1 542 126 ATP-CITRATE LYASE IS AN EPIGENETIC REGULATOR TO PROMOTE OBESITY-RELATED KIDNEY INJURY. OBESITY IS A LEADING CAUSE OF CHRONIC KIDNEY DISEASE (CKD), BUT HOW OBESITY PROMOTES RENAL INJURY REMAINS POORLY UNDERSTOOD. HERE WE SHOWED THAT ATP-CITRATE LYASE (ACL), AN ENZYME CONVERTING CITRATE TO ACETYL-COA, IS HIGHLY INDUCED IN THE KIDNEY OF OVERWEIGHT OR OBESE PATIENTS WITH CKD AND OB/OB BTBR MICE. ACL INDUCTION IS ASSOCIATED WITH INCREASED ECTOPIC LIPID ACCUMULATION (ELA), GLOMERULOSCLEROSIS, AND ALBUMINURIA. ACETYL-COA IS THE SUBSTRATE FOR DE NOVO LIPOGENESIS AS WELL AS FOR HISTONE ACETYLATION. BY RAISING ACETYL-COA CONCENTRATION ACL PROMOTES H3K9/14 AND H3K27 HYPERACETYLATION LEADING TO UP-REGULATION OF SEVERAL RATE-LIMITING LIPOGENIC ENZYMES AND FIBROGENIC FACTORS. ON THE OTHER HAND, THE EXCESS ACETYL-COA GENERATED AS A RESULT OF ACL INDUCTION PROVIDES THE SUBSTRATE FOR THESE LIPOGENIC ENZYMES TO DRIVE DE NOVO LIPOGENESIS LEADING TO ELA, A DETRIMENTAL EVENT TOWARD RENAL INJURY. IN MESANGIAL CELLS, ACL IS SYNERGISTICALLY INDUCED BY HIGH GLUCOSE, PALMITATE, AND TNF-ALPHA VIA NF-KAPPAB AND PKA PATHWAYS. UNDER THESE CONDITIONS, H3K9/14 AND H3K27 HYPERACETYLATION, AS WELL AS THE INDUCTION OF THE LIPOGENIC AND FIBROGENIC PROTEINS, ARE COMPLETELY BLOCKED IN THE PRESENCE OF AN ACL INHIBITOR. COLLECTIVELY, THESE DATA SUGGEST THAT ACL IS AN EPIGENETIC REGULATOR THAT PROMOTES RENAL ELA AND FIBROGENESIS LEADING TO RENAL INJURY IN OBESITY.-CHEN, Y., DEB, D. K., FU, X., YI, B., LIANG, Y., DU, J., HE, L., LI, Y. C. ATP-CITRATE LYASE IS AN EPIGENETIC REGULATOR TO PROMOTE OBESITY-RELATED KIDNEY INJURY. 2019 2 6090 26 THE EFFECTS OF EARLY LIFE ADVERSITY ON THE IMMUNE SYSTEM. EARLY LIFE ADVERSITY (ELA) IS ASSOCIATED WITH A HIGHER RISK FOR DISEASES IN ADULTHOOD. ALTHOUGH THE PATHOPHYSIOLOGICAL EFFECTS OF ELA ARE VARIED, THERE MAY BE A UNIFYING ROLE FOR THE IMMUNE SYSTEM IN ALL OF THE LONG-TERM PATHOLOGIES SUCH AS CHRONIC INFLAMMATORY DISORDERS (AUTOIMMUNE DISEASES, ALLERGY, AND ASTHMA). RECENTLY, SIGNIFICANT EFFORTS HAVE BEEN MADE TO ELUCIDATE THE LONG-TERM EFFECTS ELA HAS ON IMMUNE FUNCTION, AS WELL AS THE MECHANISMS UNDERLYING THESE IMMUNE CHANGES. IN THIS REVIEW, WE FOCUS ON DATA FROM HUMAN STUDIES INVESTIGATING IMMUNE PARAMETERS IN RELATION TO POST-NATAL ADVERSE EXPERIENCES. WE DESCRIBE THE CURRENT UNDERSTANDING OF THE 'ELA IMMUNE PHENOTYPE', CHARACTERIZED BY INFLAMMATION, IMPAIRMENT OF THE CELLULAR IMMUNE SYSTEM, AND IMMUNOSENESCENCE. HOWEVER, AT PRESENT, DATA ADDRESSING SPECIFIC IMMUNE FUNCTIONS ARE LIMITED AND THERE IS A NEED FOR