1 4942 116 PATERNAL OBESITY: HOW BAD IS IT FOR SPERM QUALITY AND PROGENY HEALTH? THERE IS SUBSTANTIAL EVIDENCE THAT PATERNAL OBESITY IS ASSOCIATED NOT ONLY WITH AN INCREASED INCIDENCE OF INFERTILITY, BUT ALSO WITH AN INCREASED RISK OF METABOLIC DISTURBANCE IN ADULT OFFSPRING. APPARENTLY, SEVERAL MECHANISMS MAY CONTRIBUTE TO THE SPERM QUALITY ALTERATIONS ASSOCIATED WITH PATERNAL OBESITY, SUCH AS PHYSIOLOGICAL/HORMONAL ALTERATIONS, OXIDATIVE STRESS, AND EPIGENETIC ALTERATIONS. ALONG THESE LINES, MODIFICATIONS OF HORMONAL PROFILES NAMELY REDUCED ANDROGEN LEVELS AND ELEVATED ESTROGEN LEVELS, WERE FOUND ASSOCIATED WITH LOWER SPERM CONCENTRATION AND SEMINAL VOLUME. ADDITIONALLY, OXIDATIVE STRESS IN TESTIS MAY INDUCE AN INCREASE OF THE PERCENTAGE OF SPERM WITH DNA FRAGMENTATION. THE LATTER, RELATE TO OTHER PECULIARITIES SUCH AS ALTERATION OF THE EMBRYONIC DEVELOPMENT, INCREASED RISK OF MISCARRIAGE, AND DEVELOPMENT OF CHRONIC MORBIDITY IN THE OFFSPRING, INCLUDING CHILDHOOD CANCERS. UNDOUBTEDLY, EPIGENETIC ALTERATIONS (IE, DNA METHYLATION, CHROMATIN MODIFICATIONS, AND SMALL RNA DEREGULATION) OF SPERM RELATED TO PATERNAL OBESITY AND THEIR CONSEQUENCES ON THE PROGENY ARE POORLY UNDERSTOOD DETERMINANTS OF PATERNAL OBESITY-INDUCED TRANSMISSION. IN THIS REVIEW, WE SUMMARIZE AND DISCUSS THE DATA AVAILABLE IN THE LITERATURE REGARDING THE BIOLOGICAL, PHYSIOLOGICAL, AND MOLECULAR CONSEQUENCES OF PATERNAL OBESITY ON MALE FERTILITY POTENTIAL AND ULTIMATELY PROGENY HEALTH. 2017 2 6426 35 THE TRANSGENERATIONAL TRANSMISSION OF THE PATERNAL TYPE 2 DIABETES-INDUCED SUBFERTILITY PHENOTYPE. DIABETES IS A CHRONIC METABOLIC DISORDER CHARACTERIZED BY HYPERGLYCEMIA AND ASSOCIATED WITH MANY HEALTH COMPLICATIONS DUE TO THE LONG-TERM DAMAGE AND DYSFUNCTION OF VARIOUS ORGANS. A CONSEQUENTIAL COMPLICATION OF DIABETES IN MEN IS REPRODUCTIVE DYSFUNCTION, REDUCED FERTILITY, AND POOR REPRODUCTIVE OUTCOMES. HOWEVER, THE MOLECULAR MECHANISMS RESPONSIBLE FOR DIABETIC ENVIRONMENT-INDUCED SPERM DAMAGE AND OVERALL DECREASED REPRODUCTIVE OUTCOMES ARE NOT FULLY ESTABLISHED. WE EVALUATED THE EFFECTS OF TYPE 2 DIABETES EXPOSURE ON THE REPRODUCTIVE SYSTEM AND THE REPRODUCTIVE OUTCOMES OF MALES AND THEIR MALE OFFSPRING, USING A MOUSE MODEL. WE DEMONSTRATE THAT PATERNAL EXPOSURE TO TYPE 2 DIABETES MEDIATES INTERGENERATIONAL AND TRANSGENERATIONAL EFFECTS ON THE REPRODUCTIVE HEALTH OF THE OFFSPRING, ESPECIALLY ON SPERM QUALITY, AND ON METABOLIC CHARACTERISTICS. GIVEN THE TRANSGENERATIONAL IMPAIRMENT OF REPRODUCTIVE AND METABOLIC PARAMETERS THROUGH TWO GENERATIONS, THESE CHANGES LIKELY TAKE THE FORM OF INHERITED EPIGENETIC MARKS THROUGH THE GERMLINE. OUR RESULTS EMPHASIZE THE IMPORTANCE OF IMPROVING METABOLIC HEALTH NOT ONLY IN WOMEN OF REPRODUCTIVE AGE, BUT ALSO IN POTENTIAL FATHERS, IN ORDER TO REDUCE THE NEGATIVE IMPACTS OF DIABETES ON SUBSEQUENT GENERATIONS. 