1 4444 144 MOLECULAR LINKS BETWEEN ALCOHOL AND TOBACCO INDUCED DNA DAMAGE, GENE POLYMORPHISMS AND PATHO-PHYSIOLOGICAL CONSEQUENCES: A SYSTEMATIC REVIEW OF HEPATIC CARCINOGENESIS. CHRONIC ALCOHOL AND TOBACCO ABUSE PLAYS A CRUCIAL ROLE IN THE DEVELOPMENT OF DIFFERENT LIVER ASSOCIATED DISORDERS. INTAKE PROMOTES THE GENERATION OF REACTIVE OXYGEN SPECIES WITHIN HEPATIC CELLS EXPOSING THEIR DNA TO CONTINUOUS OXIDATIVE STRESS WHICH FINALLY LEADS TO DNA DAMAGE. HOWEVER IN RESPONSE TO SUCH DAMAGE AN ENTANGLED PROTECTIVE REPAIR MACHINERY COMPRISING DIFFERENT REPAIR PROTEINS LIKE ATM, ATR, H2AX, MRN COMPLEX BECOMES ACTIVATED. UNDER ABNORMAL CONDITIONS THE EXCESSIVE REACTIVE OXYGEN SPECIES GENERATION RESULTS IN GENETIC PREDISPOSITION OF VARIOUS GENES (AS ADH, ALDH, CYP2E1, GSTT1, GSTP1 AND GSTM1) INVOLVED IN XENOBIOTIC METABOLIC PATHWAYS, ASSOCIATED WITH SUSCEPTIBILITY TO DIFFERENT LIVER RELATED DISEASES SUCH AS FIBROSIS, CIRRHOSIS AND HEPATOCELLULAR CARCINOMA. THERE IS INCREASING EVIDENCE THAT THE INFLAMMATORY PROCESS IS INHERENTLY ASSOCIATED WITH MANY DIFFERENT CANCER TYPES, INCLUDING HEPATOCELLULAR CARCINOMAS. THE GENERATED REACTIVE OXYGEN SPECIES CAN ALSO ACTIVATE OR REPRESS EPIGENETIC ELEMENTS SUCH AS CHROMATIN REMODELING, NON-CODING RNAS (MICRO-RNAS), DNA (DE) METHYLATION AND HISTONE MODIFICATION THAT AFFECT GENE EXPRESSION, HENCE LEADING TO VARIOUS DISORDERS. THE PRESENT REVIEW PROVIDES COMPREHENSIVE KNOWLEDGE OF DIFFERENT MOLECULAR MECHANISMS INVOLVED IN GENE POLYMORPHISM AND THEIR POSSIBLE ASSOCIATION WITH ALCOHOL AND TOBACCO CONSUMPTION. THE ARTICLE ALSO SHOWCASES THE NECESSITY OF IDENTIFYING NOVEL DIAGNOSTIC BIOMARKERS FOR EARLY CANCER RISK ASSESSMENT AMONG ALCOHOL AND TOBACCO USERS. 2015 2 3971 31 LONG-LASTING NEUROTOXIC EFFECTS OF EXPOSURE TO METHYLMERCURY DURING DEVELOPMENT. AMONGST ENVIRONMENTAL CHEMICAL CONTAMINANTS, METHYLMERCURY (MEHG) REMAINS A MAJOR CONCERN BECAUSE OF ITS DETRIMENTAL EFFECTS ON DEVELOPING ORGANISMS, WHICH APPEAR TO BE PARTICULARLY SUSCEPTIBLE TO ITS TOXICITY. HERE, WE INVESTIGATED THE EFFECTS OF LOW MEHG LEVELS ON THE DEVELOPMENT OF THE NERVOUS SYSTEM USING BOTH IN VITRO AND IN VIVO EXPERIMENTAL MODELS. IN NEURAL STEM CELLS (NSCS), MEHG DECREASED PROLIFERATION AND NEURONAL DIFFERENTIATION AND INDUCED CELLULAR SENESCENCE ASSOCIATED WITH IMPAIRMENT IN MITOCHONDRIAL FUNCTION AND A CONCOMITANT DECREASE IN GLOBAL DNA METHYLATION. INTERESTINGLY, THE EFFECTS WERE HERITABLE AND COULD BE OBSERVED IN DAUGHTER NSCS NEVER DIRECTLY EXPOSED TO MEHG. BY CHRONICALLY EXPOSING PREGNANT/LACTATING MICE TO MEHG, WE FOUND PERSISTENT BEHAVIOURAL CHANGES IN THE MALE OFFSPRING, WHICH EXHIBITED DEPRESSION-LIKE BEHAVIOUR THAT COULD BE REVERSED BY CHRONIC TREATMENT WITH THE ANTIDEPRESSANT FLUOXETINE. THE BEHAVIOURAL ALTERATIONS WERE ASSOCIATED WITH A DECREASED NUMBER OF PROLIFERATING CELLS AND LOWER EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) MRNA IN THE HIPPOCAMPAL DENTATE GYRUS. MEHG EXPOSURE ALSO INDUCED LONG-LASTING DNA HYPERMETHYLATION, INCREASED HISTONE H3-K27 TRI-METHYLATION AND DECREASED H3 ACETYLATION AT THE BDNF PROMOTER IV, INDICATING THAT EPIGENETIC MECHANISMS PLAY A CRITICAL ROLE IN MEDIATING THE LONG-LASTING EFFECTS OF PERINATAL EXPOSURE TO MEHG. FLUOXETINE TREATMENT RESTORED THE BDNF MRNA EXPRESSION LEVELS, AS WELL AS THE NUMBER OF PROLIFERATING CELLS IN THE GRANULE CELL LAYER OF THE DENTATE GYRUS, WHICH FURTHER SUPPORTS THE HYPOTHESIS THAT LINKS DEPRESSION TO IMPAIRED NEUROGENESIS. ALTOGETHER, OUR FINDINGS HAVE SHOWN THAT LOW CONCENTRATIONS OF MEHG INDUCE LONG-LASTING EFFECTS IN NSCS THAT CAN POTENTIALLY PREDISPOSE INDIVIDUALS TO DEPRESSION, WHICH WE HAVE REPORTED EARLIER TO OCCUR IN EXPERIMENTAL ANIMALS EXPOSED TO MEHG DURING PRENATAL AND EARLY POSTNATAL DEVELOPMENT. 