1 244 168 ADOLESCENT IDIOPATHIC SCOLIOSIS (AIS), ENVIRONMENT, EXPOSOME AND EPIGENETICS: A MOLECULAR PERSPECTIVE OF POSTNATAL NORMAL SPINAL GROWTH AND THE ETIOPATHOGENESIS OF AIS WITH CONSIDERATION OF A NETWORK APPROACH AND POSSIBLE IMPLICATIONS FOR MEDICAL THERAPY. GENETIC FACTORS ARE BELIEVED TO PLAY AN IMPORTANT ROLE IN THE ETIOLOGY OF ADOLESCENT IDIOPATHIC SCOLIOSIS (AIS). DISCORDANT FINDINGS FOR MONOZYGOTIC (MZ) TWINS WITH AIS SHOW THAT ENVIRONMENTAL FACTORS INCLUDING DIFFERENT INTRAUTERINE ENVIRONMENTS ARE IMPORTANT IN ETIOLOGY, BUT WHAT THESE ENVIRONMENTAL FACTORS MAY BE IS UNKNOWN. RECENT EVIDENCE FOR COMMON CHRONIC NON-COMMUNICABLE DISEASES SUGGESTS EPIGENETIC DIFFERENCES MAY UNDERLIE MZ TWIN DISCORDANCE, AND BE THE LINK BETWEEN ENVIRONMENTAL FACTORS AND PHENOTYPIC DIFFERENCES. DNA METHYLATION IS ONE IMPORTANT EPIGENETIC MECHANISM OPERATING AT THE INTERFACE BETWEEN GENOME AND ENVIRONMENT TO REGULATE PHENOTYPIC PLASTICITY WITH A COMPLEX REGULATION ACROSS THE GENOME DURING THE FIRST DECADE OF LIFE. THE WORD EXPOSOME REFERS TO THE TOTALITY OF ENVIRONMENTAL EXPOSURES FROM CONCEPTION ONWARDS, COMPRISING FACTORS IN EXTERNAL AND INTERNAL ENVIRONMENTS. THE WORD EXPOSOME IS USED HERE ALSO IN RELATION TO PHYSIOLOGIC AND ETIOPATHOGENETIC FACTORS THAT AFFECT NORMAL SPINAL GROWTH AND MAY INDUCE THE DEFORMITY OF AIS. IN NORMAL POSTNATAL SPINAL GROWTH WE PROPOSE A NEW TERM AND CONCEPT, PHYSIOLOGIC GROWTH-PLATE EXPOSOME FOR THE NORMAL PROCESSES PARTICULARLY OF THE INTERNAL ENVIRONMENTS THAT MAY HAVE EPIGENETIC EFFECTS ON GROWTH PLATES OF VERTEBRAE. IN AIS, WE PROPOSE A NEW TERM AND CONCEPT PATHOPHYSIOLOGIC SCOLIOGENIC EXPOSOME FOR THE ABNORMAL PROCESSES IN MOLECULAR PATHWAYS PARTICULARLY OF THE INTERNAL ENVIRONMENT CURRENTLY EXPRESSED AS ETIOPATHOGENETIC HYPOTHESES; THESE ARE SUGGESTED TO HAVE DEFORMING EFFECTS ON THE GROWTH PLATES OF VERTEBRAE AT CELL, TISSUE, STRUCTURE AND/OR ORGAN LEVELS THAT ARE CONSIDERED TO BE EPIGENETIC. NEW RESEARCH IS REQUIRED FOR CHROMATIN MODIFICATIONS INCLUDING DNA METHYLATION IN AIS SUBJECTS AND VERTEBRAL GROWTH PLATES EXCISED AT SURGERY. IN ADDITION, CONSIDERATION IS NEEDED FOR A POSSIBLE NETWORK APPROACH TO ETIOPATHOGENESIS BY CONSTRUCTING AIS DISEASOMES. THESE APPROACHES MAY LEAD THROUGH SCREENING, GENETIC, EPIGENETIC, BIOCHEMICAL, METABOLIC PHENOTYPES AND PHARMACOGENOMIC RESEARCH TO IDENTIFY SUSCEPTIBLE INDIVIDUALS AT RISK AND MODULATE ABNORMAL MOLECULAR PATHWAYS OF AIS. THE POTENTIAL OF EPIGENETIC-BASED MEDICAL THERAPY FOR AIS CANNOT BE ASSESSED AT PRESENT, AND MUST AWAIT NEW RESEARCH DERIVED FROM THE EVALUATION OF EPIGENETIC CONCEPTS OF SPINAL GROWTH IN HEALTH AND DEFORMITY. THE TENETS OUTLINED HERE FOR AIS ARE APPLICABLE TO OTHER MUSCULOSKELETAL GROWTH DISORDERS INCLUDING INFANTILE AND JUVENILE IDIOPATHIC SCOLIOSIS. 2011 2 2484 41 EPIGENETIC, TRANSCRIPTIONAL AND PHENOTYPIC RESPONSES IN TWO GENERATIONS OF DAPHNIA MAGNA EXPOSED TO THE DNA METHYLATION INHIBITOR 5-AZACYTIDINE. THE WATER FLEA DAPHNIA MAGNA IS A KEYSTONE SPECIES IN FRESHWATER ECOSYSTEMS AND HAS BEEN WIDELY USED AS A MODEL ORGANISM IN ENVIRONMENTAL ECOTOXICOLOGY. THIS AQUATIC CRUSTACEAN IS SENSITIVE TO ENVIRONMENTAL STRESSORS AND DISPLAYS CONSIDERABLE PLASTICITY IN ADAPTING TO CHANGING ENVIRONMENTAL CONDITIONS. PART OF THIS PLASTICITY MAY BE DUE TO EPIGENETIC REGULATION OF GENE EXPRESSION, INCLUDING CHANGES TO DNA METHYLATION AND HISTONE MODIFICATIONS. BECAUSE OF THE GENERALLY HYPOMETHYLATED GENOME OF THIS SPECIES, WE HYPOTHESIZED THAT THE HISTONE CODE MAY HAVE AN ESSENTIAL ROLE IN THE EPIGENETIC CONTROL AND THAT HISTONE MODIFICATIONS MIGHT BE AN EARLY MARKER FOR STRESS. THIS STUDY AIMS TO CHARACTERIZE THE EPIGENETIC, TRANSCRIPTIONAL AND PHENOTYPIC RESPONSES AND THEIR CAUSAL LINKAGES IN DIRECTLY EXPOSED ADULT (F0) DAPHNIA AND PERITONEAL EXPOSED NEONATES (F1) AFTER A CHRONIC (7-DAY) EXPOSURE TO A SUBLETHAL CONCENTRATION (10 MG/L) OF 5-AZACYTIDINE, A WELL-STUDIED VERTEBRATE DNA METHYLATION INHIBITOR. EXPOSURE OF THE F0 GENERATION SIGNIFICANTLY REDUCED THE CUMULATIVE FECUNDITY, ACCOMPANIED WITH DIFFERENTIAL EXPRESSION OF GENES IN THE ONE-CARBON-CYCLE METABOLIC PATHWAY. IN THE EPIGENOME OF THE F0 GENERATION, A DECREASE IN GLOBAL DNA METHYLATION, BUT NO SIGNIFICANT CHANGES ON H3K4ME3 OR H3K27ME3, WERE OBSERVED. IN THE F1 OFFSPRING GENERATION, CHANGES IN GENE EXPRESSION, A SIGNIFICANT REDUCTION IN GLOBAL DNA METHYLATION AND CHANGES IN HISTONE MODIFICATIONS WERE IDENTIFIED. THE RESULTS INDICATE THAT EXPOSURE DURING ADULTHOOD MAY RESULT IN MORE PRONOUNCED EFFECTS ON EARLY DEVELOPMENT IN THE OFFSPRING GENERATION, THOUGH INTERPRETATION OF THE DATA SHOULD BE CAREFULLY DONE SINCE BOTH THE EXPOSURE REGIME AND DEVELOPMENTAL PERIOD IS DIFFERENT IN THE TWO GENERATIONS EXAMINED. THE OBTAINED RESULTS IMPROVE OUR UNDERSTANDING OF CRUSTACEAN EPIGENETICS AND THE TOOLS DEVELOPED MAY PROMOTE USE OF EPIGENETIC MARKERS IN HAZARD ASSESSMENT OF ENVIRONMENTAL STRESSORS. 