1 1475 85 DISTRIBUTION OF H3K27ME3, H3K9ME3, AND H3K4ME3 ALONG AUTOPHAGY-RELATED GENES HIGHLY EXPRESSED IN STARVED ZEBRAFISH MYOTUBES. THE ZEBRAFISH (DANIO RERIO) REMAINS THE TELEOST FISH OF CHOICE FOR BIOLOGICAL INVESTIGATIONS DUE TO THE VAST ARRAY OF MOLECULAR TOOLS AND RESOURCES AVAILABLE. TO BETTER UNDERSTAND THE EPIGENETIC REGULATION OF AUTOPHAGY, WE UTILIZED A PRIMARY MYOTUBE CULTURE SYSTEM GENERATED FROM ISOLATED MYOGENIC PRECURSOR CELLS (MPCS) FROM ZEBRAFISH GROWN UNDER STARVATION CONDITIONS USING A MEDIA DEVOID OF SERUM AND AMINO ACIDS. HERE, WE REPORT STARVATION-INDUCED REGULATION OF SEVERAL AUTOPHAGY-RELATED GENES (ATG) EXPRESSION AND PROFILE THE DISTRIBUTION OF H3K27ME3, H3K9ME3, AND H3K4ME3 MARKS ALONG LC3B, ATG4B AND P62/SQSTM1 LOCI. THESE DATA SUPPORT EPIGENETIC REGULATION OF AUTOPHAGY IN RESPONSE TO STARVATION THAT SUGGESTS A LEVEL OF REGULATION THAT CAN BE SUSTAINED FOR CHRONIC CONDITIONS VIA CHROMATIN MODIFICATION. 2017 2 6224 22 THE LEUCINE CATABOLITE AND DIETARY SUPPLEMENT BETA-HYDROXY-BETA-METHYL BUTYRATE (HMB) AS AN EPIGENETIC REGULATOR IN MUSCLE PROGENITOR CELLS. BETA-HYDROXY-BETA-METHYL BUTYRATE (HMB) IS A NATURAL CATABOLITE OF LEUCINE DEEMED TO PLAY A ROLE IN AMINO ACID SIGNALING AND THE MAINTENANCE OF LEAN MUSCLE MASS. ACCORDINGLY, HMB IS USED AS A DIETARY SUPPLEMENT BY SPORTSMEN AND HAS SHOWN SOME CLINICAL EFFECTIVENESS IN PREVENTING MUSCLE WASTING IN CANCER AND CHRONIC LUNG DISEASE, AS WELL AS IN AGE-DEPENDENT SARCOPENIA. HOWEVER, THE MOLECULAR CASCADES UNDERLYING THESE BENEFICIAL EFFECTS ARE LARGELY UNKNOWN. HMB BEARS A SIGNIFICANT STRUCTURAL SIMILARITY WITH BUTYRATE AND BETA-HYDROXYBUTYRATE (BETAHB), TWO COMPOUNDS RECOGNIZED FOR IMPORTANT EPIGENETIC AND HISTONE-MARKING ACTIVITIES IN MULTIPLE CELL TYPES INCLUDING MUSCLE CELLS. WE ASKED WHETHER SIMILAR CHROMATIN-MODIFYING ACTIONS COULD BE ASSIGNED TO HMB AS WELL. EXPOSURE OF MURINE C2C12 MYOBLASTS TO MILLIMOLAR CONCENTRATIONS OF HMB LED TO AN INCREASE IN GLOBAL HISTONE ACETYLATION, AS MONITORED BY ANTI-ACETYLATED LYSINE IMMUNOBLOTTING, WHILE PREVENTING MYOTUBE DIFFERENTIATION. IN THESE EFFECTS, HMB RESEMBLED, ALTHOUGH WITH LESS POTENCY, THE HISTONE DEACETYLASE (HDAC) INHIBITOR SODIUM BUTYRATE. HOWEVER, INITIAL STUDIES DID NOT CONFIRM A DIRECT INHIBITORY EFFECT OF HMB ON HDACS IN VITRO. BETA-HYDROXYBUTYRATE, A KETONE BODY PRODUCED BY THE LIVER DURING STARVATION OR INTENSE EXERCISE, HAS A MODEST EFFECT ON HISTONE ACETYLATION OF C2C12 CELLS OR IN VITRO HDAC INHIBITOR ACTIVITIES, AND, UNLIKE BUTYRATE AND HMB, DID NOT INTERFERE WITH MYOTUBE FORMATION IN A MYOBLAST DIFFERENTIATION ASSAY. INSTEAD, BETAHB DRAMATICALLY INCREASED LYSINE BETA-HYDROXYBUTYRYLATION (KBHB) OF HISTONE TAILS, AN EPIGENETIC MARK ASSOCIATED WITH FASTING RESPONSES AND MUSCLE CATABOLIC STATES. HOWEVER, WHEN C2C12 CELLS WERE EXPOSED TO BETAHB IN THE PRESENCE OF EQUIMOLAR HMB THIS CHROMATIN MODIFICATION WAS DRASTICALLY REDUCED, POINTING TO A ROLE FOR HMB IN ATTENUATING KETOSIS-ASSOCIATED MUSCLE WASTING. IN CONCLUSION, WHILE THEIR MECHANISTIC UNDERPINNINGS REMAIN TO BE CLARIFIED, THESE PRELIMINARY OBSERVATIONS HIGHLIGHT NOVEL AND POTENTIALLY IMPORTANT ACTIVITIES OF HMB AS AN EPIGENETIC REGULATOR AND BETAHB ANTAGONIST IN MUSCLE PRECURSOR CELLS, TO BE FURTHER EXPLORED IN THEIR BIOMEDICAL IMPLICATIONS. 2021 3 5460 17 RESEARCH PERSPECTIVES ON THE REGULATION AND PHYSIOLOGICAL FUNCTIONS OF FGF21 AND ITS ASSOCIATION WITH NAFLD. FIBROBLAST GROWTH FACTOR 21 (FGF21) IS A METABOLIC HORMONE PRIMARILY SECRETED FROM THE LIVER AND FUNCTIONS IN MULTIPLE TISSUES. VARIOUS TRANSCRIPTION FACTORS INDUCE FGF21 EXPRESSION IN THE LIVER, WHICH INDICATES THAT FGF21 IS A MEDIATOR OF MULTIPLE ENVIRONMENTAL CUES. FGF21 ALTERS METABOLISM UNDER STARVATION CONDITIONS, PROTECTS THE BODY FROM ENERGY DEPLETION, AND EXTENDS LIFE SPAN. PHARMACOLOGICAL ADMINISTRATION OF FGF21 ALLEVIATES DYSLIPIDEMIA AND INDUCES WEIGHT LOSS IN OBESE ANIMALS. IN ADDITION TO THE WELL-STUDIED FUNCTIONS