2013 3 3397 34 HOW ADVANCED ARE WE ON THE CONSEQUENCES OF ORAL EXPOSURE TO FOOD CONTAMINANTS ON THE OCCURRENCE OF CHRONIC NON COMMUNICABLE DISEASES? THE DEVELOPMENT OF AN INDIVIDUAL DURING FETAL LIFE AND CHILDHOOD IS CHARACTERIZED BY RAPID GROWTH AS WELL AS GRADUAL MATURATION OF ORGANS AND SYSTEMS. BEYOND THE NUTRITIONAL INTAKE IN ESSENTIAL NUTRIENTS, FOOD CONTAMINANTS CAN PERMANENTLY INFLUENCE THE WAY ORGANS MATURE AND FUNCTION. THESE PROCESSES ARE CALLED "PROGRAMMING" AND PLAY AN ESSENTIAL ROLE IN THE OCCURRENCE OF NON-COMMUNICABLE CHRONIC DISEASES THROUGHOUT THE LIFESPAN. POPULATIONS AS PREGNANT WOMEN, FETUSES AND YOUNG CHILDREN ARE VULNERABLE AND PARTICULARLY SENSITIVE TO FOOD CONTAMINANTS WHICH CAN INDUCE EPIGENETIC MODIFICATIONS TRANSMISSIBLE TO FUTURE GENERATIONS. AMONG THESE CONTAMINANTS, PESTICIDES ARE FOUND IN MOST FOOD MATRICES EXPOSING HUMANS TO COCKTAILS OF MOLECULES THROUGH VARIABLE CONCENTRATIONS AND DURATION OF EXPOSURE. THE MAILLARD REACTION PRODUCTS (MRPS) REPRESENT OTHER FOOD CONTAMINANTS RESULTING FROM HEAT TREATMENT OF FOOD. MODERN DIET, RICH IN FATS AND SUGARS, IS ALSO RICH IN NEOFORMED PATHOGENIC COMPOUNDS, ADVANCED GLYCATION END PRODUCTS (AGES), THE LEVELS OF WHICH DEPEND ON THE HEAT TREATMENT OF FOODS AND EATING HABITS AND WHOSE EFFECTS ON HEALTH ARE CONTROVERSIAL. IN THIS REVIEW, WE HAVE CHOSEN TO PRESENT THE CURRENT KNOWLEDGE ON THE IMPACTS OF SELECTED PESTICIDES AND MRPS, ON THE RISK OF DEVELOPING DURING LIFE NON-COMMUNICABLE CHRONIC DISEASES SUCH AS IBD, METABOLIC DISORDERS OR ALLERGIES. A LARGE REVIEW OF LITERATURE WAS PERFORMED VIA PUBMED, AND THE MOST APPROPRIATE STUDIES WERE SUMMARISED. 2022 4 930 31 CHRONIC IRRADIATION OF HUMAN CELLS REDUCES HISTONE LEVELS AND DEREGULATES GENE EXPRESSION. OVER THE PAST DECADES, THERE HAVE BEEN HUGE ADVANCES IN UNDERSTANDING CELLULAR RESPONSES TO IONISING RADIATION (IR) AND DNA DAMAGE. THESE STUDIES, HOWEVER, WERE MOSTLY EXECUTED WITH CELL LINES AND MICE USING SINGLE OR MULTIPLE ACUTE DOSES OF RADIATION. HENCE, RELATIVELY LITTLE IS KNOWN ABOUT HOW CONTINUOUS EXPOSURE TO LOW DOSE IONISING RADIATION AFFECTS NORMAL CELLS AND ORGANISMS, EVEN THOUGH OUR CELLS ARE CONSTANTLY EXPOSED TO LOW LEVELS OF RADIATION. WE ADDRESSED THIS ISSUE BY EXAMINING THE CONSEQUENCES OF EXPOSING HUMAN PRIMARY CELLS TO CONTINUOUS IONISING GAMMA-RADIATION DELIVERED AT 6-20 MGY/H. ALTHOUGH THESE DOSE RATES ARE ESTIMATED TO INFLICT FEWER THAN A SINGLE DNA DOUBLE-STRAND BREAK (DSB) PER HOUR PER CELL, THEY STILL CAUSED DOSE-DEPENDENT REDUCTIONS IN CELL PROLIFERATION AND INCREASED CELLULAR SENESCENCE. WE CONCOMITANTLY OBSERVED HISTONE PROTEIN LEVELS TO REDUCE BY UP TO 40%, WHICH IN CONTRAST TO PREVIOUS OBSERVATIONS, WAS NOT MAINLY DUE TO PROTEIN DEGRADATION BUT INSTEAD CORRELATED WITH REDUCED HISTONE GENE EXPRESSION. HISTONE REDUCTIONS WERE ACCOMPANIED BY ENLARGED NUCLEAR SIZE PARALLELED BY AN INCREASE IN GLOBAL TRANSCRIPTION, INCLUDING THAT OF PRO-INFLAMMATORY GENES. THUS, CHRONIC IRRADIATION, EVEN AT LOW DOSE-RATES, CAN INDUCE CELL SENESCENCE AND ALTER GENE EXPRESSION VIA A HITHERTO UNCHARACTERISED EPIGENETIC ROUTE. THESE FEATURES OF CHRONIC RADIATION REPRESENT A NEW ASPECT OF RADIATION BIOLOGY. 2020 5 5209 36 PRENATAL XENOBIOTIC EXPOSURE AND INTRAUTERINE HYPOTHALAMUS-PITUITARY-ADRENAL AXIS PROGRAMMING ALTERATION. THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS IS ONE OF THE MOST IMPORTANT NEUROENDOCRINE AXES AND PLAYS AN IMPORTANT ROLE IN STRESS DEFENSE RESPONSES BEFORE AND AFTER BIRTH. PRENATAL EXPOSURE TO XENOBIOTICS, INCLUDING ENVIRONMENTAL TOXINS (SUCH AS SMOKE, SULFUR DIOXIDE AND CARBON MONOXIDE), DRUGS (SUCH AS SYNTHETIC GLUCOCORTICOIDS), AND FOODS AND BEVERAGE CATEGORIES (SUCH AS ETHANOL AND CAFFEINE), AFFECTS FETAL DEVELOPMENT INDIRECTLY BY CHANGING THE MATERNAL STATUS OR DAMAGING THE PLACENTA. CERTAIN XENOBIOTICS (SUCH AS CAFFEINE, ETHANOL AND DEXAMETHASONE) MAY ALSO AFFECT THE FETUS DIRECTLY BY CROSSING THE PLACENTA INTO THE FETUS DUE TO THEIR LIPOPHILIC PROPERTIES AND LOWER MOLECULAR WEIGHTS. ALL OF THESE FACTORS PROBABLY RESULT IN INTRAUTERINE PROGRAMMING ALTERATION OF THE HPA AXIS, WHICH SHOWED A LOW BASAL ACTIVITY BUT HYPERSENSITIVITY TO CHRONIC STRESS. THESE ALTERATIONS WILL, THEREFORE, INCREASE THE SUSCEPTIBILITY TO ADULT NEUROPSYCHIATRIC (SUCH AS DEPRESSION AND SCHIZOPHRENIA) AND METABOLIC DISEASES (SUCH AS HYPERTENSION, DIABETES AND NON-ALCOHOLIC FATTY LIVER DISEASE). THE "OVER-EXPOSURE OF FETUSES TO MATERNAL GLUCOCORTICOIDS" MAY BE THE MAIN INITIATION FACTOR BY WHICH THE FETAL HPA AXIS PROGRAMMING IS ALTERED. MEANTIME, XENOBIOTICS CAN DIRECTLY INDUCE ABNORMAL EPIGENETIC MODIFICATIONS AND EXPRESSION ON THE IMPORTANT FETAL GENES (SUCH AS HIPPOCAMPAL GLUCOCORTICOID RECEPTOR, ADRENAL STEROIDOGENIC ACUTE REGULATORY PROTEIN, ET AL) OR DAMAGE BY IN SITU OXIDATIVE METABOLISM OF FETAL ADRENALS, WHICH MAY ALSO BE CONTRIBUTED TO THE PROGRAMMING ALTERATION