1 4527 139 MULTIGENERATIONAL EFFECTS OF 4-METHYLBENZYLIDENE CAMPHOR (4-MBC) ON THE SURVIVAL, DEVELOPMENT AND REPRODUCTION OF THE MARINE COPEPOD TIGRIOPUS JAPONICUS. ONE OF THE MOST WIDELY USED ORGANIC UV FILTERS, 4-METHYLBENZYLIDENE CAMPHOR (4-MBC), IS PRESENT AT HIGH CONCENTRATIONS IN OFFSHORE WATERS. THE MARINE COPEPOD TIGRIOPUS JAPONICUS WAS EXPOSED TO DIFFERENT CONCENTRATIONS OF 4-MBC (I.E., 0, 0.5, 1, 5 AND 10MUGL(-1)) FOR 4 CONSECUTIVE GENERATIONS (F0-F3) TO EVALUATE THE IMPACT OF 4-MBC ON MARINE ECOSYSTEMS. THE RESULTS SHOWED THAT IN THE F0 GENERATION, 4-MBC CAUSED SIGNIFICANT LETHAL TOXICITY IN T. JAPONICAS AT CONCENTRATIONS OF 5 AND 10MUGL(-1) AND THE NAUPLII WERE MORE SENSITIVE TO 4-MBC TOXICITY THAN THE ADULTS. HOWEVER IN THE F1-F3 GENERATIONS, 4-MBC EXPOSURE DID NOT AFFECT THE SURVIVAL RATE. THE HATCHING RATE AND THE DEVELOPMENTAL DURATION FROM THE NAUPLII TO THE COPEPODITE (N-C) AND FROM THE NAUPLII TO ADULT (N-A) DECREASED SIGNIFICANTLY IN THE F1-F2 GENERATIONS AND IN THE F2-F3 GENERATIONS, RESPECTIVELY, EVEN AT THE LOWEST EXPOSURE CONCENTRATION (0.5MUGL(-1)). IN THE SUBSEQUENT TWO GENERATIONS (I.E., THE F4-F5 GENERATIONS) OF RECOVERY EXPOSURE IN CLEAN SEAWATER, THE GROWTH RATES OF THE ORIGINAL 4-MBC EXPOSURE GROUPS WERE STILL FASTER THAN THE CONTROL IN BOTH THE N-C AND N-A STAGES, SUGGESTING POSSIBLE TRANSGENERATIONAL GENETIC AND/OR EPIGENETIC CHANGES UPON CHRONIC 4-MBC EXPOSURE. THE EXPRESSION OF THE ECDYSONE RECEPTOR GENE WAS UP-REGULATED BY 4-MBC, WHICH WAS CONSISTENT WITH THE DECREASE OF THE N-C/N-A DURATION. IN ADDITION, 4-MBC MAY INDUCE OXIDATIVE STRESS AND TRIGGER APOPTOSIS IN T. JAPONICAS, RESULTING IN DEVELOPMENTAL, REPRODUCTIVE AND EVEN LETHAL TOXICITY. A PRELIMINARY RISK ASSESSMENT SUGGESTED THAT UNDER ENVIRONMENTALLY REALISTIC CONCENTRATIONS, 4-MBC HAD SIGNIFICANT POTENTIAL TO POSE A THREAT TO MARINE CRUSTACEANS AND MARINE ECOSYSTEMS. 2018 2 1816 33 EFFECTS OF CHRONIC EXPOSURE TO BENZOPHENONE AND DICLOFENAC ON DNA METHYLATION LEVELS AND REPRODUCTIVE SUCCESS IN A MARINE COPEPOD. THE UV-FILTER BENZOPHENONE AND THE ANTI-INFLAMMATORY DICLOFENAC ARE COMMONLY DETECTED IN THE ENVIRONMENT. THE AIM OF THIS STUDY WAS TO ASSESS THE MULTIGENERATIONAL EFFECTS OF CHRONIC EXPOSURE TO LOW CONCENTRATIONS OF THESE CHEMICALS ON TOXICITY AND DNA METHYLATION LEVELS IN THE COPEPOD GLADIOFERENS PECTINATUS. ACUTE TOXICITY TESTS WERE CONDUCTED TO DETERMINE THE SENSITIVITY OF G. PECTINATUS TO THE CHEMICALS. ALL CHEMICALS IMPACTED BREEDING, HATCHING AND EGG VIABILITY. DICLOFENAC (1 MG.L(-1)) REDUCED THE NUMBER OF EGGS PER GRAVID FEMALE. BENZOPHENONE (0.5 MG.L(-1)) DECREASED EGG HATCHING SUCCESS. EXPOSURE TO THE REFERENCE TOXICANT COPPER (0.02 MG.L(-1)) LED TO UNSUCCESSFUL HATCHING. EFFECTS ON DNA METHYLATION WAS ESTIMATED BY THE PERCENTAGE OF 5- METHYLCYTOSINE. THE TREATMENTS RESULTED IN STRONG DIFFERENCES IN DNA METHYLATION WITH INCREASED METHYLATION IN THE EXPOSED ANIMALS. THE TWO CHEMICALS IMPACTED BOTH EGG VIABILITY AND THE INDUCTION OF DIFFERENTIAL DNA METHYLATION, SUGGESTING POTENTIAL INTRA- AND TRANS-GENERATIONAL EVOLUTIONARY EFFECTS. 