OF FG21, SEVERAL LINES OF RECENT EVIDENCE INDICATE A POSSIBLE LINK BETWEEN FGF21 AND NON-ALCOHOLIC FATTY LIVER DISEASE (NAFLD). HIGH SERUM LEVELS OF FGF21 ARE ASSOCIATED WITH NAFLD AND ITS RISK FACTORS, SUCH AS ENDOPLASMIC RETICULUM STRESS AND CHRONIC INFLAMMATION. IN ADDITION, FGF21 ALLEVIATES THE MAJOR RISK FACTORS OF NAFLD, INCLUDING OBESITY, DYSLIPIDEMIA, AND INSULIN INSENSITIVITY. THUS, FGF21 IS A POTENTIAL DRUG CANDIDATE FOR DISEASES, SUCH AS NAFLD, DYSLIPIDEMIA, AND TYPE 2 DIABETES. IN THIS REVIEW, THE RESEARCH PERSPECTIVES OF FGF21 AND THERAPEUTIC POTENCIES OF FGF21 AS A MODULATOR OF NAFLD ARE SUMMARIZED. 2015 4 6197 17 THE IMPACT OF TRADITIONAL FOOD AND LIFESTYLE BEHAVIOR ON EPIGENETIC BURDEN OF CHRONIC DISEASE. NONCOMMUNICABLE CHRONIC DISEASES (NCCDS) ARE THE LEADING CAUSES OF MORBIDITY AND MORTALITY GLOBALLY. THE MISMATCH BETWEEN PRESENT DAY DIETS AND ANCESTRAL GENOME IS SUGGESTED TO CONTRIBUTE TO THE NCCDS BURDEN, WHICH IS PROMOTED BY TRADITIONAL RISK FACTORS LIKE UNHEALTHY DIETS, PHYSICAL INACTIVITY, ALCOHOL AND TOBACCO. HOWEVER, EPIGENETIC EVIDENCE NOW SUGGESTS THAT CUMULATIVELY INHERITED EPIGENETIC MODIFICATIONS MAY HAVE MADE HUMANS MORE PRONE TO THE EFFECTS OF PRESENT DAY LIFESTYLE FACTORS. PERINATAL STARVATION WAS WIDESPREAD IN THE 19TH CENTURY. THIS TOGETHER WITH MORE RECENT EVENTS LIKE INCREASING CONSUMPTION OF WESTERN AND LOW FIBER DIETS, SMOKING, HARMFUL USE OF ALCOHOL, PHYSICAL INACTIVITY, AND ENVIRONMENTAL POLLUTANTS MAY HAVE PROGRAMED THE HUMAN EPIGENOME FOR HIGHER NCCDS RISK. IN THIS REVIEW, ON THE BASIS OF AVAILABLE EPIGENETIC DATA IT IS HYPOTHESIZED THAT TRANSGENERATIONAL EFFECTS OF LIFESTYLE FACTORS MAY BE CONTRIBUTING TO THE CURRENT GLOBAL BURDEN OF NCCDS. THUS, THERE IS A NEED TO RECONSIDER PREVENTION STRATEGIES SO THAT THE SUBSEQUENT GENERATIONS WILL NOT HAVE TO PAY FOR OUR SINS AND THOSE OF OUR ANCESTORS. 2017 5 4398 18 MODULATION OF DNA METHYLTRANSFERASE PROFILE BY METHYL DONOR STARVATION FOLLOWED BY GAMMA IRRADIATION. DNA METHYLATION IS AN IMPORTANT EPIGENETIC MECHANISM OF TRANSCRIPTIONAL CONTROL, WHICH PLAYS AN ESSENTIAL ROLE IN MAINTAINING CELLULAR FUNCTION. ROLE OF ONE-CARBON TRANSFER AGENTS/METHYL DONORS NAMELY FOLATE, CHOLINE AND METHIONINE IN DNA METHYLATION HAS BEEN THE SUBJECT OF EXTENSIVE INVESTIGATION. THE METHYLATION PATTERN OF DNA IS ESTABLISHED DURING EMBRYOGENESIS BY DNA METHYLTRANSFERASE 3 (DNMT3) AND IS SUBSEQUENTLY MAINTAINED BY MAINTENANCE METHYLATION ACTIVITY OF THE ENZYME DNA METHYLTRANSFERASE 1 (DNMT1). IONIZING RADIATION IS KNOWN TO EXTENSIVELY DAMAGE THE DNA. SUFFICIENT DIETARY AVAILABILITY OF METHYL DONORS IS KNOWN TO CONTRIBUTE TOWARDS ONE-CARBON TRANSFER MEDIATED REPAIR OF DAMAGED DNA WHERE FOLATE IS INVOLVED IN NUCLEOTIDE BASE SYNTHESIS. IN THE PRESENT STUDY, MODIFICATION IN ACTIVITIES OF DNMT1 AND DNMT3 BY METHYL DONOR STARVATION FOLLOWED BY GAMMA-IRRADIATION WAS OBSERVED. ASSAYS WERE BASED ON THE CATALYTIC TRANSFER OF (3)H-METHYL GROUPS FROM S-ADENOSYL-L: -METHIONINE TO A DNA SUBSTRATE. EXPERIMENTS SHOWED A DOSE AND METHYL DONORS STARVATION DEPENDENT ATTENUATION IN DNMT1 ACTIVITY. ATTENUATION OF DNMT1 ACTIVITY WAS MOST SIGNIFICANT FOR DIET DEPRIVED OF ALL THE THREE-METHYL DONORS. NO SIGNIFICANT CHANGE IN NUCLEAR OR CYTOPLASMIC DNMT3 ACTIVITY WAS OBSERVED WHEN EITHER OR ALL THE THREE POSSIBLE SOURCE OF DIETARY METHYL GROUP SUPPLY WERE REMOVED. IONIZING RADIATION AND METHYL DONOR DEFICIENCY WERE OBSERVED TO ACT SYNERGISTICALLY TOWARDS INHIBITING DNMT1 ACTIVITY. PRESENT RESULTS SUGGESTED POSSIBILITY OF INTERACTION AMONG FOLATE, METHIONINE AND CHOLINE DEFICIENCY TO POTENTIATE SYMPTOMS OF IONIZING RADIATION STRESS. THESE ENZYMATIC MODIFICATIONS MIGHT CONTRIBUTE TO ALTERED DNA METHYLATION AFTER CHRONIC FEEDING OF METHYL DONOR FREE DIETS FOLLOWED BY GAMMA IRRADIATION. THESE RESULTS SUGGESTED THAT DIETARY AVAILABILITY OF METHYL DONORS AND GAMMA-RADIATION STRESS MIGHT SIGNIFICANTLY ALTER THE DNMT1 PROFILE. 