2021 3 4941 37 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 4 4496 35 MORE THAN GENES: THE ADVANCED FETAL PROGRAMMING HYPOTHESIS. MANY LINES OF DATA, INITIAL EPIDEMIOLOGIC STUDIES AS WELL AS SUBSEQUENT EXTENSIVE EXPERIMENTAL STUDIES, INDICATE THAT EARLY-LIFE EVENTS PLAY A POWERFUL ROLE IN INFLUENCING LATER SUCEPTIBILITY TO CERTAIN CHRONIC DISEASES. SUCH EVENTS MIGHT BE OVER- OR UNDERNUTRITION, EXPOSURE TO ENVIRONMENTAL TOXINS, BUT ALSO CHANGES IN HORMONES, IN PARTICULAR STRESS HORMONES. TYPICALLY, THOSE EVENTS ARE TRIGGERED BY THE ENVIRONMENTAL CHALLENGES OF THE MOTHER. HOWEVER, RECENT STUDIES HAVE SHOWN THAT PATERNAL ENVIRONMENTAL OR NUTRITIONAL FACTORS AFFECT THE PHENOTYPE OF THE OFFSPRING AS WELL. THE MATERNAL AND PATERNAL ENVIRONMENTAL FACTORS ACT ON THE PHENOTYPE OF THE OFFSPRING VIA EPIGENETIC MODIFICATION OF ITS GENOME. THE ADVANCED FETAL PROGRAMMING HYPOTHESIS PROPOSES AN ADDITIONAL NON-ENVIRONMENTALLY DRIVEN MECHANISM: MATERNAL AND ALSO PATERNAL GENES MAY INFLUENCE THE MATURATING SPERM, THE OOCYTE, AND LATER THE EMBRYO/FETUS, LEADING TO THEIR EPIGENETIC ALTERATION. THUS, THE OBSERVED PHENOTYPE OF THE OFFSPRING MAY BE ALTERED BY MATERNAL/PATERNAL GENES INDEPENDENT OF THE FETAL GENOME. MEANWHILE, SEVERAL INDEPENDENT ASSOCIATION STUDIES IN HUMANS DEALING WITH METABOLIC AND NEUROLOGICAL TRAITS ALSO SUGGEST THAT MATERNAL GENES MIGHT AFFECT THE OFFSPRING PHENOTYPE INDEPENDENT OF THE TRANSMISSION OF THAT PARTICULAR GENE TO THE OFFSPRING. CONSIDERING THE IMPLICATIONS OF THIS HYPOTHESIS, SOME CONCLUSIONS DRAWN FROM TRANSGENIC OR KNOCKOUT ANIMAL MODELS AND BASED ON THE CAUSALITY BETWEEN A GENETIC ALTERATION AND A PHENOTYPE, NEED TO BE CHALLENGED. POSSIBLE IMPLICATIONS FOR THE DEVELOPMENT, DIAGNOSTIC AND THERAPY OF HUMAN GENETIC DISEASES HAVE TO BE INVESTIGATED. 2014 5 4051 37 MALE OBESITY: EPIGENETIC ORIGIN AND EFFECTS IN SPERM AND OFFSPRING. PURPOSE OF REVIEW: THE PREVALENCE OF OBESITY HAS INCREASED SUBSTANTIALLY IN THE CURRENT GENERATIONS OF WESTERN COUNTRIES, AND THE BURDEN OF OBESITY-RELATED COMPLICATIONS HAS BEEN GROWING STEADILY. IN MEN, OBESITY IS NOT ONLY A MAJOR RISK FACTOR FOR SERIOUS CHRONIC DISEASES, CONCERN IS GROWING THAT THE REPRODUCTIVE CAPACITY, AND MORE PARTICULARLY, THEIR OFFSPRING'S HEALTH MAY BE AFFECTED. OBESITY-RELATED IMPAIRED SPERMATOGENESIS IS ASSOCIATED WITH A DECREASE IN MICROSCOPIC AND MOLECULAR SPERM CHARACTERISTICS AND PREGNANCY SUCCESS. WE HYPOTHESIZE THAT EPIGENETICS IS AN IMPORTANT MEDIATOR EXPLAINING INTERACTIONS BETWEEN AN OBESOGENIC ENVIRONMENT AND SPERM/OFFSPRING OUTCOMES. RECENT FINDINGS: RECENT STUDIES HAVE EXPLORED INTER- AND TRANSGENERATIONAL EPIGENETIC EFFECTS IN SPERM CELLS AND IN OFFSPRING. FATHER-TO-CHILD EFFECTS HAVE BEEN REPORTED IN RELATION TO PRECONCEPTIONAL NUTRITIONAL AND LIFE-STYLE RELATED FACTORS. SUMMARY: HERE, WE SUMMARIZE THE CURRENT UNDERSTANDING ABOUT OBESITY AND MOLECULAR OR EPIGENETIC UNDERLYING MECHANISMS IN SPERM. WE IDENTIFY THE OBESOGENIC ENVIRONMENT OF THE FATHER BEFORE CONCEPTION AS A POTENTIAL ORIGIN OF HEALTH OR DISEASE IN THE OFFSPRING AND INCLUDE IT AS PART OF A NEW CONCEPT, THE PATERNAL ORIGINS OF HEALTH AND DISEASE (POHAD). 