1 4593 162 NATURAL GENETIC VARIATION IN A MULTIGENERATIONAL PHENOTYPE IN C. ELEGANS. ALTHOUGH HEREDITY MOSTLY RELIES ON THE TRANSMISSION OF DNA SEQUENCE, ADDITIONAL MOLECULAR AND CELLULAR FEATURES ARE HERITABLE ACROSS SEVERAL GENERATIONS. IN THE NEMATODE CAENORHABDITIS ELEGANS, INSIGHTS INTO SUCH UNCONVENTIONAL INHERITANCE RESULT FROM TWO LINES OF WORK. FIRST, THE MORTAL GERMLINE (MRT) PHENOTYPE WAS DEFINED AS A MULTIGENERATIONAL PHENOTYPE WHEREBY A SELFING LINEAGE BECOMES STERILE AFTER SEVERAL GENERATIONS, IMPLYING MULTIGENERATIONAL MEMORY [1, 2]. SECOND, CERTAIN RNAI EFFECTS ARE HERITABLE OVER SEVERAL GENERATIONS IN THE ABSENCE OF THE INITIAL TRIGGER [3-5]. BOTH LINES OF WORK CONVERGED WHEN THE SUBSET OF MRT MUTANTS THAT ARE HEAT SENSITIVE WERE FOUND TO CLOSELY CORRESPOND TO MUTANTS DEFECTIVE IN THE RNAI-INHERITANCE MACHINERY, INCLUDING HISTONE MODIFIERS [6-9]. HERE, WE REPORT THE SURPRISING FINDING THAT SEVERAL C. ELEGANS WILD ISOLATES DISPLAY A HEAT-SENSITIVE MORTAL GERMLINE PHENOTYPE IN LABORATORY CONDITIONS: UPON CHRONIC EXPOSURE TO HIGHER TEMPERATURES, SUCH AS 25 DEGREES C, LINES REPRODUCIBLY BECOME STERILE AFTER SEVERAL GENERATIONS. THIS PHENOMENON IS REVERSIBLE, AS IT CAN BE SUPPRESSED BY TEMPERATURE ALTERNATIONS AT EACH GENERATION, SUGGESTING A NON-GENETIC BASIS FOR THE STERILITY. WE TESTED WHETHER NATURAL VARIATION IN THE TEMPERATURE-INDUCED MRT PHENOTYPE WAS OF GENETIC NATURE BY BUILDING RECOMBINANT INBRED LINES BETWEEN THE ISOLATES MY10 (MRT) AND JU1395 (NON-MRT). USING BULK SEGREGANT ANALYSIS, WE DETECTED TWO QUANTITATIVE TRAIT LOCI. AFTER FURTHER RECOMBINANT MAPPING AND GENOME EDITING, WE IDENTIFIED THE MAJOR CAUSAL LOCUS AS A POLYMORPHISM IN THE SET-24 GENE, ENCODING A SET- AND SPK-DOMAIN PROTEIN. WE CONCLUDE THAT C. ELEGANS NATURAL POPULATIONS MAY HARBOR NATURAL GENETIC VARIATION IN EPIGENETIC INHERITANCE PHENOMENA. 2018 2 3970 29 LONG-LASTING EPIGENETIC CHANGES IN THE DOPAMINE TRANSPORTER IN ADULT ANIMALS EXPOSED TO AMPHETAMINE DURING EMBRYOGENESIS: INVESTIGATING BEHAVIORAL EFFECTS. THE DOPAMINE TRANSPORTER (DAT) IS AN INTEGRAL MEMBER OF THE DOPAMINERGIC SYSTEM AND IS RESPONSIBLE FOR THE RELEASE AND REUPTAKE OF DOPAMINE FROM THE SYNAPTIC SPACE INTO THE DOPAMINERGIC NEURONS. DAT IS ALSO THE MAJOR TARGET OF AMPHETAMINE (AMPH). THE EFFECTS OF AMPH ON DAT HAVE BEEN INTENSIVELY STUDIED; HOWEVER, THE MECHANISMS UNDERLYING THE LONG-TERM EFFECTS CAUSED BY EMBRYONAL EXPOSURE TO ADDICTIVE DOSES OF AMPH REMAIN LARGELY UNEXPLORED. AS IN MAMMALS, IN THE NEMATODE C. ELEGANS AMPH CAUSES CHANGES IN LOCOMOTION WHICH ARE LARGELY MEDIATED BY THE C. ELEGANS DAT HOMOLOGUE, DAT-1. HERE, WE SHOW THAT CHRONIC EMBRYONIC EXPOSURES TO AMPH ALTER THE EXPRESSION OF DAT-1 IN ADULT C. ELEGANS VIA LONG-LASTING EPIGENETIC MODIFICATIONS. THESE CHANGES ARE CORRELATED WITH AN ENHANCED BEHAVIORAL RESPONSE TO AMPH IN ADULT ANIMALS. IMPORTANTLY, PHARMACOLOGICAL AND GENETIC INTERVENTION DIRECTED AT PREVENTING THE AMPH-INDUCED EPIGENETIC MODIFICATIONS OCCURRING DURING EMBRYOGENESIS INHIBITED THE LONG-LASTING BEHAVIORAL EFFECTS OBSERVED IN ADULT ANIMALS. BECAUSE MANY COMPONENTS OF THE DOPAMINERGIC SYSTEM, AS WELL AS EPIGENETIC MECHANISMS, ARE HIGHLY CONSERVED BETWEEN C. ELEGANS AND MAMMALS, THESE RESULTS COULD BE CRITICAL FOR OUR UNDERSTANDING OF HOW DRUGS OF ABUSE INITIATE PREDISPOSITION TO ADDICTION. 2023 3 968 27 CHRONIC NICOTINE EXPOSURE SYSTEMICALLY ALTERS MICRORNA EXPRESSION PROFILES DURING POST-EMBRYONIC STAGES IN CAENORHABDITIS ELEGANS. TOBACCO SMOKING IS ASSOCIATED WITH MANY DISEASES. ADDICTION IS OF THE MOST NOTORIOUS TOBACCO-RELATED SYNDROME AND IS MAINLY ATTRIBUTED TO NICOTINE. IN THIS STUDY, WE EMPLOYED CAENORHABDITIS ELEGANS AS A BIOLOGICAL MODEL TO SYSTEMICALLY INVESTIGATE THE EFFECT OF CHRONIC NICOTINE EXPOSURE ON MICRORNA (MIRNA) EXPRESSION PROFILE AND THEIR REGULATED BIOCHEMICAL PATHWAYS. NICOTINE TREATMENT (20 MICROM AND 20 MM) WAS LIMITED TO THE POST-EMBRYONIC STAGE FROM L1 TO L4 ( APPROXIMATELY 31 