2018 3 4923 40 PARENTAL DIURON EXPOSURE CAUSES LOWER HATCHABILITY AND ABNORMAL OVARIAN DEVELOPMENT IN OFFSPRING OF MEDAKA (ORYZIAS MELASTIGMA). DIURON IS ONE OF THE MOST WIDELY USED HERBICIDES WORLDWIDE. IT HAS BEEN WIDELY DETECTED IN VARIOUS AQUATIC ENVIRONMENTS, ESPECIALLY IN MARINE ECOSYSTEMS. ALTHOUGH DIRECT EFFECTS OF DIURON EXPOSURE ON VARIOUS ORGANISMS HAVE BEEN REPORTED, LITTLE IS KNOWN ABOUT ITS EFFECTS ON MARINE FISHES INCLUDING MULTIGENERATIONAL EFFECTS. HEREIN, THE FILIAL GENERATION (F1) OF DIURON-EXPOSED MARINE MEDAKA (ORYZIAS MELASTIGMA) (F0) WAS RAISED IN CLEAN SEAWATER FROM FERTILIZED EGGS TO ADULTHOOD AND USED AS A MARINE FISH MODEL TO STUDY THE POTENTIAL MULTIGENERATIONAL EFFECTS OF DIURON. WE FOUND THAT THE SUCCESSFUL HATCHING OF F1 LARVAE WAS SIGNIFICANTLY REDUCED AND THAT OVARIAN DEVELOPMENT IN F1 FEMALES WAS RETARDED. A SIGNIFICANT INCREASE IN THE PERCENTAGE OF PREVITELLOGENIC OOCYTES, ALONG WITH A VISUAL DECREASE IN THE PERCENTAGE OF VITELLOGENIC AND MATURE OOCYTES IN THE F1 OVARY, WERE OBSERVED. THE HORMONE LEVELS OF THE HYPOTHALAMUS-PITUITARY-GONAD-LIVER AXIS AND VITELLOGENIN-RELATED TRANSCRIPTION WERE DOWNREGULATED. IN ADDITION, THE MRNA LEVELS OF DNA METHYLTRANSFERASE IN THE BRAIN, OVARY AND LIVER OF F1 ADULT FISH EXHIBITED SIGNIFICANT UPREGULATION, SUGGESTING THAT THE PROBABLE UNDERLYING MULTIGENERATIONAL MECHANISM MIGHT BE ASSOCIATED WITH EPIGENETIC MODIFICATIONS. TAKEN TOGETHER, THESE RESULTS DEMONSTRATED THAT CHRONIC ENVIRONMENTAL DIURON EXPOSURE IN F0 MARINE MEDAKA CAN INHIBIT F1 OVARY DEVELOPMENT AND SUGGESTED THAT DIURON MAY AFFECT MARINE FISH THRIVING IN THE OCEAN. 2022 4 6556 28 TRANSGENERATIONAL EFFECTS OF POLYETHYLENE MICROPLASTIC FRAGMENTS CONTAINING BENZOPHENONE-3 ADDITIVE IN DAPHNIA MAGNA. MATERNAL EXPOSURE TO MICROPLASTICS (MPS) PLAYS AN IMPORTANT ROLE IN THE FITNESS OF UNEXPOSED PROGENY. IN THIS STUDY, THE TRANSGENERATIONAL EFFECTS OF POLYETHYLENE MP FRAGMENTS (17.35 +/- 5.50 MICROM) CONTAINING BENZOPHENONE-3 (BP-3; 2.85 +/- 0.16% W/W) ON CHRONIC TOXICITY (21 D) IN DAPHNIA MAGNA WERE INVESTIGATED ACROSS FOUR GENERATIONS. ONLY D. MAGNA IN THE F0 GENERATION WAS EXPOSED TO MP FRAGMENTS, MP/BP-3 FRAGMENTS, AND BP-3 LEACHATE TO IDENTIFY THE TRANSGENERATIONAL EFFECT IN THE F3 GENERATION. THE MORTALITY OF D. MAGNA INDUCED BY MP AND MP/BP-3 FRAGMENTS WAS RECOVERED IN THE F3 GENERATION, BUT SOMATIC GROWTH AND REPRODUCTION SIGNIFICANTLY DECREASED COMPARED TO THE CONTROL. ADDITIONALLY, REPRODUCTION OF D. MAGNA EXPOSED TO BP-3 LEACHATE SIGNIFICANTLY DECREASED IN THE F3 GENERATION. THESE FINDINGS CONFIRMED THE TRANSGENERATIONAL EFFECTS OF MP FRAGMENT AND BP-3 ADDITIVE ON D. MAGNA. PARTICULARLY, THE ADVERSE EFFECT ON D. MAGNA REPRODUCTION SEEMED TO BE CUMULATIVE ACROSS FOUR GENERATIONS FOR MP/BP-3 FRAGMENTS, WHILE IT WAS AN ACCLIMATION TREND FOR BP-3 LEACHATE. HOWEVER, THERE WAS NO SIGNIFICANT DIFFERENCE IN GLOBAL DNA METHYLATION IN D. MAGNA ACROSS FOUR GENERATIONS, THUS REQUIRING A GENE-SPECIFIC DNA METHYLATION STUDY TO IDENTIFY DIFFERENT EPIGENETIC TRANSGENERATIONAL INHERITANCE. 2022 5 6553 35 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 6 2698 37 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 7 3570 36 IMPACT OF JUVENILE HORMONE ANALOGUE INSECTICIDES ON THE WATER FLEA MOINA MACROCOPA: GROWTH, REPRODUCTION AND TRANSGENERATIONAL EFFECT. THE INCREASING QUANTITIES OF INSECTICIDES THAT LEACH INTO WATER BODIES SEVERELY AFFECT THE HEALTH OF THE AQUATIC ENVIRONMENT. JUVENILE HORMONE ANALOGUE (JHA) INSECTICIDES ARE ENDOCRINE DISRUPTERS THAT INTERFERE WITH HORMONAL ACTIVITY