1 5698 154 SIMULATED CLIMATE WARMING AND MITOCHONDRIAL HAPLOGROUP MODULATE TESTICULAR SMALL NON-CODING RNA EXPRESSION IN THE NEOTROPICAL PSEUDOSCORPION, CORDYLOCHERNES SCORPIOIDES. RECENT THEORY SUGGESTS THAT TROPICAL TERRESTRIAL ARTHROPODS ARE AT SIGNIFICANT RISK FROM CLIMATE WARMING. METABOLIC RATE IN SUCH ECTOTHERMIC SPECIES INCREASES EXPONENTIALLY WITH ENVIRONMENTAL TEMPERATURE, AND A SMALL TEMPERATURE INCREASE IN A HOT ENVIRONMENT CAN THEREFORE HAVE A GREATER PHYSIOLOGICAL IMPACT THAN A LARGE TEMPERATURE INCREASE IN A COOL ENVIRONMENT. IN TWO RECENT STUDIES OF THE NEOTROPICAL PSEUDOSCORPION, CORDYLOCHERNES SCORPIOIDES, SIMULATED CLIMATE WARMING SIGNIFICANTLY DECREASED SURVIVAL, BODY SIZE AND LEVEL OF SEXUAL DIMORPHISM. HOWEVER, THESE EFFECTS WERE MINOR COMPARED WITH CATASTROPHIC CONSEQUENCES FOR MALE FERTILITY AND FEMALE FECUNDITY, IDENTIFYING REPRODUCTION AS THE LIFE STAGE MOST VULNERABLE TO CLIMATE WARMING. HERE, WE EXAMINE THE EFFECTS OF CHRONIC HIGH-TEMPERATURE EXPOSURE ON EPIGENETIC REGULATION IN C. SCORPIOIDES IN THE CONTEXT OF NATURALLY OCCURRING VARIATION IN MITOCHONDRIAL DNA. EPIGENETIC MECHANISMS, INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS AND SMALL NON-CODING RNA (SNCRNA) EXPRESSION, ARE PARTICULARLY SENSITIVE TO ENVIRONMENTAL FACTORS SUCH AS TEMPERATURE, WHICH CAN INDUCE CHANGES IN EPIGENETIC STATES AND PHENOTYPES THAT MAY BE HERITABLE ACROSS GENERATIONS. OUR RESULTS INDICATE THAT EXPOSURE OF MALE PSEUDOSCORPIONS TO ELEVATED TEMPERATURE SIGNIFICANTLY ALTERED THE EXPRESSION OF >60 SNCRNAS IN TESTICULAR TISSUE, SPECIFICALLY MICRORNAS AND PIWI-INTERACTING RNAS. MITOCHONDRIAL HAPLOGROUP WAS ALSO A SIGNIFICANT FACTOR INFLUENCING BOTH SNCRNAS AND MITOCHONDRIAL GENE EXPRESSION. THESE FINDINGS DEMONSTRATE THAT CHRONIC HEAT STRESS CAUSES CHANGES IN EPIGENETIC PROFILES THAT MAY ACCOUNT FOR REPRODUCTIVE DYSFUNCTION IN C. SCORPIOIDES MALES. MOREOVER, THROUGH ITS EFFECTS ON EPIGENETIC REGULATION, MITOCHONDRIAL DNA POLYMORPHISM MAY PROVIDE THE POTENTIAL FOR AN ADAPTIVE EVOLUTIONARY RESPONSE TO CLIMATE WARMING.	2018	
                                                                                                                                                                                                                                                               
2 1534  40 DNA METHYLATION DYNAMICS IN A COASTAL FOUNDATION SEAGRASS SPECIES UNDER ABIOTIC STRESSORS. DNA METHYLATION (DNAM) HAS BEEN INTENSIVELY STUDIED IN TERRESTRIAL PLANTS IN RESPONSE TO ENVIRONMENTAL CHANGES, BUT ITS DYNAMIC CHANGES IN A TEMPORAL SCALE REMAIN UNEXPLORED IN MARINE PLANTS. THE SEAGRASS POSIDONIA OCEANICA RANKS AMONG THE SLOWEST-GROWING AND LONGEST-LIVING PLANTS ON EARTH, AND IS PARTICULARLY VULNERABLE TO SEA WARMING AND LOCAL ANTHROPOGENIC PRESSURES. HERE, WE ANALYSED THE DYNAMICS OF DNAM CHANGES IN PLANTS COLLECTED FROM COASTAL AREAS DIFFERENTIALLY IMPACTED BY EUTROPHICATION (I.E. OLIGOTROPHIC, OL; EUTROPHIC, EU) AND EXPOSED TO ABIOTIC STRESSORS (NUTRIENTS, TEMPERATURE INCREASE AND THEIR COMBINATION). LEVELS OF GLOBAL DNAM (% 5-MC) AND THE EXPRESSION OF KEY GENES INVOLVED IN DNAM WERE ASSESSED AFTER ONE, TWO AND FIVE WEEKS OF EXPOSURE. RESULTS REVEALED A CLEAR DIFFERENTIATION BETWEEN PLANTS, DEPENDING ON ENVIRONMENTAL STIMULI, TIME OF EXPOSURE AND PLANTS' ORIGIN. % 5-MC LEVELS WERE HIGHER DURING THE INITIAL STRESS EXPOSURE ESPECIALLY IN OL PLANTS, WHICH UPREGULATED ALMOST ALL GENES INVOLVED IN DNAM. CONTRARILY, EU PLANTS SHOWED LOWER EXPRESSION LEVELS, WHICH INCREASED UNDER CHRONIC EXPOSURE TO STRESSORS, PARTICULARLY TO TEMPERATURE. THESE FINDINGS SHOW THAT DNAM IS DYNAMIC IN P. OCEANICA DURING STRESS EXPOSURE AND UNDERLINED THAT ENVIRONMENTAL EPIGENETIC VARIATIONS COULD BE IMPLICATED IN THE REGULATION OF ACCLIMATION AND PHENOTYPIC DIFFERENCES DEPENDING ON LOCAL CONDITIONS.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
