1 1468 90 DISTINCT EPIGENETIC PROGRAMS REGULATE CARDIAC MYOCYTE DEVELOPMENT AND DISEASE IN THE HUMAN HEART IN VIVO. EPIGENETIC MECHANISMS AND TRANSCRIPTION FACTOR NETWORKS ESSENTIAL FOR DIFFERENTIATION OF CARDIAC MYOCYTES HAVE BEEN UNCOVERED. HOWEVER, RESHAPING OF THE EPIGENOME OF THESE TERMINALLY DIFFERENTIATED CELLS DURING FETAL DEVELOPMENT, POSTNATAL MATURATION, AND IN DISEASE REMAINS UNKNOWN. HERE, WE INVESTIGATE THE DYNAMICS OF THE CARDIAC MYOCYTE EPIGENOME DURING DEVELOPMENT AND IN CHRONIC HEART FAILURE. WE FIND THAT PRENATAL DEVELOPMENT AND POSTNATAL MATURATION ARE CHARACTERIZED BY A COOPERATION OF ACTIVE CPG METHYLATION AND HISTONE MARKS AT CIS-REGULATORY AND GENIC REGIONS TO SHAPE THE CARDIAC MYOCYTE TRANSCRIPTOME. IN CONTRAST, PATHOLOGICAL GENE EXPRESSION IN TERMINAL HEART FAILURE IS ACCOMPANIED BY CHANGES IN ACTIVE HISTONE MARKS WITHOUT MAJOR ALTERATIONS IN CPG METHYLATION AND REPRESSIVE CHROMATIN MARKS. NOTABLY, CIS-REGULATORY REGIONS IN CARDIAC MYOCYTES ARE SIGNIFICANTLY ENRICHED FOR CARDIOVASCULAR DISEASE-ASSOCIATED VARIANTS. THIS STUDY UNCOVERS DISTINCT LAYERS OF EPIGENETIC REGULATION NOT ONLY DURING PRENATAL DEVELOPMENT AND POSTNATAL MATURATION BUT ALSO IN DISEASED HUMAN CARDIAC MYOCYTES. 2018 2 719 27 CALORIE RESTRICTION-REGULATED MOLECULAR PATHWAYS AND ITS IMPACT ON VARIOUS AGE GROUPS: AN OVERVIEW. CALORIE RESTRICTION (CR) IF PLANNED PROPERLY WITH REGULAR EXERCISE AT DIFFERENT AGES CAN RESULT IN HEALTHY WEIGHT LOSS. CR CAN ALSO HAVE DIFFERENT BENEFICIAL EFFECTS ON IMPROVING LIFESPAN AND DECREASING THE AGE-ASSOCIATED DISEASES BY REGULATING PHYSIOLOGICAL, BIOCHEMICAL, AND MOLECULAR MARKERS. THE DIFFERENT PATHWAYS REGULATED BY CR INCLUDE:(1) AMP-ACTIVATED PROTEIN KINASE (AMPK), WHICH INVOLVES PGC-1ALPHA, SIRT1, AND SIRT3. AMPK ALSO EFFECTS MYOCYTE ENHANCER FACTOR 2 (MEF2), PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR DELTA, AND PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR ALPHA, WHICH ARE INVOLVED IN MITOCHONDRIAL BIOGENESIS AND LIPID OXIDATION; (2) FORKHEAD BOX TRANSCRIPTION FACTOR'S SIGNALING IS RELATED TO THE DNA REPAIR, LIPID METABOLISM, PROTECTION OF PROTEIN STRUCTURE, AUTOPHAGY, AND RESISTANCE TO OXIDATIVE STRESS; (3) MAMMALIAN TARGET OF RAPAMYCIN (MTOR) SIGNALING, WHICH INVOLVES KEY FACTORS, SUCH AS S6 PROTEIN KINASE-1 (S6K1), MTOR COMPLEX-1 (MTORC1), AND 4E-BINDING PROTEIN (4E-BP). UNDER CR CONDITIONS, AMPK ACTIVATION AND MTOR INHIBITION HELPS IN THE ACTIVATION OF ULK1 COMPLEX ALONG WITH THE ACETYLTRANSFERASE MEC-17, WHICH IS NECESSARY FOR AUTOPHAGY; (4) INSULIN-LIKE GROWTH FACTOR-1 (IGF-1) PATHWAY DOWNREGULATION PROTECTS AGAINST CANCER AND SLOWS THE AGING PROCESS; (5) NUCLEAR FACTOR KAPPA B PATHWAY DOWNREGULATION DECREASES THE INFLAMMATION; AND (6) C-JUN N-TERMINAL KINASE AND P38 KINASE REGULATION AS A RESPONSE TO THE STRESS. THE ACUTE AND CHRONIC CR BOTH SHOWS ANTIDEPRESSION AND ANXIOLYTIC ACTION BY EFFECTING GHRELIN/GHS-R1A SIGNALING. CR ALSO REGULATES GSK3BETA KINASE AND PROTECTS AGAINST AGE-RELATED BRAIN ATROPHY. CR AT YOUNG AGE MAY SHOW MANY DELETERIOUS EFFECTS BY EFFECTING DIFFERENT MECHANISMS. PARENTAL CR BEFORE OR DURING CONCEPTION WILL ALSO AFFECT THE HEALTH AND DEVELOPMENT OF THE OFFSPRING BY CAUSING MANY EPIGENETIC MODIFICATIONS THAT SHOW TRANSGENERATIONAL TRANSMISSION. MATERNAL CR IS ASSOCIATED WITH INTRAUTERINE GROWTH RETARDATION EFFECTING THE OFFSPRING IN THEIR ADULTHOOD BY DEVELOPING DIFFERENT METABOLIC SYNDROMES. THE EPIGENETIC CHANGES WITH RESPONSE TO PATERNAL FOOD SUPPLY ALSO LINKED TO OFFSPRING HEALTH. CR AT MIDDLE AND OLD AGE PROVIDES A SIGNIFICANT PREVENTIVE IMPACT AGAINST THE DEVELOPMENT OF AGE-ASSOCIATED DISEASES. 2022 3 4047 29 MAIN PATHOGENIC MECHANISMS AND RECENT ADVANCES IN COPD PERIPHERAL SKELETAL MUSCLE WASTING. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A WORLDWIDE PREVALENT RESPIRATORY DISEASE MAINLY CAUSED BY TOBACCO SMOKE EXPOSURE. COPD IS NOW CONSIDERED AS A SYSTEMIC DISEASE WITH SEVERAL COMORBIDITIES. AMONG THEM, SKELETAL MUSCLE DYSFUNCTION AFFECTS AROUND 20% OF COPD PATIENTS AND IS ASSOCIATED WITH HIGHER MORBIDITY AND MORTALITY. ALTHOUGH THE HISTOLOGICAL ALTERATIONS ARE WELL CHARACTERIZED, INCLUDING MYOFIBER ATROPHY, A DECREASED PROPORTION OF SLOW-TWITCH MYOFIBERS, AND A DECREASED CAPILLARIZATION AND OXIDATIVE PHOSPHORYLATION CAPACITY, THE MOLECULAR BASIS FOR MUSCLE ATROPHY IS COMPLEX AND REMAINS PARTLY UNKNOWN. MAJOR DIFFICULTIES LIE IN PATIENT HETEROGENEITY, ACCESSING PATIENTS' SAMPLES, AND COMPLEX MULTIFACTORIAL PROCESS INCLUDING EXTRINSIC MECHANISMS, SUCH AS TOBACCO SMOKE OR DISUSE, AND INTRINSIC MECHANISMS, SUCH AS OXIDATIVE STRESS, HYPOXIA, OR SYSTEMIC INFLAMMATION. MUSCLE WASTING IS ALSO A HIGHLY DYNAMIC PROCESS WHOSE INVESTIGATION IS HAMPERED BY THE DIFFERENTIAL PROTEIN REGULATION ACCORDING TO THE STAGE OF ATROPHY. IN THIS REVIEW, WE REPORT AND DISCUSS RECENT DATA REGARDING THE MOLECULAR ALTERATIONS IN COPD LEADING TO IMPAIRED MUSCLE MASS, INCLUDING INFLAMMATION, HYPOXIA AND HYPERCAPNIA, MITOCHONDRIAL DYSFUNCTION, DIVERSE METABOLIC CHANGES SUCH AS OXIDATIVE AND NITROSATIVE STRESS AND GENETIC AND EPIGENETIC MODIFICATIONS, ALL LEADING TO AN IMPAIRED ANABOLIC/CATABOLIC BALANCE IN THE MYOCYTE. WE RECAPITULATE DATA CONCERNING SKELETAL MUSCLE DYSFUNCTION OBTAINED IN THE DIFFERENT RODENT MODELS OF COPD. FINALLY, WE PROPOSE SEVERAL PATHWAYS THAT SHOULD BE INVESTIGATED IN COPD SKELETAL MUSCLE DYSFUNCTION IN THE FUTURE. 