IN INSECTS BY MIMICKING JUVENILE HORMONES (JHS). BECAUSE THE STRUCTURE AND FUNCTIONS OF METHYL FARNESOATE IN CRUSTACEANS ARE SIMILAR TO THE INSECT JHS, EXOGENOUS JHA INSECTICIDES MAY CAUSE ADVERSE EFFECTS ON THE GROWTH AND REPRODUCTION IN CRUSTACEANS SIMILAR TO THOSE OBSERVED IN INSECTS. THIS STUDY EXAMINED THE TOXIC EFFECTS OF TWO JHA INSECTICIDES, METHOPRENE AND FENOXYCARB, ON THE WATER FLEA MOINA MACROCOPA. THE 24-H AND 48-H LC(50) VALUES FOR FENOXYCARB AND METHOPRENE WERE 0.53 AND 0.32 MG/L AND 0.70 AND 0.54 MG/L, RESPECTIVELY. CHRONIC EXPOSURE TO THE TWO JHAS CAUSED A SERIES OF TOXIC EFFECTS IN M. MACROCOPA, INCLUDING SHORTENING OF LIFE EXPECTANCY, REPRESSION OF BODY GROWTH, REDUCTION IN FECUNDITY, AND DISTURBED THE EXPRESSION OF GENES INVOLVED IN THE JH SIGNALING PATHWAY, IN CUTICLE DEVELOPMENT, AND IN THE CARBOHYDRATE, AMINO ACID, AND ATP METABOLIC PROCESSES. MOREOVER, JHA EXPOSURE IMPAIRED THE GROWTH AND REPRODUCTION OF THE OFFSPRING OF M. MACROCOPA EXPOSED TO JHAS, EVEN WHEN THE NEONATES WERE NOT EXPOSED TO THE CHEMICALS. IN ADDITION, CHANGES IN THE EXPRESSION OF GENES RELATED TO HISTONE METHYLATION INDICATE THAT EPIGENETIC CHANGES MAY PROMOTE TRANSGENERATIONAL IMPAIRMENT IN M. MACROCOPA. THESE RESULTS DEMONSTRATE THE TOXIC EFFECTS OF FENOXYCARB AND METHOPRENE ON NON-TARGET AQUATIC ORGANISMS. THE DAMAGES DONE BY THESE JHA INSECTICIDES TO THE AQUATIC ENVIRONMENT IS WORTHY OF OUR ATTENTION AND FURTHER STUDIES. 2020 8 4924 31 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 9 184 40 ACCOUNTING FOR TRANSGENERATIONAL EFFECTS OF TOXICANT EXPOSURE IN POPULATION MODELS ALTERS THE PREDICTED LONG-TERM POPULATION STATUS. ACUTE ENVIRONMENTAL STRESSORS SUCH AS SHORT-TERM EXPOSURE TO POLLUTANTS CAN HAVE LASTING EFFECTS ON ORGANISMS, POTENTIALLY IMPACTING FUTURE GENERATIONS. PARENTAL EXPOSURE TO TOXICANTS CAN RESULT IN CHANGES TO THE EPIGENOME (E.G., DNA METHYLATION) THAT ARE PASSED DOWN TO SUBSEQUENT, UNEXPOSED GENERATIONS. HOWEVER, IT IS DIFFICULT TO GAUGE THE CUMULATIVE POPULATION-SCALE IMPACTS OF EPIGENETIC EFFECTS FROM LABORATORY EXPERIMENTS ALONE. HERE, WE DEVELOPED A SIZE- AND AGE-STRUCTURED DELAY-COORDINATE POPULATION MODEL TO EVALUATE THE LONG-TERM CONSEQUENCES OF EPIGENETIC MODIFICATIONS ON POPULATION SUSTAINABILITY. THE MODEL EMULATED CHANGES IN GROWTH, MORTALITY, AND FECUNDITY IN THE F0, F1, AND F2 GENERATIONS OBSERVED IN EXPERIMENTS IN WHICH LARVAL MENIDIA BERYLLINA WERE EXPOSED TO ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF BIFENTHRIN (BIF), ETHINYLESTRADIOL (EE2), LEVONORGESTREL (LV), OR TRENBOLONE (TB) IN THE PARENT GENERATION (F0) AND REARED IN CLEAN WATER UP TO THE F2 GENERATION. OUR ANALYSIS SUGGESTS POTENTIALLY DRAMATIC POPULATION-LEVEL EFFECTS OF REPEATED, CHRONIC EXPOSURES OF EARLY-LIFE STAGE FISH THAT ARE NOT CAPTURED BY MODELS NOT ACCOUNTING FOR THOSE EFFECTS. SIMULATED EXPOSURES LED TO SUBSTANTIAL DECLINES IN POPULATION ABUNDANCE (LV AND BIF) OR NEAR-EXTINCTION (EE2 AND TB) WITH THE EXACT TRAJECTORY AND TIMELINE OF POPULATION DECLINE DEPENDENT ON THE COMBINATION OF F0, F1, AND F2 EFFECTS PRODUCED BY EACH COMPOUND. EVEN ACUTE ONE-TIME EXPOSURES OF EACH COMPOUND LED TO DECLINES AND RECOVERY OVER MULTIPLE YEARS DUE TO LAGGED EPIGENETIC EFFECTS. THESE RESULTS DEMONSTRATE THE POTENTIAL FOR ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF COMMONLY USED COMPOUNDS TO IMPACT THE POPULATION DYNAMICS AND SUSTAINABILITY OF AN ECOLOGICALLY RELEVANT SPECIES AND MODEL ORGANISM. 