLY DEVELOPMENT OF INSULIN RESISTANCE AND HEPATIC STEATOSIS, AND WE EXAMINED THE POTENTIAL CONTRIBUTION OF DNA METHYLATION AND HISTONE MODIFICATIONS TO LONG-TERM PROGRAMMING OF METABOLIC DISEASE. WE USED A WELL-CHARACTERIZED MOUSE MODEL OF NEONATAL OVERFEEDING AND EARLY ADIPOSITY BY LITTER SIZE REDUCTION. NEONATAL OVERFEEDING LED TO HEPATIC INSULIN RESISTANCE VERY EARLY IN LIFE THAT PERSISTED THROUGHOUT ADULTHOOD DESPITE NORMALIZING FOOD INTAKE. UP-REGULATION OF MONOACYLGLYCEROL O-ACYLTRANSFERASE ( MOGAT) 1 CONCEIVABLY MEDIATES HEPATIC STEATOSIS AND INSULIN RESISTANCE THROUGH INCREASING INTRACELLULAR DIACYLGLYCEROL CONTENT. EARLY AND SUSTAINED DEREGULATION OF MOGAT1 WAS ASSOCIATED WITH A COMBINATION OF HISTONE MODIFICATIONS THAT MIGHT FAVOR MOGAT1 EXPRESSION. IN SUM, POSTNATAL OVERFEEDING CAUSES EXTREMELY RAPID DERANGEMENTS OF HEPATIC INSULIN SENSITIVITY THAT REMAIN RELATIVELY STABLE UNTIL ADULTHOOD. EPIGENETIC MECHANISMS, PARTICULARLY HISTONE MODIFICATIONS, COULD CONTRIBUTE TO SUCH LONG-LASTING EFFECTS. OUR DATA SUGGEST THAT TARGETING HEPATIC MONOACYLGLYCEROL ACYLTRANSFERASE ACTIVITY DURING EARLY LIFE MIGHT PROVIDE A NOVEL STRATEGY TO IMPROVE HEPATIC INSULIN SENSITIVITY AND PREVENT LATE-ONSET INSULIN RESISTANCE AND FATTY LIVER DISEASE.-RAMON-KRAUEL, M., PENTINAT, T., BLOKS, V. W., CEBRIA, J., RIBO, S., PEREZ-WIENESE, R., VILA, M., PALACIOS-MARIN, I., FERNANDEZ-PEREZ, A., VALLEJO, M., TELLEZ, N., RODRIGUEZ, M. A., YANES, O., LERIN, C., DIAZ, R., PLOSCH, T., TIETGE, U. J. F., JIMENEZ-CHILLARON, J. C. EPIGENETIC PROGRAMMING AT THE MOGAT1 LOCUS MAY LINK NEONATAL OVERNUTRITION WITH LONG-TERM HEPATIC STEATOSIS AND INSULIN RESISTANCE. 2018 2 5688 25 SILENCING EFFECTS OF MUTANT RAS SIGNALLING ON TRANSCRIPTOMES. MUTATED GENES OF THE RAS FAMILY ENCODING SMALL GTP-BINDING PROTEINS DRIVE NUMEROUS CANCERS, INCLUDING PANCREATIC, COLON AND LUNG TUMORS. BESIDES THE NUMEROUS EFFECTS OF MUTANT RAS GENE EXPRESSION ON ABERRANT PROLIFERATION, TRANSFORMED PHENOTYPES, METABOLISM, AND THERAPY RESISTANCE, THE MOST STRIKING CONSEQUENCES OF CHRONIC RAS ACTIVATION ARE CHANGES OF THE GENETIC PROGRAM. BY PERFORMING SYSTEMATIC GENE EXPRESSION STUDIES IN CELLULAR MODELS THAT ALLOW COMPARISONS OF PRE-NEOPLASTIC WITH RAS-TRANSFORMED CELLS, WE AND OTHERS HAVE ESTIMATED THAT 7 PERCENT OR MORE OF ALL TRANSCRIPTS ARE ALTERED IN CONJUNCTION WITH THE EXPRESSION OF THE ONCOGENE. IN THIS CONTEXT, THE NUMBER OF UP-REGULATED TRANSCRIPTS APPROXIMATES THAT OF DOWN-REGULATED TRANSCRIPTS. WHILE UP-REGULATED TRANSCRIPTION FACTORS SUCH AS MYC, FOSL1, AND HMGA2 HAVE BEEN IDENTIFIED AND CHARACTERIZED AS RAS-RESPONSIVE DRIVERS OF THE ALTERED TRANSCRIPTOME, THE SUPPRESSED FACTORS HAVE BEEN LESS WELL STUDIED AS POTENTIAL REGULATORS OF THE GENETIC PROGRAM AND TRANSFORMED PHENOTYPE IN THE BREADTH OF THEIR OCCURRENCE. WE THEREFORE HAVE COLLECTED INFORMATION ON DOWNREGULATED RAS-RESPONSIVE FACTORS AND DISCUSS THEIR POTENTIAL ROLE AS TUMOR SUPPRESSORS THAT ARE LIKELY TO ANTAGONIZE ACTIVE CANCER DRIVERS. TO BETTER UNDERSTAND THE ACTIVE MECHANISMS THAT ENTAIL ANTI-RAS FUNCTION AND THOSE THAT LEAD TO LOSS OF TUMOR SUPPRESSOR ACTIVITY, WE FOCUS ON THE TUMOR SUPPRESSOR HREV107 (ALIAS PLAAT3 [PHOSPHOLIPASE A AND ACYLTRANSFERASE 3], PLA2G16 [PHOSPHOLIPASE A2, GROUP XVI] AND HRASLS3 [HRAS-LIKE SUPPRESSOR 3]). INACTIVATING HREV107 MUTATIONS IN TUMORS ARE EXTREMELY RARE, HENCE EPIGENETIC CAUSES MODULATED BY THE RAS PATHWAY ARE LIKELY TO LEAD TO DOWN-REGULATION AND LOSS OF FUNCTION. 