2017 6 4011 30 LOW PATERNAL DIETARY FOLATE ALTERS THE MOUSE SPERM EPIGENOME AND IS ASSOCIATED WITH NEGATIVE PREGNANCY OUTCOMES. EPIDEMIOLOGICAL STUDIES SUGGEST THAT A FATHER'S DIET CAN INFLUENCE OFFSPRING HEALTH. A PROPOSED MECHANISM FOR PATERNAL TRANSMISSION OF ENVIRONMENTAL INFORMATION IS VIA THE SPERM EPIGENOME. THE EPIGENOME INCLUDES HERITABLE INFORMATION SUCH AS DNA METHYLATION. WE HYPOTHESIZE THAT THE DIETARY SUPPLY OF METHYL DONORS WILL ALTER EPIGENETIC REPROGRAMMING IN SPERM. HERE WE FEED MALE MICE EITHER A FOLATE-DEFICIENT OR FOLATE-SUFFICIENT DIET THROUGHOUT LIFE. PATERNAL FOLATE DEFICIENCY IS ASSOCIATED WITH INCREASED BIRTH DEFECTS IN THE OFFSPRING, WHICH INCLUDE CRANIOFACIAL AND MUSCULOSKELETAL MALFORMATIONS. GENOME-WIDE DNA METHYLATION ANALYSIS AND THE SUBSEQUENT FUNCTIONAL ANALYSIS IDENTIFY DIFFERENTIAL METHYLATION IN SPERM OF GENES IMPLICATED IN DEVELOPMENT, CHRONIC DISEASES SUCH AS CANCER, DIABETES, AUTISM AND SCHIZOPHRENIA. WHILE >300 GENES ARE DIFFERENTIALLY EXPRESSED IN OFFSPRING PLACENTA, ONLY TWO CORRESPOND TO GENES WITH DIFFERENTIAL METHYLATION IN SPERM. THIS MODEL SUGGESTS EPIGENETIC TRANSMISSION MAY INVOLVE SPERM HISTONE H3 METHYLATION OR DNA METHYLATION AND THAT ADEQUATE PATERNAL DIETARY FOLATE IS ESSENTIAL FOR OFFSPRING HEALTH. 2013 7 5578 37 ROLE OF MIRNA IN THE TRANSMISSION OF METABOLIC DISEASES ASSOCIATED WITH PATERNAL DIET-INDUCED OBESITY. THE CONCEPT OF DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASES (DOHAD) RECOGNIZES THAT AN UNFAVORABLE MATERNAL ENVIRONMENT ALTERS THE DEVELOPMENTAL TRAJECTORY OF THE FETUS AND CAN LEAD TO LONG-TERM RISK OF DEVELOPING CHRONIC NONCOMMUNICABLE DISEASES. MORE RECENTLY, THE CONCEPT OF A PATERNAL TRANSMISSION [PATERNAL ORIGINS OF HEALTH AND DISEASES (POHAD)] HAS EMERGED STRESSING THE IMPACT OF PATERNAL OVERWEIGHT OR OBESITY ON OFFSPRING'S HEALTH AND DEVELOPMENT. WHILE VERY FEW EXAMPLES OF PATERNAL EPIGENETIC INHERITANCE OF METABOLIC DISORDERS HAVE BEEN EVIDENCED IN HUMAN, MANY EXPERIMENTAL MOUSE MODELS BASED ON HIGH-FAT DIET (HFD)-INDUCED PATERNAL OBESITY HAVE BEEN DEVELOPED TO BREAKDOWN MOLECULAR MECHANISMS INVOLVED IN THE PROCESS. BESIDES DNA METHYLATION AND CHROMATIN STRUCTURE, SPERM SHORT NONCODING RNAS HAVE BEEN CONSIDERED AS THE MAIN EPIGENETIC VECTOR OF INHERITANCE OF PATERNALLY ENVIRONMENTALLY INDUCED CHANGES. AMONG THEM, SPERM MIRNAS ARE ONE PARTICULAR SUBSPECIES SENSITIVE TO ENVIRONMENTAL CHANGES AND OBESITY CAN MODIFY THE SPERM MIRNA PROFILE. ONCE DELIVERED INTO THE ZYGOTE, THESE MOLECULES MIGHT INDUCE EPIGENETIC MODIFICATIONS IN THE EMBRYO, THEREBY LEADING TO CONSEQUENCES FOR FETUS DEVELOPMENT AND OFFSPRING PHYSICAL AND METABOLIC HEALTH LATER ON IN LIFE. FURTHERMORE, SOME DATA ALSO SUGGEST THAT METABOLIC PATHOLOGIES MAY BE INTERGENERATIONALLY OR TRANSGENERATIONALLY TRANSMITTED. 