H) PERIOD AFTER WHICH WORMS WERE COLLECTED FOR GENOME-WIDE MIRNA PROFILING. OUR RESULTS SHOW THAT NICOTINE SIGNIFICANTLY ALTERED THE EXPRESSION PATTERNS OF 40 MIRNAS. THE EFFECT WAS PROPORTIONAL TO THE NICOTINE DOSE AND WAS EXPECTED TO HAVE AN ADDITIVE, MORE ROBUST RESPONSE. BASED ON PATHWAY ENRICHMENT ANALYSES COUPLED WITH NICOTINE-INDUCED MIRNA PATTERNS, WE INFERRED THAT MIRNAS AS A SYSTEM MEDIATES "REGULATORY HORMESIS", MANIFESTED IN BIPHASIC BEHAVIORAL AND PHYSIOLOGICAL PHENOTYPES. WE PROPOSED A MODEL WHERE NICOTINE ADDICTION IS MEDIATED BY MIRNAS' REGULATION OF FOS-1 AND IS MAINTAINED BY EPIGENETIC FACTORS. THUS, OUR STUDY OFFERS NEW INSIGHTS FOR A BETTER UNDERSTANDING OF THE SENSITIVITY OF EARLY DEVELOPMENTAL STAGES TO NICOTINE. 2014 4 1921 47 ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES AND IMPLICATIONS FOR HUMAN REPRODUCTION. BACKGROUND: TRADITIONAL STUDIES FOCUSED ON DNA AS THE HERITABLE INFORMATION CARRIER THAT PASSES THE PHENOTYPE FROM PARENTS TO OFFSPRING. HOWEVER, INCREASING EVIDENCE SUGGESTS THAT INFORMATION, THAT IS INDEPENDENT OF THE DNA SEQUENCE, TERMED EPIGENETIC INFORMATION, CAN BE INHERITED BETWEEN GENERATIONS. RECENTLY, IN OUR LAB, WE FOUND THAT PREDIABETES IN FATHERS INCREASES THE SUSCEPTIBILITY TO DIABETES IN OFFSPRING THROUGH GAMETIC CYTOSINE METHYLATION CHANGES. PATERNAL PREDIABETES CHANGED OVERALL METHYLATION PATTERNS IN SPERM, AND A LARGE PORTION OF DIFFERENTIALLY METHYLATED LOCI CAN BE TRANSMITTED TO PANCREATIC ISLETS OF OFFSPRING UP TO THE SECOND GENERATION. IN THIS REVIEW, WE SURVEY THE EXTENSIVE EXAMPLES OF ENVIRONMENTALLY INDUCED EPIGENETIC INHERITANCE IN VARIOUS SPECIES, RANGING FROM CAENORHABDITIS ELEGANS TO HUMANS. WE FOCUS MAINLY ON ELUCIDATING THE MOLECULAR BASIS OF ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES, WHICH IS AN EMERGING THEME AND HAS IMPORTANT IMPLICATIONS FOR EXPLAINING THE PREVALENCE OF OBESITY, TYPE 2 DIABETES AND OTHER CHRONIC NON-GENETIC DISEASES, WHICH IS ALSO IMPORTANT FOR UNDERSTANDING THE INFLUENCE OF ENVIRONMENTAL EXPOSURES ON REPRODUCTIVE AND OVERALL HEALTH IN OFFSPRING. METHODS: FOR THIS REVIEW, WE INCLUDED RELEVANT DATA AND INFORMATION OBTAINED THROUGH A PUBMED DATABASE SEARCH FOR ALL ENGLISH LANGUAGE ARTICLES PUBLISHED UP TO AUGUST 2014 WHICH INCLUDED THE TERM 'ENVIRONMENTAL EPIGENETIC INHERITANCE' AND 'TRANSGENERATIONAL EPIGENETIC INHERITANCE'. WE FOCUSED ON RESEARCH PAPERS USING ANIMAL MODELS INCLUDING DROSOPHILA, C. ELEGANS, MOUSE AND RAT. HUMAN DATA WERE ALSO INCLUDED. RESULTS: EVIDENCE FROM ANIMAL MODELS SUGGESTS THAT ENVIRONMENTAL EPIGENETIC INHERITANCE THROUGH GAMETES EXISTS IN VARIOUS SPECIES. EXTENSIVE MOLECULAR EVIDENCE SUGGESTS THAT EPIGENETIC INFORMATION CARRIERS INCLUDING DNA METHYLATION, NON-CODING RNAS AND CHROMATIN PROTEINS IN GAMETES PLAY IMPORTANT ROLES IN THE TRANSMISSION OF PHENOTYPES FROM PARENTS TO OFFSPRING. CONCLUSIONS: GIVEN THE LARGE NUMBER OF EXPERIMENTAL EVIDENCE FROM VARIOUS ORGANISMS, IT IS CLEAR THAT PARENTAL ENVIRONMENTAL ALTERATIONS CAN AFFECT THE PHENOTYPES OF OFFSPRING THROUGH GAMETIC EPIGENETIC ALTERATIONS. THIS MORE RECENT THINKING BASED ON NEW DATA MAY HAVE IMPLICATIONS IN EXPLAINING THE PREVALENCE OF OBESITY, TYPE 2 DIABETES AND OTHER CHRONIC NON-GENETIC DISEASES. THIS ALSO IMPLIES THAT, IN THE NEAR FUTURE, EPIGENETIC FACTORS WHICH ARE HERITABLE SHOULD BE REGARDED IMPORTANT IN DETERMINING THE RISK OF CERTAIN DISEASES. MOREOVER, IDENTIFICATION OF EPIGENETIC MARKERS IN GAMETES (POLAR BODY OR SPERM) MAY HOLD GREAT PROMISE FOR PREDICTING SUSCEPTIBILITY TO AND PREVENTING CERTAIN NON-GENETIC DISEASES IN OFFSPRING, AS WELL AS PROVIDING INDICATIONS ON PARENTAL ENVIRONMENTAL EXPOSURES. 