2023 3 701 28 BROWN FAT DNMT3B DEFICIENCY AMELIORATES OBESITY IN FEMALE MICE. OBESITY RESULTS FROM A CHRONIC ENERGY IMBALANCE DUE TO ENERGY INTAKE EXCEEDING ENERGY EXPENDITURE. ACTIVATION OF BROWN FAT THERMOGENESIS HAS BEEN SHOWN TO COMBAT OBESITY. EPIGENETIC REGULATION, INCLUDING DNA METHYLATION, HAS EMERGED AS A KEY REGULATOR OF BROWN FAT THERMOGENIC FUNCTION. HERE WE AIMED TO STUDY THE ROLE OF DNMT3B, A DNA METHYLTRANSFERASE INVOLVED IN DE NOVO DNA METHYLATION, IN THE REGULATION OF BROWN FAT THERMOGENESIS AND OBESITY. WE FOUND THAT THE SPECIFIC DELETION OF DNMT3B IN BROWN FAT PROMOTES THE THERMOGENIC AND MITOCHONDRIAL PROGRAM IN BROWN FAT, ENHANCES ENERGY EXPENDITURE, AND DECREASES ADIPOSITY IN FEMALE MICE FED A REGULAR CHOW DIET. WITH A LEAN PHENOTYPE, THE FEMALE KNOCKOUT MICE ALSO EXHIBIT INCREASED INSULIN SENSITIVITY. IN ADDITION, DNMT3B DEFICIENCY IN BROWN FAT ALSO PREVENTS DIET-INDUCED OBESITY AND INSULIN RESISTANCE IN FEMALE MICE. INTERESTINGLY, OUR RNA-SEQ ANALYSIS REVEALED AN UPREGULATION OF THE PI3K-AKT PATHWAY IN THE BROWN FAT OF FEMALE DNMT3B KNOCKOUT MICE. HOWEVER, MALE DNMT3B KNOCKOUT MICE HAVE NO CHANGE IN THEIR BODY WEIGHT, SUGGESTING THE EXISTENCE OF SEXUAL DIMORPHISM IN THE BROWN FAT DNMT3B KNOCKOUT MODEL. OUR DATA DEMONSTRATE THAT DNMT3B PLAYS AN IMPORTANT ROLE IN THE REGULATION OF BROWN FAT FUNCTION, ENERGY METABOLISM AND OBESITY IN FEMALE MICE. 2021 4 1373 26 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 6361 22 THE ROLE OF INNATE IMMUNITY IN THE PATHOGENESIS OF PRENEOPLASIA IN DRUG-INDUCED CHRONIC HEPATITIS BASED ON A MOUSE MODEL. INNATE IMMUNITY FACTORS SUCH AS CONVERSION OF THE 26S PROTEASOME TO FORM THE IMMUNOPROTEASOME AND THE TOLL-LIKE RECEPTOR SIGNALING PATHWAYS ARE ACTIVATED IN CHRONIC HEPATITIS INDUCED BY THE CARCINOGENIC DRUG DDC. OVER TIME, PRENEOPLASTIC HEPATOCYTE PHENOTYPES APPEAR IN THE LIVER PARENCHYMA. THESE CHANGED HEPATOCYTES EXPAND IN NUMBER BECAUSE THEY HAVE A GROWTH ADVANTAGE OVER NORMAL HEPATOCYTES WHEN RESPONDING TO CHRONIC LIVER INJURY. THE CHANGED HEPATOCYTES CAN BE IDENTIFIED USING IMMUNOFLUORESCENT ANTIBODIES TO PRENEOPLASTIC CELLS E.G. FAT10/UBD, A2 MACROGLOBULIN, GLUTATHIONE TRANSPEPTIDASE, ALPHA FETOPROTEIN, GLYCIPAN 3, FAS, AND GAMMA GLUTAMYL TRANSPEPTIDASE. THE FORMATION OF THE PRENEOPLASTIC CELLS OCCURS CONCOMITANT WITH ACTIVATION OF THE TOLL-LIKE RECEPTOR SIGNALING PATHWAYS AND THE TRANSFORMATION OF THE 26S PROTEASOME TO FORM THE IMMUNOPROTEASOME. THIS TRANSFORMATION IS IN RESPONSE TO INTERFERON STIMULATING RESPONSE ELEMENT ON THE PROMOTER OF THE FAT10/UBD GENE. NFKAPPAB, ERK, P38 AND JNK ARE ALSO UP REGULATED. SPECIFIC INHIBITORS BLOCK THESE RESPONSES IN VITRO IN A MOUSE TUMOR CELL LINE EXPOSED TO INTERFERON GAMMA. MALLORY-DENK BODIES FORM IN THESE PRENEOPLASTIC CELLS, BECAUSE OF THE DEPLETION OF THE 26S PROTEASOME DUE TO FORMATION OF THE IMMUNOPROTEASOME. THUS, MDB FORMING CELLS ARE ALSO MARKERS OF THE PRENEOPLASTIC HEPATOCYTES. THE UBD POSITIVE PRENEOPLASTIC CELLS REGRESS WHEN THE LIVER INJURY INDUCED CHRONIC HEPATITIS SUBSIDES. WHEN THE DRUG DDC IS REFED TO MICE AND CHRONIC HEPATITIS IS ACTIVATED, THE PRENEOPLASTIC CELL POPULATION EXPANDS AND MALLORY-DENK BODIES RAPIDLY REFORM. THIS RESPONSE IS REMEMBERED BY THE PRENEOPLASTIC CELLS FOR AT LEAST FOUR MONTHS INDICATING THAT AN EPIGENETIC CELLULAR MEMORY HAS FORMED IN THE PRENEOPLASTIC CELLS. THIS PROLIFERATIVE RESPONSE IS PREVENTED BY FEEDING METHYL DONORS SUCH AS S-ADENOSYLMETHIONINE OR BETAINE. DRUG FEEDING REDUCES THE METHYLATION OF H(3) K4, 9, AND 27 AND THIS RESPONSE IS PREVENTED BY FEEDING THE METHYL DONORS. AFTER 8 TO 15MONTHS OF DRUG WITHDRAWAL IN MICE THE PRENEOPLASTIC LIVER CELLS PERSIST AS SINGLE OR SMALL CLUSTERS OF CELLS IN THE LIVER LOBULES. MULTIPLE LIVER TUMORS FORM, SOME OF WHICH ARE HEPATOCELLULAR CARCINOMAS. THE TUMORS IMMUNOSTAIN POSITIVELY FOR THE SAME PRENEOPLASTIC MARKERS AS THE PRENEOPLASTIC CELLS. SIMILAR CELLS ARE IDENTIFIED IN HUMAN CIRRHOSIS AND HEPATOCELLULAR CARCINOMA INDICATING THE RELEVANCE OF THE DRUG MODEL DESCRIBED HERE TO THE PRENEOPLASTIC CHANGES ASSOCIATED WITH HUMAN CHRONIC HEPATITIS AND HEPATOCELLULAR CARCINOMA. 