2019 8 4803 28 OBESITY AND MALE INFERTILITY. THE WORLDWIDE PREVALENCE OF OBESITY IS INCREASING AMONG BOTH SEXES, WITH ASSOCIATED IMPACTS ON CHRONIC HEALTH AND MEDICAL COMORBIDITIES. SIMILARLY, THE EFFECTS OF OBESITY ON REPRODUCTIVE HEALTH ARE INCREASINGLY BEING RECOGNIZED. ADIPOSITY IS ASSOCIATED WITH REDUCED FERTILITY IN MEN, WITH A COMPLEX AND MULTIFACTORIAL ETIOLOGY. THE REPORTED EFFECTS OF OBESITY ON SEMEN PARAMETERS AND IMPAIRED FERTILITY ARE CONTRASTING, WITH SOME STUDIES SHOWING A CLEAR REDUCTION IN REPRODUCTIVE OUTCOMES ASSOCIATED WITH INCREASED BODY MASS INDEX, WHILE OTHERS DO NOT SHOW SUCH IMPACTS. THESE CONTROVERSIES MAY BE DUE TO THE COMPLEX PATHOPHYSIOLOGY AND INTERPLAY BETWEEN GONADOTROPINS AND END ORGANS, AS WELL AS GENETIC AND EPIGENETIC CHANGES AND OXIDATIVE STRESS ON MALE FERTILITY AND FUNCTION. THESE DIFFERENT ASPECTS HAVE LED TO HETEROGENEOUS PARTICIPANTS IN STUDIES AND VARYING IMPLICATIONS FOR ASSISTED REPRODUCTIVE OUTCOMES AS WELL AS OFFSPRING HEALTH. TREATMENT MODALITIES TO MANAGE OBESITY INCLUDE LIFESTYLE, MEDICAL, AND SURGICAL OPTIONS, WITH EMERGING AND EFFECTIVE MEDICAL TREATMENTS SHOWING PROMISE IN REPRODUCTIVE OUTCOMES. 2023 9 1371 32 DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE: NEW INSIGHTS. EPIDEMIOLOGICAL AND ANIMAL STUDIES SHOW THAT SMALL CHANGES IN THE DEVELOPMENTAL ENVIRONMENT CAN INDUCE PHENOTYPIC CHANGES AFFECTING AN INDIVIDUAL'S RESPONSES TO THEIR LATER ENVIRONMENT. THESE MAY ALTER THE RISK OF CHRONIC DISEASE SUCH AS METABOLIC SYNDROME OR CARDIOVASCULAR DISEASE. RECENT RESEARCH SHOWS THAT ANIMALS EXPOSED TO SUCH A MISMATCH BETWEEN PRENATAL AND POSTNATAL ENVIRONMENT DEVELOP OBESITY, REDUCED ACTIVITY, LEPTIN AND INSULIN RESISTANCE, ELEVATED BLOOD PRESSURE AND VASCULAR ENDOTHELIAL DYSFUNCTION. EPIGENETIC PROCESSES ARE INVOLVED IN SUCH EFFECTS, TARGETED TO PROMOTER REGIONS OF SPECIFIC GENES IN SPECIFIC TISSUES. SUCH FINE CONTROL OF GENE EXPRESSION SUGGESTS THAT THE MECHANISMS HAVE BEEN RETAINED THROUGH EVOLUTION THROUGH THEIR ADAPTIVE ADVANTAGE, RATHER THAN REPRESENTING EXTREME EFFECTS OF DEVELOPMENTAL DISRUPTION AKIN TO TERATOGENESIS. THERE MAY BE ADAPTIVE ADVANTAGE IN A DEVELOPMENTAL CUE INDUCING A PHENOTYPIC CHANGE IN GENERATIONS BEYOND THE IMMEDIATE PREGNANCY, AND A RANGE OF DATA THAT SUPPORT THIS CONCEPT. IN ANIMALS, EPIGENETIC EFFECTS SUCH AS DNA METHYLATION CAN BE PASSED TO SUCCESSIVE GENERATIONS. ENVIRONMENTAL TOXINS, INCLUDING ENDOCRINE DISRUPTORS, MAY INDUCE GREATER RISK OF CHRONIC DISEASE, EVEN AT LOW EXPOSURE LEVELS, IF THEY AFFECT SUCH NORMAL DEVELOPMENTAL EPIGENETIC PROCESSES. APPROPRIATE INTERVENTIONS MAY HAVE LONG-TERM MULTIGENERATIONAL EFFECTS TO REDUCE THE RISK OF CHRONIC DISEASE. 2008 10 4804 38 OBESITY AND MALE INFERTILITY: MECHANISMS AND MANAGEMENT. OBESITY IS CONSIDERED A GLOBAL HEALTH PROBLEM AFFECTING MORE THAN A THIRD OF THE POPULATION. COMPLICATIONS OF OBESITY INCLUDE CARDIOVASCULAR DISEASES, TYPE 2 DIABETES MELLITUS, MALIGNANCY (INCLUDING PROSTATIC CANCER), NEURODEGENERATION AND ACCELERATED AGEING. IN MALES, THESE FURTHER INCLUDE ERECTILE DYSFUNCTION, POOR SEMEN QUALITY AND SUBCLINICAL PROSTATITIS. ALTHOUGH POORLY UNDERSTOOD, IMPORTANT MEDIATORS OF OBESITY THAT MAY INFLUENCE THE MALE REPRODUCTIVE SYSTEM INCLUDE HYPERINSULINEMIA, HYPERLEPTINEMIA, CHRONIC INFLAMMATION AND