2015 5 947 35 CHRONIC MEHG EXPOSURE MODIFIES THE HISTONE H3K4ME3 EPIGENETIC LANDSCAPE IN CAENORHABDITIS ELEGANS. METHYLMERCURY (MEHG) IS A PERSISTENT ENVIRONMENTAL POLLUTANT THAT OCCURS IN THE FOOD CHAIN, AT OCCUPATIONAL SITES, AND VIA MEDICAL PROCEDURES. EXPOSURE IN HUMANS AND ANIMAL MODELS RESULTS IN RENAL, NEURO, AND REPRODUCTIVE TOXICITIES. IN THIS STUDY, WE DEMONSTRATE THAT CHRONIC EXPOSURE TO MEHG (10MUM) CAUSES EPIGENETIC LANDSCAPE MODIFICATIONS OF HISTONE H3K4 TRIMETHYLATION (H3K4ME3) MARKS IN CAENORHABDITIS ELEGANS USING CHROMATIN IMMUNO-PRECIPITATION SEQUENCING (CHIP-SEQ). THE MODIFICATIONS CORRESPOND TO THE LOCATIONS OF 1467 GENES WITH ENHANCED AND 508 GENES WITH REDUCED SIGNALS. AMONG ENHANCED GENES ARE THOSE ENCODING GLUTATHIONE-S-TRANSFERASES, LIPOCALIN-RELATED PROTEIN AND A CUTICULAR COLLAGEN. CHIP-SEQ ENHANCEMENT OF THESE GENES WAS CONFIRMED WITH INCREASED MRNA EXPRESSION LEVELS REVEALED BY QRT-PCR. FURTHERMORE, WE OBSERVED ENHANCEMENT OF H3K4ME3 MARKS IN THESE GENES IN ANIMALS EXPOSED TO MEHG IN UTERO AND ASSAYED AT L4 STAGE. IN UTERO EXPOSURE ENHANCED MARKS WITHOUT ALTERATIONS IN MRNA EXPRESSION EXCEPT FOR THE LPR-5 GENE. FINALLY, KNOCKDOWN OF LIPOCALIN-RELATED PROTEIN GENE LPR-5, WHICH IS INVOLVED IN INTERCELLULAR SIGNALING, AND CUTICULAR COLLAGEN GENE DPY-7, STRUCTURAL COMPONENT OF THE CUTICLE, BY RNA INTERFERENCE (RNAI) RESULTED IN INCREASED LETHALITY OF ANIMALS AFTER MEHG EXPOSURE. OUR RESULTS PROVIDE NEW DATA ON THE EPIGENETIC LANDSCAPE CHANGES ELICITED BY MEHG EXPOSURE, AS WELL AS DESCRIBE A UNIQUE MODEL FOR STUDYING IN UTERO EFFECTS OF HEAVY METALS. TOGETHER, THESE FINDINGS MAY HELP TO UNDERSTAND THE TOXICOLOGICAL EFFECTS OF MEHG AT THE MOLECULAR LEVEL. 2017 6 3596 29 IMPLICATIONS OF SPHINGOLIPIDS ON AGING AND AGE-RELATED DISEASES. AGING IS A PROCESS LEADING TO A PROGRESSIVE LOSS OF PHYSIOLOGICAL INTEGRITY AND HOMEOSTASIS, AND A PRIMARY RISK FACTOR FOR MANY LATE-ONSET CHRONIC DISEASES. THE MECHANISMS UNDERLYING AGING HAVE LONG PIQUED THE CURIOSITY OF SCIENTISTS. HOWEVER, THE IDEA THAT AGING IS A BIOLOGICAL PROCESS SUSCEPTIBLE TO GENETIC MANIPULATION WAS NOT WELL ESTABLISHED UNTIL THE DISCOVERY THAT THE INHIBITION OF INSULIN/IGF-1 SIGNALING EXTENDED THE LIFESPAN OF C. ELEGANS. ALTHOUGH AGING IS A COMPLEX MULTISYSTEM PROCESS, LOPEZ-OTIN ET AL. DESCRIBED AGING IN REFERENCE TO NINE HALLMARKS OF AGING. THESE NINE HALLMARKS INCLUDE: GENOMIC INSTABILITY, TELOMERE ATTRITION, EPIGENETIC ALTERATIONS, LOSS OF PROTEOSTASIS, DEREGULATED NUTRIENT SENSING, MITOCHONDRIAL DYSFUNCTION, CELLULAR SENESCENCE, STEM CELL EXHAUSTION, AND ALTERED INTERCELLULAR COMMUNICATION. DUE TO RECENT ADVANCES IN LIPIDOMIC, INVESTIGATION INTO THE ROLE OF LIPIDS IN BIOLOGICAL AGING HAS INTENSIFIED, PARTICULARLY THE ROLE OF SPHINGOLIPIDS (SL). SLS ARE A DIVERSE GROUP OF LIPIDS ORIGINATING FROM THE ENDOPLASMIC RETICULUM (ER) AND CAN BE MODIFIED TO CREATE A VASTLY DIVERSE GROUP OF BIOACTIVE METABOLITES THAT REGULATE ALMOST EVERY MAJOR CELLULAR PROCESS, INCLUDING CELL CYCLE REGULATION, SENESCENCE, PROLIFERATION, AND APOPTOSIS. ALTHOUGH SL BIOLOGY REACHES ALL NINE HALLMARKS OF AGING, ITS CONTRIBUTION TO EACH HALLMARK IS DISPROPORTIONATE. IN THIS REVIEW, WE WILL DISCUSS IN DETAIL THE MAJOR CONTRIBUTIONS OF SLS TO THE HALLMARKS OF AGING AND AGE-RELATED DISEASES WHILE ALSO SUMMARIZING THE IMPORTANCE OF THEIR OTHER MINOR BUT INTEGRAL CONTRIBUTIONS. 2021 7 357 35 ALTERNATIVE MODELS FOR TRANSGENERATIONAL EPIGENETIC INHERITANCE: MOLECULAR PSYCHIATRY BEYOND MICE AND MAN. MENTAL ILLNESS REMAINS THE GREATEST CHRONIC HEALTH BURDEN GLOBALLY WITH FEW IN-ROADS HAVING BEEN MADE DESPITE SIGNIFICANT ADVANCES IN GENOMIC KNOWLEDGE IN RECENT DECADES. THE FIELD OF PSYCHIATRY IS CONSTANTLY CHALLENGED TO BRING NEW APPROACHES AND TOOLS TO ADDRESS AND TREAT THE NEEDS OF VULNERABLE INDIVIDUALS AND SUBPOPULATIONS, AND THAT HAS TO BE SUPPORTED BY A CONTINUOUS GROWTH IN KNOWLEDGE. THE MAJORITY OF NEUROPSYCHIATRIC SYMPTOMS REFLECT COMPLEX GENE-ENVIRONMENT INTERACTIONS, WITH EPIGENETICS BRIDGING THE GAP BETWEEN GENETIC SUSCEPTIBILITY AND ENVIRONMENTAL STRESSORS THAT TRIGGER DISEASE ONSET AND DRIVE THE ADVANCEMENT OF SYMPTOMS. IT HAS MORE RECENTLY BEEN DEMONSTRATED IN PRECLINICAL MODELS THAT EPIGENETICS UNDERPINS THE TRANSGENERATIONAL INHERITANCE