OF FETAL HPA AXIS. 2014 6 5158 23 PRE-REPRODUCTIVE STRESS AND FLUOXETINE TREATMENT IN RATS AFFECT OFFSPRING A-TO-I RNA EDITING, GENE EXPRESSION AND SOCIAL BEHAVIOR. ADENOSINE TO INOSINE RNA EDITING IS AN EPIGENETIC PROCESS THAT ENTAILS SITE-SPECIFIC MODIFICATIONS IN DOUBLE-STRANDED RNA MOLECULES, CATALYZED BY ADENOSINE DEAMINASES ACTING ON RNA (ADARS). USING THE MULTIPLEX MICROFLUIDIC PCR AND DEEP SEQUENCING TECHNIQUE, WE RECENTLY SHOWED THAT EXPOSING ADOLESCENT FEMALE RATS TO CHRONIC UNPREDICTABLE STRESS BEFORE REPRODUCTION AFFECTS EDITING IN THE PREFRONTAL CORTEX AND AMYGDALA OF THEIR NEWBORN OFFSPRING, PARTICULARLY AT THE SEROTONIN RECEPTOR 5-HT2C (ENCODED BY HTR2C). HERE, WE USED THE SAME TECHNIQUE TO DETERMINE WHETHER POST-STRESS, PRE-REPRODUCTIVE MATERNAL TREATMENT WITH FLUOXETINE (5 MG/KG, 7 DAYS) REVERSES THE EFFECTS OF STRESS ON EDITING. WE ALSO EXAMINED THE MRNA EXPRESSION OF ADAR ENZYMES IN THESE REGIONS, AND ASKED WHETHER SOCIAL BEHAVIOR IN ADULT OFFSPRING WOULD BE ALTERED BY MATERNAL EXPOSURE TO STRESS AND/OR FLUOXETINE. MATERNAL TREATMENT WITH FLUOXETINE ALTERED HTR2C EDITING IN OFFSPRING AMYGDALA AT BIRTH, ENHANCED THE EXPRESSION OF HTR2C MRNA AND RNA EDITING ENZYMES IN THE PREFRONTAL CORTEX, AND REVERSED THE EFFECTS OF PRE-REPRODUCTIVE STRESS ON HTR2C EDITING IN THIS REGION. FURTHERMORE, MATERNAL FLUOXETINE TREATMENT ENHANCED DIFFERENCES IN EDITING OF GLUTAMATE RECEPTORS BETWEEN OFFSPRING OF CONTROL AND STRESS-EXPOSED RATS, AND LED TO ENHANCED SOCIAL PREFERENCE IN ADULT OFFSPRING. OUR FINDINGS INDICATE THAT PRE-GESTATIONAL FLUOXETINE TREATMENT AFFECTS PATTERNS OF RNA EDITING AND EDITING ENZYME EXPRESSION IN NEONATAL OFFSPRING BRAIN IN A REGION-SPECIFIC MANNER, IN INTERACTION WITH PRE-REPRODUCTIVE STRESS. OVERALL, THESE FINDINGS IMPLY THAT FLUOXETINE TREATMENT AFFECTS SEROTONERGIC SIGNALING IN OFFSPRING BRAIN EVEN WHEN TREATMENT IS DISCONTINUED BEFORE GESTATION, AND ITS EFFECTS MAY DEPEND UPON PRIOR EXPOSURE TO STRESS. 2018 7 3984 35 LONG-TERM IMPACT OF MATERNAL HIGH-FAT DIET ON OFFSPRING CARDIAC HEALTH: ROLE OF MICRO-RNA BIOGENESIS. HEART FAILURE IS A WORLDWIDE LEADING CAUSE OF DEATH. DIET AND OBESITY ARE PARTICULARLY OF HIGH CONCERN IN HEART DISEASE ETIOLOGY. GRAVELY, ALTERED NUTRITION DURING DEVELOPMENTAL WINDOWS OF VULNERABILITY CAN HAVE LONG-TERM IMPACT ON HEART HEALTH; HOWEVER, THE UNDERLYING MECHANISMS ARE POORLY UNDERSTOOD. IN THE UNDERSTANDING OF THE INITIATION OF CHRONIC DISEASES RELATED TO DEVELOPMENTAL EXPOSURE TO ENVIRONMENTAL CHALLENGES, DEREGULATIONS IN EPIGENETIC MECHANISMS INCLUDING MICRO-RNAS HAVE BEEN PROPOSED AS KEY EVENTS. IN THIS CONTEXT, WE AIMED AT DELINEATING THE ROLE OF MICRO-RNAS IN THE PROGRAMMING OF CARDIAC ALTERATIONS INDUCED BY EARLY DEVELOPMENTAL EXPOSURE TO NUTRITIONAL IMBALANCE. TO REACH OUR AIM, WE DEVELOPED A HUMAN RELEVANT MODEL OF DEVELOPMENTAL EXPOSURE TO NUTRITIONAL IMBALANCE BY MATERNALLY EXPOSING RAT TO HIGH-FAT DIET DURING GESTATION AND LACTATION. IN THIS MODEL, OFFSPRING EXPOSED TO MATERNAL HIGH-FAT DIET DEVELOPED CARDIAC HYPERTROPHY AND INCREASED EXTRACELLULAR MATRIX DEPOT COMPARED TO THOSE EXPOSED TO CHOW DIET. MICROARRAY APPROACH PERFORMED ON CARDIAC TISSUE ALLOWED THE IDENTIFICATION OF A MICRO-RNA SUBSET WHICH WAS DOWN-REGULATED IN HIGH-FAT DIET-EXPOSED ANIMALS AND WHICH WERE PREDICTED TO REGULATE TRANSFORMING GROWTH FACTOR-BETA (TGFBETA)-MEDIATED REMODELING. AS INDICATED BY IN VITRO APPROACHES AND GENE EXPRESSION MEASUREMENT IN THE HEART OF OUR ANIMALS, DECREASE IN DIGEORGE CRITICAL REGION 8 (DGCR8) EXPRESSION, INVOLVED IN MICRO-RNA BIOGENESIS, SEEMS TO BE A CRITICAL POINT IN THE ALTERATIONS OF THE MICRO-RNA PROFILE AND THE TGFBETA-MEDIATED REMODELING INDUCED BY MATERNAL EXPOSURE TO HIGH-FAT DIET. FINALLY, INCREASING DGCR8 ACTIVITY AND/OR EXPRESSION THROUGH HEMIN TREATMENT IN VITRO REVEALED ITS POTENTIAL IN THE RESCUE OF THE PRO-FIBROTIC PHENOTYPE IN CARDIOMYOCYTES DRIVEN BY DGCR8 DECREASE. THESE FINDINGS SUGGEST THAT CARDIAC ALTERATIONS INDUCED BY MATERNAL EXPOSURE TO HIGH-FAT DIET IS RELATED TO ABNORMALITIES IN TGFBETA PATHWAY AND ASSOCIATED WITH DOWN-REGULATED MICRO-RNA PROCESSING. OUR STUDY HIGHLIGHTED DGCR8 AS A POTENTIAL THERAPEUTIC TARGET FOR HEART DISEASES RELATED TO EARLY EXPOSURE TO DIETARY CHALLENGE. 