2022 10 6552 38 TRANSGENERATIONAL DNA METHYLATION CHANGES IN DAPHNIA MAGNA EXPOSED TO CHRONIC GAMMA IRRADIATION. OUR AIM WAS TO INVESTIGATE EPIGENETIC CHANGES IN DAPHNIA MAGNA AFTER A 25-DAY CHRONIC EXTERNAL GAMMA IRRADIATION (GENERATION F0 EXPOSED TO 6.5 MUGY.H(-1) OR 41.3 MGY.H(-1)) AND THEIR POTENTIAL INHERITANCE BY SUBSEQUENT RECOVERING GENERATIONS, NAMELY, F2 (EXPOSED AS GERMLINE CELLS IN F1 EMBRYOS) AND F3 (THE FIRST TRULY UNEXPOSED GENERATION). EFFECTS ON SURVIVAL, GROWTH, AND REPRODUCTION WERE OBSERVED AND DNA WAS EXTRACTED FOR WHOLE-GENOME BISULFITE SEQUENCING IN ALL GENERATIONS. RESULTS SHOWED EFFECTS ON REPRODUCTION IN F0 BUT NO EFFECT IN THE SUBSEQUENT GENERATIONS F1, F2, AND F3. IN CONTRAST, WE OBSERVED SIGNIFICANT METHYLATION CHANGES AT SPECIFIC CPG POSITIONS IN EVERY GENERATION INDEPENDENT OF DOSE RATE, WITH A MAJORITY OF HYPOMETHYLATION. SOME OF THESE CHANGES WERE SHARED BETWEEN DOSE RATES AND BETWEEN GENERATIONS. ASSOCIATED GENE FUNCTIONS INCLUDED GENE FAMILIES AND GENES THAT WERE PREVIOUSLY SHOWN TO PLAY ROLES DURING EXPOSURE TO IONIZING RADIATION. COMMON METHYLATION CHANGES DETECTED BETWEEN GENERATIONS F2 AND F3 CLEARLY SHOWED THAT EPIGENETIC MODIFICATIONS CAN BE TRANSMITTED TO UNEXPOSED GENERATIONS, MOST LIKELY THROUGH THE GERMLINE, WITH POTENTIAL IMPLICATIONS FOR ENVIRONMENTAL RISK. 2018 11 73 41 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 12 3302 31 HIGH-FAT, SUCROSE AND SALT-RICH DIET DURING RAT SPERMATOGENESIS LEAD TO THE DEVELOPMENT OF CHRONIC KIDNEY DISEASE IN THE FEMALE OFFSPRING OF THE F2 GENERATION. EFFECTS OF FEEDING MALE RATS DURING SPERMATOGENESIS A HIGH-FAT, HIGH-SUCROSE AND HIGH-SALT DIET (HFSSD) OVER TWO GENERATIONS (F0 AND F1) ON RENAL OUTCOMES ARE UNKNOWN. MALE F0 AND F1 RATS WERE FED EITHER CONTROL DIET (F0CD+F1CD) OR HFSSD (F0HD+F1HD). THE OUTCOMES WERE GLOMERULAR FILTRATION RATE AND URINARY ALBUMIN EXCRETION IN F1 AND F2 OFFSPRING. IF BOTH OUTCOMES WERE ALTERED A MORPHOLOGICAL AND MOLECULAR ASSESSMENT WAS DONE. F2 OFFSPRING OF BOTH SEXES HAD A DECREASED GFR. HOWEVER, INCREASED URINARY ALBUMIN EXCRETION WAS ONLY OBSERVED IN FEMALE F2 F0HD+F1HD OFFSPRING COMPARED WITH CONTROLS. F0HD+F1HD FEMALE F2 OFFSPRING DEVELOPED GLOMERULOSCLEROSIS (+31%; P < .01) AND INCREASED RENAL INTERSTITIAL FIBROSIS (+52%; P < .05). RNA SEQUENCING FOLLOWED BY QRT-PCR VALIDATION SHOWED THAT FOUR GENES (ENPP6, TMEM144, CD300LF, AND ACTR3B) WERE DIFFERENTIALLY REGULATED IN THE KIDNEYS OF FEMALE F2 OFFSPRING. LNCRNA XR-146683.1 EXPRESSION DECREASED IN FEMALE F0HD+F1HD F2 OFFSPRING AND ITS EXPRESSION WAS (R = 0.44, P = .027) CORRELATED WITH THE EXPRESSION OF TMEM144. METHYLATION OF CPG ISLANDS IN THE PROMOTER REGION OF THE CD300LF GENE WAS INCREASED (P = .001) IN FEMALE F2 F0HD+F1HD OFFSPRING COMPARED TO CONTROLS. PROMOTER CPG ISLAND METHYLATION RATE OF CD300LF WAS INVERSELY CORRELATED WITH CD300LF MRNA EXPRESSION IN F2 FEMALE OFFSPRING (R = -0.483, P = .012). CD300LF MRNA EXPRESSION WAS INVERSELY CORRELATED WITH THE URINARY ALBUMIN-TO-CREATININE RATIO IN FEMALE F2 OFFSPRING (R = -0.588, P = .005). PATERNAL PRE-CONCEPTIONAL UNHEALTHY DIET GIVEN FOR TWO GENERATIONS PREDISPOSE FEMALE F2 OFFSPRING TO CHRONIC KIDNEY DISEASE DUE