1 5296 141 PROTECTIVE ROLE OF SODIUM BUTYRATE, A HDAC INHIBITOR ON BETA-CELL PROLIFERATION, FUNCTION AND GLUCOSE HOMEOSTASIS THROUGH MODULATION OF P38/ERK MAPK AND APOPTOTIC PATHWAYS: STUDY IN JUVENILE DIABETIC RAT. TYPE 1 DIABETES (T1D) ALSO KNOWN AS JUVENILE DIABETES IS A CHRONIC AUTOIMMUNE DISORDER THAT PRECIPITATES IN GENETICALLY SUSCEPTIBLE INDIVIDUALS BY ENVIRONMENTAL FACTORS PARTICULARLY DURING EARLY AGE. BOTH GENETIC AND EPIGENETIC FACTORS ARE IMPLICATED IN THE BETA-CELL DEVELOPMENT, PROLIFERATION, DIFFERENTIATION AND FUNCTION. RECENT EVIDENCES SUGGESTED THAT THERE IS A LINK BETWEEN DIABETES AND HISTONE DEACETYLASES (HDACS), BECAUSE HDAC INHIBITORS PROMOTE BETA-CELL DEVELOPMENT, PROLIFERATION AND FUNCTION AS WELL AS IMPROVE GLUCOSE HOMEOSTASIS. SODIUM BUTYRATE (NAB) IS A SHORT CHAIN FATTY ACID HAVING HDAC INHIBITION ACTIVITY. THE PRESENT STUDY WAS AIMED TO INVESTIGATE THE PROTECTIVE ROLE OF NAB TREATMENT ON THE BETA-CELL PROLIFERATION, FUNCTION AND GLUCOSE HOMEOSTASIS AS WELL AS APOPTOSIS IN JUVENILE DIABETIC RAT. DIABETES WAS INDUCED BY SINGLE INJECTION OF STZ (60 MG/KG, I.P.) IN CHILLED CITRATE BUFFER, WHILE NAB (500 MG/KG/DAY) WAS ADMINISTRATED BY I.P. ROUTE FOR 21 DAYS AS PRE- AND POST-TREATMENT SCHEDULE. PLASMA GLUCOSE AND INSULIN LEVELS, HBA1C, GLUCOSE TOLERANCE, APOPTOSIS, AND EXPRESSION OF PROLIFERATING CELL NUCLEAR ANTIGEN (PCNA), P38, P53, CASPASE-3, EXTRACELLULAR SIGNAL-REGULATED KINASE-1/2 (ERK-1/2), FORKHEAD BOX PROTEIN O1 (FOXO1) AND INSULIN RECEPTOR SUBSTRATE-1 (IRS-1) AS WELL AS HISTONE ACETYLATION WERE EVALUATED. NAB TREATMENT DECREASED PLASMA GLUCOSE, HBA1C, BETA-CELL APOPTOSIS AND IMPROVED PLASMA INSULIN LEVEL AND GLUCOSE HOMEOSTASIS THROUGH HDAC INHIBITION AND HISTONE ACETYLATION IN DIABETIC ANIMAL AS COMPARED TO CONTROL. NAB TREATMENT IMPROVED THE BETA-CELL PROLIFERATION, FUNCTION AND GLUCOSE HOMEOSTASIS AS WELL AS REDUCED BETA-CELL APOPTOSIS IN JUVENILE DIABETIC RAT BY THE MODULATION OF P38/ERK MAPK AND APOPTOTIC PATHWAY. 