2011 6 4003 25 LOSS OF PRMT7 REPROGRAMS GLYCINE METABOLISM TO SELECTIVELY ERADICATE LEUKEMIA STEM CELLS IN CML. OUR GROUP HAS REPORTED PREVIOUSLY ON THE ROLE OF VARIOUS MEMBERS OF THE PROTEIN ARGININE METHYLTRANSFERASE (PRMT) FAMILY, WHICH ARE INVOLVED IN EPIGENETIC REGULATION, IN THE PROGRESSION OF LEUKEMIA. HERE, WE EXPLORED THE ROLE OF PRMT7, GIVEN ITS UNIQUE FUNCTION WITHIN THE PRMT FAMILY, IN THE MAINTENANCE OF LEUKEMIA STEM CELLS (LSCS) IN CHRONIC MYELOID LEUKEMIA (CML). GENETIC LOSS OF PRMT7, AND THE DEVELOPMENT AND TESTING OF A SMALL-MOLECULE SPECIFIC INHIBITOR OF PRMT7, SHOWED THAT TARGETING PRMT7 DELAYED LEUKEMIA DEVELOPMENT AND IMPAIRED SELF-RENEWAL OF LSCS IN A CML MOUSE MODEL AND IN PRIMARY CML CD34(+) CELLS FROM HUMANS WITHOUT AFFECTING NORMAL HEMATOPOIESIS. MECHANISTICALLY, LOSS OF PRMT7 RESULTED IN REDUCED EXPRESSIONS OF GLYCINE DECARBOXYLASE, LEADING TO THE REPROGRAMING OF GLYCINE METABOLISM TO GENERATE METHYLGLYOXAL, WHICH IS DETRIMENTAL TO LSCS. THESE FINDINGS LINK HISTONE ARGININE METHYLATION WITH GLYCINE METABOLISM, WHILE SUGGESTING PRMT7 AS A POTENTIAL THERAPEUTIC TARGET FOR THE ERADICATION OF LSCS IN CML. 2022 7 4070 29 MATERNAL DIABETES, PROGRAMMING OF BETA-CELL DISORDERS AND INTERGENERATIONAL RISK OF TYPE 2 DIABETES. A SUBSTANTIAL BODY OF EVIDENCE SUGGESTS THAT AN ABNORMAL INTRA-UTERINE MILIEU ELICITED BY MATERNAL METABOLIC DISTURBANCES AS DIVERSE AS MALNUTRITION, PLACENTAL INSUFFICIENCY, DIABETES AND OBESITY MAY BE ABLE TO PROGRAMME SUSCEPTIBILITY OF THE FOETUS TO LATER DEVELOP CHRONIC DEGENERATIVE DISEASES SUCH AS OBESITY, HYPERTENSION, CARDIOVASCULAR DISEASES AND TYPE 2 DIABETES (T2D). AS INSULIN-PRODUCING CELLS HAVE BEEN PLACED CENTRE STAGE IN THE DEVELOPMENT OF T2D, THIS REVIEW EXAMINES DEVELOPMENTAL PROGRAMMING OF THE BETA-CELL MASS (BCM) IN VARIOUS RODENT MODELS OF MATERNAL PROTEIN RESTRICTION, CALORIE RESTRICTION, OVERNUTRITION AND DIABETES. THE MAIN MESSAGE IS THAT WHATEVER THE INITIAL MATERNAL INSULT (F0 GENERATION) AND WHETHER ALONE OR IN COMBINATION, IT GIVES RISE TO THE SAME PROGRAMMED BCM OUTCOME IN THE DAUGHTER GENERATION (F1). THE ALTERED BCM PHENOTYPE IN F1 FEMALES PROHIBITS NORMAL BCM ADAPTATION DURING PREGNANCY AND, THUS, DIABETES (GESTATIONAL DIABETES) ENSUES. THIS GESTATIONAL DIABETES IS THEN PASSED FROM ONE GENERATION (F1) TO THE NEXT (F2, F3 AND SO ON). THIS REVIEW HIGHLIGHTS A NUMBER OF STUDIES THAT HAVE IDENTIFIED EPIGENETIC MECHANISMS THAT MAY CONTRIBUTE TO ALTERED BCM DEVELOPMENT AND BETA-CELL FAILURE, AS OBSERVED IN DIABETES. IN ADDITION TO THEIR ROLE IN INSTILLING THE PROGRAMMED DEFECT, THESE NON-GENOMIC MECHANISMS MAY ALSO BE INVOLVED IN ITS INTERGENERATIONAL TRANSMISSION. 