HIGH-QUALITY, WELL POWERED, LONGITUDINAL STUDIES TO UNRAVEL CAUSE FROM EFFECT. BESIDES THE IMMUNE SYSTEM, ALSO THE STRESS SYSTEM AND HEALTH BEHAVIORS ARE ALTERED IN ELA. WE DISCUSS PROBABLE UNDERLYING MECHANISMS BASED ON EPIGENETIC PROGRAMMING THAT COULD EXPLAIN THE ELA IMMUNE PHENOTYPE AND WHETHER THIS IS A DIRECT EFFECT OF IMMUNE PROGRAMMING OR AN INDIRECT CONSEQUENCE OF CHANGES IN BEHAVIOR OR STRESS REACTIVITY. UNDERSTANDING THE UNDERLYING MECHANISMS WILL HELP DEFINE EFFECTIVE STRATEGIES TO PREVENT OR COUNTERACT NEGATIVE ELA-ASSOCIATED OUTCOMES. 2017 3 5705 23 SINGLE-CELL TRANSCRIPTIONAL CHANGES IN HYPOTHALAMIC CORTICOTROPIN-RELEASING FACTOR-EXPRESSING NEURONS AFTER EARLY-LIFE ADVERSITY INFORM ENDURING ALTERATIONS IN VULNERABILITIES TO STRESS. BACKGROUND: MENTAL HEALTH AND VULNERABILITIES TO NEUROPSYCHIATRIC DISORDERS INVOLVE THE INTERPLAY OF GENES AND ENVIRONMENT, PARTICULARLY DURING SENSITIVE DEVELOPMENTAL PERIODS. EARLY-LIFE ADVERSITY (ELA) AND STRESS PROMOTE VULNERABILITIES TO STRESS-RELATED AFFECTIVE DISORDERS, YET IT IS UNKNOWN HOW TRANSIENT ELA DICTATES LIFELONG NEUROENDOCRINE AND BEHAVIORAL REACTIONS TO STRESS. THE POPULATION OF HYPOTHALAMIC CORTICOTROPIN-RELEASING FACTOR (CRF)-EXPRESSING NEURONS THAT REGULATE STRESS RESPONSES IS A PROMISING CANDIDATE TO MEDIATE THE LONG-LASTING INFLUENCES OF ELA ON STRESS-RELATED BEHAVIORAL AND HORMONAL RESPONSES VIA ENDURING TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS. METHODS: CAPITALIZING ON A WELL-CHARACTERIZED MODEL OF ELA, WE EXAMINED ELA-INDUCED CHANGES IN GENE EXPRESSION PROFILES OF CRF-EXPRESSING NEURONS IN THE HYPOTHALAMIC PARAVENTRICULAR NUCLEUS OF DEVELOPING MALE MICE. WE USED SINGLE-CELL RNA SEQUENCING ON ISOLATED CRF-EXPRESSING NEURONS. WE DETERMINED THE ENDURING FUNCTIONAL CONSEQUENCES OF TRANSCRIPTIONAL CHANGES ON STRESS REACTIVITY IN ADULT ELA MICE, INCLUDING HORMONAL RESPONSES TO ACUTE STRESS, ADRENAL WEIGHTS AS A MEASURE OF CHRONIC STRESS, AND BEHAVIORS IN THE LOOMING SHADOW THREAT TASK. RESULTS: SINGLE-CELL TRANSCRIPTOMICS IDENTIFIED DISTINCT AND NOVEL CRF-EXPRESSING NEURONAL POPULATIONS, CHARACTERIZED BY BOTH THEIR GENE EXPRESSION REPERTOIRE AND THEIR NEUROTRANSMITTER PROFILES. ELA-PROVOKED EXPRESSION CHANGES WERE SELECTIVE TO SPECIFIC SUBPOPULATIONS AND AFFECTED GENES INVOLVED IN NEURONAL DIFFERENTIATION, SYNAPSE FORMATION, ENERGY METABOLISM, AND CELLULAR RESPONSES TO STRESS AND INJURY. IMPORTANTLY, THESE EXPRESSION CHANGES WERE IMPACTFUL, APPARENT FROM ADRENAL HYPERTROPHY AND AUGMENTED BEHAVIORAL RESPONSES TO STRESS IN ADULTHOOD. CONCLUSIONS: WE UNCOVER A NOVEL REPERTOIRE OF STRESS-REGULATING CRF CELL TYPES DIFFERENTIALLY AFFECTED BY ELA AND RESULTING IN AUGMENTED STRESS VULNERABILITY, WITH RELEVANCE TO THE ORIGINS OF STRESS-RELATED AFFECTIVE DISORDERS. 