2014 2 2119 31 EPIGENETIC HISTONE MODIFICATION REGULATES DEVELOPMENTAL LEAD EXPOSURE INDUCED HYPERACTIVITY IN RATS. LEAD (PB) EXPOSURE WAS COMMONLY CONSIDERED AS A HIGH ENVIRONMENTAL RISK FACTOR FOR THE DEVELOPMENT OF ATTENTION-DEFICIT/HYPERACTIVITY DISORDER (ADHD). HOWEVER, THE MOLECULAR BASIS OF THIS PATHOLOGICAL PROCESS STILL REMAINS ELUSIVE. IN LIGHT OF THE ROLE OF EPIGENETICS IN MODULATING THE NEUROLOGICAL DISEASE AND THE CAUSATIVE ENVIRONMENT, THE ALTERATIONS OF HISTONE MODIFICATIONS IN THE HIPPOCAMPUS OF RATS EXPOSED BY VARIOUS DOSES OF LEAD, ALONG WITH CONCOMITANT BEHAVIORAL DEFICITS, WERE INVESTIGATED IN THIS STUDY. ACCORDING TO THE FREE AND FORCED OPEN FIELD TEST, THERE SHOWED THAT IN A DOSAGE-DEPENDENT MANNER, LEAD EXPOSURE COULD RESULT IN THE INCREASED LOCOMOTOR ACTIVITY OF RATS, THAT IS, HYPERACTIVITY: A SUBTYPE OF ADHD. WESTERN BLOTTING ASSAYS REVEALED THAT THE LEVELS OF HISTONE ACETYLATION INCREASED SIGNIFICANTLY IN THE HIPPOCAMPUS BY CHRONIC LEAD EXPOSURE, WHILE NO DRAMATIC CHANGES WERE DETECTED IN TERMS OF EXPRESSION YIELDS OF ADHD-RELATED DOPAMINERGIC PROTEINS, INDICATING THAT HISTONE ACETYLATION PLAYS ESSENTIAL ROLES IN THIS TOXICANT-INVOLVED PATHOGENESIS. IN ADDITION, THE INCREASED LEVEL OF HISTONE ACETYLATION MIGHT BE ATTRIBUTED TO THE ENZYMATIC ACTIVITY OF P300, A TYPICAL HISTONE ACETYLTRANSFERASE, AS THE TRANSCRIPTIONAL LEVEL OF P300 WAS SIGNIFICANTLY INCREASED UPON HIGHER-DOSE PB EXPOSURE. IN SUMMARY, THIS STUDY FIRST DISCOVERED THE EPIGENETIC MECHANISM BRIDGING THE ENVIRONMENTAL INFLUENCE (PB) AND THE DISEASE ITSELF (ADHD) IN THE HISTONE MODIFICATION LEVEL, PAVING THE WAY FOR THE COMPREHENSIVE UNDERSTANDING OF ADHD'S ETIOLOGY AND IN FURTHER STEPS, ESTABLISHING THE THERAPY STRATEGY OF THIS WIDESPREAD NEUROLOGICAL DISORDER. 2014 3 3348 29 HISTONE DEACETYLASES MEET MICRORNA-ASSOCIATED MMP-9 EXPRESSION REGULATION IN GLUCOCORTICOID-SENSITIVE AND -RESISTANT CELL LINES. GLUCOCORTICOIDS ARE LARGELY USED IN THE TREATMENT OF INFLAMMATORY PATHOLOGIES AND/OR HEMATOLOGICAL MALIGNANCIES AND REGULATE THE EXPRESSION OF A VARIETY OF GENES INVOLVED IN INFLAMMATION OR METASTASIS SUCH AS MATRIX METALLOPROTEINASES (MMP). LONG-TERM EXPOSURE TO GLUCOCORTICOIDS CAN RESULT IN FAILURE OF RESPONSIVENESS, WHICH IS OFTEN ASSOCIATED WITH AN UNWANTED GENE EXPRESSION. EPIGENETIC MECHANISMS ARE INVOLVED IN GENE EXPRESSION MODULATED AFTER DEVELOPMENT OF GLUCOCORTICOID RESISTANCE BUT HOW THESE MECHANISMS TAKE PLACE MUST BE FURTHER STUDIED. THE EFFECTS OF HDAC INHIBITORS (HDACI) IN