2023 4 2170 27 EPIGENETIC MECHANISMS IN RESPIRATORY MUSCLE DYSFUNCTION OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE. EPIGENETIC EVENTS ARE DIFFERENTIALLY EXPRESSED IN THE LUNGS AND AIRWAYS OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). MOREOVER, EPIGENETIC MECHANISMS ARE INVOLVED IN THE SKELETAL (PERIPHERAL) MUSCLE DYSFUNCTION OF COPD PATIENTS. WHETHER EPIGENETIC EVENTS MAY ALSO REGULATE RESPIRATORY MUSCLE DYSFUNCTION IN COPD REMAINS UNKNOWN. WE HYPOTHESIZED THAT EPIGENETIC MECHANISMS WOULD BE DIFFERENTIALLY EXPRESSED IN THE MAIN INSPIRATORY MUSCLE (DIAPHRAGM) OF PATIENTS WITH COPD OF A WIDE RANGE OF DISEASE SEVERITY COMPARED TO HEALTHY CONTROLS. IN DIAPHRAGM MUSCLE SPECIMENS (THORACOTOMY DUE TO LUNG LOCALIZED NEOPLASMS) OF SEDENTARY PATIENTS WITH MILD-TO-MODERATE AND SEVERE COPD, WITH PRESERVED BODY COMPOSITION, AND SEDENTARY HEALTHY CONTROLS, EXPRESSION OF MUSCLE-ENRICHED MICRORNAS, HISTONE ACETYLTRANSFERASES (HATS) AND DEACETYLASES (HDACS), TOTAL DNA METHYLATION AND PROTEIN ACETYLATION, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES, MUSCLE-SPECIFIC TRANSCRIPTION FACTORS, AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE ALSO CLINICALLY EVALUATED: LUNG AND MUSCLE FUNCTIONS AND EXERCISE CAPACITY. COMPARED TO HEALTHY CONTROLS, PATIENTS EXHIBITED MODERATE AIRFLOW LIMITATION AND DIFFUSION CAPACITY, AND REDUCED EXERCISE TOLERANCE AND TRANSDIAPHRAGMATIC STRENGTH. MOREOVER, IN THE DIAPHRAGM OF THE COPD PATIENTS, MUSCLE-SPECIFIC MICRORNA EXPRESSION WAS DOWNREGULATED, WHILE HDAC4 AND MYOCYTE ENHANCER FACTOR (MEF)2C PROTEIN LEVELS WERE HIGHER, AND DNA METHYLATION LEVELS, MUSCLE FIBER TYPES AND SIZES DID NOT DIFFER BETWEEN PATIENTS AND CONTROLS. IN THE MAIN RESPIRATORY MUSCLE OF COPD PATIENTS WITH A WIDE RANGE OF DISEASE SEVERITY AND NORMAL BODY COMPOSITION, MUSCLE-SPECIFIC MICRORNAS WERE DOWNREGULATED, WHILE HDAC4 AND MEF2C LEVELS WERE UPREGULATED. IT IS LIKELY THAT THESE EPIGENETIC EVENTS ACT AS BIOLOGICAL ADAPTIVE MECHANISMS TO BETTER OVERCOME THE CONTINUOUS INSPIRATORY LOADS OF THE RESPIRATORY SYSTEM IN COPD. THESE FINDINGS MAY OFFER NOVEL THERAPEUTIC STRATEGIES TO SPECIFICALLY TARGET RESPIRATORY MUSCLE DYSFUNCTION IN PATIENTS WITH COPD. 2014 5 5906 27 TAKAYASU ARTERITIS RISK LOCUS IN IL6 REPRESSES THE ANTI-INFLAMMATORY GENE GPNMB THROUGH CHROMATIN LOOPING AND RECRUITING MEF2-HDAC COMPLEX. OBJECTIVE: PREVIOUS WORK HAS REVEALED A GENETIC ASSOCIATION BETWEEN TAKAYASU ARTERITIS AND A NON-CODING GENETIC VARIANT IN AN ENHANCER REGION WITHIN IL6 (RS2069837 A/G). THE RISK ALLELE IN THIS VARIANT (ALLELE A) HAS A PROTECTIVE EFFECT AGAINST CHRONIC VIRAL INFECTION AND CANCER. THE GOAL OF THIS STUDY WAS TO CHARACTERISE THE FUNCTIONAL CONSEQUENCES OF THIS DISEASE-ASSOCIATED RISK LOCUS. METHODS: A COMBINATION OF EXPERIMENTAL AND BIOINFORMATICS TOOLS WERE USED TO MECHANISTICALLY UNDERSTAND THE EFFECTS OF THE DISEASE-ASSOCIATED GENETIC LOCUS IN IL6. THESE INCLUDED ELECTROPHORETIC MOBILITY SHIFT ASSAY, DNA AFFINITY PRECIPITATION ASSAYS FOLLOWED BY MASS SPECTROMETRY AND WESTERN BLOTTING, LUCIFERASE REPORTER ASSAYS AND CHROMOSOME CONFORMATION CAPTURE (3C) TO IDENTIFY CHROMATIN LOOPING IN THE IL6 LOCUS. BOTH CELL LINES AND PERIPHERAL BLOOD PRIMARY MONOCYTE-DERIVED MACROPHAGES WERE USED. RESULTS: WE IDENTIFIED THE MONOCYTE/MACROPHAGE ANTI-INFLAMMATORY GENE GPNMB,~520 KB FROM IL6, AS A TARGET GENE REGULATED BY RS2069837. WE REVEALED PREFERENTIAL RECRUITMENT OF MYOCYTE ENHANCER FACTOR 2-HISTONE DEACETYLASE (MEF2-HDAC) REPRESSIVE COMPLEX TO THE TAKAYASU ARTERITIS RISK ALLELE. FURTHER, WE DEMONSTRATED SUPPRESSION OF GPNMB EXPRESSION IN MONOCYTE-DERIVED MACROPHAGES FROM HEALTHY INDIVIDUALS WITH AA COMPARED WITH AG GENOTYPE, WHICH WAS REVERSED BY HISTONE DEACETYLASE INHIBITION. OUR DATA SHOW THAT THE RISK ALLELE IN RS2069837 REPRESSES THE EXPRESSION OF GPNMB BY RECRUITING MEF2-HDAC COMPLEX, ENABLED THROUGH A LONG-RANGE INTRACHROMATIN LOOPING. SUPPRESSION OF THIS ANTI-INFLAMMATORY GENE MIGHT MEDIATE INCREASED SUSCEPTIBILITY IN TAKAYASU ARTERITIS AND ENHANCE PROTECTIVE IMMUNE RESPONSES IN CHRONIC INFECTION AND CANCER. CONCLUSIONS: TAKAYASU ARTERITIS RISK LOCUS IN IL6 MIGHT INCREASE DISEASE SUSCEPTIBILITY BY SUPPRESSION OF THE ANTI-INFLAMMATORY GENE GPNMB THROUGH CHROMATIN LOOPING AND RECRUITMENT OF MEF2-HDAC EPIGENETIC REPRESSIVE COMPLEX. OUR DATA HIGHLIGHT LONG-RANGE CHROMATIN INTERACTIONS IN FUNCTIONAL GENOMIC AND EPIGENOMIC STUDIES IN AUTOIMMUNITY. 