2023 4 1536 29 DNA METHYLATION ENZYMES IN THE KIDNEYS OF MALE AND FEMALE BTBR OB/OB MICE. DIABETIC KIDNEY DISEASE (DKD) IS THE LEADING CAUSE OF THE END-STAGE RENAL DISEASE. RECENT STUDIES HAVE SHOWN THAT EPIGENETIC MODIFICATIONS CONTRIBUTE TO ALTERATIONS IN GENE EXPRESSION AND THE DEVELOPMENT OF DKD. THIS STUDY AIMED TO SHOW AN EXPRESSION PROFILE OF KEY DNA (DE)METHYLATION ENZYMES (DNMT, TET PROTEINS) AND THEIR DIFFERENCES BETWEEN SEXES UNDER OBESITY AND DIABETIC CONDITION. MALE AND FEMALE BLACK AND TAN BRACHYURY (BTBR) OB/OB MICE AND THEIR CORRESPONDING WILD-TYPE LITTERMATES (BTBR WT) WERE STUDIED UNTIL 16 WEEKS OF AGE. METABOLIC PARAMETERS, KIDNEY MORPHOPHYSIOLOGY AND THE EXPRESSION OF FIBROTIC MARKERS AND EPIGENETIC ENZYMES WERE STUDIED IN WHOLE KIDNEY TISSUE OR SPECIFICALLY IN THE GLOMERULUS. THE RESULTS SHOWED SEXUAL DIMORPHISM IN THE DEVELOPMENT OF METABOLIC DISEASE AND IN KIDNEY MORPHOPHYSIOLOGY. FEMALE MICE HAVE A DIFFERENT PROFILE OF DNMTS EXPRESSION IN BOTH WT AND OBESE/DIABETIC CONDITION. FURTHERMORE, METABOLIC CONDITION NEGATIVELY MODULATED THE GLOMERULAR EXPRESSION OF TET1 AND TET3 ONLY IN FEMALES. TO OUR KNOWLEDGE, THIS IS THE FIRST STUDY THAT SHOWS A KIDNEY PROFILE OF THE EXPRESSION OF KEY (DE)METHYLATION ENZYMES, DNMTS AND TETS, IN THE BTBR OB/OB EXPERIMENTAL MODEL OF DKD AND ITS ASSOCIATION WITH SEX. THE KNOWLEDGE OF THIS EPIGENETIC PROFILE MAY HELP FUTURE RESEARCH TO UNDERSTAND THE PATHOPHYSIOLOGY OF DKD IN MALES AND FEMALES. 2023 5 3405 26 HOW STRESS GETS UNDER THE SKIN: EARLY LIFE ADVERSITY AND GLUCOCORTICOID RECEPTOR EPIGENETIC REGULATION. EARLY LIFE ADVERSITY IS ASSOCIATED WITH BOTH PERSISTENT DISRUPTIONS IN THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS AND PSYCHIATRIC SYMPTOMS. GLUCOCORTICOID RECEPTORS (GRS), WHICH ARE ENCODED BY THE NR3C1 GENE, BIND TO CORTISOL AND OTHER GLUCOCORTICOIDS TO CREATE A NEGATIVE FEEDBACK LOOP WITHIN THE HPA AXIS TO REGULATE THE BODY'S NEUROENDOCRINE RESPONSE TO STRESS. EXCESS METHYLATION OF A PROMOTER SEQUENCE WITHIN NR3C1 THAT ATTENUATES GR EXPRESSION, HOWEVER, HAS BEEN ASSOCIATED WITH BOTH EARLY LIFE ADVERSITY AND PSYCHOPATHOLOGY. AS CRITICAL REGULATORS WITHIN THE HPA AXIS, GRS AND THEIR EPIGENETIC REGULATION MAY MEDIATE THE LINK BETWEEN EARLY LIFE ADVERSITY AND THE ONSET OF PSYCHOPATHOLOGY. THE PRESENT REVIEW DISCUSSES THIS WORK AS ONE MECHANISM BY WHICH