OXIDATIVE STRESS. OBESITY IS KNOWN TO DISRUPT MALE FERTILITY AND THE REPRODUCTION POTENTIAL, PARTICULARLY THROUGH ALTERATION IN THE HYPOTHALAMIC-PITUITARY-GONADAL AXIS, DISRUPTION OF TESTICULAR STEROIDOGENESIS AND METABOLIC DYSREGULATION, INCLUDING INSULIN, CYTOKINES AND ADIPOKINES. IMPORTANTLY, OBESITY AND ITS UNDERLYING MEDIATORS RESULT IN A NEGATIVE IMPACT ON SEMEN PARAMETERS, INCLUDING SPERM CONCENTRATION, MOTILITY, VIABILITY AND NORMAL MORPHOLOGY. MOREOVER, OBESITY INHIBITS CHROMATIN CONDENSATION, DNA FRAGMENTATION, INCREASES APOPTOSIS AND EPIGENETIC CHANGES THAT CAN BE TRANSFERRED TO THE OFFSPRING. THIS REVIEW DISCUSSES THE IMPACT OF OBESITY ON THE MALE REPRODUCTIVE SYSTEM AND FERTILITY, INCLUDING ASSOCIATED MECHANISMS. FURTHERMORE, WEIGHT MANAGEMENT STRATEGIES, LIFESTYLE CHANGES, PRESCRIPTION MEDICATION, AND COMPLEMENTARY AND ALTERNATIVE MEDICINE IN THE MANAGEMENT OF OBESITY-INDUCED SUBFERTILITY IS DISCUSSED. 2021 11 4767 36 NUCLEAR AND MITOCHONDRIAL DNA ALTERATIONS IN NEWBORNS WITH PRENATAL EXPOSURE TO CIGARETTE SMOKE. NEWBORNS EXPOSED TO MATERNAL CIGARETTE SMOKE (CS) IN UTERO HAVE AN INCREASED RISK OF DEVELOPING CHRONIC DISEASES, CANCER, AND ACQUIRING DECREASED COGNITIVE FUNCTION IN ADULTHOOD. ALTHOUGH THE LITERATURE REPORTS MANY DELETERIOUS EFFECTS ASSOCIATED WITH MATERNAL CIGARETTE SMOKING ON THE FETUS, THE MOLECULAR ALTERATIONS AND MECHANISMS OF ACTION ARE NOT YET CLEAR. SMOKING MAY ACT DIRECTLY ON NUCLEAR DNA BY INDUCING MUTATIONS OR EPIGENETIC MODIFICATIONS. RECENT STUDIES ALSO INDICATE THAT SMOKING MAY ACT ON MITOCHONDRIAL DNA BY INDUCING A CHANGE IN THE NUMBER OF COPIES TO MAKE UP FOR THE DAMAGE CAUSED BY SMOKING ON THE RESPIRATORY CHAIN AND LACK OF ENERGY. IN ADDITION, INDIVIDUAL GENETIC SUSCEPTIBILITY PLAYS A SIGNIFICANT ROLE IN DETERMINING THE EFFECTS OF SMOKING DURING DEVELOPMENT. FURTHERMORE, PRIOR EXPOSURE OF PATERNAL AND MATERNAL GAMETES TO CIGARETTE SMOKE MAY AFFECT THE HEALTH OF THE DEVELOPING INDIVIDUAL, NOT ONLY THE IN UTERO EXPOSURE. THIS REVIEW EXAMINES THE GENETIC AND EPIGENETIC ALTERATIONS IN NUCLEAR AND MITOCHONDRIAL DNA ASSOCIATED WITH SMOKE EXPOSURE DURING THE MOST SENSITIVE PERIODS OF DEVELOPMENT (PRIOR TO CONCEPTION, PRENATAL AND EARLY POSTNATAL) AND ASSESSES HOW SUCH CHANGES MAY HAVE CONSEQUENCES FOR BOTH FETAL GROWTH AND DEVELOPMENT. 2015 12 1921 41 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 13 4468 38 MOLECULAR MECHANISMS UNDERLYING THE RELATIONSHIP BETWEEN OBESITY AND MALE INFERTILITY. IN RECENT DECADES, THE WORLDWIDE PREVALENCE OF OBESITY HAS RISEN DRAMATICALLY AND IS CURRENTLY ESTIMATED TO BE AROUND 20%. OBESITY IS LINKED TO AN INCREASED RISK OF COMORBIDITIES AND PREMATURE MORTALITY. SEVERAL STUDIES HAVE SHOWN THAT OBESITY NEGATIVELY IMPACTS MALE FERTILITY THROUGH VARIOUS MECHANISMS. THIS REVIEW AIMS TO INVESTIGATE THE MOLECULAR MECHANISMS THROUGH WHICH OBESITY IMPAIRS MALE REPRODUCTION, INCLUDING OBESITY-ASSOCIATED HYPOGONADISM AND ITS EFFECTS ON SPERMATOGENESIS, CHRONIC INFLAMMATION, AND OXIDATIVE STRESS. OBESITY NEGATIVELY