2019 8 5197 26 PRENATAL GLUCOCORTICOIDS EXPOSURE AND FETAL ADRENAL DEVELOPMENTAL PROGRAMMING. CLINICALLY, WE APPLY SYNTHETIC GLUCOCORTICOIDS TO TREAT FETAL AND MATERNAL DISEASES, SUCH AS PREMATURE LABOR AND AUTOIMMUNE DISEASES. ALTHOUGH ITS CLINICAL EFFICACY IS POSITIVE, THE FETUS WILL BE EXPOSED TO EXOGENOUS SYNTHETIC GLUCOCORTICOIDS. PRENATAL ADVERSE ENVIRONMENTS (SUCH AS XENOBIOTICS EXPOSURE, MALNUTRITION, INFECTION, HYPOXIA AND STRESS) CAN CAUSE FETUSES OVEREXPOSURE TO EXCESSIVE ENDOGENOUS MATERNAL GLUCOCORTICOIDS. THE LEVEL OF GLUCOCORTICOIDS IS THE KEY TO FETAL TISSUE MATURATION AND POSTNATAL FATE. A LARGE NUMBER OF STUDIES HAVE FOUND THAT PRENATAL GLUCOCORTICOIDS EXPOSURE CAN LEAD TO FETAL ADRENAL DYSPLASIA AND DYSFUNCTION, CONTINUING AFTER BIRTH AND EVEN INTO ADULTHOOD. AS THE CORE ORGAN OF FETAL-ORIGINATED ADULT DISEASES, FETAL ADRENAL DYSPLASIA IS CLOSELY RELATED TO THE SUSCEPTIBILITY AND OCCURRENCE OF MULTIPLE CHRONIC DISEASES, AND THERE ARE ALSO OBVIOUS GENDER DIFFERENCES. HOWEVER, ITS INTRAUTERINE PROGRAMMING MECHANISMS HAVE NOT BEEN FULLY ELUCIDATED. THIS REVIEW SUMMARIZES RECENT ADVANCES IN PRENATAL GLUCOCORTICOIDS EXPOSURE AND FETAL ADRENAL DEVELOPMENTAL PROGRAMMING ALTERATIONS, WHICH IS OF GREAT SIGNIFICANCE FOR EXPLAINING ADRENAL DEVELOPMENTAL TOXICITY AND THE INTRAUTERINE ORIGIN OF FETAL-ORIGINATED ADULT DISEASES. 2019 9 4948 29 PATERNAL STRESS EXPOSURE ALTERS SPERM MICRORNA CONTENT AND REPROGRAMS OFFSPRING HPA STRESS AXIS REGULATION. NEUROPSYCHIATRIC DISEASE FREQUENTLY PRESENTS WITH AN UNDERLYING HYPOREACTIVITY OR HYPERREACTIVITY OF THE HPA STRESS AXIS, SUGGESTING AN EXCEPTIONAL VULNERABILITY OF THIS CIRCUITRY TO EXTERNAL PERTURBATIONS. PARENTAL LIFETIME EXPOSURES TO ENVIRONMENTAL CHALLENGES ARE ASSOCIATED WITH INCREASED OFFSPRING NEUROPSYCHIATRIC DISEASE RISK, AND LIKELY CONTRIBUTE TO STRESS DYSREGULATION. WHILE MATERNAL INFLUENCES HAVE BEEN EXTENSIVELY EXAMINED, MUCH LESS IS KNOWN REGARDING THE SPECIFIC ROLE OF PATERNAL FACTORS. TO INVESTIGATE THE POTENTIAL MECHANISMS BY WHICH PATERNAL STRESS MAY CONTRIBUTE TO OFFSPRING HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS DYSREGULATION, WE EXPOSED MICE TO 6 WEEKS OF CHRONIC STRESS BEFORE BREEDING. AS EPIDEMIOLOGICAL STUDIES SUPPORT VARIATION IN PATERNAL GERM CELL SUSCEPTIBILITY TO REPROGRAMMING ACROSS THE LIFESPAN, MALE STRESS EXPOSURE OCCURRED EITHER THROUGHOUT PUBERTY OR IN ADULTHOOD. REMARKABLY, OFFSPRING OF SIRES FROM BOTH PATERNAL STRESS GROUPS DISPLAYED SIGNIFICANTLY REDUCED HPA STRESS AXIS RESPONSIVITY. GENE SET ENRICHMENT ANALYSES IN OFFSPRING STRESS REGULATING BRAIN REGIONS, THE PARAVENTRICULAR NUCLEUS (PVN) AND THE BED NUCLEUS OF STRIA TERMINALIS, REVEALED GLOBAL PATTERN CHANGES IN TRANSCRIPTION SUGGESTIVE OF EPIGENETIC REPROGRAMMING AND CONSISTENT WITH ALTERED OFFSPRING STRESS RESPONSIVITY, INCLUDING INCREASED EXPRESSION OF GLUCOCORTICOID-RESPONSIVE GENES IN THE PVN. IN EXAMINING POTENTIAL EPIGENETIC MECHANISMS OF GERM CELL TRANSMISSION, WE FOUND ROBUST CHANGES IN SPERM MICRORNA (MIR) CONTENT, WHERE NINE SPECIFIC MIRS WERE SIGNIFICANTLY INCREASED IN BOTH PATERNAL STRESS GROUPS. OVERALL, THESE RESULTS DEMONSTRATE THAT PATERNAL EXPERIENCE ACROSS THE LIFESPAN CAN INDUCE GERM CELL EPIGENETIC REPROGRAMMING AND IMPACT OFFSPRING HPA STRESS AXIS REGULATION, AND MAY THEREFORE OFFER NOVEL INSIGHT INTO FACTORS INFLUENCING NEUROPSYCHIATRIC DISEASE RISK. 2013 10 375 18 AN ENERGETIC VIEW OF STRESS: FOCUS ON MITOCHONDRIA. ENERGY IS REQUIRED TO SUSTAIN LIFE AND ENABLE STRESS ADAPTATION. AT THE CELLULAR LEVEL, ENERGY IS LARGELY DERIVED FROM MITOCHONDRIA - UNIQUE MULTIFUNCTIONAL ORGANELLES WITH THEIR OWN GENOME. FOUR MAIN ELEMENTS CONNECT MITOCHONDRIA TO STRESS: (1) ENERGY IS REQUIRED AT THE MOLECULAR, (EPI)GENETIC, CELLULAR, ORGANELLAR, AND SYSTEMIC LEVELS TO SUSTAIN COMPONENTS OF STRESS RESPONSES; (2) GLUCOCORTICOIDS AND OTHER STEROID HORMONES ARE PRODUCED AND METABOLIZED BY MITOCHONDRIA; (3) RECIPROCALLY, MITOCHONDRIA RESPOND TO NEUROENDOCRINE AND METABOLIC STRESS MEDIATORS; AND (4) EXPERIMENTALLY MANIPULATING MITOCHONDRIAL FUNCTIONS ALTERS PHYSIOLOGICAL AND BEHAVIORAL RESPONSES TO PSYCHOLOGICAL STRESS. THUS, MITOCHONDRIA ARE ENDOCRINE ORGANELLES THAT PROVIDE BOTH THE ENERGY AND SIGNALS THAT ENABLE AND DIRECT STRESS ADAPTATION. NEURAL CIRCUITS REGULATING SOCIAL BEHAVIOR - AS WELL AS PSYCHOPATHOLOGICAL PROCESSES - ARE ALSO INFLUENCED BY MITOCHONDRIAL ENERGETICS. AN INTEGRATIVE VIEW OF STRESS AS AN ENERGY-DRIVEN PROCESS OPENS NEW OPPORTUNITIES TO STUDY MECHANISMS OF ADAPTATION AND REGULATION ACROSS THE LIFESPAN. 