3 1162  41 CONTRASTING EFFECTS OF ACUTE AND CHRONIC STRESS ON THE TRANSCRIPTOME, EPIGENOME, AND IMMUNE RESPONSE OF ATLANTIC SALMON. STRESS EXPERIENCED DURING EARLY LIFE MAY HAVE LASTING EFFECTS ON THE IMMUNE SYSTEM, WITH IMPACTS ON HEALTH AND DISEASE DEPENDENT ON THE NATURE AND DURATION OF THE STRESSOR. THE EPIGENOME IS ESPECIALLY SENSITIVE TO ENVIRONMENTAL STIMULI DURING EARLY LIFE AND REPRESENTS A POTENTIAL MECHANISM THROUGH WHICH STRESS MAY CAUSE LONG-LASTING HEALTH EFFECTS. HOWEVER, THE EXTENT TO WHICH THE EPIGENOME RESPONDS DIFFERENTLY TO CHRONIC VS ACUTE STRESSORS IS UNCLEAR, ESPECIALLY FOR NON-MAMMALIAN SPECIES. WE EXAMINED THE EFFECTS OF ACUTE STRESS (COLD-SHOCK DURING EMBRYOGENESIS) AND CHRONIC STRESS (ABSENCE OF TANK ENRICHMENT DURING LARVAL-STAGE) ON GLOBAL GENE EXPRESSION (USING RNA-SEQ) AND DNA METHYLATION (USING RRBS) IN THE GILLS OF ATLANTIC SALMON (SALMO SALAR) FOUR MONTHS AFTER HATCHING. CHRONIC STRESS INDUCED PRONOUNCED TRANSCRIPTIONAL DIFFERENCES, WHILE ACUTE STRESS CAUSED FEW LASTING TRANSCRIPTIONAL EFFECTS. HOWEVER, BOTH ACUTE AND CHRONIC STRESS CAUSED LASTING AND CONTRASTING CHANGES IN THE METHYLOME. CRUCIALLY, WE FOUND THAT ACUTE STRESS ENHANCED TRANSCRIPTIONAL IMMUNE RESPONSE TO A PATHOGENIC CHALLENGE (BACTERIAL LIPOPOLYSACCHARIDE, LPS), WHILE CHRONIC STRESS SUPPRESSED IT. WE IDENTIFIED STRESS-INDUCED CHANGES IN PROMOTER AND GENE-BODY METHYLATION THAT WERE ASSOCIATED WITH ALTERED EXPRESSION FOR A SMALL PROPORTION OF IMMUNE-RELATED GENES, AND EVIDENCE OF WIDER EPIGENETIC REGULATION WITHIN SIGNALLING PATHWAYS INVOLVED IN IMMUNE RESPONSE. OUR RESULTS SUGGEST THAT STRESS CAN AFFECT IMMUNO-COMPETENCE THROUGH EPIGENETIC MECHANISMS, AND HIGHLIGHT THE MARKEDLY DIFFERENT EFFECTS OF CHRONIC LARVAL AND ACUTE EMBRYONIC STRESS. THIS KNOWLEDGE COULD BE USED TO HARNESS THE STIMULATORY EFFECTS OF ACUTE STRESS ON IMMUNITY, PAVING THE WAY FOR IMPROVED STRESS AND DISEASE MANAGEMENT THROUGH EPIGENETIC CONDITIONING.	2018	
                                                                                                                                                                                                                                                                                                                                                                     
4 4736  40 NOVEL EPIGENETIC BIOMARKERS MEDIATING BISPHENOL A EXPOSURE AND METABOLIC PHENOTYPES IN FEMALE MICE. THERE IS COMPELLING EVIDENCE THAT EPIGENETIC MODIFICATIONS LINK DEVELOPMENTAL ENVIRONMENTAL INSULTS TO ADULT DISEASE SUSCEPTIBILITY. ANIMAL STUDIES HAVE ASSOCIATED PERINATAL BISPHENOL A (BPA) EXPOSURE TO ALTERED DNA METHYLATION, BUT THESE STUDIES ARE OFTEN LIMITED TO CANDIDATE GENE AND GLOBAL NON-LOCI-SPECIFIC APPROACHES. BY USING AN EPIGENOME-WIDE DISCOVERY PLATFORM, WE ELUCIDATED EPIGENETIC ALTERATIONS IN LIVER TISSUE FROM ADULT MICE OFFSPRING (10 MONTHS) FOLLOWING PERINATAL BPA EXPOSURE AT HUMAN PHYSIOLOGICALLY RELEVANT DOSES (50-NG, 50-MUG, AND 50-MG BPA/KG DIET). BIOLOGICAL PATHWAY ANALYSIS IDENTIFIED AN ENRICHMENT OF SIGNIFICANT DIFFERENTIALLY METHYLATED REGIONS IN METABOLIC PATHWAYS AMONG FEMALES. FURTHERMORE, THROUGH THE USE OF TOP ENRICHED BIOLOGICAL PATHWAYS, 4 CANDIDATE GENES WERE CHOSEN TO ASSESS DNA METHYLATION AS A MEDIATING FACTOR LINKING THE ASSOCIATION OF PERINATAL BPA EXPOSURE TO METABOLIC PHENOTYPES PREVIOUSLY OBSERVED IN FEMALE OFFSPRING. DNA METHYLATION STATUS AT JANUS KINASE-2 (JAK-2), RETINOID X RECEPTOR (RXR), REGULATORY FACTOR X-ASSOCIATED PROTEIN (RFXAP), AND TRANSMEMBRANE PROTEIN 238 (TMEM238) WAS USED WITHIN A MEDIATIONAL REGRESSION ANALYSIS. DNA METHYLATION IN ALL FOUR OF THE CANDIDATE GENES WAS IDENTIFIED AS A MEDIATOR IN THE MECHANISTIC PATHWAY OF DEVELOPMENTAL BPA EXPOSURE AND FEMALE-SPECIFIC ENERGY EXPENDITURE, BODY WEIGHT, AND BODY FAT PHENOTYPES. DATA GENERATED FROM THIS STUDY ARE CRUCIAL FOR DECIPHERING THE MECHANISTIC ROLE OF EPIGENETICS IN THE PATHOGENESIS OF CHRONIC DISEASE AND THE DEVELOPMENT OF EPIGENETIC-BASED PREVENTION AND THERAPEUTIC STRATEGIES FOR COMPLEX HUMAN DISEASE.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            
5 6594  36 TUMOR-AUGMENTING EFFECTS OF GESTATIONAL ARSENIC EXPOSURE ON F1 AND F2 IN MICE. THE CONSEQUENCES OF EARLY-LIFE EXPOSURE TO CHEMICALS IN THE ENVIRONMENT ARE EMERGING CONCERNS. CHRONIC EXPOSURE TO NATURALLY OCCURRING INORGANIC ARSENIC HAS BEEN KNOWN TO CAUSE VARIOUS ADVERSE HEALTH EFFECTS, INCLUDING CANCERS, IN HUMANS. ON THE OTHER HAND, ANIMAL STUDIES BY DR. M. WAALKES' GROUP REPORTED THAT ARSENITE EXPOSURE OF PREGNANT F0 FEMALES, ONLY FROM GESTATIONAL DAY 8 TO 18, INCREASED HEPATIC TUMORS IN THE F1 (ARSENITE-F1) MALES OF C3H MICE, WHOSE MALES TEND TO DEVELOP SPONTANEOUS HEPATIC TUMORS LATER IN LIFE. SINCE THIS MICE MODEL ILLUMINATED NOVEL UNIDENTIFIED CONSEQUENCES OF ARSENIC EXPOSURE, WE WISHED TO FURTHER INVESTIGATE THE BACKGROUND MECHANISMS. IN THE SAME EXPERIMENTAL MODEL, WE IDENTIFIED A VARIETY OF FACTORS THAT WERE AFFECTED BY GESTATIONAL ARSENIC EXPOSURE, INCLUDING EPIGENETIC AND GENETIC CHANGES, AS POSSIBLE CONSTITUENTS OF MULTIPLE STEPS OF LATE-ONSET HEPATIC TUMOR AUGMENTATION IN ARSENITE-F1 MALES. FURTHERMORE, OUR STUDY DISCOVERED THAT THE F2 MALES BORN TO ARSENITE-F1 MALES DEVELOPED HEPATIC TUMORS AT A SIGNIFICANTLY HIGHER RATE THAN THE CONTROL F2 MALES. THE RESULTS IMPLY THAT THE TUMOR AUGMENTING EFFECT IS INHERITED BY ARSENITE-F2 MALES THROUGH THE SPERM OF ARSENITE-F1. IN THIS ARTICLE, WE SUMMARIZED OUR STUDIES ON THE CONSEQUENCES OF GESTATIONAL ARSENITE EXPOSURE IN F1 AND F2 MICE TO DISCUSS NOVEL ASPECTS OF BIOLOGICAL EFFECTS OF GESTATIONAL ARSENIC EXPOSURE.	2017	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     