2007 6 4538 19 MULTISCALE APPROACH TO DECIPHERING THE MOLECULAR MECHANISMS INVOLVED IN THE DIRECT AND INTERGENERATIONAL EFFECT OF IBUPROFEN ON MOSQUITO AEDES AEGYPTI. THE ANTI-INFLAMMATORY IBUPROFEN IS A UBIQUITOUS SURFACE WATER CONTAMINANT. HOWEVER, THE CHRONIC IMPACT OF THIS PHARMACEUTICAL ON AQUATIC INVERTEBRATE POPULATIONS REMAINS POORLY UNDERSTOOD. IN MODEL INSECT AEDES AEGYPTI, WE INVESTIGATED THE INTERGENERATIONAL CONSEQUENCES OF PARENTAL CHRONIC EXPOSURE TO AN ENVIRONMENTALLY RELEVANT CONCENTRATION OF IBUPROFEN. WHILE EXPOSED INDIVIDUALS DID NOT SHOW ANY PHENOTYPIC CHANGES, THEIR PROGENY SHOWED ACCELERATED DEVELOPMENT AND AN INCREASED TOLERANCE TO STARVATION. IN ORDER TO UNDERSTAND THE MECHANISTIC PROCESSES UNDERPINNING THE DIRECT AND INTERGENERATIONAL IMPACTS OF IBUPROFEN, WE COMBINED TRANSCRIPTOMIC, METABOLOMICS, AND HORMONE KINETICS STUDIES AT SEVERAL LIFE STAGES IN EXPOSED INDIVIDUALS AND THEIR PROGENY. THIS INTEGRATIVE APPROACH REVEALED MODERATE TRANSCRIPTIONAL CHANGES IN EXPOSED LARVAE CONSISTENT WITH THE PHARMACOLOGICAL MODE OF ACTION OF IBUPROFEN. PARENTAL EXPOSURE LED TO LOWER LEVELS OF SEVERAL POLAR METABOLITES IN PROGENY EGGS AND TO MAJOR TRANSCRIPTIONAL CHANGES IN THE FOLLOWING LARVAL STAGE. THESE TRANSCRIPTIONAL CHANGES, MOST LIKELY DRIVEN BY CHANGES IN THE EXPRESSION OF NUMEROUS TRANSCRIPTION FACTORS AND EPIGENETIC REGULATORS, LED TO ECDYSONE SIGNALING AND STRESS RESPONSE POTENTIATION. OVERALL, THE PRESENT STUDY ILLUSTRATES THE COMPLEXITY OF THE MOLECULAR BASIS OF THE INTERGENERATIONAL POLLUTANT RESPONSE IN INSECTS AND THE IMPORTANCE OF CONSIDERING THE ENTIRE LIFE CYCLE OF EXPOSED ORGANISMS AND OF THEIR PROGENY IN ORDER TO FULLY UNDERSTAND THE MODE OF ACTION OF POLLUTANTS AND THEIR IMPACT ON ECOSYSTEMS. 2018 7 3633 28 INCREASE IN HDAC9 SUPPRESSES MYOBLAST DIFFERENTIATION VIA EPIGENETIC REGULATION OF AUTOPHAGY IN HYPOXIA. EXTREMELY REDUCED OXYGEN (O(2)) LEVELS ARE DETRIMENTAL TO MYOGENIC DIFFERENTIATION AND MULTINUCLEATED MYOTUBE FORMATION, AND CHRONIC EXPOSURE TO HIGH-ALTITUDE HYPOXIA HAS BEEN REPORTED TO BE AN IMPORTANT FACTOR IN SKELETAL MUSCLE ATROPHY. HOWEVER, HOW CHRONIC HYPOXIA CAUSES MUSCLE DYSFUNCTION REMAINS UNKNOWN. IN THE PRESENT STUDY, WE FOUND THAT SEVERE HYPOXIA (1% O(2)) SIGNIFICANTLY INHIBITED THE FUNCTION OF C2C12 CELLS (FROM A MYOBLAST CELL LINE). IMPORTANTLY, THE IMPAIRMENT WAS CONTINUOUSLY MANIFESTED EVEN DURING CULTURE UNDER NORMOXIC CONDITIONS FOR SEVERAL PASSAGES. MECHANISTICALLY, WE REVEALED THAT HISTONE DEACETYLASES 9 (HDAC9), A MEMBER OF THE HISTONE DEACETYLASE FAMILY, WAS SIGNIFICANTLY INCREASED IN C2C12 CELLS UNDER HYPOXIC CONDITIONS, THEREBY INHIBITING INTRACELLULAR AUTOPHAGY LEVELS BY DIRECTLY BINDING TO THE PROMOTER REGIONS OF ATG7, BECLIN1, AND LC3. THIS PHENOMENON RESULTED IN THE SEQUENTIAL DEPHOSPHORYLATION OF GSK3BETA AND INACTIVATION OF THE CANONICAL WNT PATHWAY, IMPAIRING THE FUNCTION OF THE C2C12 CELLS. TAKEN TOGETHER, OUR RESULTS SUGGEST THAT HYPOXIA-INDUCED MYOBLAST DYSFUNCTION IS DUE TO ABERRANT EPIGENETIC REGULATION OF AUTOPHAGY, AND OUR EXPERIMENTAL EVIDENCE REVEALS THE POSSIBLE MOLECULAR PATHOGENESIS RESPONSIBLE FOR SOME MUSCLE DISEASES CAUSED BY CHRONIC HYPOXIA AND SUGGESTS A POTENTIAL THERAPEUTIC OPTION. 2019 8 3882 17 KETONE BODIES AS METABOLITES AND SIGNALLING MOLECULES AT THE CROSSROAD BETWEEN INFLAMMATION AND EPIGENETIC CONTROL OF CARDIOMETABOLIC DISORDERS. FOR MANY YEARS, IT HAS BEEN CLEAR THAT A WESTERN DIET RICH IN SATURATED FATS AND SUGARS PROMOTES AN INFLAMMATORY ENVIRONMENT PREDISPOSING A PERSON TO CHRONIC CARDIOMETABOLIC DISEASES. IN PARALLEL, THE EMERGENCE OF KETOGENIC DIETS, DEPRIVED OF CARBOHYDRATES AND PROMOTING THE SYNTHESIS OF KETONE BODIES IMITATING THE METABOLIC EFFECTS OF FASTING, HAS BEEN SHOWN TO PROVIDE A POSSIBLE NUTRITIONAL SOLUTION TO ALLEVIATING DISEASES TRIGGERED BY AN INFLAMMATORY ENVIRONMENT. THE MAIN KETONE BODY, BETA-HYDROXYBUTYRATE (BHB), ACTS AS AN ALTERNATIVE FUEL, AND ALSO AS A SUBSTRATE FOR A NOVEL HISTONE POST-TRANSLATIONAL MODIFICATION, BETA-HYDROXYBUTYRYLATION. BETA-HYDROXYBUTYRYLATION INFLUENCES THE STATE OF CHROMATIN ARCHITECTURE AND PROMOTES THE TRANSCRIPTION OF MULTIPLE GENES. BHB HAS ALSO BEEN SHOWN TO MODULATE INFLAMMATION IN CHRONIC DISEASES. IN THIS REVIEW, WE DISCUSS, IN THE PATHOLOGICAL CONTEXT OF CARDIOVASCULAR RISKS, THE CURRENT UNDERSTANDING OF HOW KETONE BODIES, OR A KETOGENIC DIET, ARE ABLE TO MODULATE, TRIGGER, OR INHIBIT INFLAMMATION AND HOW THE EPIGENOME AND CHROMATIN REMODELING MAY BE A KEY CONTRIBUTOR. 