2014 8 1488 22 DNA DAMAGE RECOGNITION IN THE RAT ZYGOTE FOLLOWING CHRONIC PATERNAL CYCLOPHOSPHAMIDE EXPOSURE. THE DETRIMENTAL EFFECTS OF PRECONCEPTIONAL PATERNAL EXPOSURE TO THE ALKYLATING ANTICANCER AGENT, CYCLOPHOSPHAMIDE, INCLUDE ABERRANT EPIGENETIC PROGRAMMING, DYSREGULATED ZYGOTIC GENE ACTIVATION, AND ABNORMALITIES IN THE OFFSPRING THAT ARE TRANSMITTED TO THE NEXT GENERATION. THE ADVERSE DEVELOPMENTAL CONSEQUENCES OF GENOMIC INSTABILITIES TRANSMITTED VIA THE SPERMATOZOON EMPHASIZE THE NEED TO ELUCIDATE THE MECHANISMS BY WHICH THE EARLY EMBRYO RECOGNIZES DNA DAMAGE IN THE PATERNAL GENOME. LITTLE INFORMATION EXISTS ON DNA DAMAGE DETECTION IN THE ZYGOTE. WE ASSESSED THE IMPACT OF PATERNAL CYCLOPHOSPHAMIDE EXPOSURE ON PHOSPHORYLATED H2AX (GAMMAH2AX) AND POLY(ADP-RIBOSE) POLYMERASE-1(PARP-1), BIOMARKERS OF DNA DAMAGE, TO DETERMINE THE CAPACITY IN THE RAT ZYGOTE TO RECOGNIZE GENOMIC DAMAGE AND INITIATE A RESPONSE TO DNA LESIONS. AN AMPLIFIED BIPHASIC GAMMAH2AX RESPONSE WAS TRIGGERED IN THE PATERNAL PRONUCLEUS IN ZYGOTES SIRED BY DRUG-TREATED MALES; THE MATERNAL GENOME WAS NOT AFFECTED. PARP-1 IMMUNOREACTIVITY WAS SUBSTANTIALLY ELEVATED IN BOTH PARENTAL GENOMES, COINCIDENT WITH THE SECOND PHASE OF GAMMAH2AX INDUCTION IN EMBRYOS SIRED BY CYCLOPHOSPHAMIDE-EXPOSED SPERMATOZOA. THUS, PATERNAL EXPOSURE TO A DNA DAMAGING AGENT RAPIDLY ACTIVATES SIGNALS IMPLEMENTAL FOR DNA DAMAGE RECOGNITION IN THE ZYGOTE. INEFFICIENT REPAIR OF DNA LESIONS MAY LEAD TO PERSISTENT ALTERATIONS OF THE HISTONE CODE AND CHROMATIN INTEGRITY, RESULTING IN ABERRANT EMBRYOGENESIS. WE PROPOSE THAT THE RESPONSE OF THE EARLY EMBRYO TO DISTURBANCES IN SPERMATOZOAL GENOMIC INTEGRITY PLAYS A VITAL ROLE IN DETERMINING ITS OUTCOME. 2007 9 5126 25 POST-TRANSLATIONAL PROTEIN MODIFICATION BY O-LINKED N-ACETYL-GLUCOSAMINE: ITS ROLE IN MEDIATING THE ADVERSE EFFECTS OF DIABETES ON THE HEART. THE POST-TRANSLATION ATTACHMENT OF O-LINKED N-ACETYLGLUCOSAMINE, OR O-GLCNAC, TO SERINE AND THREONINE RESIDUES OF NUCLEAR AND CYTOPLASMIC PROTEINS IS INCREASINGLY RECOGNIZED AS A KEY REGULATOR OF DIVERSE CELLULAR PROCESSES. O-GLCNAC SYNTHESIS IS ESSENTIAL FOR CELL SURVIVAL AND IT HAS BEEN SHOWN THAT ACUTE ACTIVATION OF PATHWAYS, WHICH INCREASE CELLULAR O-GLCNAC LEVELS IS CYTOPROTECTIVE; HOWEVER, PROLONGED INCREASES IN O-GLCNACYLATION HAVE BEEN IMPLICATED IN A NUMBER OF CHRONIC DISEASES. GLUCOSE METABOLISM VIA THE HEXOSAMINE BIOSYNTHESIS PATHWAY PLAYS A CENTRAL ROLE IN REGULATING O-GLCNAC SYNTHESIS; CONSEQUENTLY, SUSTAINED INCREASES IN O-GLCNAC LEVELS HAVE BEEN IMPLICATED IN GLUCOSE TOXICITY AND INSULIN RESISTANCE. STUDIES ON THE ROLE OF O-GLCNAC IN REGULATING CARDIOMYOCYTE FUNCTION HAVE GROWN RAPIDLY OVER THE PAST DECADE AND THERE IS GROWING EVIDENCE THAT INCREASED O-GLCNAC LEVELS CONTRIBUTE TO THE ADVERSE EFFECTS OF DIABETES ON THE HEART, INCLUDING IMPAIRED CONTRACTILITY, CALCIUM HANDLING, AND ABNORMAL STRESS RESPONSES. RECENT EVIDENCE ALSO SUGGESTS THAT O-GLCNAC PLAYS A ROLE IN EPIGENETIC CONTROL OF GENE TRANSCRIPTION. THE GOAL OF THIS REVIEW IS TO PROVIDE AN OVERVIEW OF OUR CURRENT KNOWLEDGE ABOUT THE REGULATION OF PROTEIN O-GLCNACYLATION AND TO EXPLORE IN MORE DETAIL O-GLCNAC-MEDIATED RESPONSES IN THE DIABETIC HEART. 2013 10 6291 31 THE POTENTIAL TO FIGHT OBESITY WITH ADIPOGENESIS MODULATING COMPOUNDS. OBESITY IS AN INCREASINGLY SEVERE PUBLIC HEALTH PROBLEM, WHICH BRINGS HUGE SOCIAL AND ECONOMIC BURDENS. INCREASED BODY ADIPOSITY IN OBESITY IS NOT ONLY TIGHTLY ASSOCIATED WITH TYPE 2 DIABETES, BUT ALSO SIGNIFICANTLY INCREASES THE RISKS OF OTHER CHRONIC DISEASES INCLUDING CARDIOVASCULAR DISEASES, FATTY LIVER DISEASES AND CANCERS. ADIPOGENESIS DESCRIBES THE PROCESS OF THE DIFFERENTIATION AND MATURATION OF ADIPOCYTES, WHICH ACCUMULATE IN DISTRIBUTED ADIPOSE TISSUE AT VARIOUS SITES IN THE BODY. THE MAJOR FUNCTIONS OF WHITE ADIPOCYTES ARE TO STORE ENERGY AS FAT DURING PERIODS WHEN ENERGY INTAKE EXCEEDS EXPENDITURE AND TO MOBILIZE THIS STORED FUEL WHEN ENERGY EXPENDITURE EXCEEDS INTAKE. BROWN/BEIGE ADIPOCYTES CONTRIBUTE TO NON-SHIVERING THERMOGENESIS UPON COLD EXPOSURE AND ADRENERGIC STIMULATION, AND THEREBY PROMOTE ENERGY CONSUMPTION. THE IMBALANCE OF ENERGY INTAKE AND EXPENDITURE CAUSES OBESITY. RECENT INTEREST IN EPIGENETICS AND SIGNALING PATHWAYS HAS UTILIZED SMALL MOLECULE TOOLS AIMED AT MODIFYING OBESITY-SPECIFIC GENE EXPRESSION. IN THIS REVIEW, WE DISCUSS COMPOUNDS WITH ADIPOGENESIS-RELATED SIGNALING PATHWAYS AND EPIGENETIC MODULATING PROPERTIES THAT HAVE BEEN IDENTIFIED AS POTENTIAL THERAPEUTIC AGENTS WHICH CAST SOME LIGHT ON THE FUTURE TREATMENT OF OBESITY. 