OF STRESS-RELATED BEHAVIOURAL PHENOTYPES IN BOTH PATERNAL AND MATERNAL LINEAGES, PROVIDING FURTHER SUPPORTING EVIDENCE FOR HERITABILITY IN HUMANS. HOWEVER, UNBIASED PROSPECTIVE STUDIES OF THIS NATURE ARE PRACTICALLY IMPOSSIBLE TO CONDUCT IN HUMANS SO PRECLINICAL MODELS REMAIN OUR BEST OPTION FOR RESEARCHING THE MOLECULAR PATHOPHYSIOLOGIES UNDERLYING MANY NEUROPSYCHIATRIC CONDITIONS. WHILE RODENTS WILL REMAIN THE DOMINANT MODEL SYSTEM FOR PRECLINICAL STUDIES (ESPECIALLY FOR ADDRESSING COMPLEX BEHAVIOURAL PHENOTYPES), THERE IS SCOPE TO EXPAND CURRENT RESEARCH OF THE MOLECULAR AND EPIGENETIC PATHOLOGIES BY USING INVERTEBRATE MODELS. HERE, WE WILL DISCUSS THE UTILITY AND ADVANTAGES OF TWO ALTERNATIVE MODEL ORGANISMS-CAENORHABDITIS ELEGANS AND DROSOPHILA MELANOGASTER-AND SUMMARISE THE COMPELLING INSIGHTS OF THE EPIGENETIC REGULATION OF TRANSGENERATIONAL INHERITANCE THAT ARE POTENTIALLY RELEVANT TO HUMAN PSYCHIATRY. 2021 8 1049 40 CLINICAL EPIGENOMIC EXPLANATION OF THE EPIDEMIOLOGY OF CANNABINOID GENOTOXICITY MANIFESTING AS TRANSGENERATIONAL TERATOGENESIS, CANCEROGENESIS AND AGING ACCELERATION. AS GLOBAL INTEREST IN THE THERAPEUTIC POTENTIAL OF CANNABIS AND ITS' DERIVATIVES FOR THE MANAGEMENT OF SELECTED DISEASES INCREASES, IT IS INCREASINGLY IMPERATIVE THAT THE TOXIC PROFILE OF CANNABINOIDS BE THOROUGHLY UNDERSTOOD IN ORDER TO CORRECTLY ASSESS THE BALANCE BETWEEN THE THERAPEUTIC RISKS AND BENEFITS. MODERN STUDIES ACROSS A NUMBER OF JURISDICTIONS, INCLUDING CANADA, AUSTRALIA, THE US AND EUROPE HAVE CONFIRMED THAT SOME OF THE MOST WORRYING AND SEVERE HISTORICAL REPORTS OF BOTH CONGENITAL ANOMALIES AND CANCER INDUCTION FOLLOWING CANNABIS EXPOSURE ACTUALLY UNDERESTIMATE THE MULTISYSTEM THOUSAND MEGABASE-SCALE TRANSGENERATIONAL GENETIC DAMAGE. THESE FINDINGS FROM TERATOGENIC AND CARCINOGENIC LITERATURE ARE SUPPORTED BY RECENT DATA SHOWING THE ACCELERATED PATTERNS OF CHRONIC DISEASE AND THE ADVANCED DNA METHYLATION EPIGENOMIC CLOCK AGE IN CANNABIS EXPOSED PATIENTS. TOGETHER, THE INCREASED MULTISYSTEM CARCINOGENESIS, TERATOGENESIS AND ACCELERATED AGING POINT STRONGLY TO CANNABINOID-RELATED GENOTOXICITY BEING MUCH MORE CLINICALLY SIGNIFICANT THAN IT IS WIDELY SUPPOSED AND, THUS, OF VERY CONSIDERABLE PUBLIC HEALTH AND MULTIGENERATIONAL IMPACT. RECENTLY REPORTED LONGITUDINAL EPIGENOME-WIDE ASSOCIATION STUDIES ELEGANTLY EXPLAIN MANY OF THESE OBSERVED EFFECTS WITH CONSIDERABLE METHODOLOGICAL SOPHISTICATION, INCLUDING MULTIPLE PATHWAYS FOR THE INHIBITION OF THE NORMAL CHROMOSOMAL SEGREGATION AND DNA REPAIR, THE INHIBITION OF THE BASIC EPIGENETIC MACHINERY FOR DNA METHYLATION AND THE DEMETHYLATION AND TELOMERASE ACCELERATION OF THE EPIGENOMIC PROMOTER HYPERMETHYLATION CHARACTERIZING AGING. FOR CANCER, 810 HITS WERE ALSO NOTED. THE TYPES OF MALIGNANCY WHICH WERE OBSERVED HAVE ALL BEEN DOCUMENTED EPIDEMIOLOGICALLY. DETAILED EPIGENOMIC EXPLICATIONS OF THE BRAIN, HEART, FACE, URONEPHROLOGICAL, GASTROINTESTINAL AND LIMB DEVELOPMENT WERE PROVIDED, WHICH AMPLY EXPLAINED THE OBSERVED TERATOLOGICAL PATTERNS, INCLUDING THE INHIBITION OF THE KEY MORPHOGENIC GRADIENTS. HENCE, THESE MAJOR EPIGENOMIC INSIGHTS CONSTITUTED A POWERFUL NEW SERIES OF ARGUMENTS WHICH ADVANCED BOTH OUR UNDERSTANDING OF THE DOWNSTREAM SEQUALAE OF MULTISYSTEM MULTIGENERATIONAL CANNABINOID GENOTOXICITY AND ALSO, SINCE MECHANISMS ARE KEY TO THE CAUSAL ARGUMENT, INVEIGHED STRONGLY IN FAVOR OF THE CAUSAL NATURE OF THE RELATIONSHIP. IN THIS INTRODUCTORY CONCEPTUAL OVERVIEW, WE PRESENT THE VARIOUS ASPECTS OF THIS NOVEL SYNTHETIC PARADIGMATIC FRAMEWORK. SUCH CONCEPTS SUGGEST AND, INDEED, INDICATE NUMEROUS FIELDS FOR FURTHER INVESTIGATION AND BASIC SCIENCE RESEARCH TO ADVANCE THE EXPLORATION OF MANY IMPORTANT ISSUES IN BIOLOGY, CLINICAL MEDICINE AND POPULATION HEALTH. GIVEN THIS, IT IS IMPERATIVE WE CORRECTLY APPRAISE THE RISK-BENEFIT RATIO FOR EACH POTENTIAL CANNABIS APPLICATION, CONSIDERING THE POTENCY, SEVERITY OF DISEASE, STAGE OF HUMAN DEVELOPMENT AND