2022 9 6528 22 TRANSCRIPTIONAL CORRELATES OF CHRONIC ALCOHOL NEUROADAPTATION IN DROSOPHILA LARVAE. WHEN PRESENTED WITH THE CHOICE, DROSOPHILA MELANOGASTER FEMALES WILL OFTEN PREFER TO LAY EGGS ON FOOD CONTAINING A SIGNIFICANT AMOUNT OF ALCOHOL. WHILE, IN SOME CASES, THIS BEHAVIORAL DECISION CAN PROVIDE A SURVIVAL ADVANTAGE TO THE DEVELOPING LARVAE, IT CAN ALSO LEAD TO DEVELOPMENTAL AND COGNITIVE PROBLEMS. ALCOHOL CONSUMPTION CAN AFFECT EXECUTIVE FUNCTIONS, EPISODIC MEMORY, AND OTHER BRAIN FUNCTION CAPACITIES. HOWEVER, IN THE FRUIT FLY, THE INITIAL COGNITIVE EFFECTS OF ALCOHOL CONSUMPTION HAVE BEEN SHOWN TO REVERSE UPON PERSISTENT EXPOSURE TO ALCOHOL. USING AN OLFACTORY CONDITIONING ASSAY WHERE AN ODORANT IS IMPLEMENTED AS A CONDITIONED STIMULUS AND PAIRED WITH A HEAT SHOCK AS AN UNCONDITIONED STIMULUS, A PREVIOUS STUDY HAS SHOWN THAT WHEN EXPOSED TO A SHORT ACUTE DOSE OF ALCOHOL, DROSOPHILA LARVAE CAN NO LONGER LEARN THIS ASSOCIATION. INTERESTINGLY, UPON PROLONGED CHRONIC ALCOHOL EXPOSURE, LARVAE SEEM TO SUCCESSFULLY AVOID THE CONDITIONED STIMULUS JUST AS WELL AS CONTROL ALCOHOL-NAIVE LARVAE, SUGGESTIVE OF ALCOHOL-INDUCED NEUROADAPTATIONS. HOWEVER, THE MECHANISMS BY WHICH DROSOPHILA ADAPT TO THE PRESENCE OF ALCOHOL REMAINS UNKNOWN. IN THIS STUDY, WE EXPLORE THE TRANSCRIPTIONAL CORRELATES OF NEUROADAPTATION IN DROSOPHILA LARVAE EXPOSED TO CHRONIC ALCOHOL TO UNDERSTAND THE GENETIC AND CELLULAR COMPONENTS RESPONSIBLE FOR THIS ADAPTATION. FOR THIS, WE EMPLOYED RNA SEQUENCING TECHNOLOGY TO EVALUATE DIFFERENCES IN GENE EXPRESSION IN THE BRAIN OF LARVAE CHRONICALLY EXPOSED TO ALCOHOL. OUR RESULTS SUGGEST THAT ALCOHOL-INDUCED NEUROADAPTATIONS ARE MODULATED BY A DIVERSE ARRAY OF SYNAPTIC GENES WITHIN THE LARVAL BRAIN THROUGH A SERIES OF EPIGENETIC MODULATORS. 2021 10 1643 16 DOES RHEUMATOID ARTHRITIS REPRESENT AN ADAPTIVE, THRIFTY CONDITION? THE PRESENT ARTICLE PRESENTS EPIDEMIOLOGICAL, AND COMPARATIVE EVIDENCE SUPPORTING THE HYPOTHESIS THAT RHEUMATOID ARTHRITIS (RA) MAY REPRESENT A THRIFTY ADAPTATION SELECTED TO COMPEL ANIMALS TO MINIMIZE VOLUNTARY ENERGY EXPENDITURE. THE AUTOIMMUNE, PATHOPHYSIOLOGICAL MANIFESTATIONS UNDERLYING RA ARE FRAMED HERE AS CONSTITUTING AN EVOLVED, PROTECTIVE MECHANISM THAT WOULD HAVE INFLUENCED ANIMALS TO AVOID EXERTION AND MAINTAIN A SEDENTARY LIFESTYLE IN ORDER TO MINIMIZE METABOLIC OUTPUT AND ULTIMATELY ESCAPE STARVATION. ARTHRITIC PAIN IS CHARACTERIZED HERE AS A DEFENSIVE, INNATE SIGNAL MUCH LIKE FATIGUE, FEVER, NAUSEA AND REFLEXIVE PAIN, AND LIKE THESE, IS SEEN ON A CONTINUUM VARYING BETWEEN IMPERCEPTIBLE ENCUMBRANCE AND DEBILITATING DISABILITY. THE EPIGENETIC RELATIONSHIP BETWEEN ACUTE PSYCHOLOGICAL STRESS AND FLARE-UP OF ARTHRITIC SYMPTOMS IS EXAMINED AND TAKEN TO SUGGEST THAT ARTHRITIS MAY BE A PREDICTIVE, ADAPTIVE RESPONSE TO SEVERE STRESS ALLOWING REDUCTIONS IN METABOLISM TO FOLLOW ADVERSE CONDITIONS OR NUTRITIONAL SCARCITY. THE CLOSE ASSOCIATIONS BETWEEN RHEUMATOID ARTHRITIS AND THE METABOLIC SYNDROME ARE ALSO EXPLORED ALONG WITH POTENTIAL TIES TO THE "THRIFTY GENOTYPE" AND "THRIFTY PHENOTYPE" PHENOMENA. THIS HYPOTHESIS IS EXAMINED IN THE CONTEXTS OF EVOLUTIONARY MEDICINE, PHENOTYPIC PLASTICITY, THE STRESS RESPONSE AND THE BIOENERGETICS OF THRIFT. A BRIEF AND EXPLORATORY REVIEW OF PERTINENT EVIDENCE SUGGESTS THAT RA, ITS SUBCLINICAL MANIFESTATIONS, AND EVEN OTHER FORMS OF ARTHROPATHY MAY POSSIBLY REPRESENT ADAPTATIONS