2022 11 4107 32 MECHANISMS AFFECTING NEUROENDOCRINE AND EPIGENETIC REGULATION OF BODY WEIGHT AND ONSET OF PUBERTY: POTENTIAL IMPLICATIONS IN THE CHILD BORN SMALL FOR GESTATIONAL AGE (SGA). SIGNALING PEPTIDES PRODUCED IN PERIPHERAL TISSUES SUCH AS GUT, ADIPOSE TISSUE, AND PANCREAS COMMUNICATE WITH BRAIN CENTERS, SUCH AS HYPOTHALAMUS AND HINDBRAIN TO MANAGE ENERGY HOMEOSTASIS. THESE REGULATORY MECHANISMS OF ENERGY INTAKE AND STORAGE HAVE EVOLVED DURING LONG PERIODS OF HUNGER IN THE EVOLUTION OF MAN TO PROTECT THE SPECIES FROM EXTINCTION. IT IS NOW CLEAR THAT THESE CIRCUITRIES ARE INFLUENCED BY PRENATAL AND POSTNATAL ENVIRONMENTAL FACTORS INCLUDING ENDOCRINE DISRUPTIVE CHEMICALS. HYPOTHALAMIC APPETITE REGULATORY SYSTEMS DEVELOP AND MATURE IN UTERO AND EARLY INFANCY, AND INVOLVE SIGNALING PATHWAYS THAT ARE IMPORTANT ALSO FOR THE REGULATION OF PUBERTY ONSET. RECENT STUDIES IN HUMANS AND ANIMALS HAVE SHOWN THAT METABOLIC PATHWAYS INVOLVED IN REGULATION OF GROWTH, BODY WEIGHT GAIN AND SEXUAL MATURATION ARE LARGELY AFFECTED BY EPIGENETIC PROGRAMMING THAT CAN IMPACT BOTH CURRENT AND FUTURE GENERATIONS. IN PARTICULAR, INTRAUTERINE AND EARLY INFANTILE DEVELOPMENTAL PHASES OF HIGH PLASTICITY ARE SUSCEPTIBLE TO FACTORS THAT AFFECT METABOLIC PROGRAMMING THAT THEREFORE, AFFECT METABOLIC FUNCTION THROUGHOUT LIFE. IN CHILDREN BORN SMALL FOR GESTATIONAL AGE, POOR NUTRITIONAL CONDITIONS DURING GESTATION CAN MODIFY METABOLIC SYSTEMS TO ADAPT TO EXPECTATIONS OF CHRONIC UNDERNUTRITION. THESE CHILDREN ARE POTENTIALLY POORLY EQUIPPED TO COPE WITH ENERGY-DENSE DIETS AND ARE POSSIBLY PROGRAMMED TO STORE AS MUCH ENERGY AS POSSIBLE, LEADING TO LATER OBESITY, METABOLIC SYNDROME, DISTURBED REGULATION OF NORMAL PUBERTY AND EARLY ONSET OF CARDIOVASCULAR DISEASE. MOST CASES OF DISTURBED ENERGY BALANCE ARE LIKELY A RESULT OF A COMBINATION OF GENETICS, EPIGENETICS AND ENVIRONMENT. THIS REVIEW WILL DISCUSS POTENTIAL MECHANISMS LINKING INTRAUTERINE GROWTH RETARDATION WITH CHANGES IN GROWTH, ENERGY HOMEOSTASIS AND SEXUAL MATURATION. 2012 12 4083 33 MATERNAL NUTRITION AND FETAL DEVELOPMENT. NUTRITION IS THE MAJOR INTRAUTERINE ENVIRONMENTAL FACTOR THAT ALTERS EXPRESSION OF THE FETAL GENOME AND MAY HAVE LIFELONG CONSEQUENCES. THIS PHENOMENON, TERMED "FETAL PROGRAMMING," HAS LED TO THE RECENT THEORY OF "FETAL ORIGINS OF ADULT DISEASE." NAMELY, ALTERATIONS IN FETAL NUTRITION AND ENDOCRINE STATUS MAY RESULT IN DEVELOPMENTAL ADAPTATIONS THAT PERMANENTLY CHANGE THE STRUCTURE, PHYSIOLOGY, AND METABOLISM OF THE OFFSPRING, THEREBY PREDISPOSING INDIVIDUALS TO METABOLIC, ENDOCRINE, AND CARDIOVASCULAR DISEASES IN ADULT LIFE. ANIMAL STUDIES SHOW THAT BOTH MATERNAL UNDERNUTRITION AND OVERNUTRITION REDUCE PLACENTAL-FETAL BLOOD FLOWS AND STUNT FETAL GROWTH. IMPAIRED PLACENTAL SYNTHESES OF NITRIC OXIDE (A MAJOR VASODILATOR AND ANGIOGENESIS FACTOR) AND POLYAMINES (KEY REGULATORS OF DNA AND PROTEIN SYNTHESIS) MAY PROVIDE A UNIFIED EXPLANATION FOR INTRAUTERINE GROWTH RETARDATION IN RESPONSE TO THE 2 EXTREMES OF NUTRITIONAL PROBLEMS WITH THE SAME PREGNANCY OUTCOME. THERE IS GROWING EVIDENCE THAT MATERNAL NUTRITIONAL STATUS CAN ALTER THE EPIGENETIC STATE (STABLE ALTERATIONS OF GENE EXPRESSION THROUGH DNA METHYLATION AND HISTONE MODIFICATIONS) OF THE FETAL GENOME. THIS MAY PROVIDE A MOLECULAR MECHANISM FOR THE IMPACT OF MATERNAL NUTRITION ON BOTH FETAL PROGRAMMING AND GENOMIC IMPRINTING. PROMOTING OPTIMAL NUTRITION WILL NOT ONLY ENSURE OPTIMAL FETAL DEVELOPMENT, BUT WILL ALSO REDUCE THE RISK OF CHRONIC DISEASES IN ADULTS. 