DURATION OF USE. 2023 9 711 39 C. ELEGANS SUP-46, AN HNRNPM FAMILY RNA-BINDING PROTEIN THAT PREVENTS PATERNALLY-MEDIATED EPIGENETIC STERILITY. BACKGROUND: IN ADDITION TO DNA, GAMETES CONTRIBUTE EPIGENETIC INFORMATION IN THE FORM OF HISTONES AND NON-CODING RNA. EPIGENETIC PROGRAMS OFTEN RESPOND TO STRESSFUL ENVIRONMENTAL CONDITIONS AND PROVIDE A HERITABLE HISTORY OF ANCESTRAL STRESS THAT ALLOWS FOR ADAPTATION AND PROPAGATION OF THE SPECIES. IN THE NEMATODE C. ELEGANS, DEFECTIVE EPIGENETIC TRANSMISSION OFTEN MANIFESTS AS PROGRESSIVE GERMLINE MORTALITY. WE PREVIOUSLY ISOLATED SUP-46 IN A SCREEN FOR SUPPRESSORS OF THE HEXOSAMINE PATHWAY GENE MUTANT, GNA-2(QA705). IN THIS STUDY, WE EXAMINE THE ROLE OF SUP-46 IN STRESS RESISTANCE AND PROGRESSIVE GERMLINE MORTALITY. RESULTS: WE IDENTIFIED SUP-46 AS AN HNRNPM FAMILY RNA-BINDING PROTEIN, AND UNCOVERED A HIGHLY NOVEL ROLE FOR SUP-46 IN PREVENTING PATERNALLY-MEDIATED PROGRESSIVE GERMLINE MORTALITY FOLLOWING MATING. PROXIMITY BIOTINYLATION PROFILING OF HUMAN HOMOLOGS (HNRNPM, MYEF2) IDENTIFIED PROTEINS OF RIBONUCLEOPROTEIN COMPLEXES PREVIOUSLY SHOWN TO CONTAIN NON-CODING RNA. LIKE HNRNPM AND MYEF2, SUP-46 WAS ASSOCIATED WITH MULTIPLE RNA GRANULES, INCLUDING STRESS GRANULES, AND ALSO FORMED GRANULES ON ACTIVE CHROMATIN. SUP-46 DEPLETION DISRUPTED GERM RNA GRANULES AND CAUSED ECTOPIC SPERM, INCREASED SPERM TRANSCRIPTS, AND CHRONIC HEAT STRESS SENSITIVITY. SUP-46 WAS ALSO REQUIRED FOR RESISTANCE TO ACUTE HEAT STRESS, AND A CONSERVED "MYEF2" MOTIF WAS IDENTIFIED THAT WAS NEEDED FOR STRESS RESISTANCE. CONCLUSIONS: IN MAMMALS, NON-CODING RNA FROM THE SPERM OF STRESSED MALES HAS BEEN SHOWN TO RECAPITULATE PATERNAL STRESS PHENOTYPES IN THE OFFSPRING. OUR RESULTS SUGGEST THAT HNRNPM FAMILY PROTEINS ENABLE STRESS RESISTANCE AND PATERNALLY-MEDIATED EPIGENETIC TRANSMISSION THAT MAY BE CONSERVED ACROSS SPECIES. 2017 10 1346 42 DETECTION OF TRANSGENERATIONAL SPERMATOGENIC INHERITANCE OF ADULT MALE ACQUIRED CNS GENE EXPRESSION CHARACTERISTICS USING A DROSOPHILA SYSTEMS MODEL. AVAILABLE INSTANCES OF INHERITANCE OF EPIGENETIC TRANSGENERATIONAL PHENOTYPE ARE LIMITED TO ENVIRONMENTAL EXPOSURES DURING EMBRYONIC AND ADULT GONADAL DEVELOPMENT. ADULT EXPOSURES CAN ALSO AFFECT GAMETOGENESIS AND THEREBY POTENTIALLY RESULT IN REPROGRAMMING OF THE GERMLINE. ALTHOUGH EXAMPLES OF EPIGENETIC EFFECTS ON GAMETOGENESIS EXIST, IT IS NOTABLE THAT TRANSGENERATIONAL INHERITANCE OF ENVIRONMENT-INDUCED ADULT PHENOTYPE HAS NOT YET BEEN REPORTED. EPIGENETIC CODES ARE CONSIDERED TO BE CRITICAL IN NEURAL PLASTICITY. A DROSOPHILA SYSTEMS MODEL OF PENTYLENETETRAZOLE (PTZ) INDUCED LONG-TERM BRAIN PLASTICITY HAS RECENTLY BEEN DESCRIBED. IN THIS MODEL, CHRONIC PTZ TREATMENT OF ADULT MALES CAUSES ALTERATIONS IN CNS TRANSCRIPTOME. HERE, WE DESCRIBE OUR SEARCH FOR TRANSGENERATIONAL SPERMATOGENIC INHERITANCE OF PTZ INDUCED GENE EXPRESSION PHENOTYPE ACQUIRED BY ADULT DROSOPHILA MALES. WE GENERATED CNS TRANSCRIPTOMIC PROFILES OF F(1) ADULTS AFTER TREATING F(0) ADULT MALES WITH PTZ AND OF F(2) ADULTS RESULTING FROM A CROSS BETWEEN F(1) MALES AND NORMAL FEMALES. SURPRISINGLY, MICROARRAY CLUSTERING SHOWED F(1) MALE PROFILE AS CLOSEST TO F(1) FEMALE AND F(0) MALE PROFILE CLOSEST TO F(2) MALE. DIFFERENTIALLY EXPRESSED GENES IN F(1) MALES, F(1) FEMALES AND F(2) MALES SHOWED SIGNIFICANT OVERLAP WITH THOSE CAUSED BY PTZ. INTERESTINGLY, MICROARRAY EVIDENCE ALSO LED TO THE IDENTIFICATION OF UPREGULATED RRNA IN F(2) MALES. NEXT, WE GENERATED MICROARRAY EXPRESSION PROFILES OF ADULT TESTIS FROM F(0) AND F(1) MALES. FURTHER SURPRISING, CLUSTERING OF CNS AND TESTIS PROFILES AND MATCHING OF DIFFERENTIALLY EXPRESSED GENES IN THEM PROVIDED EVIDENCE OF A SPERMATOGENIC MECHANISM IN THE TRANSGENERATIONAL EFFECT OBSERVED. TO OUR KNOWLEDGE, WE REPORT FOR THE FIRST TIME DETECTION OF TRANSGENERATIONAL SPERMATOGENIC INHERITANCE OF ADULT ACQUIRED SOMATIC GENE EXPRESSION CHARACTERISTIC. THE DROSOPHILA SYSTEMS MODEL OFFERS AN EXCELLENT OPPORTUNITY TO UNDERSTAND THE EPIGENETIC MECHANISMS UNDERLYING THE PHENOMENON. THE FINDING THAT ADULT ACQUIRED TRANSCRIPTOMIC ALTERATION IN SOMA IS SPERMATOGENICALLY INHERITED ACROSS GENERATIONS HAS POTENTIAL IMPLICATIONS IN HUMAN HEALTH AND EVOLUTION. 