THAT PROMOTED METABOLIC THRIFT DURING OUR EVOLUTIONARY PAST. 2010 11 2383 20 EPIGENETIC REGULATOR G9A PROVIDES GLUCOSE AS A SWEET KEY TO STRESS RESISTANCE. THE ABILITY TO ADAPT TO ACUTE AND CHRONIC STRESS IS IMPORTANT FOR ORGANISMS TO THRIVE IN EVOLUTIONARY NICHES AND FOR CELLS TO SURVIVE IN ADVERSE CONDITIONS. THE REGULATORY NETWORKS THAT CONTROL STRESS RESPONSES ARE EVOLUTIONARILY CONSERVED, AND MANY FACTORS THAT SELECTIVELY ACTIVATE STRESS RESPONSES HAVE BEEN IDENTIFIED. LESS WELL UNDERSTOOD ARE MECHANISMS THAT GUARD AGAINST UNNECESSARY INDUCTION OF CYTOPROTECTIVE FACTORS AND THAT CONNECT STRESS RESPONSES WITH CELLULAR METABOLISM TO CONTROL ENERGY EXPENDITURE DURING STRESS. THE WORK OF RIAHI AND COLLEAGUES REPRESENTS IMPORTANT PROGRESS IN THIS REGARD BECAUSE IT IDENTIFIES THE HISTONE METHYLTRANSFERASE G9A AS A MODULATOR OF OXIDATIVE STRESS RESPONSES. G9A DAMPENS THE EXPRESSION OF ANTIOXIDANT GENES, THUS PREVENTING INAPPROPRIATE ENERGY CONSUMPTION. MOREOVER, G9A PROMOTES THE WELL-PACED CATABOLISM OF STORAGE GLYCOGEN AND FAT DURING STRESS. THE IMPORTANCE OF ENERGY AVAILABILITY DURING STRESS IS FURTHER EVIDENCED BY EXOGENOUS GLUCOSE RESCUING THE VULNERABILITY OF THE G9A MUTANT TO OXIDATIVE STRESS. PRIOR WORK IN MULTIPLE MODEL SYSTEMS HAS IMPLICATED G9A IN SEVERAL OTHER ADAPTIVE RESPONSES. THEREFORE, ITS ROLE IN PACING ENERGY CONSUMPTION AND IN RESTRAINING EXCESSIVE STRESS RESPONSE GENE EXPRESSION UNDER STRESS MAY EXTEND TO OTHER ADAPTIVE RESPONSES ACROSS SPECIES. 2019 12 1440 20 DIFFERENTIAL REGULATION OF HUMAN 3BETA-HYDROXYSTEROID DEHYDROGENASE TYPE 2 FOR STEROID HORMONE BIOSYNTHESIS BY STARVATION AND CYCLIC AMP STIMULATION: STUDIES IN THE HUMAN ADRENAL NCI-H295R CELL MODEL. HUMAN STEROID BIOSYNTHESIS DEPENDS ON A SPECIFICALLY REGULATED CASCADE OF ENZYMES INCLUDING 3BETA-HYDROXYSTEROID DEHYDROGENASES (HSD3BS). TYPE 2 HSD3B CATALYZES THE CONVERSION OF PREGNENOLONE, 17ALPHA-HYDROXYPREGNENOLONE AND DEHYDROEPIANDROSTERONE TO PROGESTERONE, 17ALPHA-HYDROXYPROGESTERONE AND ANDROSTENEDIONE IN THE HUMAN ADRENAL CORTEX AND THE GONADS BUT THE EXACT REGULATION OF THIS ENZYME IS UNKNOWN. THEREFORE, SPECIFIC DOWNREGULATION OF HSD3B2 AT ADRENARCHE AROUND AGE 6-8 YEARS AND CHARACTERISTIC UPREGULATION OF HSD3B2 IN THE OVARIES OF WOMEN SUFFERING FROM THE POLYCYSTIC OVARY SYNDROME REMAIN UNEXPLAINED PROMPTING US TO STUDY THE REGULATION OF HSD3B2 IN ADRENAL NCI-H295R CELLS. OUR STUDIES CONFIRM THAT THE HSD3B2 PROMOTER IS REGULATED BY TRANSCRIPTION FACTORS GATA, NUR77 AND SF1/LRH1 IN CONCERT AND THAT THE NBRE/NUR77 SITE IS CRUCIAL FOR HORMONAL STIMULATION WITH CAMP. IN FACT, THESE THREE TRANSCRIPTION FACTORS TOGETHER WERE ABLE TO TRANSACTIVATE THE HSD3B2 PROMOTER IN PLACENTAL JEG3 CELLS WHICH NORMALLY DO NOT EXPRESS HSD3B2. BY CONTRAST, EPIGENETIC MECHANISMS SUCH AS METHYLATION AND ACETYLATION SEEM NOT INVOLVED IN CONTROLLING HSD3B2 EXPRESSION. CYCLIC AMP WAS FOUND TO EXERT DIFFERENTIAL EFFECTS ON HSD3B2 WHEN COMPARING SHORT (ACUTE) VERSUS LONG-TERM (CHRONIC) STIMULATION. SHORT CAMP STIMULATION INHIBITED HSD3B2 ACTIVITY DIRECTLY POSSIBLY DUE TO REGULATION AT CO-FACTOR OR SUBSTRATE LEVEL OR POSTTRANSLATIONAL MODIFICATION OF THE PROTEIN. LONG CAMP STIMULATION ATTENUATED HSD3B2 INHIBITION AND INCREASED HSD3B2 EXPRESSION THROUGH TRANSCRIPTIONAL REGULATION. ALTHOUGH PKA AND MAPK PATHWAYS ARE OBVIOUS CANDIDATES FOR POSSIBLY TRANSMITTING THE CAMP SIGNAL TO HSD3B2, OUR STUDIES USING PKA AND MEK1/2 INHIBITORS REVEALED NO SUCH DOWNSTREAM SIGNALING OF CAMP. HOWEVER, BOTH SIGNALING PATHWAYS WERE CLEARLY REGULATING HSD3B2 EXPRESSION. 