IMPACTS BOTH CONVENTIONAL AND BIOFUNCTIONAL SPERM PARAMETERS, AND IT ALSO INDUCES EPIGENETIC CHANGES THAT CAN BE TRANSFERRED TO OFFSPRING. MOREOVER, OBESITY-RELATED DISEASES ARE LINKED TO A DYSREGULATION OF ADIPOCYTE FUNCTION AND MICRO-ENVIRONMENTAL INFLAMMATORY PROCESSES. THE DYSREGULATED ADIPOKINES SIGNIFICANTLY INFLUENCE INSULIN SIGNALING, AND THEY MAY ALSO HAVE A DETRIMENTAL EFFECT ON TESTICULAR FUNCTION. SIRTUINS CAN ALSO PLAY AN IMPORTANT ROLE IN INFLAMMATORY AND METABOLIC RESPONSES IN OBESE PATIENTS. UNDERSTANDING THE MOLECULAR MECHANISMS THAT ARE INVOLVED IN OBESITY-INDUCED MALE INFERTILITY COULD INCREASE OUR ABILITY TO IDENTIFY NOVEL TARGETS FOR THE PREVENTION AND TREATMENT OF OBESITY AND ITS RELATED CONSEQUENCES. 2021 14 6088 41 THE EFFECTS OF ASSISTED REPRODUCTION TECHNOLOGIES ON METABOLIC HEALTH AND DISEASEDAGGER. THE INCREASING PREVALENCE OF METABOLIC DISEASES PLACES A SUBSTANTIAL BURDEN ON HUMAN HEALTH THROUGHOUT THE WORLD. IT IS BELIEVED THAT PREDISPOSITION TO METABOLIC DISEASE STARTS EARLY IN LIFE, A PERIOD OF GREAT SUSCEPTIBILITY TO EPIGENETIC REPROGRAMMING DUE TO ENVIRONMENTAL INSULTS. ASSISTED REPRODUCTIVE TECHNOLOGIES (ART), I.E., TREATMENTS FOR INFERTILITY, MAY AFFECT EMBRYO DEVELOPMENT, RESULTING IN MULTIPLE ADVERSE HEALTH OUTCOMES IN POSTNATAL LIFE. THE MOST FREQUENTLY OBSERVED ALTERATION IN ART PREGNANCIES IS IMPAIRED PLACENTAL NUTRIENT TRANSFER. MOREOVER, CONSEQUENT INTRAUTERINE GROWTH RESTRICTION AND LOW BIRTH WEIGHT FOLLOWED BY CATCH-UP GROWTH CAN ALL PREDICT FUTURE OBESITY, INSULIN RESISTANCE, AND CHRONIC METABOLIC DISEASES. IN THIS REVIEW, WE HAVE FOCUSED ON EVIDENCE OF ADVERSE METABOLIC ALTERATIONS ASSOCIATED WITH ART, WHICH CAN CONTRIBUTE TO THE DEVELOPMENT OF CHRONIC ADULT-ONSET DISEASES, SUCH AS METABOLIC SYNDROME, TYPE 2 DIABETES, AND CARDIOVASCULAR DISEASE. DUE TO HIGH PHENOTYPIC PLASTICITY, ART PREGNANCIES CAN PRODUCE BOTH OFFSPRING WITH ADVERSE HEALTH OUTCOMES, AS WELL AS HEALTHY INDIVIDUALS. WE FURTHER DISCUSS THE SEX-SPECIFIC AND AGE-DEPENDENT METABOLIC ALTERATIONS REFLECTED IN ART OFFSPRING, AND HOW THE DEGREE OF INTERFERENCE OF A GIVEN ART PROCEDURE (FROM MILD TO MORE SEVERE MANIPULATION OF THE EGG) AFFECTS THE OCCURRENCE AND DEGREE OF OFFSPRING ALTERATIONS. OVER THE LAST FEW YEARS, STUDIES HAVE REPORTED SIGNS OF CARDIOMETABOLIC ALTERATIONS IN ART OFFSPRING THAT ARE DETECTABLE AT A YOUNG AGE BUT THAT DO NOT APPEAR TO CONSTITUTE A HIGH RISK OF DISEASE AND MORBIDITY PER SE. THESE ABNORMAL PHENOTYPES COULD BE EARLY INDICATORS OF THE DEVELOPMENT OF CHRONIC DISEASES, INCLUDING METABOLIC SYNDROME, IN ADULTHOOD. THE EARLY DETECTION OF METABOLIC ALTERATIONS COULD CONTRIBUTE TO PREVENTING THE ONSET OF DISEASE IN ADULTHOOD. SUCH EARLY INTERVENTIONS MAY COUNTERACT THE RISK FACTORS AND IMPROVE THE LONG-TERM HEALTH OF THE INDIVIDUAL. 