2019 6 5334 21 QUADRICEPS MUSCLE WEAKNESS AND ATROPHY ARE ASSOCIATED WITH A DIFFERENTIAL EPIGENETIC PROFILE IN ADVANCED COPD. EPIGENETIC MECHANISMS REGULATE MUSCLE MASS AND FUNCTION IN MODELS OF MUSCLE DYSFUNCTION AND ATROPHY. WE ASSESSED WHETHER QUADRICEPS MUSCLE WEAKNESS AND ATROPHY ARE ASSOCIATED WITH A DIFFERENTIAL EXPRESSION PROFILE OF EPIGENETIC EVENTS IN PATIENTS WITH ADVANCED COPD (CHRONIC OBSTRUCTIVE PULMONARY DISEASE). IN VASTUS LATERALIS (VL) OF SEDENTARY SEVERE COPD PATIENTS (N=41), WHO WERE FURTHER SUBDIVIDED INTO THOSE WITH (N=25) AND WITHOUT (N=16) MUSCLE WEAKNESS AND HEALTHY CONTROLS (N=19), EXPRESSION OF MUSCLE-ENRICHED MIRNAS, HISTONE ACETYLTRANSFERASES (HATS) AND DEACETYLASES (HDACS), GROWTH AND ATROPHY SIGNALLING MARKERS, TOTAL PROTEIN AND HISTONE ACETYLATION, TRANSCRIPTION FACTORS, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE CLINICALLY EVALUATED. COMPARED WITH CONTROLS, IN VL OF ALL COPD TOGETHER AND IN MUSCLE-WEAKNESS PATIENTS, EXPRESSION OF MIR-1, MIR-206 AND MIR-27A, LEVELS OF LYSINE-ACETYLATED PROTEINS AND HISTONES AND ACETYLATED HISTONE 3 WERE INCREASED, WHEREAS EXPRESSION OF HDAC3, HDAC4, SIRTUIN-1 (SIRT-1), IGF-1 (INSULIN-LIKE GROWTH FACTOR-1) WERE DECREASED, AKT (V-AKT MURINE THYMOMA VIRAL ONCOGENE HOMOLOGUE 1) EXPRESSION DID NOT DIFFER, FOLLISTATIN EXPRESSION WAS GREATER, WHEREAS MYOSTATIN EXPRESSION WAS LOWER, SERUM REPONSE FACTOR (SRF) EXPRESSION WAS INCREASED AND FIBRE SIZE OF FAST-TWITCH FIBRES WAS SIGNIFICANTLY REDUCED. IN VL OF SEVERE COPD PATIENTS WITH MUSCLE WEAKNESS AND ATROPHY, EPIGENETIC EVENTS REGULATE MUSCLE DIFFERENTIATION RATHER THAN PROLIFERATION AND MUSCLE GROWTH AND ATROPHY SIGNALLING, PROBABLY AS FEEDBACK MECHANISMS TO PREVENT THOSE MUSCLES FROM UNDERGOING FURTHER ATROPHY. LYSINE-HYPERACETYLATION OF HISTONES MAY DRIVE ENHANCED PROTEIN CATABOLISM IN THOSE MUSCLES. THESE FINDINGS MAY HELP DESIGN NOVEL THERAPEUTIC STRATEGIES (ENHANCERS OF MIRNAS PROMOTING MYOGENESIS AND ACETYLATION INHIBITORS) TO SELECTIVELY TARGET MUSCLE WEAKNESS AND ATROPHY IN SEVERE COPD. 2015 7 1633 27 DO EPIGENETIC EVENTS TAKE PLACE IN THE VASTUS LATERALIS OF PATIENTS WITH MILD CHRONIC OBSTRUCTIVE PULMONARY DISEASE? MUSCLE DYSFUNCTION IS A MAJOR COMORBIDITY IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). SEVERAL BIOLOGICAL MECHANISMS INCLUDING EPIGENETIC EVENTS REGULATE MUSCLE MASS AND FUNCTION IN MODELS OF MUSCLE ATROPHY. INVESTIGATIONS CONDUCTED SO FAR HAVE FOCUSED ON THE ELUCIDATION OF BIOLOGICAL MECHANISMS INVOLVED IN MUSCLE DYSFUNCTION IN ADVANCED COPD. WE ASSESSED WHETHER THE EPIGENETIC PROFILE MAY BE ALTERED IN THE VASTUS LATERALIS OF PATIENTS WITH MILD COPD, NORMAL BODY COMPOSITION, AND MILDLY IMPAIRED MUSCLE FUNCTION AND EXERCISE CAPACITY. IN VASTUS LATERALIS (VL) OF MILD COPD PATIENTS WITH WELL-PRESERVED BODY COMPOSITION AND IN HEALTHY AGE-MATCHED CONTROLS, EXPRESSION OF DNA METHYLATION, MUSCLE-ENRICHED MICRORNAS, HISTONE ACETYLTRANSFERASES (HTAS) AND DEACETYLASES (HDACS), PROTEIN ACETYLATION, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES, AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE CLINICALLY EVALUATED. COMPARED TO HEALTHY CONTROLS, IN THE VL OF MILD COPD PATIENTS, MUSCLE FUNCTION AND EXERCISE CAPACITY WERE MODERATELY REDUCED, DNA METHYLATION LEVELS DID NOT DIFFER, MIR-1 EXPRESSION LEVELS WERE INCREASED AND POSITIVELY CORRELATED WITH BOTH FORCED EXPIRATORY VOLUME IN ONE SECOND (FEV1) AND QUADRICEPS FORCE, HDAC4 PROTEIN LEVELS WERE INCREASED, AND MUSCLE FIBER TYPES AND SIZES WERE NOT DIFFERENT. MODERATE SKELETAL MUSCLE DYSFUNCTION IS A RELEVANT FEATURE IN PATIENTS WITH MILD COPD AND PRESERVED BODY COMPOSITION. SEVERAL EPIGENETIC EVENTS ARE DIFFERENTIALLY EXPRESSED IN THE LIMB MUSCLES OF THESE PATIENTS, PROBABLY AS AN ATTEMPT TO COUNTERBALANCE THE UNDERLYING MECHANISMS THAT ALTER MUSCLE FUNCTION AND MASS. THE STUDY OF PATIENTS AT EARLY STAGES OF THEIR DISEASE IS OF INTEREST AS THEY ARE A TARGET FOR TIMELY THERAPEUTIC INTERVENTIONS THAT MAY SLOW DOWN THE COURSE OF THE DISEASE AND PREVENT THE DELETERIOUS EFFECTS OF MAJOR COMORBIDITIES. 2014 8 245 35 ADRENERGIC REPRESSION OF THE EPIGENETIC READER MECP2 FACILITATES CARDIAC ADAPTATION IN CHRONIC HEART FAILURE. RATIONALE: IN CHRONIC HEART FAILURE, INCREASED ADRENERGIC ACTIVATION CONTRIBUTES TO STRUCTURAL REMODELING AND ALTERED GENE EXPRESSION. ALTHOUGH ADRENERGIC SIGNALING ALTERS HISTONE MODIFICATIONS, IT IS UNKNOWN, WHETHER IT ALSO AFFECTS OTHER EPIGENETIC PROCESSES, INCLUDING DNA METHYLATION AND ITS RECOGNITION. OBJECTIVE: THE AIM OF THIS STUDY WAS TO IDENTIFY THE MECHANISM OF REGULATION OF THE METHYL-CPG-BINDING PROTEIN 2 (MECP2) AND ITS FUNCTIONAL SIGNIFICANCE DURING CARDIAC PRESSURE OVERLOAD AND UNLOADING. METHODS AND RESULTS: MECP2 WAS IDENTIFIED AS A REVERSIBLY REPRESSED GENE IN MOUSE HEARTS AFTER TRANSVERSE AORTIC CONSTRICTION AND WAS NORMALIZED AFTER REMOVAL OF THE CONSTRICTION. SIMILARLY, MECP2 REPRESSION IN HUMAN FAILING HEARTS RESOLVED AFTER UNLOADING BY A LEFT VENTRICULAR ASSIST DEVICE. THE CLUSTER MIR-212/132 WAS UPREGULATED AFTER TRANSVERSE AORTIC CONSTRICTION OR ON ACTIVATION OF ALPHA1- AND BETA1-ADRENOCEPTORS AND MIR-212/132 LED TO REPRESSION OF MECP2. PREVENTION OF MECP2 REPRESSION BY A CARDIOMYOCYTE-SPECIFIC, DOXYCYCLINE-REGULATABLE