STRESS MAY GET UNDER THE SKIN TO DISRUPT HPA FUNCTIONING AT AN EPIGENETIC LEVEL AND CREATE LONG-LASTING VULNERABILITIES IN THE STRESS REGULATORY SYSTEM THAT SUBSEQUENTLY PREDISPOSE INDIVIDUALS TO PSYCHOPATHOLOGY. SPANNING PRENATAL INFLUENCES TO CRITICAL PERIODS OF EARLY LIFE AND ADOLESCENCE, WE DETAIL THE IMPACT THAT EARLY ADVERSITY HAS ON GR EXPRESSION, PHYSIOLOGICAL RESPONSES TO STRESS, AND THEIR IMPLICATIONS FOR LONG-TERM STRESS MANAGEMENT. WE NEXT PROPOSE A DUAL TRANSMISSION HYPOTHESIS REGARDING BOTH GENOMIC AND NON-GENOMIC MECHANISMS BY WHICH CHRONIC AND ACUTE STRESS PROPAGATE THROUGH NUMEROUS GENERATIONS. LASTLY, WE OUTLINE SEVERAL DIRECTIONS FOR FUTURE RESEARCH, INCLUDING POTENTIAL REVERSIBILITY OF METHYLATION PATTERNS AND ITS FUNCTIONAL IMPLICATIONS, VARIATION IN BEHAVIOR DETERMINED SOLELY BY NR3C1, AND CONSENSUS ON WHICH SPECIFIC PROMOTER REGIONS SHOULD BE STUDIED. 2018 6 5209 21 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 7 6267 25 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 8 5197 14 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 3463 24 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 10 375 15 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 5251 30 PROGRAMMED INCREASES IN LXRALPHA INDUCED BY PATERNAL ALCOHOL USE ENHANCE OFFSPRING METABOLIC ADAPTATION TO HIGH-FAT DIET INDUCED OBESITY. OBJECTIVES: PATERNALLY INHERITED ALTERATIONS IN EPIGENETIC PROGRAMMING ARE EMERGING AS RELEVANT FACTORS IN NUMEROUS DISEASE STATES, INCLUDING THE GROWTH AND METABOLIC DEFECTS OBSERVED IN FETAL ALCOHOL SPECTRUM DISORDERS. IN RODENTS, CHRONIC PATERNAL ALCOHOL USE INDUCES FETAL GROWTH RESTRICTION, AS WELL AS SEX-SPECIFIC ALTERATIONS IN INSULIN SIGNALING AND LIPID HOMEOSTASIS IN THE OFFSPRING. BASED ON PREVIOUS STUDIES, WE HYPOTHESIZED THAT THE OBSERVED METABOLIC IRREGULARITIES ARE THE CONSEQUENCE OF PATERNALLY INHERITED ALTERATIONS LIVER X RECEPTOR (LXR) ACTIVITY. METHODS: MALE OFFSPRING OF ALCOHOL-EXPOSED SIRES WERE CHALLENGED WITH A HIGH-FAT DIET AND THE MOLECULAR PATHWAYS CONTROLLING GLUCOSE AND LIPID HOMEOSTASIS ASSAYED FOR LXR-INDUCED ALTERATIONS. RESULTS: SIMILAR TO FINDINGS IN STUDIES EMPLOYING LXR AGONISTS WE FOUND THAT THE MALE OFFSPRING OF ALCOHOL-EXPOSED SIRES DISPLAY RESISTANCE TO DIET-INDUCED OBESITY AND IMPROVED GLUCOSE HOMEOSTASIS WHEN CHALLENGED WITH A HIGH-FAT DIET. THIS IMPROVED METABOLIC ADAPTATION IS MEDIATED BY LXRALPHA TRANS-REPRESSION OF INFLAMMATORY CYTOKINES, RELEASING IKKBETA INHIBITION OF THE INSULIN SIGNALING PATHWAY. INTERESTINGLY, PATERNALLY PROGRAMMED INCREASES IN