2009 11 5774 40 SPERM TRANSCRIPTIONAL STATE ASSOCIATED WITH PATERNAL TRANSMISSION OF STRESS PHENOTYPES. PATERNAL STRESS CAN INDUCE LONG-LASTING CHANGES IN GERM CELLS POTENTIALLY PROPAGATING HERITABLE CHANGES ACROSS GENERATIONS. TO DATE, NO STUDIES HAVE INVESTIGATED DIFFERENCES IN TRANSMISSION PATTERNS BETWEEN STRESS-RESILIENT AND -SUSCEPTIBLE MICE. WE TESTED THE HYPOTHESIS THAT TRANSCRIPTIONAL ALTERATIONS IN SPERM DURING CHRONIC SOCIAL DEFEAT STRESS (CSDS) TRANSMIT INCREASED SUSCEPTIBILITY TO STRESS PHENOTYPES TO THE NEXT GENERATION. WE DEMONSTRATE DIFFERENCES IN OFFSPRING FROM STRESSED FATHERS THAT DEPEND UPON PATERNAL CATEGORY (RESILIENT VS SUSCEPTIBLE) AND OFFSPRING SEX. IMPORTANTLY, ARTIFICIAL INSEMINATION REVEALS THAT SPERM MEDIATES SOME OF THE BEHAVIORAL PHENOTYPES SEEN IN OFFSPRING. USING RNA-SEQUENCING WE REPORT SUBSTANTIAL AND DISTINCT CHANGES IN THE TRANSCRIPTOMIC PROFILES OF SPERM FOLLOWING CSDS IN SUSCEPTIBLE VS RESILIENT FATHERS, WITH ALTERATIONS IN LONG NONCODING RNAS (LNCRNAS) PREDOMINATING ESPECIALLY IN SUSCEPTIBILITY. CORRELATION ANALYSIS REVEALED THAT THESE ALTERATIONS WERE ACCOMPANIED BY A LOSS OF REGULATION OF PROTEIN-CODING GENES BY LNCRNAS IN SPERM OF SUSCEPTIBLE MALES. WE ALSO IDENTIFY SEVERAL CO-EXPRESSION GENE MODULES THAT ARE ENRICHED IN DIFFERENTIALLY EXPRESSED GENES IN SPERM FROM EITHER RESILIENT OR SUSCEPTIBLE FATHERS. TAKEN TOGETHER, THESE STUDIES ADVANCE OUR UNDERSTANDING OF INTERGENERATIONAL EPIGENETIC TRANSMISSION OF BEHAVIORAL EXPERIENCE.SIGNIFICANCE STATEMENTTHIS MANUSCRIPT CONTRIBUTES TO THE COMPLEX FACTORS THAT INFLUENCE THE PATERNAL TRANSMISSION OF STRESS PHENOTYPES. BY LEVERAGING THE SEGREGATION OF MALES EXPOSED TO CHRONIC SOCIAL DEFEAT STRESS INTO EITHER RESILIENT OR SUSCEPTIBLE CATEGORIES WE WERE ABLE TO IDENTIFY THE PHENOTYPIC DIFFERENCES IN THE PATERNAL TRANSMISSION OF STRESS PHENOTYPES ACROSS GENERATIONS BETWEEN THE TWO LINEAGES. IMPORTANTLY, THIS WORK ALSO ALLUDES TO THE SIGNIFICANCE OF BOTH LONG NONCODING RNAS AND PROTEIN CODING GENES MEDIATING THE PATERNAL TRANSMISSION OF STRESS. THE KNOWLEDGE GAINED FROM THESE DATA IS OF PARTICULAR INTEREST IN UNDERSTANDING THE RISK FOR THE DEVELOPMENT OF PSYCHIATRIC DISORDERS SUCH AS ANXIETY AND DEPRESSION. 2021 12 5167 28 PRECONCEPTION PATERNAL MENTAL DISORDERS AND CHILD HEALTH: MECHANISMS AND INTERVENTIONS. MENTAL ILLNESS IS A SIGNIFICANT GLOBAL HEALTH ISSUE WITH A STEADY PREVALENCE. HIGH HERITABILITY IS SUSPECTED, BUT GENOME-WIDE ASSOCIATION STUDIES ONLY IDENTIFIED A SMALL NUMBER OF RISK GENES ASSOCIATED WITH MENTAL DISORDERS. THIS 'MISSING INHERITANCE' CAN BE PARTIALLY EXPLAINED BY EPIGENETIC HEREDITY. EVIDENCE FROM NUMEROUS ANIMAL MODELS AND HUMAN STUDIES SUPPORTS THE POSSIBILITY THAT PRECONCEPTION PATERNAL MENTAL HEALTH INFLUENCES THEIR OFFSPRING'S MENTAL HEALTH VIA NONGENETIC MEANS. HERE, WE REVIEW TWO POTENTIAL PATHWAYS, INCLUDING SPERM EPIGENETICS AND SEMINAL PLASMA COMPONENTS. THE CURRENT REVIEW HIGHLIGHTS THE ROLE OF SPERM EPIGENETICS AND EXPLORES EPIGENETIC MESSAGE ORIGINATION AND SUSCEPTIBILITY TO CHRONIC STRESS. MEANWHILE, POSSIBLE SPATIOTEMPORAL WINDOWS AND EVENTS THAT INDUCE SEXUALLY DIMORPHIC MODES AND EFFECTS OF PATERNAL STRESS TRANSMISSION ARE INFERRED IN THIS REVIEW. ADDITIONALLY, WE DISCUSS EMERGING INTERVENTIONS THAT COULD POTENTIALLY BLOCK THE INTERGENERATIONAL TRANSMISSION OF PATERNAL PSYCHIATRIC DISORDERS AND REDUCE THE INCIDENCE OF MENTAL ILLNESS. UNDERSTANDING THE UNDERLYING MECHANISMS BY WHICH PRECONCEPTION PATERNAL STRESS IMPACTS OFFSPRING HEALTH IS CRITICAL FOR IDENTIFYING STRATEGIES SUPPORTING HEALTHY DEVELOPMENT AND SUCCESSFULLY CONTROLLING THE PREVALENCE OF MENTAL ILLNESS. 