TRANSGENIC MOUSE MODEL AGGRAVATED CARDIAC HYPERTROPHY, FIBROSIS, AND CONTRACTILE DYSFUNCTION AFTER TRANSVERSE AORTIC CONSTRICTION. ABLATION OF MECP2 IN CARDIOMYOCYTES FACILITATED RECOVERY OF FAILING HEARTS AFTER REVERSIBLE TRANSVERSE AORTIC CONSTRICTION. GENOME-WIDE EXPRESSION ANALYSIS, CHROMATIN IMMUNOPRECIPITATION EXPERIMENTS, AND DNA METHYLATION ANALYSIS IDENTIFIED MITOCHONDRIAL GENES AND THEIR TRANSCRIPTIONAL REGULATORS AS MECP2 TARGET GENES. COINCIDENT WITH ITS REPRESSION, MECP2 WAS REMOVED FROM ITS TARGET GENES, WHEREAS DNA METHYLATION OF MECP2 TARGET GENES REMAINED STABLE DURING PRESSURE OVERLOAD. CONCLUSIONS: THESE DATA CONNECT ADRENERGIC ACTIVATION WITH A MICRORNA-MECP2 EPIGENETIC PATHWAY THAT IS IMPORTANT FOR CARDIAC ADAPTATION DURING THE DEVELOPMENT AND RECOVERY FROM HEART FAILURE. 2015 9 1125 27 COMPLEX INHIBITION OF AUTOPHAGY BY MITOCHONDRIAL ALDEHYDE DEHYDROGENASE SHORTENS LIFESPAN AND EXACERBATES CARDIAC AGING. AUTOPHAGY, A CONSERVATIVE DEGRADATION PROCESS FOR LONG-LIVED AND DAMAGED PROTEINS, PARTICIPATES IN A CASCADE OF BIOLOGICAL PROCESSES INCLUDING AGING. A NUMBER OF AUTOPHAGY REGULATORS HAVE BEEN IDENTIFIED. HERE WE DEMONSTRATED THAT MITOCHONDRIAL ALDEHYDE DEHYDROGENASE (ALDH2), AN ENZYME WITH THE MOST COMMON SINGLE POINT MUTATION IN HUMANS, GOVERNS CARDIAC AGING THROUGH REGULATION OF AUTOPHAGY. MYOCARDIAL MECHANICAL AND AUTOPHAGY PROPERTIES WERE EXAMINED IN YOUNG (4MONTHS) AND OLD (26-28MONTHS) WILD-TYPE (WT) AND GLOBAL ALDH2 TRANSGENIC MICE. ALDH2 OVEREXPRESSION SHORTENED LIFESPAN BY 7.7% WITHOUT AFFECTING AGING-ASSOCIATED CHANGES IN PLASMA METABOLIC PROFILES. MYOCARDIAL FUNCTION WAS COMPROMISED WITH AGING ASSOCIATED WITH CARDIAC HYPERTROPHY, THE EFFECTS WERE ACCENTUATED BY ALDH2. AGING OVERTLY SUPPRESSED AUTOPHAGY AND COMPROMISED AUTOPHAGY FLUX, THE EFFECTS WERE EXACERBATED BY ALDH2. AGING DAMPENED PHOSPHORYLATION OF JNK, BCL-2, IKKBETA, AMPK AND TSC2 WHILE PROMOTING PHOSPHORYLATION OF MTOR, THE EFFECTS OF WHICH WERE EXAGGERATED BY ALDH2. CO-IMMUNOPRECIPITATION REVEALED INCREASED DISSOCIATION BETWEEN BCL-2 AND BECLIN-1 (RESULT OF DECREASED BCL-2 PHOSPHORYLATION) IN AGING, THE EFFECT OF WHICH WAS EXACERBATED WITH ALDH2. CHRONIC TREATMENT OF THE AUTOPHAGY INDUCER RAPAMYCIN ALLEVIATED AGING-INDUCED CARDIAC DYSFUNCTION IN BOTH WT AND ALDH2 MICE. MOREOVER, ACTIVATION OF JNK AND INHIBITION OF EITHER BCL-2 OR IKKBETA OVERTLY ATTENUATED ALDH2 ACTIVATION-INDUCED ACCENTUATION OF CARDIOMYOCYTE AGING. EXAMINATION OF THE OTHERWISE ELDERLY INDIVIDUALS REVEALED A POSITIVE CORRELATION BETWEEN CARDIAC FUNCTION/GEOMETRY AND ALDH2 GENE MUTATION. TAKEN TOGETHER, OUR DATA REVEALED THAT ALDH2 ENZYME MAY SUPPRESS MYOCARDIAL AUTOPHAGY POSSIBLY THROUGH A COMPLEX JNK-BCL-2 AND IKKBETA-AMPK-DEPENDENT MECHANISM EN ROUTE TO ACCENTUATION OF MYOCARDIAL REMODELING AND CONTRACTILE DYSFUNCTION IN AGING. THIS ARTICLE IS PART OF A SPECIAL ISSUE ENTITLED: GENETIC AND EPIGENETIC CONTROL OF HEART FAILURE - EDITED BY JUN REN & MEGAN YINGMEI ZHANG. 2017 10 982 27 CHRONIC PRENATAL HYPOXIA INDUCES EPIGENETIC PROGRAMMING OF PKCEPSILON GENE REPRESSION IN RAT HEARTS. RATIONALE: EPIDEMIOLOGICAL STUDIES DEMONSTRATE A CLEAR ASSOCIATION OF ADVERSE INTRAUTERINE ENVIRONMENT WITH AN INCREASED RISK OF ISCHEMIC HEART DISEASE IN ADULTHOOD. HYPOXIA IS A COMMON STRESS TO THE FETUS AND RESULTS IN DECREASED PROTEIN KINASE C EPSILON (PKCEPSILON) EXPRESSION IN THE HEART AND INCREASED CARDIAC VULNERABILITY TO ISCHEMIA AND REPERFUSION INJURY IN ADULT OFFSPRING IN RATS. OBJECTIVES: THE PRESENT STUDY TESTED THE HYPOTHESIS THAT FETAL HYPOXIA-INDUCED METHYLATION OF CYTOSINE-PHOSPHATE-GUANINE DINUCLEOTIDES AT THE PKCEPSILON PROMOTER IS REPRESSIVE AND CONTRIBUTES TO PKCEPSILON GENE REPRESSION IN THE HEART OF ADULT OFFSPRING. METHODS AND RESULTS: HYPOXIC TREATMENT OF PREGNANT RATS FROM DAYS 15 TO 21 OF GESTATION RESULTED IN SIGNIFICANT DECREASES IN PKCEPSILON PROTEIN AND MRNA IN FETAL HEARTS. SIMILAR RESULTS WERE OBTAINED IN EX VIVO HYPOXIC TREATMENT OF ISOLATED FETAL HEARTS AND RAT EMBRYONIC VENTRICULAR MYOCYTE CELL LINE H9C2. INCREASED METHYLATION OF PKCEPSILON PROMOTER AT SP1 BINDING SITES, -346 AND -268, WERE DEMONSTRATED IN BOTH FETAL HEARTS OF MATERNAL HYPOXIA AND H9C2 CELLS TREATED WITH 1% O(2) FOR 24 HOURS. WHEREAS HYPOXIA HAD NO SIGNIFICANT EFFECT ON THE BINDING AFFINITY OF SP1 TO THE UNMETHYLATED SITES IN H9C2 CELLS, HEARTS OF FETUSES AND ADULT OFFSPRING, METHYLATION OF BOTH SP1 SITES REDUCED SP1 BINDING. THE ADDITION OF 5-AZA-2'-DEOXYCYTIDINE BLOCKED THE HYPOXIA-INDUCED INCREASE IN METHYLATION OF BOTH SP1 BINDING SITES AND RESTORED PKCEPSILON MRNA AND PROTEIN TO THE CONTROL LEVELS. IN HEARTS OF BOTH FETUSES AND ADULT OFFSPRING, HYPOXIA-INDUCED METHYLATION OF SP1 SITES WAS SIGNIFICANTLY GREATER IN MALES THAN IN FEMALES, AND DECREASED PKCEPSILON MRNA WAS SEEN ONLY IN MALES. IN FETAL HEARTS, THERE WAS SIGNIFICANTLY HIGHER ABUNDANCE OF ESTROGEN RECEPTOR ALPHA AND BETA ISOFORMS IN FEMALES THAN IN MALES. BOTH ESTROGEN RECEPTOR ALPHA AND BETA INTERACTED WITH THE SP1 BINDING SITES IN THE FETAL HEART, WHICH MAY EXPLAIN THE SEX DIFFERENCES IN SP1 METHYLATION IN THE FETAL HEART. ADDITIONALLY, SELECTIVE ACTIVATION OF PKCEPSILON RESTORED THE HYPOXIA-INDUCED CARDIAC VULNERABILITY TO ISCHEMIC INJURY IN OFFSPRING. CONCLUSIONS: THE FINDINGS DEMONSTRATE A DIRECT EFFECT OF HYPOXIA ON EPIGENETIC MODIFICATION OF DNA METHYLATION AND PROGRAMMING OF CARDIAC PKCEPSILON GENE REPRESSION IN A SEX-DEPENDENT MANNER, LINKING FETAL HYPOXIA AND PATHOPHYSIOLOGICAL CONSEQUENCES IN THE HEARTS OF ADULT OFFSPRING. 