2018 11 3313 27 HIPPOCAMPAL BDNF IN PHYSIOLOGICAL CONDITIONS AND SOCIAL ISOLATION. EXPOSURE OF AN ORGANISM TO CHRONIC PSYCHOSOCIAL STRESS MAY AFFECT BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) EXPRESSION THAT HAS BEEN IMPLICATED IN THE ETIOLOGY OF PSYCHIATRIC DISORDERS, SUCH AS DEPRESSION. GIVEN THAT DEPRESSION IN HUMANS HAS BEEN LINKED WITH SOCIAL STRESS, THE CHRONIC SOCIAL STRESS PARADIGMS FOR MODELING PSYCHIATRIC DISORDERS IN ANIMALS HAVE THUS BEEN DEVELOPED. CHRONIC SOCIAL ISOLATION IN ANIMAL MODELS GENERALLY CAUSES CHANGES IN HYPOTHALAMIC-PITUITARY-ADRENAL AXIS FUNCTIONING, ASSOCIATED WITH ANXIETY- AND DEPRESSIVE-LIKE BEHAVIORS. ALSO, THIS CHRONIC STRESS CAUSES DOWNREGULATION OF BDNF PROTEIN AND MRNA IN THE HIPPOCAMPUS, A STRESS-SENSITIVE BRAIN REGION CLOSELY RELATED TO THE PATHOPHYSIOLOGY OF DEPRESSION. IN THIS REVIEW, WE DISCUSS THE CURRENT KNOWLEDGE REGARDING THE STRUCTURE, FUNCTION, INTRACELLULAR SIGNALING, INTER-INDIVIDUAL DIFFERENCES AND EPIGENETIC REGULATION OF BDNF IN BOTH PHYSIOLOGICAL CONDITIONS AND DEPRESSION AND CHANGES IN CORTICOSTERONE LEVELS, AS A MARKER OF STRESS RESPONSE. SINCE BDNF LEVELS ARE AGE DEPENDENT IN HUMANS AND RODENTS, THIS REVIEW WILL ALSO HIGHLIGHT THE EFFECTS OF ADOLESCENT AND ADULT CHRONIC SOCIAL ISOLATION MODELS OF BOTH GENDERS ON THE BDNF EXPRESSION. 2017 12 6267 27 THE NEUROENDOCRINOLOGY OF STRESS: A NEVER ENDING STORY. EVOLUTIONARY SUCCESS DEPENDS ON OUR ABILITY TO ADAPT TO CHANGING CIRCUMSTANCES. THE NEUROENDOCRINE RESPONSE TO STRESS IS AN EXCELLENT EXAMPLE OF A PLASTIC SYSTEM THAT RESPONDS TO THREATS TO HOMEOSTASIS AND ALTERS ITS OUTPUT TO MEET CURRENT AND EXPECTED FUTURE DEMANDS. AT THE LEVEL OF THE HYPOTHALAMUS, THE CORTICOTROPH SECRETAGOGUES CORTICOTROPHIN-RELEASING HORMONE (CRH) AND ARGININE VASOPRESSIN (AVP) RESPOND RAPIDLY TO AN ACUTE STRESSOR BUT, FOLLOWING CHRONIC STRESS, THEY ADAPT WITH A REDUCTION OF CRH BUT A MAJOR INCREASE IN AVP. THE RELEASE OF CRH AND AVP ACTIVATES PRO-OPIOMELANOCORTIN IN ANTERIOR PITUITARY CORTICOTROPH CELLS AND THE RELEASE OF ADRENOCORTICOTROPHIC HORMONE INTO PERIPHERAL BLOOD FROM WHERE IT TARGETS RECEPTORS IN THE ADRENAL CORTEX TO RELEASE GLUCOCORTICOID HORMONES. THESE HORMONES (I.E. CORTICOSTERONE IN THE RAT AND CORTISOL IN MAN) ARE RELEASED IN A PULSATILE ULTRADIAN PATTERN WHICH DEFINES THE NORMAL CIRCADIAN RHYTHM. THE FREQUENCY OF THE PULSES IS INCREASED UNDER STATES OF CHRONIC STRESS, AND IN RATS WITH GENETICALLY DETERMINED HYPER-RESPONSIVENESS OF THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS. INTERESTINGLY, NEONATAL INFLUENCES CAN ALSO PROGRAMME ALTERATIONS IN ULTRADIAN RHYTHMICITY, IMPLICATING EPIGENETIC FACTORS IN ITS REGULATION. AT THE LEVEL OF TISSUE RECEPTORS, THE ALTERATION IN PATTERN OF GLUCOCORTICOID ULTRADIAN RHYTHM HAS DIFFERENTIAL EFFECTS ON MINERALOCORTICOID RECEPTOR AND GLUCOCORTICOID RECEPTOR (GR) BINDING TO DNA AND OFFERS A MECHANISM FOR TISSUE SPECIFIC RESPONSES TO ALTERED GLUCOCORTICOID DYNAMICS. THE EFFECTS OF NEONATAL EXPERIENCE ARE NOT ONLY SEEN AT THE LEVEL OF CRH AND GR REGULATION, BUT ALSO ARE EVIDENT IN BEHAVIOURAL RESPONSES TO STRESS AND IN THE RESPONSIVENESS OF BRAIN STEM SEROTONERGIC PATHWAYS, AS MEASURED BY TRYPTOPHAN HYDROXYLASE MRNA IN THE BRAIN STEM. 2008 13 3463 30 HYPOTHALAMIC-PITUITARY-ADRENAL AND HYPOTHALAMIC-PITUITARY-GONADAL AXES: SEX DIFFERENCES IN REGULATION OF STRESS RESPONSIVITY. GONADAL HORMONES PLAY A KEY ROLE IN THE ESTABLISHMENT, ACTIVATION, AND REGULATION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS. BY INFLUENCING THE RESPONSE AND SENSITIVITY TO RELEASING FACTORS, NEUROTRANSMITTERS, AND HORMONES, GONADAL STEROIDS HELP ORCHESTRATE THE GAIN OF THE HPA AXIS TO FINE-TUNE THE LEVELS OF STRESS HORMONES IN THE GENERAL CIRCULATION. FROM EARLY LIFE TO ADULTHOOD, GONADAL STEROIDS CAN DIFFERENTIALLY AFFECT THE HPA AXIS, RESULTING IN SEX DIFFERENCES IN THE RESPONSIVITY OF THIS AXIS. THE HPA AXIS INFLUENCES MANY PHYSIOLOGICAL FUNCTIONS MAKING AN ORGANISM'S RESPONSE TO CHANGES IN THE ENVIRONMENT APPROPRIATE FOR ITS REPRODUCTIVE STATUS. ALTHOUGH THE ACUTE HPA RESPONSE TO STRESSORS IS A BENEFICIAL RESPONSE, CONSTANT ACTIVATION OF THIS CIRCUITRY BY