TO EPIGENETIC ALTERATIONS OF RENAL GENE EXPRESSION. PARTICULARLY, CD300LF GENE PROMOTOR METHYLATION WAS INVERSELY ASSOCIATED WITH CD300LF MRNA EXPRESSION AND CD300LF MRNA EXPRESSION ITSELF WAS INVERSELY ASSOCIATED WITH URINARY ALBUMIN EXCRETION IN F2 FEMALE OFFSPRING WHOSE FATHERS AND GRANDFATHERS GOT A PRE-CONCEPTIONAL UNHEALTHY DIET. 2022 13 1768 33 EARLY-LIFE LEAD EXPOSURE RESULTS IN DOSE- AND SEX-SPECIFIC EFFECTS ON WEIGHT AND EPIGENETIC GENE REGULATION IN WEANLING MICE. AIMS: EPIDEMIOLOGICAL AND ANIMAL DATA SUGGEST THAT THE DEVELOPMENT OF ADULT CHRONIC CONDITIONS IS INFLUENCED BY EARLY-LIFE EXPOSURE-INDUCED CHANGES TO THE EPIGENOME. THIS STUDY INVESTIGATES THE EFFECTS OF PERINATAL LEAD (PB) EXPOSURE ON DNA METHYLATION AND BODYWEIGHT IN WEANLING MICE. MATERIALS & METHODS: VIABLE YELLOW AGOUTI (A(VY)) MOUSE DAMS WERE EXPOSED TO 0, 2.1, 16 AND 32 PPM PB ACETATE BEFORE CONCEPTION THROUGH WEANING. EPIGENETIC EFFECTS WERE EVALUATED BY SCORING COAT COLOR OF A(VY)/A OFFSPRING AND QUANTITATIVE BISULFITE SEQUENCING OF TWO RETROTRANSPOSON-DRIVEN (A(VY) AND CDK5 ACTIVATOR-BINDING PROTEIN INTRACISTERNAL A PARTICLE ELEMENT) AND TWO IMPRINTED (IGF2 AND IGF2R) LOCI IN TAIL DNA. RESULTS: MATERNAL BLOOD PB LEVELS WERE BELOW THE LIMIT OF DETECTION IN CONTROLS, AND 4.1, 25.1 AND 32.1 MICROG/DL FOR EACH DOSE, RESPECTIVELY. PB EXPOSURE WAS ASSOCIATED WITH A TREND OF INCREASED WEAN BODYWEIGHT IN MALES (P = 0.03) AND ALTERED COAT COLOR IN A(VY)/A OFFSPRING. DNA METHYLATION AT A(VY) AND THE CDK5 ACTIVATOR-BINDING PROTEIN INTRACISTERNAL A-PARTICLE ELEMENT WAS SIGNIFICANTLY DIFFERENT FROM CONTROLS FOLLOWING A CUBIC TREND (P = 0.04; P = 0.01), WITH MALE-SPECIFIC EFFECTS AT THE A(VY) LOCUS. IMPRINTED GENES DID NOT SHIFT IN METHYLATION ACROSS EXPOSURES. CONCLUSION: DOSE- AND SEX-SPECIFIC RESPONSES IN BODYWEIGHT AND DNA METHYLATION INDICATE THAT PB ACTS ON THE EPIGENOME IN A LOCUS-SPECIFIC FASHION, DEPENDENT ON THE GENOMIC FEATURE HOSTING THE CPG SITE OF INTEREST, AND THAT SEX IS A FACTOR IN EPIGENETIC RESPONSE. 2013 14 1325 32 DEPLETED URANIUM INDUCES SEX- AND TISSUE-SPECIFIC METHYLATION PATTERNS IN ADULT ZEBRAFISH. WE EXAMINED THE EFFECTS OF CHRONIC EXPOSURE TO DIFFERENT CONCENTRATIONS (2 AND 20 MUG L(-)(1)) OF ENVIRONMENTALLY RELEVANT WATERBORNE DEPLETED URANIUM (DU) ON THE DNA METHYLATION PATTERNS BOTH AT HPAII RESTRICTION SITES (5'-CCGG-3') AND ACROSS THE WHOLE GENOME IN THE ZEBRAFISH BRAIN, GONADS, AND EYES. WE FIRST IDENTIFIED SEX-DEPENDENT DIFFERENCES IN THE METHYLATION LEVEL OF HPAII SITES AFTER EXPOSURE. IN MALES, THESE EFFECTS WERE PRESENT AS EARLY AS 7 DAYS AFTER EXPOSURE TO 20 MUG L(-)(1) DU, AND WERE EVEN MORE PRONOUNCED IN THE BRAIN, GONADS, AND EYES AFTER 24 DAYS. HOWEVER, IN FEMALES, HYPOMETHYLATION WAS ONLY OBSERVED IN THE GONADS AFTER EXPOSURE TO 20 MUG L(-)(1) DU FOR 24 DAYS. SEX-SPECIFIC EFFECTS OF DU WERE ALSO APPARENT AT THE WHOLE-GENOME LEVEL, BECAUSE IN MALES, EXPOSURE TO 20 MUG L(-)(1) DU FOR 24 DAYS RESULTED IN CYTOSINE HYPERMETHYLATION IN THE BRAIN AND EYES AND HYPOMETHYLATION IN THE GONADS. IN CONTRAST, IN FEMALES, HYPERMETHYLATION WAS OBSERVED IN THE BRAIN AFTER EXPOSURE TO BOTH CONCENTRATIONS OF DU FOR 7 DAYS. BASED ON OUR CURRENT KNOWLEDGE OF URANIUM TOXICITY, SEVERAL HYPOTHESES ARE PROPOSED TO EXPLAIN THESE FINDINGS, INCLUDING THE INVOLVEMENT OF OXIDATIVE STRESS, ALTERATION OF DEMETHYLATION ENZYMES AND THE CALCIUM SIGNALING PATHWAY. THIS STUDY REPORTS, FOR THE FIRST TIME, THE SEX- AND TISSUE-SPECIFIC EPIGENETIC CHANGES THAT OCCUR IN A NONHUMAN ORGANISM AFTER EXPOSURE TO ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF URANIUM, WHICH COULD INDUCE TRANSGENERATIONAL EPIGENETIC EFFECTS. 