LXRALPHA EXPRESSION ARE LIVER-SPECIFIC AND DO NOT MANIFEST IN THE PANCREAS OR VISCERAL FAT. CONCLUSIONS: THESE STUDIES IDENTIFY LXRALPHA AS A KEY MEDIATOR OF THE LONG-TERM METABOLIC ALTERATIONS INDUCED BY PRECONCEPTION PATERNAL ALCOHOL USE. 2019 12 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 13 1774 21 EARLY-LIFE STRESS: FROM NEUROENDOCRINE MECHANISMS TO STRESS-RELATED DISORDERS. STRESS EXPOSURE IS HIGHLY PREVALENT IN THE GENERAL POPULATION; HOWEVER, THE EXPERIENCE OF STRESS DURING VULNERABLE PERIODS OF DEVELOPMENT HAS SUBSTANTIAL AND PERMANENT EFFECTS ON BRAIN STRUCTURE AND FUNCTION AND PHYSICAL HEALTH IN ADULTHOOD. STRESS, THE STATE OF THREATENED HOMEOSTASIS, IS GENERALLY ASSOCIATED WITH A TIME-LIMITED ACTIVATION OF THE STRESS SYSTEM, I.E., THE HYPOTHALAMIC-PITUITARY-ADRENAL AXIS AND THE AROUSAL/SYMPATHETIC NERVOUS SYSTEM, TAILORED TO THE STRESSFUL STIMULUS ALSO KNOWN AS THE STRESSOR. ON THE OTHER HAND, CHRONIC STRESS MAY BE ASSOCIATED WITH LINGERING HYPER- OR HYPOSECRETION OF MEDIATORS OF THE STRESS SYSTEM. THIS CHRONIC CONDITION IS CALLED DYSHOMEOSTASIS, ALLOSTASIS, OR CACOSTASIS AND IS ASSOCIATED WITH INCREASED MENTAL AND PHYSICAL MORBIDITY IN THE LONG TERM. STRESSFUL OR TRAUMATIC EXPERIENCES DURING FETAL LIFE, EARLY CHILDHOOD, AND ADOLESCENCE HAVE BEEN RELATED TO PERSISTENT NEUROENDOCRINE AND EPIGENETIC CHANGES. FURTHER, BRAIN STRUCTURES INVOLVED IN THE STRESS RESPONSE, SUCH AS THOSE OF THE STRESS SYSTEM, THE HIPPOCAMPUS, AND THE AMYGDALA, MAY BE PROGRAMMED EARLY ON FOR A LIFE OF ADVERSITY. 2018 14 2144 20 EPIGENETIC LANDSCAPE OF STRESS SURFEIT DISORDERS: KEY ROLE FOR DNA METHYLATION DYNAMICS. CHRONIC EXPOSURE TO STRESS THROUGHOUT LIFESPAN ALTERS BRAIN STRUCTURE AND FUNCTION, INDUCING A MALADAPTIVE RESPONSE TO ENVIRONMENTAL STIMULI, THAT CAN CONTRIBUTE TO THE DEVELOPMENT OF A PATHOLOGICAL PHENOTYPE. STUDIES HAVE SHOWN THAT HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS DYSFUNCTION IS ASSOCIATED WITH VARIOUS NEUROPSYCHIATRIC DISORDERS, INCLUDING MAJOR DEPRESSIVE, ALCOHOL USE AND POST-TRAUMATIC STRESS DISORDERS. DOWNSTREAM ACTORS OF THE HPA AXIS, GLUCOCORTICOIDS ARE CRITICAL MEDIATORS OF THE STRESS RESPONSE AND EXERT THEIR FUNCTION THROUGH SPECIFIC RECEPTORS, I.E., THE GLUCOCORTICOID RECEPTOR (GR), HIGHLY EXPRESSED IN STRESS/REWARD-INTEGRATIVE PATHWAYS. GRS ARE LIGAND-ACTIVATED TRANSCRIPTION FACTORS THAT RECRUIT EPIGENETIC ACTORS TO REGULATE GENE EXPRESSION VIA DNA METHYLATION, ALTERING CHROMATIN STRUCTURE AND THUS SHAPING THE RESPONSE TO STRESS. THE DYNAMIC INTERPLAY BETWEEN STRESS RESPONSE AND EPIGENETIC MODIFIERS SUGGEST DNA METHYLATION PLAYS A KEY ROLE IN THE DEVELOPMENT OF STRESS SURFEIT DISORDERS. 