2004 13 6094 30 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 14 140 36 ABERRANT DNA METHYLATION MEDIATES THE TRANSGENERATIONAL RISK OF METABOLIC AND CHRONIC DISEASE DUE TO MATERNAL OBESITY AND OVERNUTRITION. MATERNAL OBESITY IS A RAPIDLY EVOLVING UNIVERSAL EPIDEMIC LEADING TO ACUTE AND LONG-TERM MEDICAL AND OBSTETRIC HEALTH ISSUES, INCLUDING INCREASED MATERNAL RISKS OF GESTATIONAL DIABETES, HYPERTENSION AND PRE-ECLAMPSIA, AND THE FUTURE RISKS FOR OFFSPRING'S PREDISPOSITION TO METABOLIC DISEASES. EPIGENETIC MODIFICATION, IN PARTICULAR DNA METHYLATION, REPRESENTS A MECHANISM WHEREBY ENVIRONMENTAL EFFECTS IMPACT ON THE PHENOTYPIC EXPRESSION OF HUMAN DISEASE. MATERNAL OBESITY OR OVERNUTRITION CONTRIBUTES TO THE ALTERATIONS IN DNA METHYLATION DURING EARLY LIFE WHICH, THROUGH FETAL PROGRAMMING, CAN PREDISPOSE THE OFFSPRING TO MANY METABOLIC AND CHRONIC DISEASES, SUCH AS NON-ALCOHOLIC FATTY LIVER DISEASE, OBESITY, DIABETES, AND CHRONIC KIDNEY DISEASE. THIS REVIEW AIMS TO SUMMARIZE FINDINGS FROM HUMAN AND ANIMAL STUDIES, WHICH SUPPORT THE ROLE OF MATERNAL OBESITY IN FETAL PROGRAMING AND THE POTENTIAL BENEFIT OF ALTERING DNA METHYLATION TO LIMIT MATERNAL OBESITY RELATED DISEASE IN THE OFFSPRING. 2021 15 2702 26 EXCITOTOXICITY AND OVERNUTRITION ADDITIVELY IMPAIR METABOLIC FUNCTION AND IDENTITY OF PANCREATIC BETA-CELLS. A SUSTAINED INCREASE IN INTRACELLULAR CA(2+) CONCENTRATION (REFERRED TO HEREAFTER AS EXCITOTOXICITY), BROUGHT ON BY CHRONIC METABOLIC STRESS, MAY CONTRIBUTE TO PANCREATIC BETA-CELL FAILURE. TO DETERMINE THE ADDITIVE EFFECTS OF EXCITOTOXICITY AND OVERNUTRITION ON BETA-CELL FUNCTION AND GENE EXPRESSION, WE ANALYZED THE IMPACT OF A HIGH-FAT DIET (HFD) ON ABCC8 KNOCKOUT MICE. EXCITOTOXICITY CAUSED BETA-CELLS TO BE MORE SUSCEPTIBLE TO HFD-INDUCED IMPAIRMENT OF GLUCOSE HOMEOSTASIS, AND THESE EFFECTS WERE MITIGATED BY VERAPAMIL, A CA(2+) CHANNEL BLOCKER. EXCITOTOXICITY, OVERNUTRITION, AND THE COMBINATION OF BOTH STRESSES CAUSED SIMILAR BUT DISTINCT ALTERATIONS IN THE BETA-CELL TRANSCRIPTOME, INCLUDING ADDITIVE INCREASES IN GENES ASSOCIATED WITH MITOCHONDRIAL ENERGY METABOLISM, FATTY ACID BETA-OXIDATION, AND MITOCHONDRIAL BIOGENESIS AND THEIR KEY REGULATOR PPARGC1A OVERNUTRITION WORSENED EXCITOTOXICITY-INDUCED MITOCHONDRIAL DYSFUNCTION, INCREASING METABOLIC INFLEXIBILITY AND MITOCHONDRIAL DAMAGE. IN ADDITION, EXCITOTOXICITY AND OVERNUTRITION, INDIVIDUALLY AND TOGETHER, IMPAIRED BOTH BETA-CELL FUNCTION AND IDENTITY BY REDUCING EXPRESSION OF GENES IMPORTANT FOR INSULIN SECRETION, CELL POLARITY, CELL JUNCTION, CILIA, CYTOSKELETON, VESICULAR TRAFFICKING, AND REGULATION OF BETA-CELL EPIGENETIC AND TRANSCRIPTIONAL PROGRAM. SEX HAD AN IMPACT ON ALL BETA-CELL RESPONSES, WITH MALE ANIMALS EXHIBITING GREATER METABOLIC STRESS-INDUCED IMPAIRMENTS THAN FEMALES. TOGETHER, THESE FINDINGS INDICATE THAT A SUSTAINED INCREASE IN INTRACELLULAR CA(2+), BY ALTERING MITOCHONDRIAL FUNCTION AND IMPAIRING BETA-CELL IDENTITY, AUGMENTS OVERNUTRITION-INDUCED BETA-CELL FAILURE. 