6  660  37 BLOOD LEVELS OF T-CELL RECEPTOR EXCISION CIRCLES (TRECS) PROVIDE AN INDEX OF EXPOSURE TO TRAUMATIC STRESS IN MICE AND HUMANS. EXPOSURE TO STRESS TRIGGERS BIOLOGICAL CHANGES THROUGHOUT THE BODY. ACCUMULATING EVIDENCE INDICATES THAT ALTERATIONS IN IMMUNE SYSTEM FUNCTION ARE ASSOCIATED WITH THE DEVELOPMENT OF STRESS-ASSOCIATED ILLNESSES SUCH AS MAJOR DEPRESSIVE DISORDER AND POST-TRAUMATIC STRESS DISORDER, INCREASING INTEREST IN IDENTIFYING IMMUNE MARKERS THAT PROVIDE INSIGHT INTO MENTAL HEALTH. RECOMBINATION EVENTS DURING T-CELL RECEPTOR REARRANGEMENT AND T-CELL MATURATION IN THE THYMUS PRODUCE CIRCULAR DNA FRAGMENTS CALLED T-CELL RECEPTOR EXCISION CIRCLES (TRECS) THAT CAN BE UTILIZED AS INDICATORS OF THYMIC FUNCTION AND NUMBERS OF NEWLY EMIGRATING T-CELLS. GIVEN DATA SUGGESTING THAT STRESS AFFECTS THYMUS FUNCTION, WE EXAMINED WHETHER BLOOD LEVELS OF TRECS MIGHT SERVE AS A QUANTITATIVE PERIPHERAL INDEX OF CUMULATIVE STRESS EXPOSURE AND ITS PHYSIOLOGICAL CORRELATES. WE HYPOTHESIZED THAT CHRONIC STRESS EXPOSURE WOULD COMPROMISE THYMUS FUNCTION AND PRODUCE CORRESPONDING DECREASES IN LEVELS OF TRECS. IN MALE MICE, EXPOSURE TO CHRONIC SOCIAL DEFEAT STRESS (CSDS) PRODUCED THYMIC INVOLUTION, ADRENAL HYPERTROPHY, AND DECREASED LEVELS OF TRECS IN BLOOD. EXTENDING THESE STUDIES TO HUMANS REVEALED ROBUST INVERSE CORRELATIONS BETWEEN LEVELS OF CIRCULATING TRECS AND CHILDHOOD EMOTIONAL AND PHYSICAL ABUSE. CELL-TYPE SPECIFIC ANALYSES ALSO REVEALED ASSOCIATIONS BETWEEN TREC LEVELS AND BLOOD CELL COMPOSITION, AS WELL AS CELL-TYPE SPECIFIC METHYLATION CHANGES IN CD4T + AND CD8T + CELLS. ADDITIONALLY, TREC LEVELS CORRELATED WITH EPIGENETIC AGE ACCELERATION, A COMMON BIOMARKER OF STRESS EXPOSURE. OUR FINDINGS DEMONSTRATE ALIGNMENT BETWEEN FINDINGS IN MICE AND HUMANS AND SUGGEST THAT BLOOD-BORNE TRECS ARE A TRANSLATIONALLY-RELEVANT BIOMARKER THAT CORRELATES WITH, AND PROVIDES INSIGHT INTO, THE CUMULATIVE PHYSIOLOGICAL AND IMMUNE-RELATED IMPACTS OF STRESS EXPOSURE IN MAMMALS.	2022	
                                                                                                                                                                                                                                                                                                                        
7 2776  41 EXTRAUTERINE GROWTH RESTRICTION ON PULMONARY VASCULAR ENDOTHELIAL DYSFUNCTION IN ADULT MALE RATS: THE ROLE OF EPIGENETIC MECHANISMS. OBJECTIVE: EARLY POSTNATAL LIFE IS CONSIDERED AS A CRITICAL TIME WINDOW FOR THE DETERMINATION OF LONG-TERM METABOLIC STATES AND ORGAN FUNCTIONS. EXTRAUTERINE GROWTH RESTRICTION (EUGR) CAUSES THE DEVELOPMENT OF ADULT-ONSET CHRONIC DISEASES, INCLUDING PULMONARY HYPERTENSION. HOWEVER, THE EFFECTS OF NUTRITIONAL DISADVANTAGES DURING THE EARLY POSTNATAL PERIOD ON PULMONARY VASCULAR CONSEQUENCES IN LATER LIFE ARE NOT FULLY UNDERSTOOD. OUR STUDY WAS DESIGNED TO TEST WHETHER EPIGENETICS DYSREGULATION MEDIATES THE CELLULAR MEMORY OF THIS EARLY POSTNATAL EVENT. METHODS AND RESULTS: TO TEST THIS HYPOTHESIS, WE ISOLATED PULMONARY VASCULAR ENDOTHELIAL CELLS BY MAGNETIC-ACTIVATED CELL SORTING FROM EUGR AND CONTROL RATS. A POSTNATAL INSULT, NUTRITIONAL RESTRICTION-INDUCED EUGR CAUSED DEVELOPMENT OF AN INCREASED PULMONARY ARTERY PRESSURE AT 9 WEEKS OF AGE IN MALE SPRAGUE-DAWLEY RATS. METHYL-DNA IMMUNE PRECIPITATION CHIP, GENOME-SCALE MAPPING STUDIES TO SEARCH FOR DIFFERENTIALLY METHYLATED LOCI BETWEEN CONTROL AND EUGR RATS, REVEALED SIGNIFICANT DIFFERENCE IN CYTOSINE METHYLATION BETWEEN EUGR AND CONTROL RATS. EUGR CHANGES THE CYTOSINE METHYLATION AT APPROXIMATELY 500 LOCI IN MALE RATS AT 9 WEEKS OF AGE, PRECEDING THE DEVELOPMENT OF PULMONARY HYPERTENSION AND THESE REPRESENT THE CANDIDATE LOCI FOR MEDIATING THE PATHOGENESIS OF PULMONARY VASCULAR DISEASE THAT OCCURS LATER IN LIFE. GENE ONTOLOGY ANALYSIS ON DIFFERENTIALLY