CHRONIC OR TRAUMATIC STRESSFUL EPISODES MAY LEAD TO A DYSREGULATION OF THE HPA AXIS AND CAUSE PATHOLOGY. COMPARED TO MALES, FEMALE MICE AND RATS SHOW A MORE ROBUST HPA AXIS RESPONSE, AS A RESULT OF CIRCULATING ESTRADIOL LEVELS WHICH ELEVATE STRESS HORMONE LEVELS DURING NON-THREATENING SITUATIONS, AND DURING AND AFTER STRESSORS. FLUCTUATING LEVELS OF GONADAL STEROIDS IN FEMALES ACROSS THE ESTROUS CYCLE ARE A MAJOR FACTOR CONTRIBUTING TO SEX DIFFERENCES IN THE ROBUSTNESS OF HPA ACTIVITY IN FEMALES COMPARED TO MALES. MOREOVER, GONADAL STEROIDS MAY ALSO CONTRIBUTE TO EPIGENETIC AND ORGANIZATIONAL INFLUENCES ON THE HPA AXIS EVEN BEFORE PUBERTY. CORRESPONDINGLY, CROSSTALK BETWEEN THE HYPOTHALAMIC-PITUITARY-GONADAL (HPG) AND HPA AXES COULD LEAD TO ABNORMALITIES OF STRESS RESPONSES. IN HUMANS, A DYSREGULATED STRESS RESPONSE IS ONE OF THE MOST COMMON SYMPTOMS SEEN ACROSS MANY NEUROPSYCHIATRIC DISORDERS, AND AS A RESULT, SUCH INTERACTIONS MAY EXACERBATE PERIPHERAL PATHOLOGIES. IN THIS REVIEW, WE DISCUSS THE HPA AND HPG AXES AND REVIEW HOW GONADAL STEROIDS INTERACT WITH THE HPA AXIS TO REGULATE THE STRESS CIRCUITRY DURING ALL STAGES IN LIFE. 2017 14 1981 32 EPIGENETIC ALTERATIONS IN DNA AND HISTONE MODIFICATIONS CAUSED BY DEPRESSION AND ANTIDEPRESSANT DRUGS: LESSONS FROM THE RODENT MODELS. EPIGENETIC MODIFICATIONS REGULATE CHROMATIN FOLDING AND FUNCTION. EPIGENETIC MECHANISMS REGULATE TRANSCRIPTION MEDIATING EFFECTS OF VARIOUS STIMULI ON GENE EXPRESSION. THESE MECHANISMS ARE INVOLVED IN TRANSCRIPTIONAL CONTROL IN VARIOUS PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS INCLUDING NEUROPSYCHIATRIC DISORDERS AND BEHAVIORAL ABNORMALITIES SUCH AS DEPRESSION. IN RODENTS, EXPOSURE TO CHRONIC SOCIAL STRESS WAS SHOWN TO INDUCE BEHAVIORAL IMPAIRMENTS AND MEMORY/LEARNING DEFICITS THAT RESEMBLE DEPRESSIVE-LIKE PHENOTYPE IN HUMANS. THE RODENT MODELS OF CHRONIC STRESS WERE WIDELY USED TO STUDY MOLECULAR MECHANISMS OF DEPRESSION. IN THESE MODELS, EARLY EXPOSURE TO CHRONIC STRESS SUCH AS PRENATAL OR POSTNATAL STRESS INDUCES LONG-TERM HYPERACTIVE STRESS RESPONSES, BEHAVIORAL ABNORMALITIES, AND FUNCTIONAL IMPAIRMENTS IN BRAIN FUNCTION THAT PERSIST IN ADULTHOOD. FURTHERMORE, THESE ALTERATIONS CAN BE TRANSMITTED TO OFFSPRING OF CHRONICALLY STRESSED ANIMALS ACROSS SEVERAL GENERATIONS. MOLECULAR STUDIES IN ANIMAL MODELS SHOWED THAT CHRONIC STRESS INDUCES STABLE EPIGENETIC CHANGES IN SPECIFIC BRAIN REGIONS, PRIMARILY IN THE LIMBIC SYSTEM. THESE CHANGES LEAD TO LONG-LASTING ABNORMALITIES IN BEHAVIOR THAT PERSIST IN ADULTHOOD AND CAN BE TRANSMITTED TO OFFSPRING. TREATMENT WITH EPIGENETICALLY ACTIVE ANTIDEPRESSANTS DISRUPTS THE ABNORMAL STRESS-INDUCED EPIGENETIC PROGRAMMING AND PROVIDES EPIGENETIC PATTERNS THAT RESEMBLE EPIGENETIC BACKGROUND OF STRESS RESILIENT INDIVIDUALS. 2017 15 5662 24 SEXUAL DIMORPHISM IN GLUCOCORTICOID STRESS RESPONSE. CHRONIC STRESS IS ENCOUNTERED IN OUR EVERYDAY LIFE AND IS THOUGHT TO CONTRIBUTE TO A NUMBER OF DISEASES. MANY OF THESE STRESS-RELATED DISORDERS DISPLAY A SEX BIAS. BECAUSE GLUCOCORTICOID HORMONES ARE THE MAIN BIOLOGICAL MEDIATOR OF CHRONIC STRESS, RESEARCHERS HAVE BEEN INTERESTED IN UNDERSTANDING THE SEXUAL DIMORPHISM IN GLUCOCORTICOID STRESS RESPONSE TO BETTER EXPLAIN THE SEX BIAS IN STRESS-RELATED DISEASES. ALTHOUGH NOT YET DEMONSTRATED FOR GLUCOCORTICOID REGULATION, SEX CHROMOSOMES DO INFLUENCE SEX-SPECIFIC BIOLOGY AS SOON AS CONCEPTION. THEN A TRANSIENT RISE IN TESTOSTERONE START TO SHAPE THE MALE BRAIN DURING THE PRENATAL PERIOD DIFFERENTLY TO THE FEMALE BRAIN. THESE ORGANIZATIONAL EFFECTS ARE COMPLETED JUST BEFORE PUBERTY. THE CEREBRAL REGIONS IMPLICATED IN GLUCOCORTICOID REGULATION AT REST AND AFTER STRESS ARE THEREBY IMPACTED IN A SEX-SPECIFIC MANNER. AFTER PUBERTY, THE HIGH LEVELS OF ALL GONADAL HORMONES WILL INTERACT WITH GLUCOCORTICOID HORMONES IN SPECIFIC CROSSTALK THROUGH THEIR RESPECTIVE NUCLEAR RECEPTORS. IN ADDITION, STRESS OCCURRING EARLY IN LIFE, IN PARTICULAR DURING THE PRENATAL PERIOD AND IN ADOLESCENCE WILL PRIME IN THE LONG-TERM GLUCOCORTICOID STRESS RESPONSE THROUGH EPIGENETIC MECHANISMS, AGAIN IN A SEX-SPECIFIC MANNER. ALTOGETHER, VARIOUS MOLECULAR MECHANISMS EXPLAIN SEX-SPECIFIC GLUCOCORTICOID STRESS RESPONSES THAT DO NOT EXCLUDE IMPORTANT GENDER EFFECTS IN HUMANS. 