2020 16 5693 19 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 17 3940 26 LNCRNA DLEU2 REGULATES SIRTUINS AND MITOCHONDRIAL RESPIRATORY CHAIN COMPLEX IV: A NOVEL PATHWAY IN OBESITY AND OFFSPRING'S HEALTH. BACKGROUND: LONG NON-CODING RNAS (LNCRNAS) HAVE EMERGED AS A RAPIDLY EXPANDING AREA OF INTEREST IN CHRONIC DISEASES. THEY ARE MOSTLY UNKNOWN FOR ROLES IN METABOLIC REGULATION. SIRTUINS, AN EPIGENETIC MODULATOR CLASS, REGULATE METABOLIC PATHWAYS. HOWEVER, HOW SIRTUINS ARE REGULATED VIA LNCRNA IS UNKNOWN. WE HYPOTHESIZED THAT A HIGH-FAT HIGH-FRUCTOSE DIET (HFD-HF) DURING PREGNANCY WOULD INCREASE THE RISK FOR OBESITY VIA LNCRNA-SIRTUIN PATHWAYS. METHODS: FEMALE C57BL/6 MICE (F0) WERE FED EITHER CHOW DIET (CD) OR HFD-HF FOR 6 WEEKS TILL BIRTH. THE PUPS (F1) WERE FED EITHER CD OR HFD-HF FOR 20 WEEKS. EXPRESSION OF DLEU2, SIRTUINS, MITOCHONDRIAL RESPIRATORY COMPLEXES, AND OXIDATIVE STRESS WERE INVESTIGATED IN THE F1 LIVERS. FASTING BLOOD GLUCOSE, INSULIN SENSITIVITY, GLUCOSE TOLERANCE, BODY AND TISSUES WEIGHT WERE MEASURED. A MECHANISTIC INTERACTION WAS THEN CARRIED OUT USING A DLEU2 KNOCKDOWN EXPERIMENT IN THE HEPG2 CELL. RESULTS: DLEU2 AND SIRTUINS WERE BOTH SIGNIFICANTLY DECREASED IN THE LIVERS OF HFD-HF FED MALE F1 WHOSE MOTHERS WERE EITHER FED CD OR HFD-HF DURING REPRODUCTIVE AND PREGNANCY WINDOWS. CONFIRMING THIS CONNECTION, UPON SILENCING DLEU2, TRANSCRIPTION LEVELS OF SIRT1 THROUGH 6 AND TRANSLATIONAL LEVELS OF SIRT1, 3, 5, AND 6 WERE SIGNIFICANTLY DOWNREGULATED. KNOCKDOWN OF DLEU2 SIGNIFICANTLY DECREASED THE PROTEIN LEVEL OF CYTOCHROME-C OXIDASE (COMPLEX IV, MTCO1) WITHOUT ALTERING OTHER MITOCHONDRIAL COMPLEXES, DECREASED MITOCHONDRIAL MEMBRANE POTENTIAL, DECREASED ATP, AND INCREASED REACTIVE OXYGEN SPECIES. INTERESTINGLY, IN F1 LIVERS, THE PROTEIN LEVEL OF MTCO1 WAS ALSO SIGNIFICANTLY DECREASED UNDER AN HFD-HF DIET OR EVEN UNDER CHOW DIET IF THE MOTHER WAS EXPOSED TO HFD-HF. CONCLUSION: OUR FINDINGS REVEAL FOR THE FIRST TIME THAT ONE LNCRNA CAN REGULATE SIRTUINS AND A SPECIFIC MITOCHONDRIAL COMPLEX. FURTHERMORE, DIET OR MATERNAL DIET CAN MODULATE DLEU2 AND ITS DOWNSTREAM REGULATORS IN OFFSPRING, SUGGESTING A POTENTIAL ROLE OF DLEU2 IN METABOLIC DISORDERS OVER ONE OR MORE GENERATIONS. 2022 18 4117 33 MECHANISMS OF AUTOPHAGIC RESPONSES TO ALTERED NUTRITIONAL STATUS. AUTOPHAGY IS A DYNAMIC PROCESS AND CRITICAL FOR CELLULAR REMODELING AND ORGANELLE QUALITY CONTROL. IN RESPONSE TO ALTERED NUTRITIONAL STATUS (E.G., FASTING AND FEEDING), AUTOPHAGIC ACTIVITY IS FINELY TUNED BY TRANSCRIPTIONAL, POSTTRANSLATIONAL, AND EPIGENETIC REGULATIONS VIA VARIOUS SIGNALING PATHWAYS, INCLUDING ENERGY SENSORS (E.G., MECHANISTIC TARGET OF RAPAMYCIN (MTOR)/ AMP-ACTIVATED PROTEIN KINASE - UNC-51 LIKE AUTOPHAGY ACTIVATING KINASE 1, MTORC1- WD REPEAT DOMAIN, PHOSPHOINOSITIDE INTERACTING 2, MTORC1- TRANSCRIPTION FACTOR EB, PERILIPIN 5- SIRTUIN 1, AND SIRTUIN 1-MEDIATED DEACETYLATION OF AUTOPHAGY PROTEINS), FASTING OR FEEDING INDUCED HORMONES (E.G., FIBROBLAST GROWTH FACTOR [FGF21]- PROTEIN KINASE A - JUMONJI DOMAIN-CONTAINING PROTEIN D3, FGF21- DOWNSTREAM REGULATORY ELEMENT ANTAGONIST MODULATOR - E3 LIGASE MIDLINE-1- TRANSCRIPTION FACTOR EB, FGF19-SHP- LYSINE-SPECIFIC DEMETHYLASE, INSULIN- INSULIN RECEPTOR SUBSTRATE - PROTEIN KINASE B - FORKHEAD BOX O, GLUCAGON- PROTEIN KINASE A - CAMP RESPONSE BINDING PROTEIN), AND LYSOSOMAL ENZYMES (E.G., CATHEPSIN B AND CATHEPSIN L). IN CONTRAST TO FASTING THAT INDUCES AUTOPHAGY AND HEALTH BENEFITS, NUTRIENT OVERSUPPLY (OVERFEEDING OR FEEDING ON HIGH ENERGY DIETS) DYSREGULATES AUTOPHAGY, WHICH HAS BEEN INCREASINGLY OBSERVED IN ANIMAL MODELS OF HUMAN CHRONIC DISEASES SUCH AS OBESITY, DIABETES, NON-ALCOHOLIC FATTY LIVER DISEASE, AND CARDIOVASCULAR