2019 3 6078 32 THE EFFECT OF CHRONIC ARSENIC EXPOSURE IN ZEBRAFISH. ARSENIC IS A PREVALENT ENVIRONMENTAL TOXIN AND A GROUP ONE HUMAN CARCINOGENIC AGENT. CHRONIC ARSENIC EXPOSURE HAS BEEN ASSOCIATED WITH MANY HUMAN DISEASES. THE AIM OF THIS STUDY IS TO EVALUATE ZEBRAFISH AS AN ANIMAL MODEL TO ASSESS ARSENIC TOXICITY IN ELEVATED LONG-TERM ARSENIC EXPOSURE. WITH PROLONGED EXPOSURE (6 MONTHS) TO VARIOUS CONCENTRATIONS OF ARSENIC FROM 50 PPB TO 300 PPB, EFFECTS OF ARSENIC ACCUMULATION IN ZEBRAFISH TISSUES, AND PHENOTYPES WERE INVESTIGATED. RESULTS SHOWED THAT THERE ARE NO SIGNIFICANT CHANGES OF ARSENIC RETENTION IN ZEBRAFISH TISSUES, AND ZEBRAFISH DID NOT EXHIBIT ANY VISIBLE TUMOR FORMATION UNDER ARSENIC EXPOSURE CONDITIONS. HOWEVER, THE ZEBRAFISH DEMONSTRATE A DYSFUNCTION IN THEIR NEUROLOGICAL SYSTEM, WHICH IS REFLECTED BY A REDUCTION OF LOCOMOTIVE ACTIVITY. MOREOVER, ELEVATED LEVELS OF THE SUPEROXIDE DISMUTASE (SOD2) PROTEIN WERE DETECTED IN THE EYE AND LIVER, SUGGESTING INCREASED OXIDATIVE STRESS. IN ADDITION, THE PROGENIES OF ARSENIC-TREATED PARENTS DISPLAYED A SMALLER BIOMASS (FOUR-FOLD REDUCTION IN BODY WEIGHT) COMPARED WITH THOSE FROM THEIR PARENTAL CONTROLS. THIS RESULT INDICATES THAT ARSENIC MAY INDUCE GENETIC OR EPIGENETIC CHANGES THAT ARE THEN PASSED ON TO THE NEXT GENERATION. OVERALL, THIS STUDY DEMONSTRATES THAT ZEBRAFISH IS A CONVENIENT VERTEBRATE MODEL WITH ADVANTAGES IN THE EVALUATION OF ARSENIC-ASSOCIATED NEUROLOGICAL DISORDERS AS WELL AS ITS INFLUENCES ON THE OFFSPRING. 2016 4 1106 38 COMBINED TOXICITY OF ENDOCRINE-DISRUPTING CHEMICALS: A REVIEW. THE COMBINED TOXICOLOGICAL ASSESSMENT PROVIDES A REALISTIC APPROACH FOR HAZARD EVALUATION OF CHEMICAL COCKTAILS THAT CO-EXISTED IN THE ENVIRONMENT. THIS REVIEW PROVIDES A HOLISTIC INSIGHT INTO THE STUDIES HIGHLIGHTING THE MIXTURE TOXICITY OF THE ENDOCRINE-DISRUPTING CHEMICALS (EDCS), ESPECIALLY FOCUSING ON THE SCREENING OF BIOCHEMICAL PATHWAYS AND OTHER TOXICOGENETIC ENDPOINTS. REVIEWED LITERATURE SHOWED THAT NUMEROUS MULTIPLEXED TOXICOGENOMIC TECHNIQUES WERE APPLIED TO DETERMINE REPRODUCTIVE EFFECTS IN VERTEBRATES, BUT LIMITED STUDIES WERE FOUND IN NON-MAMMALIAN SPECIES AFTER MIXTURE CHEMICAL EXPOSURE. FURTHER, WE FOUND THAT THE EXPERIMENTAL DESIGN AND CONCENTRATION SELECTION ARE THE TWO IMPORTANT PARAMETERS IN MIXTURE TOXICITY STUDIES THAT SHOULD BE TIME- AND COST-EFFECTIVE, HIGHLY PRECISE, AND ENVIRONMENTALLY RELEVANT. A SUMMARY OF EDC MIXTURES AFFECTING THE THYROID AXIS, ESTROGEN AXIS, ANDROGEN AXIS, GROWTH STRESS, AND IMMUNE SYSTEM VIA IN VIVO BIOASSAYS WAS ALSO PRESENTED. IT IS INTERESTING TO MENTION THAT MAJORITY OF ESTROGENIC EFFECTS OF THE MIXTURES WERE SEX-DEPENDENT, PARTICULARLY OBSERVED IN MALE FISH AS COMPARED TO FEMALE FISH. FURTHER, THE ANDROGEN AXIS WAS PERTURBED WITH SERIOUS MALFORMATIONS IN MALE RAT TESTIS (EPIDIDYMAL OR GUBERNACULAR LESIONS, AND DECIDUOUS SPERMATIDS). ALSO, TRANSGENERATIONAL EPIGENETIC EFFECTS WERE PROMOTED IN THE F(3) AND F(4) GENERATIONS IN THE FORM OF DNA METHYLATION EPIMUTATIONS IN SPERM, INCREASING POLYCYSTIC OVARIES AND REDUCING THE OFFSPRING. SIMILARLY, INCREASED OXIDATIVE STRESS, HIGH ANTIOXIDANT ENZYMATIC ACTIVITIES, DISTURBED ESTROUS CYCLE, AND DECREASED STEROIDOGENESIS WERE THE COMMONLY FOUND EFFECTS AFTER ACUTE OR CHRONIC EXPOSURE TO EDC MIXTURES. IMPORTANTLY, THE CONCENTRATION ADDITION (CA) AND INDEPENDENT ACTION (IA) MODELS BECAME MORE PREVALENT AND SUITABLE PREDICTIVE MODELS TO UNVEIL THE PROMINENCE OF SYNERGISTIC ESTROGENIC AND ANTI-ANDROGENIC EFFECTS OF CHEMICAL MIXTURES. MORE IMPORTANTLY, THIS REVIEW ENCOMPASSES THE RESEARCH CHALLENGES AND GAPS IN THE EXISTING KNOWLEDGE AND SPECIFIC FUTURE RESEARCH PERSPECTIVES ON COMBINED TOXICITY. 