2021 15 1801 33 EFFECT OF MATERNAL DIET ON THE EPIGENOME: IMPLICATIONS FOR HUMAN METABOLIC DISEASE. THE RAPID INCREASE IN THE INCIDENCE OF CHRONIC NON-COMMUNICABLE DISEASES OVER THE PAST TWO DECADES CANNOT BE EXPLAINED SOLELY BY GENETIC AND ADULT LIFESTYLE FACTORS. THERE IS NOW CONSIDERABLE EVIDENCE THAT THE FETAL AND EARLY POSTNATAL ENVIRONMENT ALSO STRONGLY INFLUENCES THE RISK OF DEVELOPING SUCH DISEASES IN LATER LIFE. HUMAN STUDIES HAVE SHOWN THAT LOW BIRTH WEIGHT IS ASSOCIATED WITH AN INCREASED RISK OF CVD, TYPE II DIABETES, OBESITY AND HYPERTENSION, ALTHOUGH RECENT STUDIES HAVE SHOWN THAT OVER-NUTRITION IN EARLY LIFE CAN ALSO INCREASE SUSCEPTIBILITY TO FUTURE METABOLIC DISEASE. THESE FINDINGS HAVE BEEN REPLICATED IN A VARIETY OF ANIMAL MODELS, WHICH HAVE SHOWN THAT BOTH MATERNAL UNDER- AND OVER-NUTRITION CAN INDUCE PERSISTENT CHANGES IN GENE EXPRESSION AND METABOLISM WITHIN THE OFFSPRING. THE MECHANISM BY WHICH THE MATERNAL NUTRITIONAL ENVIRONMENT INDUCES SUCH CHANGES IS BEGINNING TO BE UNDERSTOOD AND INVOLVES THE ALTERED EPIGENETIC REGULATION OF SPECIFIC GENES. THE DEMONSTRATION OF A ROLE FOR ALTERED EPIGENETIC REGULATION OF GENES IN THE DEVELOPMENTAL INDUCTION OF CHRONIC DISEASES RAISES THE POSSIBILITY THAT NUTRITIONAL OR PHARMACEUTICAL INTERVENTIONS MAY BE USED TO MODIFY LONG-TERM CARDIO-METABOLIC DISEASE RISK AND COMBAT THIS RAPID RISE IN CHRONIC NON-COMMUNICABLE DISEASES. 2011 16 3848 26 IS EPIGENETICS AN IMPORTANT LINK BETWEEN EARLY LIFE EVENTS AND ADULT DISEASE? BACKGROUND: EPIGENETIC MECHANISMS PROVIDE ONE POTENTIAL EXPLANATION FOR HOW ENVIRONMENTAL INFLUENCES IN EARLY LIFE CAUSE LONG-TERM CHANGES IN CHRONIC DISEASE SUSCEPTIBILITY. WHEREAS EPIGENETIC DYSREGULATION IS INCREASINGLY IMPLICATED IN VARIOUS RARE DEVELOPMENTAL SYNDROMES AND CANCER, THE ROLE OF EPIGENETICS IN COMPLEX CHRONIC DISEASES, SUCH AS CARDIOVASCULAR DISEASE, TYPE 2 DIABETES AND OBESITY, REMAINS LARGELY UNCHARACTERIZED. EXTENSIVE WORK IN ANIMAL MODELS IS REQUIRED TO DEVELOP SPECIFIC HYPOTHESES THAT CAN BE PRACTICABLY TESTED IN HUMANS. ANIMAL MODELS: WE HAVE DEVELOPED A MOUSE MODEL SHOWING THAT METHYL DONOR SUPPLEMENTATION PREVENTS TRANSGENERATIONAL AMPLIFICATION OF OBESITY, SUGGESTING A ROLE FOR DNA METHYLATION IN THE DEVELOPMENTAL ESTABLISHMENT OF BODY WEIGHT REGULATION. CONCLUSIONS: COUPLING SUCH MODELS WITH RECENTLY DEVELOPED EPIGENOMIC TECHNOLOGIES SHOULD ULTIMATELY ENABLE US TO DETERMINE IF EPIGENETICS IS AN IMPORTANT LINK BETWEEN EARLY LIFE EVENTS AND ADULT DISEASE. 2009 17 6234 35 THE LONG-TERM EFFECTS OF PRENATAL DEVELOPMENT ON GROWTH AND METABOLISM. PEOPLE WHO WERE SMALL AT BIRTH AND HAD POOR INFANT GROWTH HAVE AN INCREASED RISK OF ADULT CARDIOVASCULAR DISEASE, OSTEOPOROSIS, AND TYPE 2 DIABETES, PARTICULARLY IF THEIR RESTRICTED EARLY GROWTH WAS FOLLOWED BY INCREASED CHILDHOOD WEIGHT GAIN. THESE RELATIONS EXTEND ACROSS THE NORMAL RANGE OF BIRTH SIZE IN A GRADED MANNER, SO REDUCED SIZE IS NOT A PREREQUISITE. IN ADDITION, LARGER BIRTH SIZE IS ASSOCIATED WITH RISKS OF OBESITY AND TYPE 2 DIABETES. THE ASSOCIATIONS APPEAR TO REFLECT DEVELOPMENTAL PLASTIC RESPONSES MADE BY THE FETUS AND INFANT BASED ON CUES ABOUT THE ENVIRONMENT, INFLUENCED BY MATERNAL CHARACTERISTICS INCLUDING DIET, BODY COMPOSITION, STRESS, AND