2021 16 3092 25 GENOMIC AND EPIGENOMIC MECHANISMS OF GLUCOCORTICOIDS IN THE BRAIN. FOLLOWING THE DISCOVERY OF GLUCOCORTICOID RECEPTORS IN THE HIPPOCAMPUS AND OTHER BRAIN REGIONS, RESEARCH HAS FOCUSED ON UNDERSTANDING THE EFFECTS OF GLUCOCORTICOIDS IN THE BRAIN AND THEIR ROLE IN REGULATING EMOTION AND COGNITION. GLUCOCORTICOIDS ARE ESSENTIAL FOR ADAPTATION TO STRESSORS (ALLOSTASIS) AND IN MALADAPTATION RESULTING FROM ALLOSTATIC LOAD AND OVERLOAD. ALLOSTATIC OVERLOAD, WHICH CAN OCCUR DURING CHRONIC STRESS, CAN RESHAPE THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS THROUGH EPIGENETIC MODIFICATION OF GENES IN THE HIPPOCAMPUS, HYPOTHALAMUS AND OTHER STRESS-RESPONSIVE BRAIN REGIONS. GLUCOCORTICOIDS EXERT THEIR EFFECTS ON THE BRAIN THROUGH GENOMIC MECHANISMS THAT INVOLVE BOTH GLUCOCORTICOID RECEPTORS AND MINERALOCORTICOID RECEPTORS DIRECTLY BINDING TO DNA, AS WELL AS BY NON-GENOMIC MECHANISMS. FURTHERMORE, GLUCOCORTICOIDS SYNERGIZE BOTH GENOMICALLY AND NON-GENOMICALLY WITH NEUROTRANSMITTERS, NEUROTROPHIC FACTORS, SEX HORMONES AND OTHER STRESS MEDIATORS TO SHAPE AN ORGANISM'S PRESENT AND FUTURE RESPONSES TO A STRESSFUL ENVIRONMENT. HERE, WE DISCUSS THE MECHANISMS OF GLUCOCORTICOID ACTION IN THE BRAIN AND REVIEW HOW GLUCOCORTICOIDS INTERACT WITH STRESS MEDIATORS IN THE CONTEXT OF ALLOSTASIS, ALLOSTATIC LOAD AND STRESS-INDUCED NEUROPLASTICITY. 2017 17 5986 32 TFEB IS A CENTRAL REGULATOR OF THE AGING PROCESS AND AGE-RELATED DISEASES. OLD AGE IS ASSOCIATED WITH A GREATER BURDEN OF DISEASE, INCLUDING NEURODEGENERATIVE DISORDERS SUCH AS ALZHEIMER'S DISEASE AND PARKINSON'S DISEASE, AS WELL AS OTHER CHRONIC DISEASES. COINCIDENTALLY, POPULAR LIFESTYLE INTERVENTIONS, SUCH AS CALORIC RESTRICTION, INTERMITTENT FASTING, AND REGULAR EXERCISE, IN ADDITION TO PHARMACOLOGICAL INTERVENTIONS INTENDED TO PROTECT AGAINST AGE-RELATED DISEASES, INDUCE TRANSCRIPTION FACTOR EB (TFEB) AND AUTOPHAGY. IN THIS REVIEW, WE SUMMARIZE EMERGING DISCOVERIES THAT POINT TO TFEB ACTIVITY AFFECTING THE HALLMARKS OF AGING, INCLUDING INHIBITING DNA DAMAGE AND EPIGENETIC MODIFICATIONS, INDUCING AUTOPHAGY AND CELL CLEARANCE TO PROMOTE PROTEOSTASIS, REGULATING MITOCHONDRIAL QUALITY CONTROL, LINKING NUTRIENT-SENSING TO ENERGY METABOLISM, REGULATING PRO- AND ANTI-INFLAMMATORY PATHWAYS, INHIBITING SENESCENCE AND PROMOTING CELL REGENERATIVE CAPACITY. FURTHERMORE, THE THERAPEUTIC IMPACT OF TFEB ACTIVATION ON NORMAL AGING AND TISSUE-SPECIFIC DISEASE DEVELOPMENT IS ASSESSED IN THE CONTEXTS OF NEURODEGENERATION AND NEUROPLASTICITY, STEM CELL DIFFERENTIATION, IMMUNE RESPONSES, MUSCLE ENERGY ADAPTATION, ADIPOSE TISSUE BROWNING, HEPATIC FUNCTIONS, BONE REMODELING, AND CANCER. SAFE AND EFFECTIVE STRATEGIES OF ACTIVATING TFEB HOLD PROMISE AS A THERAPEUTIC STRATEGY FOR MULTIPLE AGE-ASSOCIATED DISEASES AND FOR EXTENDING LIFESPAN. 2023 18 4798 39 NUTRITIONALLY MEDIATED PROGRAMMING OF THE DEVELOPING IMMUNE SYSTEM. A GROWING BODY OF EVIDENCE HIGHLIGHTS THE IMPORTANCE OF A MOTHER'S NUTRITION FROM PRECONCEPTION THROUGH LACTATION IN PROGRAMMING THE EMERGING ORGAN SYSTEMS AND HOMEOSTATIC PATHWAYS OF HER OFFSPRING. THE DEVELOPING IMMUNE SYSTEM MAY BE PARTICULARLY VULNERABLE. INDEED, EXAMPLES OF NUTRITION-MEDIATED IMMUNE PROGRAMMING CAN BE FOUND IN THE LITERATURE ON INTRA-UTERINE GROWTH RETARDATION, MATERNAL MICRONUTRIENT DEFICIENCIES, AND INFANT FEEDING. CURRENT MODELS OF IMMUNE ONTOGENY DEPICT A "LAYERED" EXPANSION OF INCREASINGLY COMPLEX DEFENSES, WHICH MAY BE PERMANENTLY ALTERED BY MATERNAL MALNUTRITION. ONE PROGRAMMING MECHANISM INVOLVES ACTIVATION OF THE MATERNAL HYPOTHALAMIC-PITUITARY-ADRENAL AXIS IN RESPONSE TO NUTRITIONAL STRESS. FETAL OR NEONATAL EXPOSURE TO ELEVATED STRESS HORMONES IS LINKED IN ANIMAL STUDIES TO PERMANENT CHANGES IN NEUROENDOCRINE-IMMUNE INTERACTIONS, WITH DIVERSE MANIFESTATIONS SUCH AS AN ATTENUATED INFLAMMATORY RESPONSE OR REDUCED RESISTANCE TO TUMOR COLONIZATION. MATERNAL MALNUTRITION MAY ALSO HAVE A DIRECT INFLUENCE, AS EVIDENCED BY NUTRIENT-DRIVEN EPIGENETIC CHANGES TO DEVELOPING T REGULATORY CELLS AND SUBSEQUENT RISK OF ALLERGY OR ASTHMA. A 3RD PROGRAMMING PATHWAY INVOLVES PLACENTAL OR BREAST MILK TRANSFER OF MATERNAL IMMUNE FACTORS WITH IMMUNOMODULATORY FUNCTIONS (E.G. CYTOKINES). MATERNAL MALNUTRITION CAN DIRECTLY AFFECT TRANSFER MECHANISMS OR INFLUENCE THE QUALITY OR QUANTITY OF TRANSFERRED FACTORS. THE PUBLIC HEALTH IMPLICATIONS OF NUTRITION-MEDIATED IMMUNE PROGRAMMING ARE OF PARTICULAR IMPORTANCE IN THE DEVELOPING WORLD, WHERE PREVALENT MATERNAL UNDERNUTRITION IS COUPLED WITH PERSISTENT INFECTIOUS CHALLENGES. HOWEVER, EARLY ALTERATIONS TO THE IMMUNE SYSTEM, RESULTING FROM EITHER NUTRITIONAL DEFICIENCIES OR EXCESSES, HAVE BROAD RELEVANCE FOR IMMUNE-MEDIATED DISEASES, SUCH AS ASTHMA, AND CHRONIC INFLAMMATORY CONDITIONS LIKE CARDIOVASCULAR DISEASE. 