2021 5 4924 26 PARENTAL HYPOXIC EXPOSURE CONFERS OFFSPRING HYPOXIA RESISTANCE IN ZEBRAFISH (DANIO RERIO). PARENTAL INFLUENCES ARE A POTENTIALLY IMPORTANT COMPONENT OF TRANSGENERATIONAL TRANSFER OF PHENOTYPE IN VERTEBRATES. THIS STUDY EXAMINED HOW CHRONIC HYPOXIC EXPOSURE ON ADULT ZEBRAFISH (DANIO RERIO) AFFECTED THE PHENOTYPE OF THEIR OFFSPRING. SEPARATE ADULT POPULATIONS WERE EXPOSED TO HYPOXIA (13.1 KPA O(2)) OR NORMOXIA (21.1 KPA O(2)) FOR PERIODS RANGING FROM 1 TO 12 WEEKS. ADULTS WERE THEN RETURNED TO NORMOXIA AND BRED WITHIN EXPERIMENTAL GROUPS. ADULT FECUNDITY AND EGG CHARACTERISTICS (VOLUME OF EGG, YOLK AND PERIVITELLINE FLUID) WERE ASSESSED. SUBSEQUENTLY, LARVAL BODY LENGTH, TIME TO LOSS OF EQUILIBRIUM IN SEVERE HYPOXIA (~4 KPA O(2)), AND CRITICAL THERMAL MINIMA (CT(MIN)) AND MAXIMA (CT(MAX)) WERE MEASURED AT 6, 9, 12, 15, 18, 21 AND 60 DAYS POST-FERTILIZATION (D.P.F.). ADULT FECUNDITY WAS DEPRESSED BY HYPOXIC EXPOSURE. EGG COMPONENT VOLUMES WERE ALSO DEPRESSED IN ADULTS EXPOSED TO 1-2 WEEKS OF HYPOXIA, BUT RETURNED TO CONTROL LEVELS FOLLOWING LONGER HYPOXIC EXPOSURE. ADULT HYPOXIC EXPOSURES OF >1 WEEK RESULTED IN LONGER BODY LENGTHS IN THEIR LARVAL OFFSPRING. TIME TO LOSS OF EQUILIBRIUM IN SEVERE HYPOXIA (I.E. HYPOXIC RESISTANCE) IN CONTROL LARVAE DECREASED FROM 6 TO 12 D.P.F., REMAINING CONSTANT THEREAFTER. NOTABLY, HYPOXIC RESISTANCE FROM 6 TO 18 D.P.F. WAS ~15% LOWER IN LARVAE WHOSE PARENTS WERE EXPOSED TO JUST 1 WEEK OF CHRONIC HYPOXIA, BUT RESISTANCE WAS SIGNIFICANTLY INCREASED BY ~24-30% IN 6-18 D.P.F. LARVAE FROM ADULTS EXPOSED TO 2, 3 OR 4 WEEKS OF HYPOXIA. CT(MIN) (~10-12 DEGREES C) AND CT(MAX) (~39.5 DEGREES C) WERE UNCHANGED BY PARENTAL HYPOXIC EXPOSURE. THIS STUDY DEMONSTRATES THAT PARENTAL HYPOXIC EXPOSURE IN ADULT ZEBRAFISH HAS PROFOUND EPIGENETIC EFFECTS ON THE MORPHOLOGICAL AND PHYSIOLOGICAL PHENOTYPE OF THEIR OFFSPRING. 2012 6 4937 40 PATERNAL MORPHINE EXPOSURE IN RATS REDUCES SOCIAL PLAY IN ADOLESCENT MALE PROGENY WITHOUT AFFECTING DRUG-TAKING BEHAVIOR IN JUVENILE MALES OR FEMALE OFFSPRING. THE ONGOING OPIOID ADDICTION CRISIS NECESSITATES THE IDENTIFICATION OF NOVEL RISK FACTORS TO IMPROVE PREVENTION AND TREATMENT OF OPIOID USE DISORDER. PARENTAL OPIOID EXPOSURE HAS RECENTLY EMERGED AS A POTENTIAL REGULATOR OF OFFSPRING VULNERABILITY TO OPIOID MISUSE, IN ADDITION TO HERITABLE GENETIC LIABILITY. AN UNDERSTUDIED ASPECT OF THIS "MISSING HERITABILITY" IS THE DEVELOPMENTAL PRESENTATION OF THESE CROSS-GENERATIONAL PHENOTYPES. THIS IS AN ESPECIALLY RELEVANT QUESTION IN THE CONTEXT OF INHERITED ADDICTION-RELATED PHENOTYPES, GIVEN THE PROMINENT ROLE OF DEVELOPMENTAL PROCESSES IN THE ETIOLOGY OF PSYCHIATRIC DISORDERS. PATERNAL MORPHINE SELF-ADMINISTRATION WAS PREVIOUSLY SHOWN TO ALTER THE SENSITIVITY TO THE REINFORCING AND ANTINOCICEPTIVE PROPERTIES OF OPIOIDS IN THE NEXT GENERATION. HERE, PHENOTYPING WAS EXPANDED TO INCLUDE THE ADOLESCENT PERIOD, WITH A FOCUS ON ENDOPHENOTYPES RELATED TO OPIOID USE DISORDERS AND PAIN. PATERNAL MORPHINE EXPOSURE DID NOT ALTER HEROIN OR COCAINE SELF-ADMINISTRATION IN MALE AND FEMALE JUVENILE PROGENY. FURTHER, BASELINE SENSORY REFLEXES RELATED TO PAIN WERE UNALTERED IN MORPHINE-SIRED ADOLESCENT RATS OF EITHER SEX. HOWEVER, MORPHINE-SIRED ADOLESCENT MALES EXHIBITED A REDUCTION IN SOCIAL PLAY BEHAVIOR. OUR FINDINGS SUGGEST THAT, IN MORPHINE-SIRED MALE OFFSPRING, PATERNAL OPIOID EXPOSURE DOES NOT AFFECT OPIOID INTAKE DURING ADOLESCENCE, SUGGESTING THAT THIS PHENOTYPE DOES NOT EMERGE UNTIL LATER IN LIFE. ALTERED SOCIAL BEHAVIORS IN MALE MORPHINE-SIRED ADOLESCENTS INDICATE THAT THE CHANGES IN DRUG-TAKING BEHAVIOR IN ADULTS SIRED BY MORPHINE-EXPOSED SIRES MAY BE DUE TO MORE COMPLEX FACTORS NOT YET FULLY ASSESSED. 2023 7 6528 32 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 8 5450 35 REPRODUCTIVE TOXICITY OF COMBINED EFFECTS OF ENDOCRINE DISRUPTORS ON HUMAN REPRODUCTION. CONFLUENCE OF ENVIRONMENTAL, GENETIC, AND LIFESTYLE VARIABLES IS RESPONSIBLE FOR DETERIORATION OF HUMAN FECUNDITY. ENDOCRINE DISRUPTORS OR ENDOCRINE DISRUPTING CHEMICALS (EDCS) MAY BE FOUND IN A VARIETY OF FOODS, WATER, AIR, BEVERAGES, AND TOBACCO SMOKE. IT HAS BEEN DEMONSTRATED IN EXPERIMENTAL INVESTIGATIONS THAT A WIDE RANGE OF ENDOCRINE DISRUPTING CHEMICALS HAVE NEGATIVE EFFECTS ON HUMAN REPRODUCTIVE FUNCTION. HOWEVER, EVIDENCE ON THE REPRODUCTIVE CONSEQUENCES OF HUMAN EXPOSURE TO ENDOCRINE DISRUPTING CHEMICALS IS SPARSE AND/OR CONFLICTING IN THE SCIENTIFIC LITERATURE. THE COMBINED TOXICOLOGICAL ASSESSMENT IS A PRACTICAL METHOD FOR ASSESSING THE HAZARDS OF COCKTAILS OF CHEMICALS, CO-EXISTING IN THE ENVIRONMENT. THE CURRENT REVIEW PROVIDES A COMPREHENSIVE OVERVIEW OF STUDIES EMPHASIZING THE COMBINED TOXICITY OF ENDOCRINE DISRUPTING CHEMICALS ON HUMAN REPRODUCTION. ENDOCRINE DISRUPTING CHEMICALS INTERACT WITH EACH OTHER TO DISRUPT THE DIFFERENT ENDOCRINE AXES, RESULTING IN SEVERE GONADAL DYSFUNCTIONS. TRANSGENERATIONAL EPIGENETIC EFFECTS HAVE ALSO BEEN INDUCED IN GERM CELLS, MOSTLY THROUGH DNA METHYLATION AND