2021 15 4948 23 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 16 4798 24 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 17 2949 20 GENETIC AND EPIGENETIC CONSEQUENCE OF EARLY-LIFE SOCIAL STRESS ON DEPRESSION: ROLE OF SEROTONIN-ASSOCIATED GENES. EARLY-LIFE ADVERSITY CAUSED BY POOR SOCIAL BONDING AND DEPRIVED MATERNAL CARE IS KNOWN TO AFFECT MENTAL WELLBEING AND PHYSICAL HEALTH. IT IS A FORM OF CHRONIC SOCIAL STRESS THAT PERSISTS BECAUSE OF A NEGATIVE ENVIRONMENT, AND THE CONSEQUENCES ARE LONG-LASTING ON MENTAL HEALTH. THE PRESENCE OF SOCIAL STRESS DURING EARLY LIFE CAN HAVE AN EPIGENETIC EFFECT ON THE BODY, POSSIBLY RESULTING IN MANY COMPLEX MENTAL DISORDERS, INCLUDING DEPRESSION IN LATER LIFE. HERE, WE REVIEW THE EVIDENCE FOR EARLY-LIFE SOCIAL STRESS-INDUCED EPIGENETIC CHANGES THAT MODULATE JUVENILE AND ADULT SOCIAL BEHAVIOR (DEPRESSION AND ANXIETY). THIS REVIEW HAS A PARTICULAR EMPHASIS ON THE INTERACTION BETWEEN EARLY-LIFE SOCIAL STRESS AND GENETIC VARIATION OF SEROTONIN ASSOCIATE GENES INCLUDING THE SEROTONIN TRANSPORTER GENE (5-HTT; ALSO KNOWN AS SLC6A4), WHICH ARE KEY MOLECULES INVOLVED IN DEPRESSION. 2020 18 235 17 ADDING FUEL TO THE FIRE: THE IMPACT OF STRESS ON THE AGEING BRAIN. BOTH AGEING AND CHRONIC STRESS ARE ASSOCIATED WITH ALTERED BRAIN PLASTICITY, DYSREGULATION OF THE IMMUNE SYSTEM, AND AN INCREASED RISK OF DEVELOPING BRAIN DISORDERS; ALL OF WHICH HAVE CONSEQUENCES FOR COGNITIVE AND EMOTIONAL PROCESSING. HERE WE EXAMINE THE SIMILARITIES BETWEEN BEHAVIOURAL CHANGES DURING AGEING AND STRESS ALTERED BEHAVIOURS (ANXIETY, DEPRESSIVE-LIKE BEHAVIOUR, COGNITION, AND SOCIABILITY) IN RODENTS AND HUMANS. THE MOLECULAR MECHANISMS HYPOTHESISED TO MEDIATE AGE-RELATED CHANGES IN BRAIN FUNCTION INCLUDING DYSFUNCTION OF THE HYPOTHALAMIC-PITUITARY-ADRENAL (HPA) AXIS, DYSREGULATION OF NEUROTRANSMISSION AND NEUROTROPHIC FACTOR SIGNALLING, INCREASED INFLAMMATORY STATE, GENETIC AND EPIGENETIC CHANGES, OXIDATIVE STRESS, METABOLIC CHANGES, AND CHANGES IN THE MICROBIOTA-GUT-BRAIN AXIS ARE DISCUSSED. FINALLY, WE EXPLORE HOW THE ALREADY STRESSED AGED BRAIN PSYCHOLOGICALLY AND PHYSIOLOGICALLY RESPONDS TO EXTERNAL STRESSORS. 