EXERCISE LEVELS. THESE RESPONSES INVOLVE EPIGENETIC PROCESSES THAT MODIFY THE OFFSPRING'S PHENOTYPE. VULNERABILITY TO ILL HEALTH RESULTS IF THE ENVIRONMENT IN INFANCY, CHILDHOOD, AND LATER LIFE IS MISMATCHED TO THE PHENOTYPE INDUCED IN DEVELOPMENT, INFORMED BY THE DEVELOPMENTAL CUES. THIS MISMATCH MAY ARISE THROUGH UNBALANCED DIET OR BODY COMPOSITION OF THE MOTHER OR A CHANGE IN LIFESTYLE FACTORS BETWEEN GENERATIONS. THESE INSIGHTS OFFER NEW POSSIBILITIES FOR THE EARLY DIAGNOSIS AND PREVENTION OF CHRONIC DISEASE. 2011 18 2274 27 EPIGENETIC REGULATION AND FETAL PROGRAMMING. FETAL PROGRAMMING ENCOMPASSES THE ROLE OF DEVELOPMENTAL PLASTICITY IN RESPONSE TO ENVIRONMENTAL AND NUTRITIONAL SIGNALS DURING EARLY LIFE AND ITS POTENTIAL ADVERSE CONSEQUENCES (RISK OF CARDIOVASCULAR, METABOLIC AND BEHAVIOURAL DISEASES) IN LATER LIFE. THE FIRST STUDIES IN THIS FIELD HIGHLIGHTED AN ASSOCIATION BETWEEN POOR FETAL GROWTH AND CHRONIC ADULT DISEASES. HOWEVER, ENVIRONMENTAL SIGNALS DURING EARLY LIFE MAY LEAD TO ADVERSE LONG-TERM EFFECTS INDEPENDENTLY OF OBVIOUS EFFECTS ON FETAL GROWTH. ADVERSE LONG-TERM EFFECTS REFLECT A MISMATCH BETWEEN EARLY (FETAL AND NEONATAL) ENVIRONMENTAL CONDITIONS AND THE CONDITIONS THAT THE INDIVIDUAL WILL CONFRONT LATER IN LIFE. THE MECHANISMS UNDERLYING THIS RISK REMAIN UNCLEAR. HOWEVER, EXPERIMENTAL DATA IN RODENTS AND RECENT OBSERVATIONS IN HUMANS SUGGEST THAT EPIGENETIC CHANGES IN REGULATORY GENES AND GROWTH-RELATED GENES PLAY A SIGNIFICANT ROLE IN FETAL PROGRAMMING. IMPROVEMENTS IN OUR UNDERSTANDING OF THE BIOCHEMICAL AND MOLECULAR MECHANISMS AT PLAY IN FETAL PROGRAMMING WOULD MAKE IT POSSIBLE TO IDENTIFY BIOMARKERS FOR DETECTING INFANTS AT HIGH RISK OF ADULT-ONSET DISEASES. SUCH IMPROVEMENTS SHOULD ALSO LEAD TO THE DEVELOPMENT OF PREVENTIVE AND THERAPEUTIC STRATEGIES. 2008 19 3582 26 IMPACT OF PRENATAL AND EARLY LIFE ENVIRONMENTAL EXPOSURES ON NORMAL HUMAN DEVELOPMENT. THE GLOBAL BURDEN AND PATTERN OF DISEASE HAS CHANGED IN RECENT DECADES, WITH FEWER EARLY CHILDHOOD DEATHS AND LONGER LIVES COMPLICATED BY CHRONIC DISEASE. DISRUPTION OF NORMAL HUMAN GROWTH AND DEVELOPMENT BY ADVERSE ENVIRONMENTAL EXPOSURES, ESPECIALLY DURING FOETAL DEVELOPMENT AND EARLY POSTNATAL LIFE INCREASE LIFE-LONG RISK OF CHRONIC DISEASE. THE DEVELOPMENTAL TIMING AND METHOD OF ADVERSE EXPOSURE DETERMINES THE LIKELY IMPACT ON HEALTH AND DEVELOPMENT. WHILE MANY ORGAN SYSTEMS ARE STRUCTURALLY AND FUNCTIONALLY MATURE AT BIRTH, THE CNS, RESPIRATORY AND IMMUNE SYSTEMS ARE NOT AND UNDERGO PROLONGED PERIODS OF POSTNATAL GROWTH AND DEVELOPMENT. AS SUCH, THESE ORGAN SYSTEMS ARE VULNERABLE TO ADVERSE EFFECTS OF BOTH PRENATAL AND POSTNATAL ENVIRONMENTAL EXPOSURES. WHILE THE PRECISE MECHANISMS UNDERLYING CHRONIC DISEASE ARE UNKNOWN, EPIGENETIC MECHANISMS AND THE INDUCTION OF OXIDATIVE STRESS ARE LIKELY TO BE INVOLVED. AN UNDERSTANDING OF THESE PROCESSES IS NECESSARY TO DEVELOP MITIGATION STRATEGIES AIMED AT REDUCING CHRONIC DISEASE PREVALENCE. 2021 20 5167 38 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