EPIMUTATIONS. SIMILARLY, AFTER ACUTE OR CHRONIC EXPOSURE TO ENDOCRINE DISRUPTING CHEMICALS COMBINATIONS, INCREASED OXIDATIVE STRESS (OS), ELEVATED ANTIOXIDANT ENZYMATIC ACTIVITY, DISRUPTED REPRODUCTIVE CYCLE, AND REDUCED STEROIDOGENESIS ARE OFTEN REPORTED CONSEQUENCES. THE ARTICLE ALSO DISCUSSES THE CONCENTRATION ADDITION (CA) AND INDEPENDENT ACTION (IA) PREDICTION MODELS, WHICH REVEAL THE IMPORTANCE OF VARIOUS SYNERGISTIC ACTIONS OF ENDOCRINE DISRUPTING CHEMICALS MIXTURES. MORE CRUCIALLY, THIS EVIDENCE-BASED STUDY ADDRESSES THE RESEARCH LIMITATIONS AND INFORMATION GAPS, AS WELL AS PARTICULARLY PRESENTS THE FUTURE RESEARCH VIEWS ON COMBINED ENDOCRINE DISRUPTING CHEMICALS TOXICITY ON HUMAN REPRODUCTION. 2023 9 4939 28 PATERNAL NICOTINE EXPOSURE IN RATS PRODUCES LONG-LASTING NEUROBEHAVIORAL EFFECTS IN THE OFFSPRING. STUDIES OF INTERGENERATIONAL EFFECTS OF PARENTAL CHEMICAL EXPOSURE HAVE PRINCIPALLY FOCUSED ON MATERNAL EXPOSURE, PARTICULARLY FOR STUDIES OF ADVERSE NEUROBEHAVIORAL CONSEQUENCES ON THE OFFSPRING. MATERNAL NICOTINE EXPOSURE HAS LONG BEEN KNOWN TO CAUSE ADVERSE NEUROBEHAVIORAL EFFECTS ON THE OFFSPRING. HOWEVER, PATERNAL TOXICANT EXPOSURE HAS ALSO BEEN FOUND TO CAUSE NEUROBEHAVIORAL TOXICITY IN THEIR OFFSPRING. RECENT WORK SUGGESTS THAT PATERNAL NICOTINE EXPOSURE CAN HAVE EPIGENETIC EFFECTS, ALTHOUGH IT REMAINS UNCLEAR WHETHER SUCH CHANGES LEAD TO NEUROBEHAVIORAL EFFECTS. IN THE CURRENT STUDY, WE INVESTIGATED THE EFFECTS OF PATERNAL NICOTINE EXPOSURE ON NEUROBEHAVIORAL DEVELOPMENT OF THEIR OFFSPRING. MALE SPRAGUE-DAWLEY RATS WERE EXPOSED TO 0 OR 2 MG/KG/DAY NICOTINE (SC) FOR 56 CONSECUTIVE DAYS WITH TWO CONSECUTIVE 2ML4 OSMOTIC MINIPUMPS. FOLLOWING TREATMENT, THESE MALES WERE MATED WITH DRUG-NAIVE FEMALE RATS. OFFSPRING OF BOTH SEXES WERE TESTED IN A BEHAVIORAL BATTERY TO ASSESS LOCOMOTION, EMOTIONAL FUNCTION AND COGNITION. PATERNAL NICOTINE EXPOSURE DID NOT IMPACT OFFSPRING VIABILITY, HEALTH OR GROWTH. HOWEVER, BEHAVIORAL FUNCTION OF THE OFFSPRING WAS SIGNIFICANTLY ALTERED BY PATERNAL NICOTINE EXPOSURE. MALE OFFSPRING WITH PATERNAL NICOTINE EXPOSURE EXHIBITED LOCOMOTOR HYPERACTIVITY IN THE FIGURE-8 APPARATUS WHEN TESTED DURING ADOLESCENCE. WHEN RETESTED IN ADULTHOOD AND REGARDLESS OF SEX, OFFSPRING OF THE NICOTINE EXPOSED FATHER SHOWED SIGNIFICANTLY REDUCED HABITUATION OF LOCOMOTOR ACTIVITY OVER THE COURSE OF THE SESSION. COMPARED TO CONTROLS, FEMALE OFFSPRING OF NICOTINE-EXPOSED FATHERS SHOWED SIGNIFICANTLY REDUCED RESPONSE LATENCY IN THE RADIAL ARM MAZE TEST. IN ADDITION TO LOCOMOTOR HYPERACTIVITY, THE OFFSPRING OF NICOTINE-EXPOSED FATHERS ALSO SHOWED SIGNIFICANTLY DIMINISHED HABITUATION IN THE NOVEL OBJECT RECOGNITION TEST. THESE RESULTS INDICATE THAT CHRONIC PATERNAL NICOTINE EXPOSURE CAN IMPACT THE BEHAVIOR OF OFFSPRING, PRODUCING LOCOMOTOR HYPERACTIVITY AND IMPAIRED HABITUATION. 2019 10 3119 38 GESTATIONAL EXPOSURE TO PARTICULATE AIR POLLUTION EXACERBATES THE GROWTH PHENOTYPES INDUCED BY PRECONCEPTION PATERNAL ALCOHOL USE: A MULTIPLEX MODEL OF EXPOSURE. IT IS NOW CLEAR THAT PARENTAL HISTORIES OF DRUG USE, TOXICANT EXPOSURE, AND SOCIAL STRESS ALL HAVE A SIGNIFICANT INFLUENCE ON THE HEALTH AND DEVELOPMENT OF THE NEXT GENERATION. HOWEVER, THE ABILITY OF EPIGENETIC PARENTAL LIFE MEMORIES TO INTERACT WITH SUBSEQUENT GESTATIONAL EXPOSURES AND CUMULATIVELY MODIFY THE DEVELOPMENTAL TRAJECTORY OF THE OFFSPRING REMAINS AN UNEXPLORED PERSPECTIVE IN TOXICOLOGY. STUDIES FROM OUR LABORATORY HAVE IDENTIFIED MALE-SPECIFIC POSTNATAL GROWTH RESTRICTION IN A MOUSE MODEL OF CHRONIC, PRECONCEPTION PATERNAL ALCOHOL EXPOSURE. THE GOAL OF THE CURRENT STUDY WAS TO DETERMINE IF PATERNAL ALCOHOL USE, BEFORE CONCEPTION, COULD MODIFY THE SUSCEPTIBILITY OF THE OFFSPRING TO A COMPLETELY SEPARATE EXPOSURE ENCOUNTERED BY THE MOTHER DURING PREGNANCY. IN INDEPENDENT EXPERIMENTS, WE PREVIOUSLY IDENTIFIED ALTERED DEVELOPMENTAL PROGRAMMING AND INCREASED MARKERS OF SEVERE ASTHMA INDUCED BY GESTATIONAL EXPOSURE TO PARTICULATE AIR POLLUTION. IN THIS STUDY, MALE MICE WERE EXPOSED TO EITHER THE CONTROL OR ALCOHOL PRECONCEPTION TREATMENTS, THEN MATED TO NAIVE FEMALES, WHICH WE SUBSEQUENTLY EXPOSED TO AN ULTRAFINE MIXTURE OF PARTICULATE MATTER VIA INHALATION. INDIVIDUALLY, NEITHER PRECONCEPTION PATERNAL DRINKING NOR GESTATIONAL EXPOSURES TO PARTICULATE AIR POLLUTION IMPACTED THE POSTNATAL GROWTH OF FEMALE OFFSPRING. HOWEVER, WHEN BOTH EXPOSURES WERE COMBINED, FEMALES DISPLAYED A 30% REDUCTION IN WEIGHT GAIN. UNEXPECTEDLY, THIS EXPOSURE PARADIGM RESULTED IN A DRAMATIC POSTNATAL INCREASE IN LITTER LOSS DUE TO MATERNAL CANNIBALISM, WHICH PREVENTED ADDITIONAL MEASURES OF OFFSPRING HEALTH. THESE PRELIMINARY STUDIES PROVIDE EVIDENCE OF A COMPLEX INTERPLAY BETWEEN PRECONCEPTION LIFE HISTORY AND INTRAUTERINE ENVIRONMENTAL FACTORS IN THE CONTROL OF POSTNATAL GROWTH. 