2023 13 3632 32 INCORPORATING TRANSGENERATIONAL EPIGENETIC INHERITANCE INTO ECOLOGICAL RISK ASSESSMENT FRAMEWORKS. CHRONIC EXPOSURE TO ENVIRONMENTAL CONTAMINANTS CAN INDUCE HERITABLE "TRANSGENERATIONAL" MODIFICATIONS TO ORGANISMS, POTENTIALLY AFFECTING FUTURE ECOSYSTEM HEALTH AND FUNCTIONALITY. INCORPORATING TRANSGENERATIONAL EPIGENETIC HERITABILITY INTO RISK ASSESSMENT PROCEDURES HAS BEEN PREVIOUSLY SUGGESTED. HOWEVER, A CRITICAL REVIEW OF EXISTING LITERATURE YIELDED NUMEROUS STUDIES CLAIMING TRANSGENERATIONAL IMPACTS, WITH LITTLE COMPELLING EVIDENCE. THEREFORE, CONTAMINANT-INDUCED EPIGENETIC INHERITANCE MAY BE LESS COMMON THAN IS REPORTED IN THE LITERATURE. WE IDENTIFIED A NEED FOR MULTIGENERATION EPIGENETIC STUDIES THAT EXTEND BEYOND WHAT COULD BE DEEMED "DIRECT EXPOSURE" TO F1 AND F2 GAMETES AND ALSO INCLUDE SUBSEQUENT MULTIPLE NONEXPOSED GENERATIONS TO ADEQUATELY EVALUATE TRANSGENERATIONAL RECOVERY TIMES. ALSO, INCREASED EXPERIMENTAL REPLICATION IS REQUIRED TO ACCOUNT FOR THE HIGHLY VARIABLE NATURE OF EPIGENETIC RESPONSES AND APPARENT IRREPRODUCIBILITY OF CURRENT STUDIES. FURTHER, EPIGENETIC END POINTS NEED TO BE CORRELATED WITH OBSERVABLE DETRIMENTAL ORGANISM CHANGES BEFORE A NEED FOR RISK MANAGEMENT CAN BE PROPERLY DETERMINED. WE SUGGEST THAT EPIGENETIC-BASED CONTAMINANT STUDIES INCLUDE CONCENTRATIONS LOWER THAN CURRENT "EC(10-20)" OR "LOWEST OBSERVABLE EFFECT CONCENTRATIONS" FOR THE ORGANISM'S MOST SENSITIVE PHENOTYPIC END POINT, AS HIGHER CONCENTRATIONS ARE LIKELY ALREADY REGULATED. FINALLY, WE PROPOSE A REGULATORY FRAMEWORK AND OPTIMAL EXPERIMENTAL DESIGN THAT ENABLES TRANSGENERATIONAL EPIGENETIC EFFECTS TO BE ASSESSED AND INCORPORATED INTO CONVENTIONAL ECOTOXICOLOGICAL TESTING. 2017 14 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 15 2137 33 EPIGENETIC INHERITANCE AND EVOLUTION: A PATERNAL PERSPECTIVE ON DIETARY INFLUENCES. THE EARLIEST INDICATIONS FOR PATERNALLY INDUCED TRANSGENERATIONAL EFFECTS FROM THE ENVIRONMENT TO FUTURE GENERATIONS WERE BASED ON A SMALL NUMBER OF LONG-TERM EPIDEMIOLOGICAL STUDIES AND SOME EMPIRICAL OBSERVATIONS. ONLY RECENTLY HAVE EXPERIMENTAL ANIMAL MODELS AND A FEW ANALYSES ON HUMAN DATA EXPLORED THE TRANSGENERATIONAL NATURE OF PHENOTYPIC CHANGES OBSERVED IN OFFSPRING. CHANGES INCLUDE MULTIPLE METABOLIC DISORDERS, CANCER AND OTHER CHRONIC DISEASES. THESE PHENOTYPES CANNOT ALWAYS BE EXPLAINED BY MENDELIAN INHERITANCE, DNA MUTATIONS OR GENETIC DAMAGE. HENCE, A NEW COMPELLING THEORY ON EPIGENETIC INHERITANCE IS GAINING INTEREST, PROVIDING NEW CONCEPTS THAT EXTEND DARWIN'S EVOLUTIONARY THEORY. EPIGENETIC ALTERATIONS OR "EPIMUTATIONS" ARE BEING CONSIDERED TO EXPLAIN TRANSGENERATIONAL INHERITANCE OF PARENTALLY ACQUIRED TRAITS. THE RESPONSIBLE MECHANISMS FOR THESE EPIMUTATIONS INCLUDE DNA METHYLATION, HISTONE MODIFICATION, AND RNA-MEDIATED EFFECTS. THIS REVIEW EXPLORES THE LITERATURE ON A NUMBER OF TIME-DEPENDENT ENVIRONMENTALLY INDUCED EPIGENETIC ALTERATIONS, SPECIFICALLY THOSE FROM DIETARY EXPOSURES. WE SUGGEST A ROLE FOR THE MALE GERM LINE AS ONE OF NATURE'S TOOLS TO CAPTURE MESSAGES FROM OUR CONTINUOUSLY CHANGING ENVIRONMENT AND TO TRANSFER THIS INFORMATION TO SUBSEQUENT GENERATIONS. FURTHER, WE OPEN THE DISCUSSION THAT THE PATERNALLY INHERITED EPIGENETIC INFORMATION MAY CONTRIBUTE TO EVOLUTIONARY ADAPTATION. 2015 16 3784 29 INTERGENERATIONAL EFFECTS OF ALCOHOL: A REVIEW OF PATERNAL PRECONCEPTION ETHANOL EXPOSURE STUDIES AND EPIGENETIC MECHANISMS IN THE MALE GERMLINE. WHILE ALCOHOL USE DISORDER (AUD) IS A HIGHLY HERITABLE PSYCHIATRIC DISEASE, EFFORTS TO ELUCIDATE THAT HERITABILITY BY EXAMINING GENETIC VARIATION (E.G., SINGLE NUCLEOTIDE POLYMORPHISMS) HAVE BEEN INSUFFICIENT TO FULLY ACCOUNT FOR FAMILIAL AUD RISK. PERHAPS NOT COINCIDENTLY, THERE HAS BEEN A BURGEONING INTEREST IN NOVEL NONGENOMIC MECHANISMS OF INHERITANCE (I.E., EPIGENETICS) THAT ARE SHAPED IN THE MALE OR FEMALE GERM CELLS BY SIGNIFICANT LIFETIME EXPERIENCES SUCH AS EXPOSURE TO CHRONIC STRESS, MALNUTRITION, OR DRUGS OF ABUSE. WHILE MANY EPIDEMIOLOGICAL AND PRECLINICAL STUDIES HAVE LONG POINTED TO A ROLE FOR THE PARENTAL PRECONCEPTION ENVIRONMENT IN OFFSPRING BEHAVIOR, OVER THE LAST DECADE MANY STUDIES HAVE IMPLICATED A CAUSAL RELATIONSHIP BETWEEN THE ENVIRONMENTALLY SENSITIVE SPERM EPIGENOME AND INTERGENERATIONAL PHENOTYPES. THIS CRITICAL REVIEW WILL DETAIL THE HERITABLE EFFECTS OF ALCOHOL AND THE POTENTIAL ROLE FOR EPIGENETICS. 