METHYLATED GENES SHOWED THAT HYPERMETHYLATED GENES IN EUGR ARE VASCULAR DEVELOPMENT-ASSOCIATED GENES AND HYPOMETHYLATED GENES IN EUGR ARE LATE-DIFFERENTIATION-ASSOCIATED AND SIGNAL TRANSDUCTION GENES. WE VALIDATED CANDIDATE DYSREGULATED LOCI WITH THE QUANTITATIVE ASSAYS OF CYTOSINE METHYLATION AND GENE EXPRESSIONS. CONCLUSION: THESE RESULTS DEMONSTRATE THAT EPIGENETICS DYSREGULATION IS A STRONG MECHANISM FOR PROPAGATING THE CELLULAR MEMORY OF EARLY POSTNATAL EVENTS, CAUSING CHANGES IN THE EXPRESSION OF GENES AND LONG-TERM SUSCEPTIBILITY TO PULMONARY HYPERTENSION, AND FURTHER PROVIDING A NEW INSIGHT INTO THE PREVENTION AND TREATMENT OF EUGR-RELATED PULMONARY HYPERTENSION.	2014	
                                                           
8 4019  30 LOW-DOSE OR LOW-DOSE-RATE IONIZING RADIATION-INDUCED BIOEFFECTS IN ANIMAL MODELS. ANIMAL EXPERIMENTAL STUDIES INDICATE THAT ACUTE OR CHRONIC LOW-DOSE IONIZING RADIATION (LDIR) (</=100 MSV) OR LOW-DOSE-RATE IONIZING RADIATION (LDRIR) (<6 MSV/H) EXPOSURES MAY BE HARMFUL. IT INDUCES GENETIC AND EPIGENETIC CHANGES AND IS ASSOCIATED WITH A RANGE OF PHYSIOLOGICAL DISTURBANCES THAT INCLUDES ALTERED IMMUNE SYSTEM, ABNORMAL BRAIN DEVELOPMENT WITH RESULTANT COGNITIVE IMPAIRMENT, CATARACTOGENESIS, ABNORMAL EMBRYONIC DEVELOPMENT, CIRCULATORY DISEASES, WEIGHT GAIN, PREMATURE MENOPAUSE IN FEMALE ANIMALS, TUMORIGENESIS AND SHORTENED LIFESPAN. PATERNAL OR PRENATAL LDIR/LDRIR EXPOSURE IS ASSOCIATED WITH REDUCED FERTILITY AND NUMBER OF LIVE FETUSES, AND TRANSGENERATIONAL GENOMIC ABERRATIONS. ON THE OTHER HAND, IN SOME EXPERIMENTAL STUDIES, LDIR/LDRIR EXPOSURE HAS ALSO BEEN REPORTED TO BRING ABOUT BENEFICIAL EFFECTS SUCH AS REDUCTION IN TUMORIGENESIS, PROLONGED LIFESPAN AND ENHANCED FERTILITY. THE DIFFERENCES IN REPORTED EFFECTS OF LDIR/LDRIR EXPOSURE ARE DEPENDENT ON ANIMAL GENETIC BACKGROUND (SUSCEPTIBILITY), AGE (PRENATAL OR POSTNATAL DAYS), SEX, NATURE OF RADIATION EXPOSURE (I.E. ACUTE, FRACTIONATED OR CHRONIC RADIATION EXPOSURE), TYPE OF RADIATION, COMBINATION OF RADIATION WITH OTHER TOXIC AGENTS (SUCH AS SMOKING, PESTICIDES OR OTHER CHEMICAL TOXINS) OR ANIMAL EXPERIMENTAL DESIGNS. IN THIS REVIEW PAPER, WE AIMED TO UPDATE RADIATION RESEARCHERS AND RADIOLOGISTS ON THE CURRENT PROGRESS ACHIEVED IN UNDERSTANDING THE LDIR/LDRIR-INDUCED BIONEGATIVE AND BIOPOSITIVE EFFECTS REPORTED IN THE VARIOUS ANIMAL MODELS. THE ROLES PLAYED BY A VARIETY OF MOLECULES THAT ARE IMPLICATED IN LDIR/LDRIR-INDUCED HEALTH EFFECTS WILL BE ELABORATED. THE REVIEW WILL HELP IN FUTURE INVESTIGATIONS OF LDIR/LDRIR-INDUCED HEALTH EFFECTS BY PROVIDING CLUES FOR DESIGNING IMPROVED ANIMAL RESEARCH MODELS IN ORDER TO CLARIFY THE CURRENT CONTROVERSIAL/CONTRADICTORY FINDINGS FROM EXISTING STUDIES.	2017	
                                                                                                                                                                                                                                                                                                                                
9 4538  34 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	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                               
10 3591  30 IMPAIRED ONE CARBON METABOLISM AND DNA METHYLATION IN ALCOHOL TOXICITY. EXCESSIVE ALCOHOL CONSUMPTION IS A PROMINENT PROBLEM AND ONE OF THE MAJOR CAUSES OF MORTALITY AND MORBIDITY AROUND THE WORLD. LONG-TERM, HEAVY ALCOHOL CONSUMPTION IS ASSOCIATED WITH A NUMBER OF DELETERIOUS HEALTH CONSEQUENCES, SUCH AS CANCER, HEART AND LIVER DISEASE, A VARIETY OF NEUROLOGICAL, COGNITIVE, AND BEHAVIORAL DEFICITS. ALCOHOL CONSUMPTION IS ALSO ASSOCIATED WITH DEVELOPMENTAL DEFECTS. THE CAUSES OF ALCOHOL-INDUCED TOXICITY ARE PRESENTLY UNCLEAR. ONE OF THE MECHANISMS UNDERLYING ALCOHOL TOXICITY HAS TO DO WITH ITS INTERACTION WITH FOLIC ACID/HOMOCYSTEINE OR ONE-CARBON METABOLISM (OCM). OCM IS A MAJOR DONOR OF METHYL GROUPS FOR METHYLATION, PARTICULARLY DNA METHYLATION CRITICAL FOR EPIGENETIC REGULATION OF GENE EXPRESSION, AND ITS DISTURBANCE MAY COMPROMISE DNA METHYLATION, THEREBY AFFECTING GENE EXPRESSION. OCM DISTURBANCE MEDIATED BY NUTRIENT DEFICITS IS A WELL-KNOWN RISK FACTOR FOR VARIOUS DISORDERS AND DEVELOPMENTAL DEFECTS (E.G., NEURAL TUBE DEFECTS). IN THIS REVIEW, WE SUMMARIZE THE ROLE OF OCM DISTURBANCE AND ASSOCIATED EPIGENETIC ABERRATIONS IN CHRONIC ALCOHOL-INDUCED TOXICITY. IN THIS REVIEW, WE SUMMARIZE THE ROLE OF ONE-CARBON METABOLISM (OCM) ABERRATIONS IN CHRONIC ALCOHOL-INDUCED TOXICITY. OCM IS A MAJOR DONOR OF METHYL GROUPS FOR METHYLATION REACTIONS, PARTICULARLY DNA METHYLATION CRITICAL FOR EPIGENETIC REGULATION OF GENE EXPRESSION. ALCOHOL INTERFERENCE WITH OCM AND CONSEQUENT REDUCED AVAILABILITY OF METHYL GROUPS, IMPROPER DNA METHYLATION, AND ABERRANT GENE EXPRESSION CAN PLAY A CAUSATIVE ROLE IN ALCOHOL TOXICITY.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                      