A CONTEXT OF GLUCOCORTICOID RESISTANCE ARE STILL NOT WELL UNDERSTOOD AND NEED TO BE FURTHER INVESTIGATED. WE HYPOTHESIZED THAT ACQUIRED GLUCOCORTICOID RESISTANCE ASSOCIATED TO HDACI COULD DISTURBS EPIGENETIC LANDSCAPE, ESPECIALLY MIR EXPRESSION, LEADING TO A MODULATION OF MMP-9 GENE EXPRESSION AND/OR PROTEIN SECRETION, DESCRIBED AS LARGELY INVOLVED IN BONE REMODELING AND TUMOR INVASION IN MULTIPLE MYELOMA. TO THIS AIM, WE USED SENSITIVE RPMI-8226 CELL LINE AND ITS DEXAMETHASONE- AND METHYLPREDNISOLONE-RESISTANT DERIVATIVES. THE RESISTANT CELL LINES DISPLAYED AN 'OPEN CHROMATIN' AND AN MMP-9 OVEREXPRESSION COMPARATIVELY TO THE SENSITIVE CELL LINE. HDACI TREATMENT WITH MS-275 INCREASED EVEN MORE MMP-9 OVEREXPRESSION NOT ONLY AT AN MRNA LEVEL BUT ALSO AT THE PROTEIN LEVEL. WE SHOWED THAT MMP-9 EXPRESSION REGULATION WAS NOT DIRECTLY LINKED WITH HAT/HDAC BALANCE ALTERATIONS BUT RATHER WITH THE DEREGULATION OF MMP-9-TARGETING MIRS. THEN, WE FIRST DEMONSTRATED THAT MIR?149 DOWNREGULATION WAS DIRECTLY INVOLVED IN THE MMP-9 OVEREXPRESSION FOLLOWING A CHRONIC GLUCOCORTICOID EXPOSURE AND THAT MS-275 COULD AMPLIFY THIS OVEREXPRESSION BY INHIBITION OF MIR?149 EXPRESSION AND MIR?520C OVEREXPRESSION. TAKEN TOGETHER, THESE RESULTS INDICATE THAT THE USE OF HDACI IN A CONTEXT OF ACQUIRED GLUCOCORTICOID RESISTANCE COULD MODIFY THE EPIGENETIC LANDSCAPE, HIGHLIGHTING THE IMPORTANCE OF TAKING THE GLUCOCORTICOID RESPONSE STATUS INTO CONSIDERATION IN TREATMENT WITH HDACI. 2017 4 6564 31 TRANSIENT EXPOSURE TO ELEVATED GLUCOSE LEVELS CAUSES PERSISTENT CHANGES IN DERMAL MICROVASCULAR ENDOTHELIAL CELL RESPONSES TO INJURY. BACKGROUND: THE PURPOSE OF THIS STUDY WAS TO DETERMINE WHETHER ELEVATED GLUCOSE CAN INDUCE A DERMAL MICROVASCULAR ENDOTHELIAL CELL METABOLIC MEMORY, THUS AFFECTING ANGIOGENESIS IN THE REPAIR PROCESS OF MAMMALIAN CUTANEOUS WOUND. WE HYPOTHESIZED THAT TRANSIENT ELEVATED GLUCOSE LEVELS CAUSE SUSTAINED ALTERATION OF ENDOTHELIAL CELL RESPONSES TO INJURY AND PERSISTENT EPIGENETIC CHANGES IN GENE EXPRESSION. METHODS: HUMAN DERMAL MICROVASCULAR ENDOTHELIAL CELLS WERE EXPOSED TO EXPERIMENTAL CONDITIONS WITH OR WITHOUT 30 MM D-GLUCOSE. THE CONTROL GROUP WAS MAINTAINED AT 5 MM D-GLUCOSE; WHILE IN THE TRANSIENT GLUCOSE GROUP, AFTER