2016 15 985 20 CHRONIC RADIATION EXPOSURE AS AN ECOLOGICAL FACTOR: HYPERMETHYLATION AND GENETIC DIFFERENTIATION IN IRRADIATED SCOTS PINE POPULATIONS. GENETIC AND EPIGENETIC CHANGES WERE INVESTIGATED IN CHRONICALLY IRRADIATED SCOTS PINE (PINUS SYLVESTRIS L.) POPULATIONS FROM TERRITORIES THAT WERE HEAVILY CONTAMINATED BY RADIONUCLIDES AS RESULT OF THE CHERNOBYL NUCLEAR POWER PLANT ACCIDENT. IN COMPARISON TO THE REFERENCE SITE, THE GENETIC DIVERSITY REVEALED BY ELECTROPHORETIC MOBILITY OF AFLPS WAS FOUND TO BE SIGNIFICANTLY HIGHER AT THE RADIOACTIVELY CONTAMINATED AREAS. IN ADDITION, THE GENOME OF PINE TREES WAS SIGNIFICANTLY HYPERMETHYLATED AT 4 OF THE 7 AFFECTED SITES. 2018 16 5170 35 PREDATION RISK DETERMINES PIGMENTATION PHENOTYPE IN NUTHATCHES BY MELANIN-RELATED GENE EXPRESSION EFFECTS. PIGMENTS DETERMINE THE APPEARANCE OF ORGANISMS. HOWEVER, PIGMENT PRODUCTION CAN BE ASSOCIATED WITH PHYSIOLOGICAL CONSTRAINTS AS IN THE CASE OF PHEOMELANIN, THE SULPHURATED FORM OF MELANIN WHOSE SYNTHESIS IN MELANOCYTES CONSUMES CYSTEINE AND CONSEQUENTLY REDUCES THE AVAILABILITY OF GLUTATHIONE (GSH) TO EXERT ANTIOXIDANT PROTECTION. PHEOMELANOGENESIS MAY THUS INCREASE THE SUSCEPTIBILITY TO SUFFER CHRONIC OXIDATIVE STRESS. I INVESTIGATED THE POSSIBILITY THAT ENVIRONMENTAL LABILITY IN THE EXPRESSION OF GENES REGULATING PHEOMELANOGENESIS PROTECTS FROM OXIDATIVE STRESS, A SITUATION IN WHICH GSH IS MOST REQUIRED. BY BROADCASTING ADULT ALARM CALLS, I MANIPULATED THE PERCEPTION OF PREDATION RISK, A NATURAL SOURCE OF OXIDATIVE STRESS, IN FREE-LIVING EURASIAN NUTHATCH SITTA EUROPAEA NESTLINGS DEVELOPING PHEOMELANIN-PIGMENTED FLANK FEATHERS. THE MANIPULATION AFFECTED THE CONSUMPTION OF GSH THAT RESULTED FROM THE EXPRESSION OF TWO GENES (SLC7A11 AND SLC45A2) INFLUENCING CYSTEINE/GSH AVAILABILITY IN CELLS, AS THESE GENES WERE DOWN-REGULATED IN THE FEATHER MELANOCYTES OF THE NESTLINGS WITH LOWEST INTRACELLULAR ANTIOXIDANT CAPACITY (I.E. LOWEST GSH LEVELS). SYSTEMIC OXIDATIVE DAMAGE INCREASED WITH SLC7A11 EXPRESSION IN FEATHER MELANOCYTES, SUGGESTING THAT THE OBSERVED DOWN-REGULATION WAS PHYSIOLOGICALLY ADVANTAGEOUS. THE NESTLINGS EXPOSED TO AN INCREASED PERCEPTION OF PREDATION RISK DEVELOPED FLANK FEATHERS OF REDUCED COLOUR INTENSITY. THESE RESULTS INDICATE THAT PERCEIVED PREDATION RISK CAN DETERMINE THE PIGMENTATION PHENOTYPE BY (PROBABLY EPIGENETIC) EFFECTS ON GENE EXPRESSION THAT PROTECT FROM PHYSIOLOGICAL CONSTRAINTS IMPOSED BY PHEOMELANIN PRODUCTION. 2018 17 4077 26 MATERNAL INFLAMMATION INDUCES SPATIAL LEARNING AND MEMORY IMPAIRMENT IN THE F1 AND F2 GENERATIONS OF MICE VIA SEX-SPECIFIC EPIGENETIC MECHANISMS. MOUNTING EVIDENCE INDICATES THAT HISTONE MODIFICATIONS ARE INVOLVED IN AGING-ASSOCIATED COGNITIVE DECLINE (AACD) AND CAN BE TRANSMITTED TO OFFSPRING OVER MULTIPLE GENERATIONS UNDER CONDITIONS OF STRESS. HERE, WE INVESTIGATED THE EFFECTS OF MATERNAL SUB-CHRONIC INFLAMMATION CAUSED BY LIPOPOLYSACCHARIDE (LPS) ON AACD AND HISTONE MODIFICATIONS IN THE F1 AND F2 GENERATIONS OF