2019 17 4941 29 PATERNAL OBESITY, INTERVENTIONS, AND MECHANISTIC PATHWAYS TO IMPAIRED HEALTH IN OFFSPRING. BACKGROUND: THE GLOBAL RATES OF MALE OVERWEIGHT/OBESITY ARE RISING, APPROACHING 70% OF THE TOTAL ADULT POPULATION IN WESTERN NATIONS. OVERWEIGHT/OBESITY INCREASES THE RISK OF CHRONIC DISEASES; HOWEVER, THERE IS INCREASING AWARENESS THAT MALE OBESITY NEGATIVELY IMPACTS FERTILITY, SUBSEQUENT PREGNANCY, AND THE OFFSPRING HEALTH BURDEN. DEVELOPMENTAL PROGRAMMING IS WELL DEFINED IN MOTHERS; HOWEVER, IT IS BECOMING INCREASINGLY EVIDENT THAT DEVELOPMENTAL PROGRAMMING CAN BE PATERNALLY INITIATED AND MEDIATED THROUGH PATERNAL OBESITY. KEY MESSAGES: BOTH HUMAN AND RODENT MODELS HAVE ESTABLISHED THAT PATERNAL OBESITY IMPAIRS SEX HORMONES, BASIC SPERM FUNCTION, AND MOLECULAR COMPOSITION. THIS RESULTS IN PERTURBED EMBRYO DEVELOPMENT AND HEALTH AND AN INCREASED SUBSEQUENT OFFSPRING DISEASE BURDEN IN BOTH SEXES. THE REVERSIBILITY OF OBESITY-INDUCED PARENTAL PROGRAMMING HAS ONLY RECENTLY RECEIVED ATTENTION. PROMISING RESULTS IN ANIMAL MODELS UTILIZING DIET AND EXERCISE INTERVENTIONS HAVE SHOWN IMPROVEMENTS IN SPERM FUNCTION AND MOLECULAR COMPOSITION, RESULTING IN RESTORATIONS OF BOTH EMBRYO AND FETAL HEALTH AND SUBSEQUENT MALE OFFSPRING FERTILITY. THE DIRECT MODE FOR PATERNAL INHERITANCE IS LIKELY MEDIATED VIA SPERMATOZOA. WE PROPOSE TWO MAIN THEORIES FOR THE ORIGIN OF MALE OBESITY-INDUCED PATERNAL PROGRAMMING: (1) ACCUMULATION OF SPERM DNA DAMAGE RESULTING IN DE NOVO MUTATIONS IN THE EMBRYO AND (2) CHANGES IN SPERM EPIGENETIC MARKS (MICRORNA, METHYLATION, OR ACETYLATION) ALTERING THE ACCESS, TRANSCRIPTION, AND TRANSLATION OF PATERNALLY DERIVED GENES DURING EARLY EMBRYOGENESIS. CONCLUSIONS: PATERNAL OVERWEIGHT/OBESITY INDUCES PATERNAL PROGRAMMING OF OFFSPRING PHENOTYPES LIKELY MEDIATED THROUGH GENETIC AND EPIGENETIC CHANGES IN SPERMATOZOA. THESE PROGRAMMED CHANGES TO OFFSPRING HEALTH APPEAR TO BE PARTIALLY RESTORED VIA DIET/EXERCISE INTERVENTIONS IN OBESE FATHERS PRECONCEPTION, WHICH HAVE BEEN SHOWN TO IMPROVE ASPECTS OF SPERM DNA INTEGRITY. HOWEVER, THE MAJORITY OF DATA SURROUNDING PATERNAL OBESITY AND OFFSPRING PHENOTYPES HAVE COME FROM RODENT MODELS; THEREFORE, WE CONTEND THAT IT WILL BE INCREASINGLY IMPORTANT TO STUDY POPULATION-BASED DATA TO DETERMINE THE LIKELY MODE OF INHERITANCE IN HUMANS. 2014 18 5113 30 POPULATION-LEVEL IMPACTS OF PESTICIDE-INDUCED CHRONIC EFFECTS ON INDIVIDUALS DEPEND MORE ON ECOLOGY THAN TOXICOLOGY. THE CURRENT METHOD FOR ASSESSING LONG-TERM RISK OF PESTICIDES TO MAMMALS IN THE EU IS BASED ON THE INDIVIDUAL RATHER THAN THE POPULATION-LEVEL AND LACKS ECOLOGICAL REALISM. HENCE THERE IS LITTLE POSSIBILITY FOR REGULATORY AUTHORITIES TO INCREASE ECOLOGICAL REALISM AND UNDERSTANDING OF RISKS AT THE POPULATION-LEVEL. HERE WE DEMONSTRATE HOW, USING ABM MODELLING, ASSESSMENTS AT THE POPULATION-LEVEL CAN BE OBTAINED EVEN FOR A PESTICIDE WITH COMPLEX LONG-TERM EFFECTS SUCH AS EPIGENETIC TRANSMISSION OF REPRODUCTIVE DEPRESSION. BY OBJECTIVELY FITTING NONLINEAR MODELS TO THE SIMULATION OUTPUTS IT WAS POSSIBLE TO COMPARE POPULATION DEPRESSION AND RECOVERY RATES FOR A RANGE OF SCENARIOS IN WHICH TOXICITY AND EXPOSURE FACTORS WERE VARIED. THE SYSTEM WAS DIFFERENTIALLY SENSITIVE TO THE VARIOUS FACTORS, BUT VOLE ECOLOGY AND BEHAVIOUR WERE AT LEAST AS IMPORTANT PREDICTORS OF POPULATION-LEVEL EFFECTS AS TOXICOLOGY. THIS EMPHASISES THE NEED FOR GREATER FOCUS ON ANIMAL ECOLOGY IN RISK ASSESSMENTS. 2009 19 3119 27 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 20 4932 27 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