2020 11 800 32 CELLULAR, MOLECULAR, AND EPIGENETIC MECHANISMS IN NON-ASSOCIATIVE CONDITIONING: IMPLICATIONS FOR PAIN AND MEMORY. SENSITIZATION IS A FORM OF NON-ASSOCIATIVE CONDITIONING IN WHICH AMPLIFICATION OF BEHAVIORAL RESPONSES CAN OCCUR FOLLOWING PRESENTATION OF AN AVERSIVE OR NOXIOUS STIMULUS. UNDERSTANDING THE CELLULAR AND MOLECULAR UNDERPINNINGS OF SENSITIZATION HAS BEEN AN OVERARCHING THEME SPANNING THE FIELD OF LEARNING AND MEMORY AS WELL AS THAT OF PAIN RESEARCH. IN THIS REVIEW WE EXAMINE HOW SENSITIZATION, BOTH IN THE CONTEXT OF LEARNING AS WELL AS PAIN PROCESSING, SHARES EVOLUTIONARILY CONSERVED BEHAVIORAL, CELLULAR/SYNAPTIC, AND EPIGENETIC MECHANISMS ACROSS PHYLA. FIRST, WE CHARACTERIZE THE BEHAVIORAL PHENOMENON OF SENSITIZATION BOTH IN INVERTEBRATES AND VERTEBRATES. PARTICULAR EMPHASIS IS PLACED ON LONG-TERM SENSITIZATION (LTS) OF WITHDRAWAL REFLEXES IN APLYSIA FOLLOWING AVERSIVE STIMULATION OR INJURY, ALTHOUGH ADDITIONAL INVERTEBRATE MODELS ARE ALSO COVERED. IN THE CONTEXT OF VERTEBRATES, SENSITIZATION OF MAMMALIAN HYPERAROUSAL IN A MODEL OF POST-TRAUMATIC STRESS DISORDER (PTSD), AS WELL AS MAMMALIAN MODELS OF INFLAMMATORY AND NEUROPATHIC PAIN IS CHARACTERIZED. SECOND, WE INVESTIGATE THE CELLULAR AND SYNAPTIC MECHANISMS UNDERLYING THESE BEHAVIORS. WE FOCUS OUR DISCUSSION ON SEROTONIN-MEDIATED LONG-TERM FACILITATION (LTF) AND AXOTOMY-MEDIATED LONG-TERM HYPEREXCITABILITY (LTH) IN REDUCED APLYSIA SYSTEMS, AS WELL AS MAMMALIAN SPINAL PLASTICITY MECHANISMS OF CENTRAL SENSITIZATION. THIRD, WE EXPLORE RECENT EVIDENCE IMPLICATING EPIGENETIC MECHANISMS IN LEARNING- AND PAIN-RELATED SENSITIZATION. THIS REVIEW ILLUSTRATES THE FUNDAMENTAL AND FUNCTIONAL OVERLAY OF THE LEARNING AND MEMORY FIELD WITH THE PAIN FIELD WHICH ARGUES FOR HOMOLOGOUS PERSISTENT PLASTICITY MECHANISMS IN RESPONSE TO SENSITIZING STIMULI OR INJURY ACROSS PHYLA. 2013 12 6559 27 TRANSGENERATIONAL INFLUENCE OF PARENTAL MORPHINE EXPOSURE ON PAIN PERCEPTION, ANXIETY-LIKE BEHAVIOR AND PASSIVE AVOIDANCE MEMORY AMONG MALE AND FEMALE OFFSPRING OF WISTAR RATS. ACCUMULATING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS PLAY AN IMPORTANT ROLE IN THE FORMATION AND MAINTENANCE OF MEMORY WITHIN THE BRAIN. MOREOVER, THE EFFECT OF PARENTAL DRUG-EXPOSURE BEFORE GESTATION ON BEHAVIORAL STATE OF OFFSPRING HAS BEEN LITTLE STUDIED. THE MAIN OBJECTIVE OF THE CURRENT STUDY IS TO EVALUATE THE EFFECT OF PARENTAL MORPHINE EXPOSURE ON AVOIDANCE MEMORY, MORPHINE PREFERENCE AND ANXIETY-LIKE BEHAVIOR OF OFFSPRING. THE TOTAL OF 32 MALES AND 32 FEMALES WERE USED FOR MATING. THE ANIMALS WERE TREATED WITH MORPHINE. THE OFFSPRING ACCORDING TO THEIR PARENTAL MORPHINE TREATMENT WAS DIVIDED INTO FOUR GROUPS (N=16) INCLUDING PATERNALLY TREATED, MATERNALLY TREATED, BOTH OF PARENTS TREATED AND NAIVE ANIMALS. THE PAIN PERCEPTION, ANXIETY-LIKE BEHAVIOR, AND AVOIDANCE MEMORY WERE EVALUATED IN THE OFFSPRING. IN THE CURRENT STUDY, THE TOTAL OF 256 OFFSPRING WAS USED FOR THE EXPERIMENTS (4 TASKS X 4 GROUPS OF OFFSPRING X 8 FEMALE OFFSPRING X 8 MALE OFFSPRING). THE FINDING REVEALED THAT THE AVOIDANCE MEMORY AND VISCERAL PAIN WERE REDUCED SIGNIFICANTLY IN MALE AND FEMALE OFFSPRING WITH AT LEAST ONE MORPHINE-TREATED PARENT. MOREOVER, ANXIETY-LIKE BEHAVIOR WAS REDUCED SIGNIFICANTLY IN THE MALE OFFSPRING WITH AT LEAST ONE MORPHINE-TREATED PARENT. WHILE ANXIETY-LIKE BEHAVIOR WAS INCREASED SIGNIFICANTLY IN FEMALE OFFSPRING THAT WERE TREATED BY MORPHINE EITHER MATERNALLY OR BOTH OF PARENTS. THE DATA REVEALED THAT THE ENDOGENOUS OPIOID SYSTEM MAY BE ALTERED IN THE OFFSPRING OF MORPHINE-TREATED PARENT(S), AND EPIGENETIC ROLE COULD BE IMPORTANT. HOWEVER, ANALYSIS OF VARIANCE SIGNIFIED THE IMPORTANT ROLE OF MATERNAL INHERITANCE. 