EXPERIMENTAL MICE AS WELL AS THE POTENTIAL SEX SPECIFICITY OF INTERGENERATIONAL EFFECTS. IN BRIEF, F0-GENERATION CD-1 DAMS WERE EXPOSED TO LPS (50 MICROG/KG) OR SALINE (CON) DURING LATE PREGNANCY. SUBSEQUENTLY, F1 MALES AND FEMALES (AT 2 MONTHS-OF-AGE) FROM THE LPS TREATMENT GROUP WERE MATED WITH NON-LITTERMATES FROM THE LPS GROUP OR WILD-TYPE MICE TO PRODUCE F2 GENERATIONS OF PARENTAL- (F2-LPS(2)), PATERNAL- (F2M-LPS(1)) AND MATERNAL-ORIGIN (F2F-LPS(1)) MICE. THEN, CON-F1 MALES AND FEMALES WERE MATED WITH WILD-TYPE MICE TO GENERATE F2 GENERATIONS OF PATERNAL- (F2M-CON(1)) AND MATERNAL-ORIGIN (F2F-CON(1)). NEXT, WE EVALUATED THE COGNITIVE ABILITY AND LEVELS OF HIPPOCAMPAL H4K12AC AND H3K9ME3 IN THE F1 AND F2 OFFSPRING AT 3- AND 13 MONTHS-OF-AGE. OVERALL, F1 MALE AND FEMALE LPS GROUPS PRESENTED WITH ELEVATED CORTICOSTERONE (P < 0.001, P = 0.036, P = 0.025, 0.012, RESPECTIVELY) AND CYTOKINE RESPONSES, POORER COGNITIVE PERFORMANCE (ALL P < 0.05) AND H3K9 HYPERMETHYLATION AND H4K12 HYPOACETYLATION IN THE DORSAL HIPPOCAMPUS (ALL P < 0.05); THESE ISSUES WERE CARRIED OVER TO THE F2 GENERATION VIA THE PARENTS, PREDOMINANTLY IN THE PATERNAL LINEAGE. MOREOVER, THE LEVELS OF H3K9ME3 AND H4K12AC WERE SIGNIFICANT CORRELATED WITH COGNITIVE PERFORMANCE (ALL P < 0.05), REGARDLESS OF WHETHER INFLAMMATORY INSULTS HAD BEEN INCURRED DIRECTLY OR INDIRECTLY. THESE FINDINGS INDICATED THAT GESTATIONAL INFLAMMATORY INSULTS IN THE F0 GENERATION ACCELERATED AACD IN THE F2 GENERATION, ALONG WITH H3K9 HYPERMETHYLATION AND H4K12 HYPOACETYLATION IN THE HIPPOCAMPUS, AND THAT THESE ISSUES WERE DERIVED FROM THE F1 PARENTS, ESPECIALLY FROM THE F1 FATHERS. 2022 18 6526 28 TRANSCRIPTIONAL CHANGES IN THE OVARIES OF PERCH FROM CHERNOBYL. FISH HAVE BEEN HIGHLY EXPOSED TO RADIATION IN FRESHWATER SYSTEMS AFTER THE CHERNOBYL NUCLEAR POWER PLANT (NPP) ACCIDENT IN 1986 AND IN FRESHWATER AND MARINE SYSTEMS AFTER THE MORE RECENT FUKUSHIMA NPP ACCIDENT IN 2011. IN THE YEARS AFTER THE ACCIDENT, THE RADIOACTIVITY LEVELS RAPIDLY DECLINED DUE TO RADIOACTIVE DECAY AND ENVIRONMENTAL PROCESSES, BUT CHRONIC LOWER DOSE EXPOSURES PERSISTED. TO GAIN INSIGHTS INTO THE LONG-TERM EFFECTS OF ENVIRONMENTAL LOW DOSE RADIATION ON FISH OVARIES DEVELOPMENT, A HIGH-THROUGHPUT TRANSCRIPTOMIC APPROACH INCLUDING A DE NOVO ASSEMBLY WAS APPLIED TO DIFFERENT GONAD PHENOTYPES OF FEMALE PERCH: DEVELOPED GONADS FROM REFERENCE LAKES, DEVELOPED/IRRADIATED FROM MEDIUM CONTAMINATED LAKE, AND BOTH DEVELOPED/IRRADIATED AND UNDEVELOPED FROM MORE HIGHLY CONTAMINATED LAKES. THIS IS THE MOST COMPREHENSIVE ANALYSIS TO DATE OF THE GENE RESPONSES IN WILDLIFE REPRODUCTIVE SYSTEM TO RADIATION. SOME GENE RESPONSES THAT WERE MODULATED IN IRRADIATED GONADS WERE FOUND TO BE INVOLVED IN BIOLOGICAL PROCESSES INCLUDING CELL DIFFERENTIATION AND PROLIFERATION (GGNB2, MOD5, RERGL), CYTOSKELETON ORGANIZATION (K1C18, MTPN), GONAD DEVELOPMENT (NELL2, TCP4), LIPID METABOLISM (LDAH, AT11B, NLTP), REPRODUCTION (CYB5, CYP17A, OVOS), DNA DAMAGE REPAIR (WDHD1, RAD51, HUS1), AND EPIGENETIC MECHANISMS (DMAP1). IDENTIFICATION OF THESE GENES PROVIDES A BETTER UNDERSTANDING OF THE UNDERLYING MOLECULAR MECHANISMS UNDERPINNING THE DEVELOPMENT OF THE GONAD PHENOTYPES OF WILD PERCH AND HOW FISH MAY RESPOND TO CHRONIC EXPOSURE TO RADIATION IN THEIR NATURAL ENVIRONMENT, THOUGH CAUSAL ATTRIBUTION OF GENE RESPONSES REMAINS UNCLEAR IN THE UNDEVELOPED GONADS. 