11 5464  30 RESILIENCE IN LONG-TERM VIRAL INFECTION: GENETIC DETERMINANTS AND INTERACTIONS. VIRUS-INDUCED NEUROLOGICAL SEQUELAE RESULTING FROM INFECTION BY THEILER'S MURINE ENCEPHALOMYELITIS VIRUS (TMEV) ARE USED FOR STUDYING HUMAN CONDITIONS RANGING FROM EPILEPTIC SEIZURES TO DEMYELINATING DISEASE. MOUSE STRAINS ARE TYPICALLY CONSIDERED SUSCEPTIBLE OR RESISTANT TO TMEV INFECTION BASED ON VIRAL PERSISTENCE AND EXTREME PHENOTYPES, SUCH AS DEMYELINATION. WE HAVE IDENTIFIED A BROADER SPECTRUM OF PHENOTYPIC OUTCOMES BY INFECTING STRAINS OF THE GENETICALLY DIVERSE COLLABORATIVE CROSS (CC) MOUSE RESOURCE. WE EVALUATED THE CHRONIC-INFECTION GENE EXPRESSION PROFILES OF HIPPOCAMPI AND THORACIC SPINAL CORDS FOR 19 CC STRAINS IN RELATION TO PHENOTYPIC SEVERITY AND TMEV PERSISTENCE. STRAINS WERE CLUSTERED BASED ON SIMILAR PHENOTYPIC PROFILES AND TMEV LEVELS AT 90 DAYS POST-INFECTION, AND WE CATEGORIZED DISTINCT TMEV RESPONSE PROFILES. THE THREE MOST COMMON PROFILES INCLUDED "RESISTANT" AND "SUSCEPTIBLE," AS BEFORE, AS WELL AS A "RESILIENT" TMEV RESPONSE GROUP WHICH EXPERIENCED BOTH TMEV PERSISTENCE AND MILD NEUROLOGICAL PHENOTYPES EVEN AT 90 DAYS POST-INFECTION. EACH PROFILE HAD A DISTINCT GENE EXPRESSION SIGNATURE, ALLOWING THE IDENTIFICATION OF PATHWAYS AND NETWORKS SPECIFIC TO EACH TMEV RESPONSE GROUP. CC FOUNDER HAPLOTYPES FOR GENES INVOLVED IN THESE PATHWAYS/NETWORKS REVEALED CANDIDATE RESPONSE-SPECIFIC ALLELES. THESE ALLELES DEMONSTRATED PLEIOTROPY AND EPIGENETIC (MIRNA) REGULATION IN LONG-TERM TMEV INFECTION, WITH PARTICULAR RELEVANCE FOR RESILIENT MOUSE STRAINS.	2021	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                     
12 4528  31 MULTIGENERATIONAL EFFECTS OF CADMIUM ON THE LIFESPAN AND FERTILITY OF DROSOPHILA MELANOGASTER. ALTHOUGH THE DAMAGE AND TOLERANCE MECHANISMS OF CD STRESS ARE KNOWN, THE DATA ON GENETIC RISK ARE LIMITED. THE AIM OF THIS STUDY WAS TO ASSESS THE CHRONIC TOXICITY OF CD, GENETIC RESPONSES, AND MULTIGENERATIONAL EFFECTS IN FIVE GENERATIONS OF DROSOPHILA MELANOGASTER. FOR EACH GENERATION, LIFESPAN AND FERTILITY WERE STATISTICALLY ANALYSED AND THE EXPRESSION OF APOPTOSIS- (P53 AND CASPASE-3) AND EPIGENESIS-RELATED (DDNMT2 AND DMBD2/3) GENES WAS EXAMINED. LIFESPAN AND FERTILITY SIGNIFICANTLY DECLINED UNDER CD STRESS AND THESE EFFECTS WERE MAINTAINED FOR TWO GENERATIONS AND ONE GENERATION, RESPECTIVELY, WHEN CD STRESS WAS REMOVED. THE EXPRESSION OF P53 AND CASPASE-3 WAS SIGNIFICANTLY UP-REGULATED AFTER EXPOSURE, SUGGESTING THAT APOPTOSIS CONTRIBUTES TO THE RESISTANCE MECHANISM. THEIR ALTERED EXPRESSION WAS RETAINED FOR TWO GENERATIONS. FURTHERMORE, HIGH EXPRESSION OF DDNMT2 AND DMBD2/3 ACCOMPANIED CD EXPOSURE, WHICH WAS PASSED ON TO THREE GENERATIONS, SUGGESTING THAT GENETIC MODIFICATIONS IN APOPTOSIS-RELATED GENES ARE CARRIED TO THE OFFSPRING THROUGH EPIGENETIC REGULATION.	2020	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                            
13 6008  45 THE ANTI-INFLAMMATORY AGENT 5-ASA REDUCES THE LEVEL OF SPECIFIC TSRNAS IN SPERM CELLS OF HIGH-FAT FED C57BL/6J MOUSE SIRES AND IMPROVES GLUCOSE TOLERANCE IN FEMALE OFFSPRING. INTRODUCTION: THE PREVALENCE OF OBESITY AND ASSOCIATED COMORBIDITIES HAVE INCREASED TO EPIDEMIC PROPORTIONS GLOBALLY. PATERNAL OBESITY IS AN INDEPENDENT RISK FACTOR FOR DEVELOPING OBESITY AND TYPE 2 DIABETES IN THE FOLLOWING GENERATION, AND GROWING EVIDENCE SUGGESTS EPIGENETIC INHERITANCE AS A MECHANISM FOR THIS PREDISPOSITION. HOW AND WHY OBESITY INDUCES EPIGENETIC CHANGES IN SPERM CELLS REMAIN TO BE CLARIFIED IN DETAIL. YET, RECENT STUDIES SHOW THAT ALTERATIONS IN SPERM CONTENT OF TRANSFER RNA-DERIVED SMALL RNAS (TSRNAS) CAN TRANSMIT THE EFFECTS OF PATERNAL OBESITY TO OFFSPRING. OBESITY IS CLOSELY ASSOCIATED WITH LOW-GRADE CHRONIC INFLAMMATION. THUS, WE EVALUATED WHETHER THE ANTI-INFLAMMATORY AGENT 5-AMINOSALICYLIC ACID (5-ASA) COULD INTERVENE IN THE TRANSMISSION OF EPIGENETIC INHERITANCE OF PATERNAL OBESITY BY REDUCING THE INFLAMMATORY STATE IN OBESE FATHERS. METHODS: MALE C57BL/6JBOMTAC MICE WERE