2019 13 6477 29 TOLUENE IMPAIRS LEARNING AND MEMORY, HAS ANTINOCICEPTIVE EFFECTS, AND MODIFIES HISTONE ACETYLATION IN THE DENTATE GYRUS OF ADOLESCENT AND ADULT RATS. TOLUENE MISUSE USUALLY INITIATES AT AN EARLY AGE WHEN THE CENTRAL NERVOUS SYSTEM IS STILL IMMATURE, CAUSING DELETERIOUS EFFECTS SUCH AS COGNITIVE IMPAIRMENT. EPIGENETIC REGULATORY MECHANISMS HAVE BEEN PROPOSED TO EXPLAIN LONG-TERM CHANGES INVOLVED NOT ONLY IN MEMORY, BUT ALSO IN TOLUENE'S ACTIONS. THE AIM OF THIS STUDY WAS TO EVALUATE THE EFFECTS OF ACUTE AND CHRONIC TOLUENE EXPOSURE ON LEARNING, MEMORY AND HISTONE ACETYLATION IN THE RAT HIPPOCAMPUS DURING TWO STAGES OF LIFE: ADOLESCENCE AND YOUNG ADULTHOOD. BECAUSE THE MEMORY TESTS USED IN THIS WORK INVOLVED OBJECT EXPLORATION AND THE PERCEPTION OF A NOXIOUS STIMULUS, GENERAL ACTIVITY AND NOCICEPTION TESTS WERE ALSO CONDUCTED. ACUTE AND CHRONIC TOLUENE INHALATION IMPAIRED LEARNING, SHORT-TERM AND LONG-TERM MEMORY IN AN OBJECT-RECOGNITION TEST AND IN AN INHIBITORY AVOIDANCE TASK IN BOTH GROUPS OF AGE. THIS EFFECT WAS CONCENTRATION-DEPENDENT AND OCCURRED EVEN AT LOW TOLUENE CONCENTRATIONS (1000, 2000 PPM) THAT WERE OTHERWISE NON-EFFECTIVE. ACUTE TOLUENE INHALATION PRODUCED ANTINOCICEPTION, AND TOLERANCE TO THIS EFFECT DEVELOPED AFTER CHRONIC EXPOSURE. HISTONE ACETYLATION IN THE DENTATE GYRUS SHOWED DIFFERENCES DEPENDING ON THE HISTONE, TREATMENT AND AGE: A SINGLE TOLUENE EXPOSURE INCREASED H4 ACETYLATION IN ADOLESCENTS AND YOUNG ADULT RATS, WHEREAS CHRONIC EXPOSURE DECREASED H3 ACETYLATION, BUT ONLY IN ADULTS. IN CONCLUSION, THIS WORK PROVIDES EVIDENCE OF TOLUENE-INDUCED IMPAIRMENT ON LEARNING, SHORT- AND LONG-TERM MEMORY IN ADOLESCENT AND YOUNG ADULT RATS, AND SHOWS THAT EVEN A SINGLE TOLUENE EXPOSURE CAN INDUCE EPIGENETIC MODIFICATIONS IN THE RAT HIPPOCAMPUS. 2012 14 586 29 BEHAVIOURAL AND EPIGENETIC EFFECTS OF PATERNAL EXPOSURE TO CANNABINOIDS DURING ADOLESCENCE ON OFFSPRING VULNERABILITY TO STRESS. CHRONIC CANNABINOID EXPOSURE DURING ADOLESCENCE IN MALE RATS INDUCES CHRONIC COGNITIVE AND EMOTIONAL IMPAIRMENTS. HOWEVER, THE IMPACT OF THIS FORM OF EXPOSURE ON OFFSPRING VULNERABILITY TO STRESS IS UNKNOWN. THE AIM OF THIS STUDY WAS TO EVALUATE THE BEHAVIOURAL AND EPIGENETIC EFFECTS OF STRESS IN THE OFFSPRING OF MALE RATS WHOSE FATHERS WERE EXPOSED TO CANNABINOIDS DURING ADOLESCENCE. MALE ADOLESCENT OFFSPRING OF WIN55,212-2 (1.2 MG/KG) TREATED RATS WERE EXPOSED DURING ONE WEEK TO VARIABLE STRESSORS AND SUBJECTED TO BEHAVIOURAL TESTS OF ANXIETY AND EPISODIC-LIKE MEMORY, FOLLOWED BY AN ASSESSMENT OF GLOBAL DNA METHYLATION AND EXPRESSION OF DNA METHYLTRANSFERASES ENZYMES DNMT1 AND DNMT3A MRNA IN THE PREFRONTAL CORTEX. STRESS EXPOSURE INDUCED A SIGNIFICANT ANXIOGENIC-LIKE EFFECT BUT DID NOT AFFECT THE EPISODIC-LIKE MEMORY IN THE OFFSPRING OF WIN55,212-2 EXPOSED FATHERS IN COMPARISON TO THE OFFSPRING OF NON-EXPOSED FATHERS. THESE BEHAVIOURAL CHANGES WERE SUBSEQUENT TO A SIGNIFICANT INCREASE IN GLOBAL DNA METHYLATION AND DNMT1 AND DNMTA3 TRANSCRIPTION IN THE PREFRONTAL CORTEX. THESE DATA SUGGEST THAT THE DELETERIOUS EFFECT OF CHRONIC EXPOSURE TO CANNABINOIDS DURING ADOLESCENCE ARE NOT LIMITED TO THE EXPOSED INDIVIDUALS BUT MAY INCREASE THE VULNERABILITY TO STRESS-INDUCED ANXIETY IN THE OFFSPRING AND ALTER THEIR EPIGENETIC PROGRAMMING. 2019 15 6553 36 TRANSGENERATIONAL EFFECTS IN DNA METHYLATION, GENOTOXICITY AND REPRODUCTIVE PHENOTYPE BY CHRONIC ARSENIC EXPOSURE. AN EMERGING CONCERN IS THE INFLUENCES OF EARLY LIFE EXPOSURE TO ENVIRONMENTAL TOXICANTS ON OFFSPRING CHARACTERISTICS IN LATER LIFE. SINCE RECENT EVIDENCE SUGGESTS A TRANSGENERATIONAL TRANSFERENCE OF ABERRANT PHENOTYPES FROM EXPOSED-PARENTS TO NON-EXPOSED OFFSPRING RELATED TO ADULT-ONSET DISEASES INCLUDING REPRODUCTIVE PHENOTYPE. THE TRANSGENERATIONAL POTENTIAL OF ARSENIC A WELL KNOW GENOTOXIC AND EPIGENETIC MODIFIER AGENT HAS NOT BEEN ASSESSED IN MAMMALS UNTIL NOW. IN THIS EXPERIMENTAL STUDY, WE EVALUATED THE TRANSGENERATIONAL EFFECTS OF ARSENIC IN A RAT MODEL WITH CHRONIC EXPOSURE TO ARSENIC. RATS CHRONICALLY EXPOSED TO ARSENIC IN DRINKING WATER (1 MG AS(2)O(3)/ML) (F0) WERE MATED TO PRODUCE THE ARSENIC LINEAGE (F1, F2, AND F3). THE ARSENIC TOXIC EFFECTS ON WERE EVALUATED OVER THE FOUR GENERATIONS BY ANALYZING THE DNA METHYLATION PERCENTAGE, GENOTOXICITY IN WBC AND PHYSICAL AND REPRODUCTIVE PARAMETERS, INCLUDING SPERM QUALITY PARAMETERS AND HISTOPATHOLOGICAL EVALUATION OF THE GONADS. CHRONIC EXPOSURE TO ARSENIC CAUSED GENOTOXIC DAMAGE (F0-F3) DIFFERENT METHYLATION PATTERNS, ALTERATIONS IN PHYSICAL AND REPRODUCTIVE PARAMETERS, ABERRANT MORPHOLOGY IN THE OVARIES (F0 AND F1) AND TESTICLES (F1-F3), AND A DECREASE IN THE QUALITY OF SPERM (F0-F3, EXCEPT F2). PARENTAL CHRONIC ARSENIC EXPOSURE CAUSES TRANSGENERATIONAL GENOTOXICITY AND CHANGES IN GLOBAL DNA METHYLATION WHICH MIGHT BE ASSOCIATED WITH REPRODUCTIVE DEFECTS IN RATS. COMBINED WITH RECENT STUDIES REVEAL THAT DISTURBANCES IN THE EARLY LIFE OF AN INDIVIDUAL CAN AFFECT THE HEALTH OF LATER GENERATIONS. 