BEING EXPOSED TO 30 MM D-GLUCOSE FOR TWO DAYS, THEN BEING PUT UNDER THE CONTROL CONDITIONS DURING THE EXPERIMENT. BESIDES, IN THE WHOLE PROCESS OF THE EXPERIMENT, THE CHRONIC GLUCOSE GROUP WAS KEPT IN THE CONDITION WITH 30 MM D-GLUCOSE. PROLIFERATION, MIGRATION, TUBE FORMATION, GENE EXPRESSION AND HISTONE METHYLATION WERE ASSESSED FOR INDIVIDUAL CONDITIONS. RESULTS: TRANSIENT ELEVATED GLUCOSE CAUSED SUSTAINED EFFECTS ON ENDOTHELIAL CELL MIGRATION, TUBE FORMATION AND TIMP3 GENE EXPRESSION. THE EFFECTS ON TIMP3 EXPRESSION WERE ASSOCIATED WITH PERSISTENT CHANGES IN HISTONE MODIFICATION AT THE 5' END OF THE TIMP3 GENE, SUGGESTING AN EPIGENETIC EFFECT. CONCLUSIONS: HYPERGLYCEMIA INDUCED METABOLIC MEMORY COULD PROMOTE THE REGULATION OF TIMP3, AND IT CAN BE USED AS A POSSIBLE INNOVATIVE MOLECULAR TARGET FOR THERAPEUTIC INTERVENTION IN THE TREATMENT OF CHRONIC NON-HEALING DIABETIC WOUNDS. 2021 5 3935 42 LIVER-SPECIFIC KNOCKDOWN OF CLASS IIA HDACS HAS LIMITED EFFICACY ON GLUCOSE METABOLISM BUT ENTAILS SEVERE ORGAN SIDE EFFECTS IN MICE. HISTONE DEACETYLASES (HDACS) ARE IMPORTANT REGULATORS OF EPIGENETIC GENE MODIFICATION THAT ARE INVOLVED IN THE TRANSCRIPTIONAL CONTROL OF METABOLISM. IN PARTICULAR CLASS IIA HDACS HAVE BEEN SHOWN TO AFFECT HEPATIC GLUCONEOGENESIS AND PREVIOUS APPROACHES REVEALED THAT THEIR INHIBITION REDUCES BLOOD GLUCOSE IN TYPE 2 DIABETIC MICE. IN THE PRESENT STUDY, WE AIMED TO EVALUATE THE POTENTIAL OF CLASS IIA HDAC INHIBITION AS A THERAPEUTIC OPPORTUNITY FOR THE TREATMENT +OF METABOLIC DISEASES. FOR THAT, SIRNAS SELECTIVELY TARGETING HDAC4, 5 AND 7 WERE SELECTED AND USED TO ACHIEVE A COMBINATORIAL KNOCKDOWN OF THESE THREE CLASS IIA HDAC ISOFORMS. SUBSEQUENTLY, THE HEPATOCELLULAR EFFECTS AS WELL AS THE IMPACT ON GLUCOSE AND LIPID METABOLISM WERE ANALYZED IN VITRO AND IN VIVO. THE TRIPLE KNOCKDOWN RESULTED IN A STATISTICALLY SIGNIFICANT DECREASE OF GLUCONEOGENIC GENE EXPRESSION IN MURINE AND HUMAN HEPATOCYTE CELL MODELS. A SIMILAR HDAC-INDUCED DOWNREGULATION OF HEPATIC GLUCONEOGENESIS GENES COULD BE ACHIEVED IN MICE USING A LIVER-SPECIFIC LIPID NANOPARTICLE SIRNA FORMULATION. HOWEVER, THE EFFICACY ON WHOLE BODY GLUCOSE METABOLISM ASSESSED BY PYRUVATE-TOLERANCE TESTS WERE ONLY LIMITED AND DID NOT OUTWEIGH