2013 13 6179 23 THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM CAN SENSE ENVIRONMENTAL CHANGES AND RESPOND BY ANTIGENIC SWITCHING. THE PRIMARY ANTIGENIC AND VIRULENCE DETERMINANT OF THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM IS A VARIANT SURFACE PROTEIN CALLED PFEMP1. DIFFERENT FORMS OF PFEMP1 ARE ENCODED BY A MULTICOPY GENE FAMILY CALLED VAR, AND SWITCHING BETWEEN ACTIVE GENES ENABLES THE PARASITES TO EVADE THE ANTIBODY RESPONSE OF THEIR HUMAN HOSTS. VAR GENE SWITCHING IS KEY FOR THE MAINTENANCE OF CHRONIC INFECTIONS; HOWEVER, WHAT CONTROLS SWITCHING IS UNKNOWN, ALTHOUGH IT HAS BEEN SUGGESTED TO OCCUR AT A CONSTANT FREQUENCY WITH LITTLE OR NO ENVIRONMENTAL INFLUENCE. VAR GENE TRANSCRIPTION IS CONTROLLED EPIGENETICALLY THROUGH THE ACTIVITY OF HISTONE METHYLTRANSFERASES (HMTS). STUDIES IN MODEL SYSTEMS HAVE SHOWN THAT METABOLISM AND EPIGENETIC CONTROL OF GENE EXPRESSION ARE LINKED THROUGH THE AVAILABILITY OF INTRACELLULAR S-ADENOSYLMETHIONINE (SAM), THE PRINCIPAL METHYL DONOR IN BIOLOGICAL METHYLATION MODIFICATIONS, WHICH CAN FLUCTUATE BASED ON NUTRIENT AVAILABILITY. TO DETERMINE WHETHER ENVIRONMENTAL CONDITIONS AND CHANGES IN METABOLISM CAN INFLUENCE VAR GENE EXPRESSION, P. FALCIPARUM WAS CULTURED IN MEDIA WITH ALTERED CONCENTRATIONS OF NUTRIENTS INVOLVED IN SAM METABOLISM. WE FOUND THAT CONDITIONS THAT INFLUENCE LIPID METABOLISM INDUCE VAR GENE SWITCHING, INDICATING THAT PARASITES CAN RESPOND TO CHANGES IN THEIR ENVIRONMENT BY ALTERING VAR GENE EXPRESSION PATTERNS. GENETIC MODIFICATIONS THAT DIRECTLY MODIFIED EXPRESSION OF THE ENZYMES THAT CONTROL SAM LEVELS SIMILARLY LED TO PROFOUND CHANGES IN VAR GENE EXPRESSION, CONFIRMING THAT CHANGES IN SAM AVAILABILITY MODULATE VAR GENE SWITCHING. THESE OBSERVATIONS DIRECTLY CHALLENGE THE PARADIGM THAT ANTIGENIC VARIATION IN P. FALCIPARUM FOLLOWS AN INTRINSIC, PROGRAMED SWITCHING RATE, WHICH OPERATES INDEPENDENTLY OF ANY EXTERNAL STIMULI. 2023 14 4117 17 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 15 3852 27 IS MATERNAL MICROBIAL METABOLISM AN EARLY-LIFE DETERMINANT OF HEALTH? MOUNTING EVIDENCE SUGGESTS THAT ENVIRONMENTAL STRESS EXPERIENCED IN UTERO (FOR EXAMPLE, MATERNAL NUTRITIONAL DEFICITS) ESTABLISHES A PREDISPOSITION IN THE NEWBORN TO THE DEVELOPMENT OF CHRONIC DISEASES LATER IN LIFE. THIS CONCEPT IS OFTEN REFERRED TO AS THE "FETAL ORIGINS HYPOTHESIS" OR "DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE". SINCE ITS FIRST PROPOSAL, EPIGENETICS HAS EMERGED AS AN UNDERLYING MECHANISM EXPLAINING HOW ENVIRONMENTAL CUES BECOME GESTATIONALLY "ENCODED". MANY OF THE ENZYMES THAT IMPART AND MAINTAIN EPIGENETIC MODIFICATIONS ARE HIGHLY SENSITIVE TO NUTRIENT AVAILABILITY, WHICH CAN BE INFLUENCED BY THE METABOLIC ACTIVITIES OF THE INTESTINAL MICROBIOTA. THEREFORE, THE MATERNAL MICROBIOME HAS THE POTENTIAL TO INFLUENCE EPIGENETICS IN UTERO AND MODULATE OFFSPRING'S LONG-TERM HEALTH TRAJECTORIES. HERE WE SUMMARIZE THE CURRENT UNDERSTANDING OF THE INTERACTIONS THAT OCCUR BETWEEN THE MATERNAL GUT MICROBIOME AND THE ESSENTIAL NUTRIENT CHOLINE, THAT IS NOT ONLY REQUIRED FOR FETAL DEVELOPMENT AND EPIGENETIC REGULATION BUT IS ALSO A GROWTH SUBSTRATE FOR SOME MICROBES. BACTERIA ABLE TO METABOLIZE CHOLINE BENEFIT FROM THE PRESENCE OF THIS NUTRIENT AND COMPETE WITH THE HOST FOR ITS ACCESS, WHICH UNDER EXTREME CONDITIONS MAY ELICIT SIGNATURES OF CHOLINE DEFICIENCY. ANOTHER CONSEQUENCE OF BACTERIAL CHOLINE METABOLISM IS THE ACCUMULATION OF THE PRO-INFLAMMATORY, PRO-THROMBOTIC METABOLITE TRIMETHYLAMINE-N-OXIDE (TMAO). FINALLY, WE DISCUSS HOW THESE DIFFERENT FACETS OF MICROBIAL CHOLINE METABOLISM MAY INFLUENCE INFANT DEVELOPMENT AND HEALTH TRAJECTORIES VIA EPIGENETIC MECHANISMS AND MORE BROADLY PLACE A CALL TO ACTION TO BETTER UNDERSTAND HOW MATERNAL MICROBIAL METABOLISM CAN SHAPE THEIR OFFSPRING'S PROPENSITY TO CHRONIC DISEASE DEVELOPMENT LATER IN LIFE. 2018 16 651 22 BISPHENOL A AND PHTHALATES MODULATE PERITONEAL MACROPHAGE FUNCTION IN FEMALE MICE INVOLVING SYMD2-H3K36 DIMETHYLATION. AMPLE EVIDENCE SUGGESTS THAT ENVIRONMENTAL AND OCCUPATIONAL EXPOSURE TO BISPHENOL A (BPA) AND PHTHALATE, TWO CHEMICALS WIDELY USED IN THE PLASTICS INDUSTRY, DISTURBS HOMEOSTASIS OF INNATE IMMUNITY AND CAUSES INFLAMMATORY DISEASES. HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS OF THESE TOXICANTS IN THE