2011 19 1638 35 DOES EARLY WEANING SHAPE FUTURE ENDOCRINE AND METABOLIC DISORDERS? LESSONS FROM ANIMAL MODELS. OBESITY AND ITS COMPLICATIONS OCCUR AT ALARMING RATES WORLDWIDE. EPIDEMIOLOGICAL DATA HAVE ASSOCIATED PERINATAL CONDITIONS, SUCH AS MALNUTRITION, WITH THE DEVELOPMENT OF SOME DISORDERS, SUCH AS OBESITY, DYSLIPIDEMIA, DIABETES, AND CARDIOVASCULAR DISEASES, IN CHILDHOOD AND ADULTHOOD. EXCLUSIVE BREASTFEEDING HAS BEEN ASSOCIATED WITH PROTECTION AGAINST LONG-TERM CHRONIC DISEASES. HOWEVER, IN HUMANS, THE INTERRUPTION OF BREASTFEEDING BEFORE THE RECOMMENDED PERIOD OF 6 MONTHS IS A COMMON PRACTICE AND CAN INCREASE THE RISK OF SEVERAL METABOLIC DISTURBANCES. NUTRITIONAL AND ENVIRONMENTAL CHANGES WITHIN A CRITICAL WINDOW OF DEVELOPMENT, SUCH AS PREGNANCY AND BREASTFEEDING, CAN INDUCE PERMANENT CHANGES IN METABOLISM THROUGH EPIGENETIC MECHANISMS, LEADING TO DISEASES LATER IN LIFE VIA A PHENOMENON KNOWN AS PROGRAMMING OR DEVELOPMENTAL PLASTICITY. HOWEVER, LITTLE IS KNOWN REGARDING THE UNDERLYING MECHANISMS BY WHICH PRECOCIOUS WEANING CAN RESULT IN ADIPOSE TISSUE DYSFUNCTION AND ENDOCRINE PROFILE ALTERATIONS. HERE, THE AUTHORS GIVE A COMPREHENSIVE REPORT OF THE DIFFERENT ANIMAL MODELS OF EARLY WEANING AND PROGRAMMING THAT CAN RESULT IN THE DEVELOPMENT OF METABOLIC SYNDROME. IN RATS, FOR EXAMPLE, PHARMACOLOGICAL AND NONPHARMACOLOGICAL EARLY WEANING MODELS ARE ASSOCIATED WITH THE DEVELOPMENT OF OVERWEIGHT AND VISCERAL FAT ACCUMULATION, LEPTIN AND INSULIN RESISTANCE, AND NEUROENDOCRINE AND HEPATIC CHANGES IN ADULT PROGENY. SEX-RELATED DIFFERENCES SEEM TO INFLUENCE THIS PHENOTYPE. THEREFORE, PRECOCIOUS WEANING SEEMS TO BE OBESOGENIC FOR OFFSPRING. A BETTER UNDERSTANDING OF THIS CONDITION SEEMS ESSENTIAL TO REDUCING THE RISK FOR DISEASES. ADDITIONALLY, THIS KNOWLEDGE CAN GENERATE NEW INSIGHTS INTO THERAPEUTIC STRATEGIES FOR OBESITY MANAGEMENT, IMPROVING HEALTH OUTCOMES. 2020 20 3973 28 LONG-TERM BEHAVIORAL AND NEUROENDOCRINE ALTERATIONS FOLLOWING CHRONIC SOCIAL STRESS IN MICE: IMPLICATIONS FOR STRESS-RELATED DISORDERS. THE PERIOD OF ADOLESCENCE IS CHARACTERIZED BY A HIGH VULNERABILITY TO STRESS AND TRAUMA, WHICH MIGHT RESULT IN LONG-LASTING CONSEQUENCES AND AN INCREASED RISK TO DEVELOP PSYCHIATRIC DISORDERS. USING A RECENTLY DEVELOPED MOUSE MODEL FOR CHRONIC SOCIAL STRESS DURING ADOLESCENCE, WE STUDIED PERSISTENT NEUROENDOCRINE AND BEHAVIORAL EFFECTS OF CHRONIC SOCIAL STRESS OBTAINED 12 MONTHS AFTER CESSATION OF THE STRESSOR. AS A REFERENCE, WE INVESTIGATED IMMEDIATE EFFECTS OF CHRONIC STRESS EXPOSURE OBTAINED AT THE END OF THE CHRONIC STRESS PERIOD. IMMEDIATELY AFTER THE 7 WEEK CHRONIC STRESS PERIOD STRESSED ANIMALS SHOW SIGNIFICANTLY INCREASED ADRENAL WEIGHTS, DECREASED THYMUS WEIGHT, INCREASED BASAL CORTICOSTERONE SECRETION AND A FLATTENED CIRCADIAN RHYTHM. FURTHERMORE, STRESSED ANIMALS DISPLAY AN INCREASED ANXIETY-LIKE BEHAVIOR IN THE ELEVATED PLUS MAZE AND THE NOVELTY-INDUCED SUPPRESSION OF FEEDING TEST. HIPPOCAMPAL MINERALOCORTICOID RECEPTOR (MR) AND THE GLUCOCORTICOID RECEPTOR (GR) MRNA LEVELS WERE SIGNIFICANTLY DECREASED. TO INVESTIGATE PERSISTENT CONSEQUENCES OF THIS EARLY STRESSFUL EXPERIENCE, THE SAME PARAMETERS WERE ASSESSED IN AGED MICE 12 MONTHS AFTER THE CESSATION OF THE STRESSOR. INTERESTINGLY, WE STILL FOUND DIFFERENCES BETWEEN FORMERLY STRESSED AND CONTROL MICE IN IMPORTANT STRESS-RELATED PARAMETERS. MR EXPRESSION LEVELS WERE SIGNIFICANTLY LOWER IN STRESSED ANIMALS, SUGGESTING LASTING, POSSIBLY EPIGENETIC ALTERATIONS IN GENE EXPRESSION REGULATION. FURTHERMORE, WE OBSERVED LONG-TERM BEHAVIORAL ALTERATIONS IN ANIMALS STRESSED DURING ADOLESCENCE. THUS, WE COULD DEMONSTRATE THAT CHRONIC STRESS EXPOSURE DURING A CRUCIAL DEVELOPMENTAL TIME PERIOD RESULTS IN LONG-TERM, PERSISTENT EFFECTS ON PHYSIOLOGICAL AND BEHAVIORAL PARAMETERS THROUGHOUT LIFE, WHICH MAY CONTRIBUTE TO AN ENHANCED VULNERABILITY TO STRESS-INDUCED DISEASES. 2008