EITHER FED A HIGH-FAT DIET OR A HIGH-FAT DIET WITH 5-ASA FOR TEN WEEKS BEFORE MATING. THE OFFSPRING METABOLIC PHENOTYPE WAS EVALUATED, AND SPERMATOZOA FROM SIRES WERE ISOLATED FOR ASSESSMENT OF SPECIFIC TSRNAS LEVELS. RESULTS: 5-ASA INTERVENTION REDUCED THE LEVELS OF GLU-CTC TSRNAS IN SPERM CELLS AND IMPROVED GLUCOSE TOLERANCE IN FEMALE OFFSPRING FED A CHOW DIET. PATERNAL HIGH-FAT DIET-INDUCED OBESITY PER SE HAD ONLY A MODERATE IMPACT ON THE METABOLIC PHENOTYPE OF BOTH MALE AND FEMALE OFFSPRING IN OUR SETTING. CONCLUSION: THE RESULTS INDICATE THAT THE LOW-GRADE INFLAMMATORY RESPONSE ASSOCIATED WITH OBESITY MAY BE AN IMPORTANT FACTOR IN EPIGENETIC INHERITANCE OF PATERNAL OBESITY.	2023	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
14 6137  31 THE EPIGENETICS OF PSYCHOSIS: A STRUCTURED REVIEW WITH REPRESENTATIVE LOCI. THE EVIDENCE FOR AN ENVIRONMENTAL COMPONENT IN CHRONIC PSYCHOTIC DISORDERS IS STRONG AND RESEARCH ON THE EPIGENETIC MANIFESTATIONS OF THESE ENVIRONMENTAL IMPACTS HAS COMMENCED IN EARNEST. IN REVIEWING THIS RESEARCH, THE FOCUS IS ON THREE GENES AS MODELS FOR DIFFERENTIAL METHYLATION, MCHR1, AKT1 AND TDO2, EACH OF WHICH HAVE BEEN INVESTIGATED FOR GENETIC ASSOCIATION WITH PSYCHOTIC DISORDERS. ENVIRONMENTAL FACTORS ASSOCIATED WITH PSYCHOTIC DISORDERS, AND WHICH INTERACT WITH THESE MODEL GENES, ARE EXPLORED IN DEPTH. THE LOCATION OF TRANSCRIPTION FACTOR MOTIFS RELATIVE TO KEY METHYLATION SITES IS EVALUATED FOR PREDICTED GENE EXPRESSION RESULTS, AND FOR OTHER SITES, EVIDENCE IS PRESENTED FOR METHYLATION DIRECTING ALTERNATIVE SPLICING. EXPERIMENTAL RESULTS FROM KEY STUDIES SHOW DIFFERENTIAL METHYLATION: FOR MCHR1, IN PSYCHOSIS CASES VERSUS CONTROLS; FOR AKT1, AS A PRE-EXISTING METHYLATION PATTERN INFLUENCING BRAIN ACTIVATION FOLLOWING ACUTE ADMINISTRATION OF A PSYCHOSIS-ELICITING ENVIRONMENTAL STIMULUS; AND FOR TDO2, IN A PATTERN ASSOCIATED WITH A DEVELOPMENTAL FACTOR OF RISK FOR PSYCHOSIS, IN ALL CASES THE PREDICTED EXPRESSION IMPACT BEING HIGHLY DEPENDENT ON LOCATION. METHYLATION INDUCED BY SMOKING, A CONFOUNDING VARIABLE, EXHIBITS AN INTRIGUING PATTERN FOR ALL THREE GENES. FINALLY, HOW DIFFERENTIAL METHYLATION MESHES WITH DARWINIAN PRINCIPLES IS EXAMINED, IN PARTICULAR AS IT RELATES TO THE "FLEXIBLE STEM" THEORY OF EVOLUTION.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                        
15 1749  33 EARLY LIFE INTERVENTIONS CAN SHAPE AGING. IT IS WELL DOCUMENTED THAT THE ENVIRONMENT OF THE DEVELOPING FETUS, INCLUDING AVAILABILITY OF NUTRIENTS AND PRESENCE OF TOXINS, CAN HAVE MAJOR IMPACT ON ADULT PHENOTYPE, AGE-RELATED TRAITS AND RISK OF CHRONIC DISEASE. THERE IS ALSO ACCUMULATING EVIDENCE THAT POSTNATAL ENVIRONMENT CAN IMPACT ADULT CHARACTERISTICS RELATED TO EVOLUTIONARY FITNESS, HEALTH, AND AGING. TO DETERMINE WHETHER EARLY LIFE HORMONAL INTERVENTIONS CAN ALTER TRAJECTORY OF AGING, WE HAVE EXAMINED THE EFFECTS OF EARLY LIFE GROWTH HORMONE (GH) REPLACEMENT THERAPY IN PROP1(DF) (AMES DWARF) MICE WHICH ARE GH DEFICIENT AND REMARKABLY LONG LIVED. TWICE-DAILY GH INJECTIONS BETWEEN THE AGES OF TWO AND EIGHT WEEKS COMPLETELY NORMALIZED ("RESCUED") A NUMBER OF ADULT METABOLIC CHARACTERISTICS BELIEVED TO CONTRIBUTE TO EXTENDED LONGEVITY OF THESE MUTANTS. IMPORTANTLY, LONGEVITY OF AMES DWARF MICE WAS REDUCED BY EARLY LIFE GH TREATMENT. THIS WAS ASSOCIATED WITH HISTONE H3 MODIFICATIONS. WE CONCLUDE THAT THE TRAJECTORY OF MAMMALIAN AGING CAN BE MODIFIED BY EARLY LIFE INTERVENTIONS. MECHANISTIC LINKS AMONG INTERVENTIONS DURING POSTNATAL DEVELOPMENT, ADULT METABOLIC CHARACTERISTICS, AGING, AND LONGEVITY, APPARENTLY INVOLVE EPIGENETIC PHENOMENA.	2022	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                
16 4999  32 PERINATAL PROGRAMMING OF CIRCADIAN CLOCK-STRESS CROSSTALK. AN INTACT COMMUNICATION BETWEEN CIRCADIAN CLOCKS AND THE STRESS SYSTEM IS IMPORTANT FOR MAINTAINING PHYSIOLOGICAL HOMEOSTASIS UNDER RESTING CONDITIONS AND IN RESPONSE TO EXTERNAL STIMULI. THERE IS ACCUMULATING EVIDENCE FOR A RECIPROCAL INTERACTION BETWEEN BOTH-FROM THE SYSTEMIC TO THE MOLECULAR LEVEL. DISRUPTION OF THIS INTERACTION BY EXTERNAL FACTORS SUCH AS SHIFTWORK, JETLAG, OR CHRONIC STRESS INCREASES THE RISK OF DEVELOPING METABOLIC, IMMUNE, OR MOOD DISORDERS. FROM EXPERIMENTS IN RODENTS, WE KNOW THAT BOTH SYSTEMS MATURATE DURING THE PERINATAL PERIOD. DURING THAT TIME, EXOGENOUS FACTORS SUCH AS STRESS OR ALTERATIONS IN THE EXTERNAL PHOTOPERIOD MAY CRITICALLY AFFECT-OR PROGRAM-PHYSIOLOGICAL FUNCTIONS LATER IN LIFE. THIS DEVELOPMENTAL PROGRAMMING PROCESS HAS BEEN ATTRIBUTED TO MATERNAL STRESS SIGNALS REACHING THE EMBRYO, WHICH LASTINGLY CHANGE GENE EXPRESSION THROUGH THE INDUCTION OF EPIGENETIC MECHANISMS. DESPITE THE WELL-KNOWN FUNCTION OF THE ADULT CIRCADIAN SYSTEM IN TEMPORAL COORDINATION OF PHYSIOLOGY AND BEHAVIOR, THE ROLE OF MATERNAL AND EMBRYONIC CIRCADIAN CLOCKS DURING PREGNANCY AND POSTNATAL DEVELOPMENT IS STILL POORLY DEFINED. A BETTER UNDERSTANDING OF THE CIRCADIAN-STRESS CROSSTALK AT DIFFERENT PERIODS OF DEVELOPMENT MAY HELP TO IMPROVE STRESS RESISTANCE AND DEVISE PREVENTIVE AND THERAPEUTIC STRATEGIES AGAINST CHRONIC STRESS-ASSOCIATED DISORDERS.	2018	