2010 11 5479 24 RESVERATROL ATTENUATES CIGARETTE SMOKE EXTRACT INDUCED CELLULAR SENESCENCE IN HUMAN AIRWAY EPITHELIAL CELLS BY REGULATING THE MIR-34A/SIRT1/NF-KAPPAB PATHWAY. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS CHARACTERIZED BY ACCELERATED LUNG AGING. SMOKING IS THE CRITICAL RISK FACTOR FOR COPD. CELLULAR SENESCENCE OF AIRWAY EPITHELIAL CELLS IS THE CYTOLOGICAL BASIS OF ACCELERATED LUNG AGING IN COPD, AND THE REGULATION OF MICRORNAS (MIRNAS) IS THE CENTRAL EPIGENETIC MECHANISM OF CELLULAR SENESCENCE. RESVERATROL (RES) IS A POLYPHENOL WITH ANTI-AGING PROPERTIES. THIS STUDY INVESTIGATED WHETHER RES ATTENUATES CIGARETTE SMOKE EXTRACT (CSE)-INDUCED CELLULAR SENESCENCE IN HUMAN AIRWAY EPITHELIAL CELLS (BEAS-2B) THROUGH THE MIR-34A/SIRT1/NUCLEAR FACTOR-KAPPAB (NF-KAPPAB) PATHWAY. BEAS-2B CELLS WERE TREATED WITH RES, CSE AND TRANSFECTED WITH MIR-34A-5P MIMICS. CELLULAR SENESCENCE WAS EVALUATED BY SENESCENCE -RELATED BETA-GALACTOSIDASE (SA-BETA-GAL) STAINING AND EXPRESSION OF SENESCENCE-RELATED GENES (P16, P21, AND P53). THE EXPRESSIONS OF MIR-34A-5P, SIRT1, AND NF-KAPPAB P65 WERE EXAMINED USING QUANTITATIVE REAL TIME POLYMERASE CHAIN REACTION AND WESTERN BLOTTING. THE SENESCENCE-ASSOCIATED SECRETORY PHENOTYPE (SASP) CYTOKINES (IL-1BETA, IL-6, IL-8, TNF-ALPHA) WERE ASSESSED BY ENZYME-LINKED IMMUNOSORBENT ASSAY. THE BINDING BETWEEN MIR-34A-5P AND SIRT1 WAS CONFIRMED BY DUAL-LUCIFERASE REPORTER ASSAY. THE RESULTS SHOWED THAT CSE DOSE-DEPENDENTLY DECREASED CELL VIABILITY AND ELEVATED CELLULAR SENESCENCE, CHARACTERIZED BY INCREASED SA-BETA-GAL STAINING AND SENESCENCE-RELATED GENE EXPRESSIONS (P16, P21, AND P53). FURTHER, CSE DOSE-DEPENDENTLY INCREASED THE EXPRESSION OF MIR-34A-5P AND SASP CYTOKINES (IL-1BETA, IL-6, IL-8, TNF-ALPHA) IN BEAS-2B CELLS. PRETREATMENT WITH RES INHIBITED CSE-INDUCED CELLULAR SENESCENCE AND SECRETION OF SASP CYTOKINES (IL-1BETA, IL-6, IL-8, TNF-ALPHA) IN A DOSE-DEPENDENT MANNER. MOREOVER, RES REVERSED THE CSE-INDUCED DOWN-REGULATION OF SIRT1 AND UP-REGULATION OF MIR-34A-5P AND NF-KAPPAB P65. SIRT1 IS A TARGET OF MIR-34A-5P. OVEREXPRESSION OF MIR-34A-5P VIA TRANSFECTION WITH MIR-34A-5P MIMIC IN BEAS-2B CELLS ATTENUATED THE INHIBITORY EFFECT OF RES ON CELLULAR SENESCENCE, ACCOMPANIED BY REVERSING THE EXPRESSION OF SIRT1 AND NF-KAPPAB P65. IN CONCLUSION, RES ATTENUATED CSE-INDUCED CELLULAR SENESCENCE IN BEAS-2B CELLS BY REGULATING THE MIR-34A/SIRT1/NF-KAPPAB PATHWAY, WHICH MAY PROVIDE A NEW APPROACH FOR COPD TREATMENT. 2022 12 4191 29 METABOLIC LANDSCAPE IN CARDIAC AGING: INSIGHTS INTO MOLECULAR BIOLOGY AND THERAPEUTIC IMPLICATIONS. CARDIAC AGING IS EVIDENT BY A REDUCTION IN FUNCTION WHICH SUBSEQUENTLY CONTRIBUTES TO HEART FAILURE. THE METABOLIC MICROENVIRONMENT HAS BEEN IDENTIFIED AS A HALLMARK OF MALIGNANCY, BUT RECENT STUDIES HAVE SHED LIGHT ON ITS ROLE IN CARDIOVASCULAR DISEASES (CVDS). VARIOUS METABOLIC PATHWAYS IN CARDIOMYOCYTES AND NONCARDIOMYOCYTES DETERMINE CELLULAR SENESCENCE IN THE AGING HEART. METABOLIC ALTERATION IS A COMMON PROCESS THROUGHOUT CARDIAC DEGENERATION. IMPORTANTLY, THE INVOLVEMENT OF CELLULAR SENESCENCE IN CARDIAC INJURIES, INCLUDING HEART FAILURE AND MYOCARDIAL ISCHEMIA AND INFARCTION, HAS BEEN REPORTED. HOWEVER, METABOLIC COMPLEXITY AMONG HUMAN AGING HEARTS HINDERS THE DEVELOPMENT OF STRATEGIES THAT TARGETS METABOLIC SUSCEPTIBILITY. ADVANCES OVER THE PAST DECADE HAVE LINKED CELLULAR SENESCENCE AND FUNCTION WITH THEIR METABOLIC REPROGRAMMING PATHWAY IN CARDIAC AGING, INCLUDING AUTOPHAGY, OXIDATIVE STRESS, EPIGENETIC MODIFICATIONS, CHRONIC INFLAMMATION, AND MYOCYTE SYSTOLIC PHENOTYPE REGULATION. IN ADDITION, METABOLIC STATUS IS INVOLVED IN CRUCIAL ASPECTS OF MYOCARDIAL BIOLOGY, FROM FIBROSIS TO HYPERTROPHY AND CHRONIC INFLAMMATION. HOWEVER, FURTHER ELUCIDATION OF THE METABOLISM INVOLVEMENT IN CARDIAC DEGENERATION IS STILL NEEDED. THUS, DECIPHERING THE MECHANISMS UNDERLYING HOW METABOLIC REPROGRAMMING IMPACTS CARDIAC AGING IS THOUGHT TO CONTRIBUTE TO THE NOVEL INTERVENTIONS TO PROTECT OR EVEN RESTORE CARDIAC FUNCTION IN AGING HEARTS. HERE, WE SUMMARIZE EMERGING CONCEPTS ABOUT METABOLIC LANDSCAPES OF CARDIAC AGING, WITH SPECIFIC FOCUSES ON WHY METABOLIC PROFILE ALTERS DURING CARDIAC DEGENERATION AND HOW WE COULD UTILIZE THE CURRENT KNOWLEDGE TO IMPROVE THE MANAGEMENT OF CARDIAC AGING. 