2021 16 73 33 A MULTI-GENERATIONAL STUDY ON LOW-DOSE BPA EXPOSURE IN WISTAR RATS: EFFECTS ON MATERNAL BEHAVIOR, FLAVOR INTAKE AND DEVELOPMENT. BISPHENOL A (BPA) IS A COMMON ENDOCRINE DISRUPTOR FOUND AS AN ENVIRONMENTAL AND FOOD CONTAMINANT. IT EXERTS BOTH DEVELOPMENTAL AND BEHAVIORAL EFFECTS, MAINLY WHEN EXPOSURE OCCURS IN EARLY LIFE. THE AIM OF THIS STUDY WAS TO DETERMINE THE MULTI-GENERATIONAL EFFECTS OF CHRONIC, HUMAN-RELEVANT LOW-DOSE EXPOSURE TO BPA ON DEVELOPMENT, MATERNAL BEHAVIOR AND FLAVOR PREFERENCE IN WISTAR RATS. BPA WAS ORALLY ADMINISTERED AT A DAILY DOSE OF 5 MUG/KG BODY WEIGHT TO F0 PREGNANT DAMS FROM THE FIRST DAY OF GESTATION (GD 1) UNTIL THE LAST DAY OF LACTATION (LD 21), AND THEN TO F1 OFFSPRING FROM WEANING (PND 21) TO ADULTHOOD (PND 100). F2 OFFSPRING WERE NOT EXPOSED. DEVELOPMENT AND CLINICAL SIGNS OF TOXICITY WERE ASSESSED DAILY. MATERNAL BEHAVIOR WAS EVALUATED BY OBSERVING NURSING AND PUP-CARING ACTIONS, AS WELL AS "NON-MATERNAL" BEHAVIORS IN F0 AND F1 DAMS FROM PARTURITION UNTIL LD 8. THE FLAVOR PREFERENCES OF F1 AND F2 OFFSPRING WERE EVALUATED BASED ON THE INTAKE OF SWEET, SALT AND FAT SOLUTIONS USING THE TWO-BOTTLE CHOICE TEST ON PND 21-34 AND PND 86-99. BPA EXPOSURE: 1) DECREASED MATERNAL BEHAVIOR IN F1 DAMS, 2) CAUSED DEVELOPMENTAL DEFECTS IN BOTH F1 AND F2 OFFSPRING, WITH A NOTICEABLE DECREASE IN ANOGENITAL DISTANCE IN MALE RATS, AND 3) DID NOT AFFECT FLAVORED SOLUTION INTAKE IN F1, BUT INDUCED CHANGES IN SWEET PREFERENCE IN F2 JUVENILES AND IN SALT AND FAT SOLUTION INTAKES IN F2 ADULTS, AND 4) INDUCED A BODY WEIGHT INCREASE IN THE F2 GENERATION ONLY, WHEREAS FOOD INTAKE AND WATER CONSUMPTION DID NOT CHANGE. TAKEN AS A WHOLE, OUR FINDINGS SHOWED THAT BOTH GESTATIONAL (F0) AND LIFELONG (F1) EXPOSURES TO A HUMAN-RELEVANT DOSE OF BPA COULD INDUCE MULTI-GENERATIONAL EFFECTS ON BOTH DEVELOPMENT AND BEHAVIOR. THESE RESULTS SUGGEST POSSIBLE SELECTIVE NEUROENDOCRINE DEFECTS AND/OR EPIGENETIC CHANGES CAUSED BY BPA EXPOSURE. 2014 17 4932 30 PATERNAL ALCOHOL EXPOSURES PROGRAM INTERGENERATIONAL HORMETIC EFFECTS ON OFFSPRING FETOPLACENTAL GROWTH. HORMESIS REFERS TO GRADED ADAPTIVE RESPONSES TO HARMFUL ENVIRONMENTAL STIMULI WHERE LOW-LEVEL TOXICANT EXPOSURES STIMULATE TISSUE GROWTH AND RESPONSIVENESS WHILE, IN CONTRAST, HIGHER-LEVEL EXPOSURES INDUCE TOXICITY. ALTHOUGH THE INTERGENERATIONAL INHERITANCE OF PROGRAMMED HORMETIC GROWTH RESPONSES IS DESCRIBED IN PLANTS AND INSECTS, RESEARCHERS HAVE YET TO OBSERVE THIS PHENOMENON IN MAMMALS. USING A PHYSIOLOGICALLY RELEVANT MOUSE MODEL, WE DEMONSTRATE THAT CHRONIC PRECONCEPTION PATERNAL ALCOHOL EXPOSURES PROGRAM NONLINEAR, DOSE-DEPENDENT CHANGES IN OFFSPRING FETOPLACENTAL GROWTH. OUR STUDIES IDENTIFY AN INVERSE J-SHAPED CURVE WITH A THRESHOLD OF 2.4 G/KG PER DAY; BELOW THIS THRESHOLD, PATERNAL ETHANOL EXPOSURES INDUCE PROGRAMMED INCREASES IN PLACENTAL GROWTH, WHILE DOSES EXCEEDING THIS POINT YIELD COMPARATIVE DECREASES IN PLACENTAL GROWTH. IN MALE OFFSPRING, HIGHER PATERNAL EXPOSURES INDUCE DOSE-DEPENDENT INCREASES IN THE PLACENTAL LABYRINTH LAYER BUT DO NOT IMPACT FETAL GROWTH. IN CONTRAST, THE PLACENTAL HYPERTROPHY INDUCED BY LOW-LEVEL PATERNAL ETHANOL EXPOSURES ASSOCIATE WITH INCREASED OFFSPRING CROWN-RUMP LENGTH, PARTICULARLY IN MALE OFFSPRING. FINALLY, ALTERATIONS IN PLACENTAL PHYSIOLOGY CORRELATE WITH DISRUPTIONS IN BOTH MITOCHONDRIAL-ENCODED AND IMPRINTED GENE EXPRESSION. UNDERSTANDING THE INFLUENCE OF ETHANOL ON THE PATERNALLY-INHERITED EPIGENETIC PROGRAM AND DOWNSTREAM HORMETIC RESPONSES IN OFFSPRING GROWTH MAY HELP EXPLAIN THE ENORMOUS VARIATION OBSERVED IN FETAL ALCOHOL SPECTRUM DISORDER (FASD) PHENOTYPES AND INCIDENCE. 2022 18 2698 34 EXAMINING MULTI- AND TRANSGENERATIONAL BEHAVIORAL AND MOLECULAR ALTERATIONS RESULTING FROM PARENTAL EXPOSURE TO AN ENVIRONMENTAL PCB AND PBDE MIXTURE. POLYCHLORINATED BIPHENYLS (PCBS) AND POLYBROMINATED DIPHENYL ETHERS (PBDES) ARE PERSISTENT ORGANIC POLLUTANTS EXTENSIVELY USED DURING THE 20(TH) CENTURY AND STILL PRESENT IN AQUATIC ENVIRONMENTS DESPITE THEIR BAN. EFFECTS OF EXPOSURE TO THESE COMPOUNDS OVER GENERATIONS ARE POORLY DOCUMENTED. THEREFORE, OUR AIMS WERE TO CHARACTERIZE BEHAVIORAL RESPONSES AND UNDERLYING MOLECULAR MECHANISMS IN ZEBRAFISH EXPOSED TO AN ENVIRONMENTALLY RELEVANT MIXTURE OF PCBS AND PBDES AS WELL AS IN FOUR UNEXPOSED OFFSPRING GENERATIONS. ZEBRAFISH (F0) WERE CHRONICALLY EXPOSED FROM THE FIRST MEAL ONWARD TO A DIET SPIKED WITH A MIXTURE CONTAINING 22 PCB AND 7 PBDE CONGENERS IN PROPORTIONS AND CONCENTRATIONS REFLECTING ENVIRONMENTAL SITUATIONS (SIGMAPCBS = 1991 AND SIGMAPBDES = 411 NG/G). FOUR OFFSPRING GENERATIONS (F1 TO F4) WERE OBTAINED FROM THIS