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                        
17 4875  41 OVEREXPRESSION OF AKT1 ENHANCES ADIPOGENESIS AND LEADS TO LIPOMA FORMATION IN ZEBRAFISH. BACKGROUND: OBESITY IS A COMPLEX, MULTIFACTORIAL DISORDER INFLUENCED BY THE INTERACTION OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS. OBESITY INCREASES THE RISK OF CONTRACTING MANY CHRONIC DISEASES OR METABOLIC SYNDROME. RESEARCHERS HAVE ESTABLISHED SEVERAL MAMMALIAN MODELS OF OBESITY TO STUDY ITS UNDERLYING MECHANISM. HOWEVER, A LOWER VERTEBRATE MODEL FOR CONVENIENTLY PERFORMING DRUG SCREENING AGAINST OBESITY REMAINS ELUSIVE. THE SPECIFIC AIM OF THIS STUDY WAS TO CREATE A ZEBRAFISH OBESITY MODEL BY OVER EXPRESSING THE INSULIN SIGNALING HUB OF THE AKT1 GENE. METHODOLOGY/PRINCIPAL FINDINGS: SKIN ONCOGENIC TRANSFORMATION SCREENING SHOWS THAT A STABLE ZEBRAFISH TRANSGENIC OF TG(KRT4HSA.MYRAKT1)(CY18) DISPLAYS SEVERELY OBESE PHENOTYPES AT THE ADULT STAGE. IN TG(KRT4:HSA.MYRAKT1)(CY18), THE EXPRESSION OF EXOGENOUS HUMAN CONSTITUTIVELY ACTIVE AKT1 (MYRAKT1) CAN ACTIVATE ENDOGENOUS DOWNSTREAM TARGETS OF MTOR, GSK-3ALPHA/BETA, AND 70S6K. DURING THE EMBRYONIC TO LARVAL TRANSITORY PHASE, THE SPECIFIC OVER EXPRESSION OF MYRAKT1 IN SKIN CAN PROMOTE HYPERTROPHIC AND HYPERPLASTIC GROWTH. FROM 21 HOUR POST-FERTILIZATION (HPF) ONWARDS, MYRAKT1 TRANSGENE WAS ECTOPICALLY EXPRESSED IN SEVERAL MESENCHYMAL DERIVED TISSUES. THIS MAY BE THE RESULT OF THE INTEGRATION POSITION EFFECT. TG(KRT4:HSA.MYRAKT1)(CY18) CAUSED A RAPID INCREASE OF BODY WEIGHT, HYPERPLASTIC GROWTH OF ADIPOCYTES, ABNORMAL ACCUMULATION OF FAT TISSUES, AND BLOOD GLUCOSE INTOLERANCE AT THE ADULT STAGE. REAL-TIME RT-PCR ANALYSIS SHOWED THE MAJORITY OF KEY GENES ON REGULATING ADIPOGENESIS, ADIPOCYTOKINE, AND INFLAMMATION ARE HIGHLY UPREGULATED IN TG(KRT4:HSA.MYRAKT1)(CY18). IN CONTRAST, THE MYOGENESIS- AND SKELETOGENESIS-RELATED GENE TRANSCRIPTS ARE SIGNIFICANTLY DOWNREGULATED IN TG(KRT4:HSA.MYRAKT1)(CY18), SUGGESTING THAT EXCESS ADIPOCYTE DIFFERENTIATION OCCURS AT THE EXPENSE OF OTHER MESENCHYMAL DERIVED TISSUES. CONCLUSION/SIGNIFICANCE: COLLECTIVELY, THE FINDINGS OF THIS STUDY PROVIDE DIRECT EVIDENCE THAT AKT1 SIGNALING PLAYS AN IMPORTANT ROLE IN BALANCING NORMAL LEVELS OF FAT TISSUE IN VIVO. THE OBESE ZEBRAFISH EXAMINED IN THIS STUDY COULD BE A NEW POWERFUL MODEL TO SCREEN NOVEL DRUGS FOR THE TREATMENT OF HUMAN OBESITY.	2012	

18 5205  45 PRENATAL STRESS CHANGES THE GLYCOPROTEIN GPM6A GENE EXPRESSION AND INDUCES EPIGENETIC CHANGES IN RAT OFFSPRING BRAIN. PRENATAL STRESS (PS) EXERTS STRONG IMPACT ON FETAL BRAIN DEVELOPMENT AND ON ADULT OFFSPRING BRAIN FUNCTIONS. PREVIOUS WORK DEMONSTRATED THAT CHRONIC STRESS ALTERS THE MRNA EXPRESSION OF GPM6A, A NEURONAL GLYCOPROTEIN INVOLVED IN FILOPODIUM EXTENSION. IN THIS WORK, WE ANALYZED THE EFFECT OF PS ON GPM6A EXPRESSION AND THE EPIGENETIC MECHANISMS INVOLVED. PREGNANT WISTAR RATS RECEIVED RESTRAINT STRESS DURING THE LAST WEEK OF GESTATION. MALE OFFSPRING WERE SACRIFICED ON POSTNATAL DAYS 28 AND 60. HIPPOCAMPUS AND PREFRONTAL CORTEX SAMPLES WERE ANALYZED FOR GENE EXPRESSION (QPCR FOR MRNAS AND MICRORNAS), METHYLATION STATUS (BISULFITE CONVERSION) AND PROTEIN LEVELS. HIPPOCAMPAL NEURONS IN CULTURE WERE USED TO ANALYZE MICRORNA OVEREXPRESSION EFFECTS. PRENATAL STRESS INDUCED CHANGES IN GPM6A LEVELS IN BOTH TISSUES AND AT BOTH AGES ANALYZED, INDICATING A PERSISTENT EFFECT. TWO CPG ISLANDS IN THE GPM6A GENE WERE IDENTIFIED. VARIATIONS IN THE METHYLATION PATTERN AT THREE SPECIFIC CPGS WERE FOUND IN HIPPOCAMPUS, BUT NOT IN PFC SAMPLES FROM PS OFFSPRING. MICRORNAS PREDICTED TO TARGET GPM6A WERE IDENTIFIED IN SILICO. QPCR MEASUREMENTS SHOWED THAT PS MODIFIED THE EXPRESSION OF SEVERAL MICRORNAS IN BOTH TISSUES, BEING MICRORNA-133B THE MOST SIGNIFICANTLY ALTERED. FURTHER STUDIES OVEREXPRESSING THIS MICRORNA IN NEURONAL CULTURES SHOWED A REDUCTION IN GMP6A MRNA AND PROTEIN LEVEL. MOREOVER FILOPODIUM DENSITY WAS ALSO REDUCED, SUGGESTING THAT GPM6A FUNCTION WAS AFFECTED. GESTATIONAL STRESS AFFECTED GPM6A GENE EXPRESSION IN OFFSPRING LIKELY THROUGH CHANGES IN METHYLATION STATUS AND IN POSTTRANSCRIPTIONAL REGULATION BY MICRORNAS. THUS, OUR FINDINGS PROPOSE GPM6A AS A NOVEL TARGET FOR EPIGENETIC REGULATION DURING PRENATAL STRESS.	