2023 13 5227 18 PRMT6 MEDIATES INFLAMMATION VIA ACTIVATION OF THE NF-KAPPAB/P65 PATHWAY ON A CIGARETTE SMOKE EXTRACT-INDUCED MURINE EMPHYSEMA MODEL. INTRODUCTION: SMOKE-DRIVEN LUNG INFLAMMATION IS CONSIDERED TO BE THE MAJOR PATHOPHYSIOLOGY MECHANISM OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD)/EMPHYSEMA. PROTEIN ARGININE METHYLTRANSFERASE 6 (PRMT6) IS A KEY EPIGENETIC ENZYME, WHICH IS RELATED TO PROTECTING THE TRI-METHYLATION OF H3K4 (H3K4ME3). WE HYPOTHESIZED THAT PTMT6 PROTECTS LUNG INFLAMMATION THROUGH THE NUCLEAR FACTOR KAPPA B (NF-KAPPAB) PATHWAY. METHODS: MICE WERE INJECTED WITH CIGARETTE SMOKE EXTRACT (CSE) OR PBS TO ESTABLISH A MICE MODEL, INTRATRACHEALLY INSTILLED WITH OVEREXPRESSED PRMT6 OR NEGATIVE CONTROL VECTOR. MORPHOMETRY OF LUNG SLIDES AND LUNG FUNCTION WERE MEASURED. WE DETERMINED THE PROTEIN EXPRESSION OF PRMT6 AND ITS RELATED HISTONE TARGETS, THE ACTIVATION OF NF-KAPPAB PATHWAY, THE LEVEL OF TUMOR NECROSIS FACTOR ALPHA (TNFALPHA) AND INTERLEUKIN-1BETA (IL-1BETA). RESULTS: AFTER PRMT6 OVEREXPRESSION, THE MORPHOMETRY INDEXES AND LUNG FUNCTION WERE IMPROVED. ALSO, THE EXPRESSION OF H3K4ME3 WAS DECREASED. OVEREXPRESSED PRMT6 COULD SUPPRESS CSE-INDUCED NF-KAPPAB ACTIVATION AND PRO-INFLAMMATION GENES EXPRESSION. CONCLUSIONS: THE OVEREXPRESSED PRMT6 COULD SERVE AS AN INFLAMMATION INHIBITOR, POTENTIALLY THROUGH BLOCKING THE NF-KAPPAB/P65 PATHWAY IN THE MURINE EMPHYSEMA MODEL. 2020 14 3940 27 LNCRNA DLEU2 REGULATES SIRTUINS AND MITOCHONDRIAL RESPIRATORY CHAIN COMPLEX IV: A NOVEL PATHWAY IN OBESITY AND OFFSPRING'S HEALTH. BACKGROUND: LONG NON-CODING RNAS (LNCRNAS) HAVE EMERGED AS A RAPIDLY EXPANDING AREA OF INTEREST IN CHRONIC DISEASES. THEY ARE MOSTLY UNKNOWN FOR ROLES IN METABOLIC REGULATION. SIRTUINS, AN EPIGENETIC MODULATOR CLASS, REGULATE METABOLIC PATHWAYS. HOWEVER, HOW SIRTUINS ARE REGULATED VIA LNCRNA IS UNKNOWN. WE HYPOTHESIZED THAT A HIGH-FAT HIGH-FRUCTOSE DIET (HFD-HF) DURING PREGNANCY WOULD INCREASE THE RISK FOR OBESITY VIA LNCRNA-SIRTUIN PATHWAYS. METHODS: FEMALE C57BL/6 MICE (F0) WERE FED EITHER CHOW DIET (CD) OR HFD-HF FOR 6 WEEKS TILL BIRTH. THE PUPS (F1) WERE FED EITHER CD OR HFD-HF FOR 20 WEEKS. EXPRESSION OF DLEU2, SIRTUINS, MITOCHONDRIAL RESPIRATORY COMPLEXES, AND OXIDATIVE STRESS WERE INVESTIGATED IN THE F1 LIVERS. FASTING BLOOD GLUCOSE, INSULIN SENSITIVITY, GLUCOSE TOLERANCE, BODY AND TISSUES WEIGHT WERE MEASURED. A MECHANISTIC INTERACTION WAS THEN CARRIED OUT USING A DLEU2 KNOCKDOWN EXPERIMENT IN THE HEPG2 CELL. RESULTS: DLEU2 AND SIRTUINS WERE BOTH SIGNIFICANTLY DECREASED IN THE LIVERS OF HFD-HF FED MALE F1 WHOSE MOTHERS WERE EITHER FED CD OR HFD-HF DURING REPRODUCTIVE AND PREGNANCY WINDOWS. CONFIRMING THIS CONNECTION, UPON SILENCING DLEU2, TRANSCRIPTION LEVELS OF SIRT1 THROUGH 6 AND TRANSLATIONAL LEVELS OF SIRT1, 3, 5, AND 6 WERE SIGNIFICANTLY DOWNREGULATED. KNOCKDOWN OF DLEU2 SIGNIFICANTLY DECREASED THE PROTEIN LEVEL OF CYTOCHROME-C OXIDASE (COMPLEX IV, MTCO1) WITHOUT ALTERING OTHER MITOCHONDRIAL COMPLEXES, DECREASED MITOCHONDRIAL MEMBRANE POTENTIAL, DECREASED ATP, AND INCREASED REACTIVE OXYGEN SPECIES. INTERESTINGLY, IN F1 LIVERS, THE PROTEIN LEVEL OF MTCO1 WAS ALSO SIGNIFICANTLY DECREASED UNDER AN HFD-HF DIET OR EVEN UNDER CHOW DIET IF THE MOTHER WAS EXPOSED TO HFD-HF. CONCLUSION: OUR FINDINGS REVEAL FOR THE FIRST TIME THAT ONE LNCRNA CAN REGULATE SIRTUINS AND A SPECIFIC MITOCHONDRIAL COMPLEX. FURTHERMORE, DIET OR MATERNAL DIET CAN MODULATE DLEU2 AND ITS DOWNSTREAM REGULATORS IN OFFSPRING, SUGGESTING A POTENTIAL ROLE OF DLEU2 IN METABOLIC DISORDERS OVER ONE OR MORE GENERATIONS. 2022 15 5860 28 SULFORAPHANE PREVENTS ANGIOTENSIN II-INDUCED CARDIOMYOPATHY BY ACTIVATION OF NRF2 THROUGH EPIGENETIC MODIFICATION. NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR (NRF2) IS AN IMPORTANT REGULATOR OF CELLULAR ANTIOXIDANT DEFENCE. WE PREVIOUSLY SHOWED THAT SFN PREVENTED ANG II-INDUCED CARDIAC DAMAGE VIA ACTIVATION OF NRF2. HOWEVER, THE UNDERLYING MECHANISM OF SFN'S PERSISTENT CARDIAC PROTECTION REMAINS UNCLEAR. THIS STUDY AIMED TO EXPLORE THE POTENTIAL OF SFN IN ACTIVATING CARDIAC NRF2 THROUGH EPIGENETIC MECHANISMS. WILD-TYPE MICE WERE INJECTED SUBCUTANEOUSLY WITH ANG II, WITH OR WITHOUT SFN. ADMINISTRATION OF CHRONIC ANG II-INDUCED CARDIAC INFLAMMATORY FACTOR EXPRESSION, OXIDATIVE DAMAGE, FIBROSIS AND CARDIAC REMODELLING AND DYSFUNCTION, ALL OF WHICH WERE EFFECTIVELY IMPROVED BY SFN TREATMENT, COUPLED WITH AN UP-REGULATION OF NRF2 AND DOWNSTREAM GENES. BISULFITE GENOME SEQUENCING AND CHROMATIN IMMUNOPRECIPITATION (CHIP) WERE PERFORMED TO DETECT THE METHYLATION LEVEL OF THE FIRST 15 CPGS AND HISTONE H3 ACETYLATION (AC-H3) STATUS IN THE NRF2 PROMOTER REGION, RESPECTIVELY. THE RESULTS SHOWED THAT SFN REDUCED ANG II-INDUCED CPG HYPERMETHYLATION AND PROMOTED AC-H3 ACCUMULATION IN THE NRF2 PROMOTER REGION, ACCOMPANIED BY THE INHIBITION OF GLOBAL DNMT AND HDAC ACTIVITY, AND A DECREASED PROTEIN EXPRESSION OF KEY DNMT AND HDAC ENZYMES. TAKEN TOGETHER, SFN EXERTS ITS CARDIOPROTECTIVE EFFECT THROUGH EPIGENETIC MODIFICATION OF NRF2, WHICH MAY PARTIALLY CONTRIBUTE TO LONG-TERM ACTIVATION OF CARDIAC NRF2. 