F0 AND WERE NOT FURTHER EXPOSED. BEHAVIOR WAS ASSESSED AT BOTH LARVAL AND ADULT STAGES. MECHANISMS RELATED TO BEHAVIORAL DEFECTS (HABENULA MATURATION AND C-FOS TRANSCRIPTION) AND METHYLATION (DNMTS TRANSCRIPTION) WERE MONITORED IN LARVAE. EXPOSED ADULT F0 AS WELL AS F1 AND F3 ADULTS DISPLAYED NO BEHAVIORAL CHANGE WHILE F2 EXPRESSED ANXIETY-LIKE BEHAVIOR. LARVAL BEHAVIOR WAS ALSO DISRUPTED, I.E. HYPERACTIVE AFTER LIGHT TO DARK TRANSITION IN F1 OR HYPOACTIVE IN F2, F3 AND F4. BEHAVIORAL DISRUPTIONS MAY BE RELATED TO DEFECT IN HABENULA MATURATION (OBSERVED IN F1) AND CHANGE IN C-FOS TRANSCRIPTION (OBSERVED IN F1 AND F2). TRANSCRIPTION OF THE GENE ENCODING DNA METHYLTRANSFERASE (DNMT3BA) WAS ALSO MODIFIED IN ALL GENERATIONS. OUR RESULTS LEAD US TO HYPOTHESIZE THAT CHRONIC DIETARY EXPOSURE TO AN ENVIRONMENTALLY RELEVANT MIXTURE OF PCB AND PBDE TRIGGERS MULTIGENERATIONAL AND TRANSGENERATIONAL MOLECULAR AND BEHAVIORAL DISRUPTIONS IN A VERTEBRATE MODEL. 2019 19 4944 25 PATERNAL PRECONCEPTION ETHANOL EXPOSURE BLUNTS HYPOTHALAMIC-PITUITARY-ADRENAL AXIS RESPONSIVITY AND STRESS-INDUCED EXCESSIVE FLUID INTAKE IN MALE MICE. A GROWING NUMBER OF ENVIRONMENTAL INSULTS HAVE BEEN SHOWN TO INDUCE EPIGENETIC EFFECTS THAT PERSIST ACROSS GENERATIONS. FOR INSTANCE, PATERNAL PRECONCEPTION EXPOSURES TO ETHANOL OR STRESS HAVE INDEPENDENTLY BEEN SHOWN TO EXERT SUCH INTERGENERATIONAL EFFECTS. SINCE ETHANOL EXPOSURE IS A PHYSIOLOGICAL STRESSOR THAT ACTIVATES THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS, WE HYPOTHESIZED THAT PATERNAL ETHANOL EXPOSURE WOULD IMPACT STRESS RESPONSIVITY OF OFFSPRING. ADULT MALE MICE WERE EXPOSED TO CHRONIC INTERMITTENT VAPOR ETHANOL OR CONTROL CONDITIONS FOR 5 WEEKS BEFORE BEING MATED WITH ETHANOL-NAIVE FEMALES TO PRODUCE ETHANOL (E)- AND CONTROL (C)-SIRED OFFSPRING. ADULT MALE AND FEMALE OFFSPRING WERE TESTED FOR PLASMA CORTICOSTERONE (CORT) LEVELS FOLLOWING ACUTE RESTRAINT STRESS AND THE MALE OFFSPRING WERE FURTHER EXAMINED FOR STRESS-EVOKED 2-BOTTLE CHOICE ETHANOL-DRINKING. PATERNAL ETHANOL EXPOSURE BLUNTED PLASMA CORT LEVELS FOLLOWING ACUTE RESTRAINT STRESS SELECTIVELY IN MALE OFFSPRING; FEMALES WERE UNAFFECTED. IN A STRESS-EVOKED ETHANOL-DRINKING ASSAY, THERE WAS NO EFFECT OF STRESS ON ETHANOL CONSUMPTION. HOWEVER, C-SIRED MALES EXHIBITED INCREASED TOTAL FLUID INTAKE (POLYDIPSIA) IN RESPONSE TO STRESS WHILE E-SIRED MALES WERE RESISTANT TO THIS STRESS-INDUCED PHENOTYPE. TAKEN TOGETHER, THESE DATA SUGGEST THAT PATERNAL ETHANOL EXPOSURE IMPARTS STRESS HYPORESPONSIVITY TO MALE OFFSPRING. 2016 20 3973 38 LONG-TERM BEHAVIORAL AND NEUROENDOCRINE ALTERATIONS FOLLOWING CHRONIC SOCIAL STRESS IN MICE: IMPLICATIONS FOR STRESS-RELATED DISORDERS. THE PERIOD OF ADOLESCENCE IS CHARACTERIZED BY A HIGH VULNERABILITY TO STRESS AND TRAUMA, WHICH MIGHT RESULT IN LONG-LASTING CONSEQUENCES AND AN INCREASED RISK TO DEVELOP PSYCHIATRIC DISORDERS. USING A RECENTLY DEVELOPED MOUSE MODEL FOR CHRONIC SOCIAL STRESS DURING ADOLESCENCE, WE STUDIED PERSISTENT NEUROENDOCRINE AND BEHAVIORAL EFFECTS OF CHRONIC SOCIAL STRESS OBTAINED 12 MONTHS AFTER CESSATION OF THE STRESSOR. AS A REFERENCE, WE INVESTIGATED IMMEDIATE EFFECTS OF CHRONIC STRESS EXPOSURE OBTAINED AT THE END OF THE CHRONIC STRESS PERIOD. IMMEDIATELY AFTER THE 7 WEEK CHRONIC STRESS PERIOD STRESSED ANIMALS SHOW SIGNIFICANTLY INCREASED ADRENAL WEIGHTS, DECREASED THYMUS WEIGHT, INCREASED BASAL CORTICOSTERONE SECRETION AND A FLATTENED CIRCADIAN RHYTHM. FURTHERMORE, STRESSED ANIMALS DISPLAY AN INCREASED ANXIETY-LIKE BEHAVIOR IN THE ELEVATED PLUS MAZE AND THE NOVELTY-INDUCED SUPPRESSION OF FEEDING TEST. HIPPOCAMPAL MINERALOCORTICOID RECEPTOR (MR) AND THE GLUCOCORTICOID RECEPTOR (GR) MRNA LEVELS WERE SIGNIFICANTLY DECREASED. TO INVESTIGATE PERSISTENT CONSEQUENCES OF THIS EARLY STRESSFUL EXPERIENCE, THE SAME PARAMETERS WERE ASSESSED IN AGED MICE 12 MONTHS AFTER THE CESSATION OF THE STRESSOR. INTERESTINGLY, WE STILL FOUND DIFFERENCES BETWEEN FORMERLY STRESSED AND CONTROL MICE IN IMPORTANT STRESS-RELATED PARAMETERS. MR EXPRESSION LEVELS WERE SIGNIFICANTLY LOWER IN STRESSED ANIMALS, SUGGESTING LASTING, POSSIBLY EPIGENETIC ALTERATIONS IN GENE EXPRESSION REGULATION. FURTHERMORE, WE OBSERVED LONG-TERM BEHAVIORAL ALTERATIONS IN ANIMALS STRESSED DURING ADOLESCENCE. THUS, WE COULD DEMONSTRATE THAT CHRONIC STRESS EXPOSURE DURING A CRUCIAL DEVELOPMENTAL TIME PERIOD RESULTS IN LONG-TERM, PERSISTENT EFFECTS ON PHYSIOLOGICAL AND BEHAVIORAL PARAMETERS THROUGHOUT LIFE, WHICH MAY CONTRIBUTE TO AN ENHANCED VULNERABILITY TO STRESS-INDUCED DISEASES. 2008