2014	
                                                                                                                                                                                                                                                                                                                                                                                                                                                             
19 2597  39 EPIGENETICS OF SUBCELLULAR STRUCTURE FUNCTIONING IN THE ORIGIN OF RISK OR RESILIENCE TO COMORBIDITY OF NEUROPSYCHIATRIC AND CARDIOMETABOLIC DISORDERS. MECHANISMS CONTROLLING MITOCHONDRIAL FUNCTION, PROTEIN FOLDING IN THE ENDOPLASMIC RETICULUM (ER) AND NUCLEAR PROCESSES SUCH AS TELOMERE LENGTH AND DNA REPAIR MAY BE SUBJECT TO EPIGENETIC CUES THAT RELATE THE GENOMIC EXPRESSION AND ENVIRONMENTAL EXPOSURES IN EARLY STAGES OF LIFE. THEY MAY ALSO BE INVOLVED IN THE COMORBID APPEARANCE OF CARDIOMETABOLIC (CMD) AND NEUROPSYCHIATRIC DISORDERS (NPD) DURING ADULTHOOD. MITOCHONDRIAL FUNCTION AND PROTEIN FOLDING IN THE ENDOPLASMIC RETICULUM ARE ASSOCIATED WITH OXIDATIVE STRESS AND ELEVATED INTRACELLULAR CALCIUM LEVELS AND MAY ALSO UNDERLIE THE VULNERABILITY FOR COMORBID CMD AND NPD. MITOCHONDRIA PROVIDE KEY METABOLITES SUCH AS NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD+), ATP, ALPHA-KETOGLUTARATE AND ACETYL COENZYME A THAT ARE REQUIRED FOR MANY TRANSCRIPTIONAL AND EPIGENETIC PROCESSES. THEY ARE ALSO A SOURCE OF FREE RADICALS. ON THE OTHER HAND, EPIGENETIC MARKERS IN NUCLEAR DNA DETERMINE MITOCHONDRIAL BIOGENESIS. THE ER IS THE SUBCELLULAR ORGANELLE IN WHICH SECRETORY PROTEINS ARE FOLDED. MANY ENVIRONMENTAL FACTORS STOP THE ABILITY OF CELLS TO PROPERLY FOLD PROTEINS AND MODIFY POST-TRANSLATIONALLY SECRETORY AND TRANSMEMBRANE PROTEINS LEADING TO ENDOPLASMIC RETICULUM STRESS AND OXIDATIVE STRESS. ER FUNCTIONING MAY BE EPIGENETICALLY DETERMINED. CHRONIC ER STRESS IS EMERGING AS A KEY CONTRIBUTOR TO A GROWING LIST OF HUMAN DISEASES, INCLUDING CMD AND NPD. TELOMERE LOSS CAUSES CHROMOSOMAL FUSION, ACTIVATION OF THE CONTROL OF DNA DAMAGE-RESPONSES, UNSTABLE GENOME AND ALTERED STEM CELL FUNCTION, WHICH MAY UNDERLIE THE COMORBIDITY OF CMD AND NPD. THE LENGTH OF TELOMERES IS RELATED TO OXIDATIVE STRESS AND MAY BE EPIGENETICALLY PROGRAMMED. PATHWAYS INVOLVED IN DNA REPAIR MAY BE EPIGENETICALLY PROGRAMMED AND MAY CONTRIBUTE TO DISEASES. IN THIS PAPER, WE DESCRIBE SUBCELLULAR MECHANISMS THAT ARE DETERMINED BY EPIGENETIC MARKERS AND THEIR POSSIBLE RELATION TO THE DEVELOPMENT OF INCREASED SUSCEPTIBILITY TO DEVELOP CMD AND NPD.	2018	
                                                                                                                                                                      
20  195  29 ACF CHROMATIN-REMODELING COMPLEX MEDIATES STRESS-INDUCED DEPRESSIVE-LIKE BEHAVIOR. IMPROVED TREATMENT FOR MAJOR DEPRESSIVE DISORDER (MDD) REMAINS ELUSIVE BECAUSE OF THE LIMITED UNDERSTANDING OF ITS UNDERLYING BIOLOGICAL MECHANISMS. IT IS LIKELY THAT STRESS-INDUCED MALADAPTIVE TRANSCRIPTIONAL REGULATION IN LIMBIC NEURAL CIRCUITS CONTRIBUTES TO THE DEVELOPMENT OF MDD, POSSIBLY THROUGH EPIGENETIC FACTORS THAT REGULATE CHROMATIN STRUCTURE. WE ESTABLISH THAT PERSISTENT UPREGULATION OF THE ACF (ATP-UTILIZING CHROMATIN ASSEMBLY AND REMODELING FACTOR) ATP-DEPENDENT CHROMATIN-REMODELING COMPLEX, OCCURRING IN THE NUCLEUS ACCUMBENS OF STRESS-SUSCEPTIBLE MICE AND DEPRESSED HUMANS, IS NECESSARY FOR STRESS-INDUCED DEPRESSIVE-LIKE BEHAVIORS. WE FOUND THAT ALTERED ACF BINDING AFTER CHRONIC STRESS WAS CORRELATED WITH ALTERED NUCLEOSOME POSITIONING, PARTICULARLY AROUND THE TRANSCRIPTION START SITES OF AFFECTED GENES. THESE ALTERATIONS IN ACF BINDING AND NUCLEOSOME POSITIONING WERE ASSOCIATED WITH REPRESSED EXPRESSION OF GENES IMPLICATED IN SUSCEPTIBILITY TO STRESS. TOGETHER, OUR FINDINGS IDENTIFY THE ACF CHROMATIN-REMODELING COMPLEX AS A CRITICAL COMPONENT IN THE DEVELOPMENT OF SUSCEPTIBILITY TO DEPRESSION AND IN REGULATING STRESS-RELATED BEHAVIORS.	2015