2021 16 5448 24 REPRESSION OF HDAC5 BY ACETATE RESTORES HYPOTHALAMIC-PITUITARY-OVARIAN FUNCTION IN TYPE 2 DIABETES MELLITUS. TYPE 2 DIABETES MELLITUS (T2DM) ACCOUNTS FOR 90-95 % OF WORLDWIDE DIABETES CASES AND IS PRIMARILY CHARACTERIZED BY INSULIN RESISTANCE. ITS PROGRESSION AS A CHRONIC METABOLIC DISEASE HAS BEEN LARGELY ASSOCIATED WITH FEMALE REPRODUCTIVE ABNORMALITIES, INCLUDING OVARIAN DYSFUNCTION WITH CONSEQUENT INFERTILITY. EPIGENETIC MODIFICATIONS HAVE BEEN SUGGESTED AS A POSSIBLE LINK TO METABOLIC COMORBIDITIES. WE THEREFORE HYPOTHESIZED THAT SHORT CHAIN FATTY ACIDS, ACETATE (ACA), A POTENTIAL HISTONE DEACETYLASE INHIBITOR (HDAC) AMELIORATES HYPOTHALAMIC-PITUITARY-OVARIAN (HPO) DYSFUNCTION IN T2DM. FEMALE WISTAR RATS WEIGHING 160-190 G WERE ALLOTTED INTO THREE GROUPS (N = 6/GROUP): CONTROL (VEHICLE; PO), T2D AND T2D + ACA (200 MG/KG; PO). T2DM WAS INDUCED BY FRUCTOSE ADMINISTRATION (10 %; W/V) FOR 6 WEEKS AND SINGLE DOSE OF STREPTOZOTOCIN (35 MG/KG; IP). THE PRESENT DATA SHOWED THAT IN ADDITION TO INSULIN RESISTANCE, INCREASED FASTING BLOOD GLUCOSE AND INSULIN, T2DM INDUCED ELEVATED PLASMA, HYPOTHALAMIC AND OVARIAN TRIGLYCERIDE, LIPID PEROXIDATION, TNF-ALPHA AND GLUTATHIONE DEPLETION. ASIDE, T2DM ALSO LED TO INCREASED PLASMA LACTATE PRODUCTION AND GAMMA-GLUTAMYL TRANSFERASE AS WELL AS DECREASED GONADOTROPINS/17BETA-ESTRADIOL. HISTOLOGICALLY, HYPOTHALAMUS, PITUITARY AND OVARIES REVEALED DISRUPTED NEURONAL CELLS/MODERATE HEMORRHAGE, ALTERED MORPHOLOGY/VASCULAR CONGESTIONS, AND DEGENERATED ANTRAL FOLLICLE/GRAAFIAN FOLLICLE WITH MILD FIBROSIS AND INFILTRATED INFLAMMATORY CELLS RESPECTIVELY IN T2D ANIMALS. INTERESTINGLY, THESE ALTERATIONS WERE ACCOMPANIED BY ELEVATED PLASMA/HYPOTHALAMIC HDAC5 AND ATTENUATED WHEN TREATED WITH ACETATE. THE PRESENT RESULTS DEMONSTRATE THAT T2DM INDUCES HPO DYSFUNCTION, WHICH IS ACCOMPANIED BY ELEVATED CIRCULATING/HYPOTHALAMIC HDAC5. THE RESULTS IN ADDITION SUGGEST THAT ACETATE RESTORES HPO FUNCTION IN T2DM BY SUPPRESSION OF HDAC5 AND ENHANCEMENT OF INSULIN SENSITIVITY. 2021 17 4899 22 OXIDATIVE STRESS MEDIATES THE APOPTOSIS AND EPIGENETIC MODIFICATION OF THE BCL-2 PROMOTER VIA DNMT1 IN A CIGARETTE SMOKE-INDUCED EMPHYSEMA MODEL. BACKGROUND: EMPHYSEMA IS A CRUCIAL PATHOLOGICAL CHARACTERISTIC OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). OXIDATIVE STRESS, APOPTOSIS AND EPIGENETIC MECHANISMS CONTRIBUTE TO THE PATHOGENESIS OF EMPHYSEMA. HOWEVER, AN ATTEMPT TO ACCURATELY IDENTIFY WHETHER THESE MECHANISMS INTERACT WITH EACH OTHER AND HOW THEY ARE TRIGGERED HAS NEVER BEEN CONDUCTED. METHOD: THE TOTAL REACTIVE OXYGEN SPECIES (ROS) LEVEL, PULMONARY APOPTOSIS AND B-CELL LYMPHOMA/LEUKEMIA-2 (BCL-2) EXPRESSION, AN APOPTOSIS REGULATOR, WERE DETECTED IN SAMPLES FROM COPD PATIENTS. BISULFITE SEQUENCING PCR (BSP) WAS CONDUCTED TO OBSERVE THE ALTERATIONS IN THE METHYLATION OF THE BCL-2 PROMOTER IN SPECIMENS. THE DYSREGULATION OF DNA METHYLTRANSFERASE ENZYME 1 (DNMT1), A VITAL DNA METHYLTRANSFERASE ENZYME, IN THE LUNGS OF PATIENTS WAS CONFIRMED THROUGH WESTERN BLOTTING. TO FIND OUT INTERACTIONS BETWEEN OXIDATIVE STRESS AND DNA METHYLATION IN EMPHYSEMA, MOUSE MODELS WERE BUILT WITH ANTIOXIDANT TREATMENT AND DNMT1 SILENCING, AND WERE EXAMINED WITH THE PULMONARY APOPTOSIS, BCL-2 AND DNMT1 LEVELS, AND EPIGENETIC ALTERATIONS OF BCL-2. RESULTS: HIGHER ROS LEVELS AND PULMONARY APOPTOSIS WERE OBSERVED IN COPD PATIENTS THAN IN HEALTHY CONTROLS. DOWNREGULATED BCL-2 EXPRESSION WITH INCREASED PROMOTER METHYLATION AND DNMT1 PROTEIN EXPRESSION WAS FOUND IN COPD PATIENTS. ANTIOXIDANT TREATMENT REDUCED THE LEVEL OF ROS, DNMT1 PROTEIN AND EMPHYSEMATOUS PROGRESSION IN THE SMOKING MODELS. FOLLOWING DNMT1 BLOCKADE, SMOKING MODELS SHOWED IMPROVED LUNG FUNCTION, PULMONARY APOPTOSIS, EMPHYSEMATOUS PROGRESSION, AND INCREASED BCL-2 PROTEIN LEVEL WITH LESS PROMOTER METHYLATION THAN EMPHYSEMA MICE. CONCLUSION: CIGARETTE-INDUCED OXIDATIVE STRESS MEDIATES PULMONARY APOPTOSIS AND HYPERMETHYLATION OF THE BCL-2 PROMOTER IN EMPHYSEMA MODELS THROUGH DNMT1. 2020 18 3816 24 INTRAUTERINE PROGRAMMING OF CARTILAGINOUS 11BETA-HSD2 INDUCED BY CORTICOSTERONE AND CAFFEINE MEDIATED SUSCEPTIBILITY TO ADULT OSTEOARTHRITIS. OUR PREVIOUS STUDY REPORTED THAT PRENATAL CAFFEINE EXPOSURE (PCE) COULD INDUCE CHONDRODYSPLASIA AND INCREASE THE SUSCEPTIBILITY TO OSTEOARTHRITIS IN OFFSPRING RATS. HOWEVER, THE POTENTIAL MECHANISMS AND INITIATING FACTORS REMAIN UNKNOWN. THIS STUDY AIMS TO INVESTIGATE WHETHER 11BETA-HSD2, A GLUCOCORTICOID-METABOLIZING ENZYME, IS INVOLVED IN THE SUSCEPTIBILITY OF OSTEOARTHRITIS INDUCED BY PCE AND TO FURTHER EXPLORE ITS POTENTIAL MECHANISMS AND INITIATING FACTORS. FIRSTLY, WE FOUND THAT PCE REDUCED CARTILAGE MATRIX SYNTHESIS (AGGRECAN/COL2A1 EXPRESSION) IN MALE ADULT OFFSPRING RATS AND EXHIBITED AN OSTEOARTHRITIS PHENOTYPE FOLLOWING CHRONIC STRESS, WHICH WAS ASSOCIATED WITH PERSISTENTLY REDUCED H3K9AC AND H3K27AC LEVELS AT THE PROMOTER OF 11BETA-HSD2 AS WELL AS ITS EXPRESSION IN THE CARTILAGE FROM FETUS TO ADULTHOOD. THE EXPRESSION OF 11BETA-HSD2, AGGRECAN AND COL2A1 WERE ALL DECREASED BY CORTICOSTERONE IN THE FETAL