2020 19 903 35 CHRONIC EXPOSURE TO BISPHENOL A RESULTED IN ALTERATIONS OF REPRODUCTIVE FUNCTIONS VIA IMMUNE DEFENSE, OXIDATIVE DAMAGE AND DISRUPTION DNA/HISTONE METHYLATION IN MALE RARE MINNOW GOBIOCYPRIS RARUS. BISPHENOL A (BPA) IS A WIDELY USED CHEMICAL THAT REPRESENTS A REPRODUCTIVE HAZARD IN FISH. HOWEVER, THE MOLECULAR PATHWAYS MEDIATING REPRODUCTIVE TOXICITY UNDER CHRONIC BPA EXPOSURE REMAIN UNCLEAR. TO STUDY THE REPRODUCTIVE HAZARDS ASSOCIATED WITH CHRONIC BPA EXPOSURE, ADULT MALE RARE MINNOWS (GOBIOCYPRIS RARUS) WERE TREATED WITH 15 MUG L (-) (1) AND 225 MUG L (-) (1) BPA FOR 90 DAYS. RESULTS SHOWED THAT CHRONIC BPA TREATMENT INDUCED REPRODUCTIVE IMPAIRMENTS WITH DECREASED FERTILIZATION CAPACITY AND MOVEMENT TIME OF SPERM. TRANSCRIPTOME ANALYSIS INDICATED 1421 TRANSCRIPTS THAT WERE DIFFERENTIALLY EXPRESSED IN RESPONSE TO BPA EXPOSURE, WHICH ARE INVOLVED IN THE BIOLOGICAL PROCESS OF OXIDATIVE STRESS, IMMUNE RESPONSES AND DNA/HISTONE METHYLATION. BPA CAUSED THE OXIDATIVE STRESS VIA SIGNIFICANTLY INCREASING HYDROGEN PEROXIDE (H(2)O(2)) LEVELS AND INHIBITING THE ACTIVITIES OF ANTIOXIDANT-RELATED ENZYMES (CATALASE, CAT). BPA CAUSED AN INFLAMMATORY RESPONSE IN THE TESTES BY SIGNIFICANTLY INCREASING IL-1BETA LEVELS AND INDUCING INFILTRATION OF INFLAMMATORY CELLS. MOREOVER, EXPOSURE TO 15 MUG L (-) (1) BPA SIGNIFICANTLY DECREASED THE GENOMIC DNA METHYLATION LEVEL. THESE DATA REVEALED THAT CHRONIC BPA EXPOSURE HAD ADVERSE EFFECTS ON MALE REPRODUCTION. OXIDATIVE STRESS, INFLAMMATORY RESPONSE AND DNA/HISTONE METHYLATION MIGHT ACCOUNT FOR THE DECREASED SPERM QUALITY. 2021 20 6514 24 TRANSCRIPTIONAL ACTIVATION OF THE GP91PHOX NADPH OXIDASE SUBUNIT BY TPA IN HL-60 CELLS. THE EXPOSURE TO EPIGENETIC EFFECTORS CAPABLE OF INDUCING COPIOUS PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS) HAS BEEN ASSOCIATED WITH CHRONIC INFLAMMATION, TUMOR INITIATION, AND PROMOTION. THE OBJECTIVE OF THIS STUDY WAS TO EXAMINE THE REGULATION OF GP91PHOX, THE CATALYTIC SUBUNIT OF THE NADPH OXIDASE, AND THE KINETICS OF ROS PRODUCTION IN PROMYELOCYTIC LEUKEMIA HL-60 CELLS INDUCED WITH 12-O-TETRADECONYLPHORBOL-13-ACETATE (TPA). THE TREATMENT OF HL-60 CELLS WITH TPA (0.1 MICROM) INDUCED CELLULAR DIFFERENTIATION, WHICH WAS FOLLOWED AFTER 48 H BY A TENFOLD INCREASE IN CHEMILUMINESCENCE FROM LUCIGENIN AND A 2.5-FOLD INCREASE IN THE INTRACELLULAR OXIDATION OF 2',7'-DICHOLOROFLUORESCIN (DCFH). WHEREAS HIGHER CONCENTRATIONS (1.0 MICROM) OF TPA DID NOT STIMULATE FURTHER ROS PRODUCTION, REPEATED STIMULATION WITH 0.1 MICROM TPA OF DIFFERENTIATED CELLS INDUCED A MODEST (1.2-FOLD) BUT RAPID (15 MIN) INCREASE IN CHEMILUMINESCENCE. IN CELLS TREATED WITH TPA, THE BURST IN ROS AT 48 H WAS PRECEDED BY ACCUMULATION AT 12 H OF GP91PHOX (8.8-FOLD) AND P47PHOX MRNA (THREEFOLD), WHEREAS UNTREATED CELLS CONTAINED STEADY-STATE LEVELS OF BOTH TRANSCRIPTS. TIME-COURSE EXPERIMENTS WITH ACTINOMYCIN D TO INHIBIT TRANSCRIPTION REVEALED THAT TPA DID NOT IMPROVE THE STABILITY OF GP91PHOX. IN TRANSIENT TRANSFECTIONS, LUCIFERASE REPORTER ACTIVITY DIRECTED FROM A 1.5-KB GP91PHOX PROMOTER FRAGMENT WAS ENHANCED THREEFOLD UPON TREATMENT WITH TPA FOR 24 H. WE CONCLUDE THAT TPA CAN COMMIT HL-60 CELLS TO DIFFERENTIATION AND ELICIT TRANSCRIPTION FROM THE PROXIMAL GP91PHOX PROMOTER. 2001