2015 19 6626 20 UNDERSTANDING RESILIENCE. RESILIENCE IS THE ABILITY TO ADAPT SUCCESSFULLY IN THE FACE OF STRESS AND ADVERSITY. STRESSFUL LIFE EVENTS, TRAUMA, AND CHRONIC ADVERSITY CAN HAVE A SUBSTANTIAL IMPACT ON BRAIN FUNCTION AND STRUCTURE, AND CAN RESULT IN THE DEVELOPMENT OF POSTTRAUMATIC STRESS DISORDER (PTSD), DEPRESSION AND OTHER PSYCHIATRIC DISORDERS. HOWEVER, MOST INDIVIDUALS DO NOT DEVELOP SUCH ILLNESSES AFTER EXPERIENCING STRESSFUL LIFE EVENTS, AND ARE THUS THOUGHT TO BE RESILIENT. RESILIENCE AS SUCCESSFUL ADAPTATION RELIES ON EFFECTIVE RESPONSES TO ENVIRONMENTAL CHALLENGES AND ULTIMATE RESISTANCE TO THE DELETERIOUS EFFECTS OF STRESS, THEREFORE A GREATER UNDERSTANDING OF THE FACTORS THAT PROMOTE SUCH EFFECTS IS OF GREAT RELEVANCE. THIS REVIEW FOCUSES ON RECENT FINDINGS REGARDING GENETIC, EPIGENETIC, DEVELOPMENTAL, PSYCHOSOCIAL, AND NEUROCHEMICAL FACTORS THAT ARE CONSIDERED ESSENTIAL CONTRIBUTORS TO THE DEVELOPMENT OF RESILIENCE. NEURAL CIRCUITS AND PATHWAYS INVOLVED IN MEDIATING RESILIENCE ARE ALSO DISCUSSED. THE GROWING UNDERSTANDING OF RESILIENCE FACTORS WILL HOPEFULLY LEAD TO THE DEVELOPMENT OF NEW PHARMACOLOGICAL AND PSYCHOLOGICAL INTERVENTIONS FOR ENHANCING RESILIENCE AND MITIGATING THE UNTOWARD CONSEQUENCES. 2013 20 4067 17 MATERNAL AND PEDIATRIC HEALTH AND DISEASE: INTEGRATING BIOPSYCHOSOCIAL MODELS AND EPIGENETICS. THE CONCEPTS OF ALLOSTASIS (STABILITY THROUGH ADAPTATION) AND ACCUMULATED LIFE STRESS (MCEWEN'S ALLOSTATIC LOAD) AIM TO UNDERSTAND CHILDHOOD AND ADULT OUTCOMES. CHRONIC MALNUTRITION, CHANGES IN SOCIAL CONDITION, AND ADVERSE EARLY-LIFE EXPERIENCES MAY PROGRAM PHENOTYPES AND CONTRIBUTE TO LONG-LASTING DISEASE RISK. HOWEVER, INTEGRATION OF LIFE COURSE APPROACHES, SOCIAL AND ECONOMIC CONTEXTS, AND COMPARISON AMONG DIFFERENT BIOPSYCHOSOCIAL MODELS HAS NOT GENERALLY BEEN EXPLORED. THIS REVIEW CRITICALLY EXAMINES THE LITERATURE AND EVALUATES RECENT INSIGHTS INTO HOW ENVIRONMENTAL STRESS CAN ALTER LIFELONG HYPOTHALAMIC-PITUITARY-ADRENAL AXIS AND IMMUNE SYSTEM RESPONSIVENESS AND INDUCE METABOLIC AND NEURODEVELOPMENTAL MALADAPTATION. MODELS OF BIOPSYCHOSOCIAL STRESS OVERLAP BUT MAY CONSIDER DIFFERENT CONDITIONS. CONCEPTS INCLUDE ALLOSTASIS, WHICH INCORPORATES HORMONAL RESPONSES TO PREDICTABLE ENVIRONMENTAL CHANGES, AND GERONIMUS'S "WEATHERING," WHICH AIMS TO EXPLAIN HOW SOCIALLY STRUCTURED, REPEATED STRESS CAN ACCUMULATE AND INCREASE DISEASE VULNERABILITY. WEATHERING EMPHASIZES ROLES OF INTERNALIZED/INTERPERSONAL RACISM IN OUTCOMES DISPARITIES. FOR MEXICAN IMMIGRANTS AND MEXICAN AMERICANS, THE "ACCULTURATION" FRAMEWORK HAS PROVEN ESPECIALLY USEFUL TO EXPLORE DISPARITIES, INCLUDING PRETERM BIRTH AND NEUROPSYCHIATRIC RISKS IN CHILDHOOD. COMPLEXITIES OF STRESS ASSESSMENTS AND RECENT RESEARCH INTO EPIGENETIC MECHANISMS MEDIATING EFFECTS OF PHYSICAL, NUTRITIONAL, PSYCHOLOGICAL, AND SOCIAL STRESS ARE REVIEWED. 2016