DISEASE. STUDIES HAVE REVEALED MULTIFACETED EFFECTS OF HIGH ENERGY DIETS ON AUTOPHAGY, BEING EITHER AN INHIBITOR OR ENHANCER OF AUTOPHAGY. THE CONUNDRUM MAY ARISE FROM THE VARIATIONS IN METHODS FOR AUTOPHAGY ANALYSIS, COMPONENTS OF HIGH ENERGY DIETS AND CONTROL DIETS FOR TREATMENTS, TREATMENT DURATIONS, AND THE AGES OF GENETIC BACKGROUNDS OF LABORATORY ANIMALS. IN THIS ARTICLE, WE REVIEWED THE EVIDENCE FROM BOTH HUMAN AND ANIMAL STUDIES, PRESENTING THE MOLECULAR MECHANISM OF AUTOPHAGIC RESPONSE TO ALTERED NUTRITIONAL STATUS AND DISCUSSING THE CONTRIBUTING FACTORS OF AND POSSIBLE SOLUTION TO THE CURRENT CONUNDRUM CONCERNING THE EXACT ROLE OF HIGH ENERGY DIETS IN AUTOPHAGIC REGULATION. 2022 19 751 23 CARDIOMETABOLIC EFFECTS OF POSTNATAL HIGH-FAT DIET CONSUMPTION IN OFFSPRING EXPOSED TO MATERNAL PROTEIN RESTRICTION IN UTERO. IN RECENT DECADES, THE HIGH INCIDENCE OF INFECTIOUS AND PARASITIC DISEASES HAS BEEN REPLACED BY A HIGH PREVALENCE OF CHRONIC AND DEGENERATIVE DISEASES. CONCOMITANTLY, THERE HAVE BEEN PROFOUND CHANGES IN THE BEHAVIOR AND EATING HABITS OF FAMILIES AROUND THE WORLD, CHARACTERIZING A "NUTRITIONAL TRANSITION" PHENOMENON, WHICH REFERS TO A SHIFT IN DIET IN RESPONSE TO MODERNIZATION, URBANIZATION, OR ECONOMIC DEVELOPMENT FROM UNDERNUTRITION TO THE EXCESSIVE CONSUMPTION OF HYPERCALORIC AND ULTRA-PROCESSED FOODS. PROTEIN MALNUTRITION THAT WAS A HEALTH PROBLEM IN THE FIRST HALF OF THE 20TH CENTURY HAS NOW BEEN REPLACED BY HIGH-FAT DIETS, ESPECIALLY DIETS HIGH IN SATURATED FAT, PREDISPOSING CONSUMERS TO OVERWEIGHT AND OBESITY. THIS PANORAMA POINTS US TO THE ALARMING COEXISTENCE OF BOTH MALNUTRITION AND OBESITY IN THE SAME POPULATION. IN THIS WAY, INDIVIDUALS WHOSE MOTHERS WERE UNDERNOURISHED EARLY IN PREGNANCY AND THEN EXPOSED TO POSTNATAL HYPERLIPIDIC NUTRITION HAVE INCREASED RISK FACTORS FOR DEVELOPING METABOLIC DYSFUNCTION AND CARDIOVASCULAR DISEASES IN ADULTHOOD. THUS, OUR MAJOR AIM WAS TO REVIEW THE CARDIOMETABOLIC EFFECTS RESULTING FROM POSTNATAL HYPERLIPIDIC DIETS IN PROTEIN-RESTRICTED SUBJECTS, AS WELL AS TO EXAMINE THE EPIGENETIC REPERCUSSIONS OCCASIONED BY THE NUTRITIONAL TRANSITION. 2022 20 1152 29 CONSEQUENCES OF EARLY LIFE PROGRAMING BY GENETIC AND ENVIRONMENTAL INFLUENCES: A SYNTHESIS REGARDING PUBERTAL TIMING. SEXUAL MATURATION IS CLOSELY TIED TO GROWTH AND BODY WEIGHT GAIN, SUGGESTING THAT REGULATIVE METABOLIC PATHWAYS ARE SHARED BETWEEN SOMATIC AND PUBERTAL DEVELOPMENT. THE PRE- AND POSTNATAL ENVIRONMENT AFFECTS BOTH GROWTH AND PUBERTAL DEVELOPMENT, INDICATING THAT COMMON PATHWAYS ARE AFFECTED BY THE ENVIRONMENT. INTRAUTERINE AND EARLY INFANTILE DEVELOPMENTAL PHASES ARE CHARACTERIZED BY HIGH PLASTICITY AND THEREBY SUSCEPTIBILITY TO FACTORS THAT AFFECT METABOLIC FUNCTION AS WELL AS RELATED REPRODUCTIVE FUNCTION THROUGHOUT LIFE. IN CHILDREN BORN SMALL FOR GESTATIONAL AGE, POOR NUTRITIONAL CONDITIONS DURING GESTATION CAN MODIFY METABOLIC SYSTEMS TO ADAPT TO EXPECTATIONS OF CHRONIC UNDERNUTRITION. THESE CHILDREN ARE POTENTIALLY POORLY EQUIPPED TO COPE WITH ENERGY-DENSE DIETS AND ARE POSSIBLY PROGRAMMED TO STORE AS MUCH ENERGY AS POSSIBLE, CAUSING RAPID WEIGHT GAIN WITH THE RISK FOR ADULT DISEASE AND PREMATURE ONSET OF PUBERTY. ENVIRONMENTAL FACTORS CAN CAUSE MODIFICATIONS TO THE GENOME, SO-CALLED EPIGENETIC CHANGES, TO AFFECT GENE EXPRESSION AND SUBSEQUENTLY MODIFY PHENOTYPIC EXPRESSION OF GENOMIC INFORMATION. EPIGENETIC MODIFICATIONS, WHICH OCCUR IN CHILDREN BORN SMALL FOR GESTATIONAL AGE, ARE THOUGHT TO UNDERLIE PART OF THE METABOLIC PROGRAMMING THAT SUBSEQUENTLY EFFECTS BOTH SOMATIC AND PUBERTAL DEVELOPMENT. 2016