CHONDROCYTES, WHILE OVEREXPRESSION OF 11BETA-HSD2 COULD PARTIALLY ALLEVIATE THE DECREASE OF MATRIX SYNTHESIS INDUCED BY CORTICOSTERONE IN VITRO. FURTHERMORE, THE GLUCOCORTICOID RECEPTOR (GR) ACTIVATED BY GLUCOCORTICOIDS DIRECTLY BONDED TO THE PROMOTER REGION OF 11BETA-HSD2 TO INHIBIT ITS EXPRESSION. MEANWHILE, THE ACTIVATED GR REDUCED THE H3K9AC AND H3K27AC LEVELS OF 11BETA-HSD2 BY RECRUITING HDAC4 AND PROMOTING GR-HDAC4 PROTEIN INTERACTION TO INHIBIT THE 11BETA-HSD2 EXPRESSION. MOREOVER, CAFFEINE COULD REDUCE THE EXPRESSION OF 11BETA-HSD2 BY INHIBITING THE CAMP/PKA SIGNALING PATHWAY BUT WITHOUT REDUCING THE H3K9AC AND H3K27AC LEVELS OF 11BETA-HSD2, THEREBY SYNERGISTICALLY ENHANCING THE CORTICOSTERONE EFFECT. IN CONCLUSION, THE PERSISTENTLY REDUCED H3K9AC AND H3K27AC LEVELS OF 11BETA-HSD2 FROM FETUS TO ADULTHOOD MEDIATED THE INHIBITION OF CARTILAGE MATRIX SYNTHESIS AND THE INCREASED SUSCEPTIBILITY TO OSTEOARTHRITIS. THIS EPIGENETIC PROGRAMMING CHANGE IN UTERO WAS INDUCED BY GLUCOCORTICOIDS WITH SYNERGISTIC EFFECT OF CAFFEINE. 2022 19 3719 19 INHIBITION OF BET PROTEINS REDUCES RIGHT VENTRICLE HYPERTROPHY AND PULMONARY HYPERTENSION RESULTING FROM COMBINED HYPOXIA AND PULMONARY INFLAMMATION. PULMONARY HYPERTENSION IS A CO-MORBIDITY, WHICH STRONGLY PARTICIPATES IN MORBI-MORTALITY IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). RECENT FINDINGS SHOWED THAT BROMODOMAIN-CONTAINING PROTEINS, IN CHARGE OF READING HISTONE ACETYLATION, COULD BE INVOLVED IN PULMONARY ARTERIAL HYPERTENSION. OUR AIM WAS TO STUDY THE EFFECT OF I-BET151, AN INHIBITOR OF BROMODOMAIN AND EXTRA-TERMINAL DOMAIN (BET), ON THE RIGHT VENTRICLE HYPERTROPHY AND PULMONARY HYPERTENSION, INDUCED BY A COMBINATION OF CHRONIC HYPOXIA AND PULMONARY INFLAMMATION, AS THE TWO MAIN STIMULI ENCOUNTERED IN COPD. ADULT WISTAR MALE RATS, EXPOSED TO CHRONIC HYPOXIA PLUS PULMONARY INFLAMMATION (CHPI), SHOWED A SIGNIFICANT RIGHT VENTRICLE HYPERTROPHY (+57%, P < 0.001), AN INCREASE IN SYSTOLIC PRESSURE (+46%, P < 0.001) AND IN CONTRACTION SPEED (+36%, P < 0.001), WHEN COMPARED TO CONTROL ANIMALS. I-BET151 TREATED ANIMALS (CHPI-IB) SHOWED RESTORED HEMODYNAMIC PARAMETERS TO LEVELS SIMILAR TO CONTROL ANIMALS, DESPITE CHRONIC HYPOXIA PLUS EXPOSURE TO PULMONARY INFLAMMATION. THEY DISPLAYED LOWER RIGHT VENTRICLE HYPERTROPHY AND HEMATOCRIT COMPARED TO THE CHPI GROUP (RESPECTIVELY -16%, P < 0.001; AND -9%, P < 0.05). OUR DESCRIPTIVE STUDY SHOWS A VALUABLE EFFECT OF THE INHIBITION OF BROMODOMAIN AND EXTRA-TERMINAL DOMAIN PROTEINS ON HEMODYNAMIC PARAMETERS, DESPITE THE PRESENCE OF CHRONIC HYPOXIA AND PULMONARY INFLAMMATION. THIS SUGGESTS THAT SUCH INHIBITION COULD BE OF POTENTIAL INTEREST FOR COPD PATIENTS WITH PULMONARY HYPERTENSION. FURTHER STUDIES ARE NEEDED TO UNRAVEL THE UNDERLYING MECHANISMS INVOLVED AND THE NET BENEFITS OF INHIBITING ADAPTATIONS TO CHRONIC HYPOXIA. 2018 20 4752 24 NOVEL ROLE OF GESTATIONAL HYDRALAZINE IN LIMITING MATERNAL AND DIETARY OBESITY-RELATED CHRONIC KIDNEY DISEASE. BACKGROUND: MATERNAL OBESITY IS A RISK FACTOR FOR CHRONIC KIDNEY DISEASE (CKD) IN OFFSPRING, UNDERPINNING THE THEORY OF THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE. DNA METHYLATION HAS BEEN IMPLICATED IN THE PROGRAMMING OF ADULT CHRONIC DISEASE BY MATERNAL OBESITY, THEREFORE, DNA DEMETHYLATING AGENTS MAY MITIGATE OFFSPRING RISK OF DISEASE. IN RODENT MODELS, LOW-DOSE HYDRALAZINE HAS PREVIOUSLY BEEN SHOWN TO REDUCE RENAL FIBROSIS VIA DNA DEMETHYLATION. WE USED MOUSE MODELS OF MATERNAL OBESITY AND OFFSPRING OBESITY TO DETERMINE WHETHER ADMINISTRATION OF LOW-DOSE HYDRALAZINE DURING GESTATION CAN PREVENT FETAL PROGRAMMING OF CKD IN OFFSPRING. METHODS: FEMALE C57BL/6 MICE RECEIVED HIGH FAT DIET (HFD) OR CHOW PRIOR TO MATING, DURING GESTATION AND LACTATION. DURING GESTATION, DAMS RECEIVED SUBCUTANEOUS HYDRALAZINE (5 MG/KG) OR SALINE THRICE-WEEKLY. MALE OFFSPRING WEANED TO HFD OR CHOW, WHICH CONTINUED UNTIL ENDPOINT AT 32 WEEKS. BIOMETRIC AND METABOLIC PARAMETERS, RENAL GLOBAL DNA METHYLATION, RENAL FUNCTIONAL AND STRUCTURAL CHANGES, AND RENAL MARKERS OF FIBROSIS, INFLAMMATION AND OXIDATIVE STRESS WERE ASSESSED AT ENDPOINT. RESULTS: OFFSPRING EXPOSED TO MATERNAL OBESITY OR DIET-INDUCED OBESITY HAD SIGNIFICANTLY INCREASED RENAL GLOBAL DNA METHYLATION, TOGETHER WITH OTHER ADVERSE RENAL EFFECTS INCLUDING ALBUMINURIA, GLOMERULOSCLEROSIS, RENAL FIBROSIS, AND OXIDATIVE STRESS. OFFSPRING EXPOSED TO GESTATIONAL HYDRALAZINE HAD SIGNIFICANTLY REDUCED RENAL GLOBAL DNA METHYLATION. IN OBESE OFFSPRING OF OBESE MOTHERS, GESTATIONAL HYDRALAZINE SIGNIFICANTLY DECREASED ALBUMINURIA, GLOMERULOSCLEROSIS, AND SERUM CREATININE. OBESE OFFSPRING OF HYDRALAZINE-TREATED LEAN MOTHERS DISPLAYED REDUCED MARKERS OF RENAL FIBROSIS AND OXIDATIVE STRESS. CONCLUSION: GESTATIONAL HYDRALAZINE DECREASED RENAL GLOBAL DNA METHYLATION AND EXERTED RENOPROTECTIVE EFFECTS IN OFFSPRING. THIS SUPPORTS A POTENTIAL THERAPEUTIC EFFECT OF HYDRALAZINE IN PREVENTING MATERNAL OBESITY OR DIETARY OBESITY-RELATED CKD, THROUGH AN EPIGENETIC MECHANISM. 2021