REGULATION OF MACROPHAGE INFLAMMATORY FUNCTIONS REMAIN POORLY UNDERSTOOD. IN THIS STUDY, WE ADDRESSED THE EFFECT OF CHRONIC EXPOSURE TO BPA OR PHTHALATE AT LEVELS RELEVANT TO HUMAN EXPOSURE, EITHER IN VITRO OR IN VIVO, ON THE INFLAMMATORY REPROGRAMING OF PERITONEAL MACROPHAGES. OUR STUDIES REVEALED THAT BPA AND PHTHALATES ADVERSELY AFFECTED EXPRESSION LEVELS OF THE PROINFLAMMATORY CYTOKINES AND MEDIATORS IN RESPONSE TO LIPOPOLYSACCHARIDE STIMULATION. EXPOSURE TO THESE TOXICANTS ALSO AFFECTED GENE EXPRESSION OF SCAVENGER RECEPTORS AND PHAGOCYTIC CAPACITY OF PERITONEAL MACROPHAGES. OUR STUDIES REVEALED THAT THE EPIGENETIC INHIBITORS DIFFERENTIALLY MODULATED TARGET GENE EXPRESSION IN THESE CELLS. FURTHER ANALYSIS REVEALED THAT CERTAIN HISTONE MODIFICATION ENZYMES WERE ABERRANTLY EXPRESSED IN RESPONSE TO BPA OR PHTHALATE EXPOSURE, LEADING TO ALTERATION IN THE LEVELS OF H3K36 ACETYLATION AND DIMETHYLATION, TWO CHROMATIN MODIFICATIONS THAT ARE CRITICAL FOR TRANSCRIPTIONAL EFFICACY AND ACCURACY. OUR RESULTS FURTHER REVEALED THAT SILENCING OF H3K36-SPECIFIC METHYLTRANSFERASE SMYD2 EXPRESSION OR INHIBITION OF SMYD2 ENZYMATIC ACTIVITY ATTENUATED H3K36 DIMETHYLATION AND ENHANCED INTERLEUKIN-6 AND TUMOR NECROSIS FACTOR-ALPHA EXPRESSION BUT DAMPENED THE PHAGOCYTIC CAPACITY OF PERITONEAL MACROPHAGES. IN SUMMARY, OUR RESULTS INDICATE THAT PERITONEAL MACROPHAGES ARE VULNERABLE TO BPA OR PHTHALATE AT LEVELS RELEVANT TO HUMAN EXPOSURE. THESE ENVIRONMENTAL TOXICANTS AFFECT PHENOTYPIC PROGRAMMING OF MACROPHAGES VIA EPIGENETIC MECHANISMS INVOLVING SMYD2-MEDIATED H3K36 MODIFICATION. 2018 17 4973 16 PATHOPHYSIOLOGICAL EFFECTS OF CONTEMPORARY LIFESTYLE ON EVOLUTIONARY-CONSERVED SURVIVAL MECHANISMS IN POLYCYSTIC OVARY SYNDROME. POLYCYSTIC OVARY SYNDROME (PCOS) IS INCREASINGLY BEING CHARACTERIZED AS AN EVOLUTIONARY MISMATCH DISORDER THAT PRESENTS WITH A COMPLEX MIXTURE OF METABOLIC AND ENDOCRINE SYMPTOMS. THE EVOLUTIONARY MODEL PROPOSES THAT PCOS ARISES FROM A COLLECTION OF INHERITED POLYMORPHISMS THAT HAVE BEEN CONSISTENTLY DEMONSTRATED IN A VARIETY OF ETHNIC GROUPS AND RACES. IN UTERO DEVELOPMENTAL PROGRAMMING OF SUSCEPTIBLE GENOMIC VARIANTS ARE THOUGHT TO PREDISPOSE THE OFFSPRING TO DEVELOP PCOS. POSTNATAL EXPOSURE TO LIFESTYLE AND ENVIRONMENTAL RISK FACTORS RESULTS IN EPIGENETIC ACTIVATION OF DEVELOPMENTALLY PROGRAMMED GENES AND DISTURBANCE OF THE HALLMARKS OF HEALTH. THE RESULTING PATHOPHYSIOLOGICAL CHANGES REPRESENT THE CONSEQUENCES OF POOR-QUALITY DIET, SEDENTARY BEHAVIOUR, ENDOCRINE DISRUPTING CHEMICALS, STRESS, CIRCADIAN DISRUPTION, AND OTHER LIFESTYLE FACTORS. EMERGING EVIDENCE SUGGESTS THAT LIFESTYLE-INDUCED GASTROINTESTINAL DYSBIOSIS PLAYS A CENTRAL ROLE IN THE PATHOGENESIS OF PCOS. LIFESTYLE AND ENVIRONMENTAL EXPOSURES INITIATE CHANGES THAT RESULT IN DISTURBANCE OF THE GASTROINTESTINAL MICROBIOME (DYSBIOSIS), IMMUNE DYSREGULATION (CHRONIC INFLAMMATION), ALTERED METABOLISM (INSULIN RESISTANCE), ENDOCRINE AND REPRODUCTIVE IMBALANCE (HYPERANDROGENISM), AND CENTRAL NERVOUS SYSTEM DYSFUNCTION (NEUROENDOCRINE AND AUTONOMIC NERVOUS SYSTEM). PCOS CAN BE A PROGRESSIVE METABOLIC CONDITION THAT LEADS TO OBESITY, GESTATIONAL DIABETES, TYPE TWO DIABETES, METABOLIC-ASSOCIATED FATTY LIVER DISEASE, METABOLIC SYNDROME, CARDIOVASCULAR DISEASE, AND CANCER. THIS REVIEW EXPLORES THE MECHANISMS THAT UNDERPIN THE EVOLUTIONARY MISMATCH BETWEEN ANCIENT SURVIVAL PATHWAYS AND CONTEMPORARY LIFESTYLE FACTORS INVOLVED IN THE PATHOGENESIS AND PATHOPHYSIOLOGY OF PCOS. 2023 18 375 10 AN ENERGETIC VIEW OF STRESS: FOCUS ON MITOCHONDRIA. ENERGY IS REQUIRED TO SUSTAIN LIFE AND ENABLE STRESS ADAPTATION. AT THE CELLULAR LEVEL, ENERGY IS LARGELY DERIVED FROM MITOCHONDRIA - UNIQUE MULTIFUNCTIONAL ORGANELLES WITH THEIR OWN GENOME. FOUR MAIN ELEMENTS CONNECT MITOCHONDRIA TO STRESS: (1) ENERGY IS REQUIRED AT THE MOLECULAR, (EPI)GENETIC, CELLULAR, ORGANELLAR, AND SYSTEMIC LEVELS TO SUSTAIN COMPONENTS OF STRESS RESPONSES; (2) GLUCOCORTICOIDS AND OTHER STEROID HORMONES ARE PRODUCED AND METABOLIZED BY MITOCHONDRIA; (3) RECIPROCALLY, MITOCHONDRIA RESPOND TO NEUROENDOCRINE AND METABOLIC STRESS MEDIATORS; AND (4) EXPERIMENTALLY MANIPULATING MITOCHONDRIAL FUNCTIONS ALTERS PHYSIOLOGICAL AND BEHAVIORAL RESPONSES TO PSYCHOLOGICAL STRESS. THUS, MITOCHONDRIA ARE ENDOCRINE ORGANELLES THAT PROVIDE BOTH THE ENERGY AND SIGNALS THAT ENABLE AND DIRECT STRESS ADAPTATION. NEURAL CIRCUITS REGULATING SOCIAL BEHAVIOR - AS WELL AS PSYCHOPATHOLOGICAL PROCESSES - ARE ALSO INFLUENCED BY MITOCHONDRIAL ENERGETICS. AN INTEGRATIVE VIEW OF STRESS AS AN ENERGY-DRIVEN PROCESS OPENS NEW OPPORTUNITIES TO STUDY MECHANISMS OF ADAPTATION AND REGULATION ACROSS THE LIFESPAN. 2018 19 684 19 BRAIN STAT5 MODULATES LONG-TERM METABOLIC AND EPIGENETIC CHANGES INDUCED BY PREGNANCY AND LACTATION IN FEMALE MICE. SEVERAL METABOLIC AND BEHAVIORAL ADAPTATIONS THAT EMERGE DURING PREGNANCY REMAIN PRESENT AFTER WEANING. THUS, REPRODUCTIVE EXPERIENCE CAUSES LONG-LASTING METABOLIC PROGRAMMING, PARTICULARLY IN THE BRAIN. HOWEVER, THE ISOLATE EFFECTS OF PREGNANCY OR LACTATION AND THE MOLECULAR MECHANISMS INVOLVED IN THESE LONG-TERM MODIFICATIONS ARE CURRENTLY UNKNOWN. IN THE CURRENT STUDY, WE INVESTIGATED THE ROLE OF BRAIN SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION-5 (STAT5), A KEY TRANSCRIPTION FACTOR RECRUITED BY HORMONES HIGHLY SECRETED DURING GESTATION OR LACTATION, FOR THE LONG-TERM ADAPTATIONS INDUCED BY REPRODUCTIVE EXPERIENCE. IN CONTROL MICE, PREGNANCY FOLLOWED BY LACTATION LED TO INCREASED BODY ADIPOSITY AND REDUCED AMBULATORY ACTIVITY LATER IN LIFE. ADDITIONALLY, PREGNANCY+LACTATION INDUCED LONG-TERM EPIGENETIC MODIFICATIONS IN THE BRAIN: WE OBSERVED UPREGULATION IN HYPOTHALAMIC EXPRESSION OF HISTONE DEACETYLASES AND REDUCED NUMBERS OF NEURONS WITH HISTONE H3 ACETYLATION IN THE PARAVENTRICULAR, ARCUATE, AND VENTROMEDIAL NUCLEI. REMARKABLY, BRAIN-SPECIFIC STAT5 ABLATION PREVENTED ALL METABOLIC AND EPIGENETIC CHANGES OBSERVED IN REPRODUCTIVELY EXPERIENCED CONTROL FEMALE MICE. NONETHELESS, BRAIN-SPECIFIC STAT5 KNOCKOUT (KO) MICE THAT HAD THE EXPERIENCE OF PREGNANCY BUT DID NOT LACTATE SHOWED INCREASED BODY WEIGHT AND REDUCED ENERGY EXPENDITURE LATER IN LIFE, WHEREAS PREGNANCY KO AND PREGNANCY+LACTATION KO MICE EXHIBITED IMPROVED INSULIN SENSITIVITY COMPARED WITH VIRGIN KO MICE. IN SUMMARY, LACTATION IS NECESSARY FOR THE LONG-LASTING METABOLIC EFFECTS OBSERVED IN REPRODUCTIVELY EXPERIENCED FEMALE MICE. IN ADDITION, EPIGENETIC MECHANISMS INVOLVING HISTONE ACETYLATION IN NEURONAL POPULATIONS RELATED TO ENERGY BALANCE REGULATION ARE POSSIBLY ASSOCIATED WITH THESE LONG-TERM CONSEQUENCES. FINALLY, OUR FINDINGS HIGHLIGHTED THE KEY ROLE PLAYED BY BRAIN STAT5 SIGNALING FOR THE CHRONIC METABOLIC AND EPIGENETIC CHANGES INDUCED BY PREGNANCY AND LACTATION. 2019 20 6874 16 [PROGRESS IN THE REGULATION OF ENERGY METABOLIC HOMEOSTASIS BY THE SWI/SNF COMPLEX SUBUNIT BAF60A]. METABOLIC SYNDROME IS A GLOBAL CHRONIC EPIDEMIC. ITS PATHOGENESIS IS DETERMINED BY GENETIC AND ENVIRONMENTAL FACTORS. EPIGENETIC MODIFICATION IS REPORTED TO REGULATE GENE EXPRESSION WITHOUT ALTERING ITS NUCLEOTIDE SEQUENCES. IN RECENT YEARS, EPIGENETIC MODIFICATION IS SENSITIVELY RESPONDED TO ENVIRONMENTAL SIGNALS, FURTHER AFFECTING THE GENE EXPRESSION AND SIGNALING TRANSDUCTION. AMONG THESE REGULATORS, CHROMATIN REMODELING SWI/SNF (SWITCH/SUCROSE NON FERMENTABLE, SWI/SNF) COMPLEX SUBUNIT BAF60A PLAYS AN IMPORTANT ROLE IN MAINTAINING ENERGY HOMEOSTASIS IN MAMMALS. IN THIS PAPER, WE DESCRIBED THE PATHOPHYSIOLOGICAL ROLES OF BAF60A IN MAINTAINING THE BALANCE OF ENERGY METABOLISM, INCLUDING LIPID METABOLISM, CHOLESTEROL METABOLISM, UREA METABOLISM, AS WELL AS THEIR RHYTHMICITY. THEREFORE, IN-DEPTH UNDERSTANDING OF BAF60A-ORCHESTRATED TRANSCRIPTIONAL NETWORK OF ENERGY METABOLISM WILL PROVIDE POTENTIAL THERAPEUTIC TARGETS AND RELIABLE THEORETICAL SUPPORTS FOR THE TREATMENT OF METABOLIC SYNDROME. 2021