THE SAFETY FINDINGS OBSERVED BY HISTOPATHOLOGICAL ANALYSIS IN SPLEEN AND KIDNEY. MECHANISTICALLY, AFFYMETRIX GENE EXPRESSION STUDIES PROVIDE EVIDENCE THAT CLASS IIA HDACS DIRECTLY TARGET OTHER KEY FACTORS BEYOND THE DESCRIBED FORKHEAD BOX (FOXP) TRANSCRIPTION REGULATORS, SUCH AS HEPATOCYTE NUCLEAR FACTOR 4 ALPHA (HNF4A). DOWNSTREAM OF THESE FACTORS SEVERAL ADDITIONAL PATHWAYS WERE REGULATED NOT MERELY INCLUDING GLUCOSE AND LIPID METABOLISM AND TRANSPORT. IN CONCLUSION, THE LIVER-DIRECTED COMBINATORIAL KNOCKDOWN OF HDAC4, 5 AND 7 BY THERAPEUTIC SIRNAS AFFECTED MULTIPLE PATHWAYS IN VITRO, LEADING IN VIVO TO THE DOWNREGULATION OF GENES INVOLVED IN GLUCONEOGENESIS. HOWEVER, THE EFFECTS ON GENE EXPRESSION LEVEL WERE NOT PARALLELED BY A SIGNIFICANT REDUCTION OF GLUCONEOGENESIS IN MICE. COMBINED KNOCKDOWN OF HDAC ISOFORMS WAS ASSOCIATED WITH SEVERE ADVERSE EFFECTS IN VIVO, CHALLENGING THIS APPROACH AS A TREATMENT OPTION FOR CHRONIC METABOLIC DISORDERS LIKE TYPE 2 DIABETES. 2020 6 3341 25 HISTONE DEACETYLASE-2 IS INVOLVED IN STRESS-INDUCED COGNITIVE IMPAIRMENT VIA HISTONE DEACETYLATION AND PI3K/AKT SIGNALING PATHWAY MODIFICATION. EXPOSURE TO CHRONIC STRESS UPREGULATES BLOOD GLUCOCORTICOID LEVELS AND IMPAIRS COGNITION VIA DIVERSE EPIGENETIC MECHANISMS, SUCH AS HISTONE DEACETYLATION. HISTONE DEACETYLATION CAN LEAD TO TRANSCRIPTIONAL SILENCING OF MANY PROTEINS INVOLVED IN COGNITION AND MAY ALSO CAUSE LEARNING AND MEMORY DYSFUNCTION. HISTONE DEACETYLASE?2 (HDAC2) HAS BEEN DEMONSTRATED TO EPIGENETICALLY BLOCK COGNITION VIA A REDUCTION IN THE HISTONE ACETYLATION LEVEL; HOWEVER, IT IS UNKNOWN WHETHER HDAC2 IS INVOLVED IN THE COGNITIVE DECLINE INDUCED BY CHRONIC STRESS. TO THE BEST OF AUTHORS' KNOWLEDGE, THIS IS THE FIRST STUDY TO DEMONSTRATE THAT THE STRESS HORMONE CORTICOSTEROID UPREGULATE HDAC2 PROTEIN LEVELS IN NEURO?2A CELLS AND CAUSE CELL INJURIES. HDAC2 KNOCKDOWN RESULTED IN A SIGNIFICANT AMELIORATION OF THE PATHOLOGICAL CHANGES IN N2A CELLS VIA THE UPREGULATION OF HISTONE ACETYLATION AND MODIFICATIONS IN THE PHOSPHOINOSITIDE 3?KINASE/PROTEIN KINASE B SIGNALING PATHWAY. IN ADDITION, THE HDAC2 PROTEIN LEVELS WERE UPREGULATED IN 12?MONTH?OLD FEMALE C57BL/6J MICE UNDER CHRONIC STRESS IN VIVO. TAKEN TOGETHER, THESE FINDINGS SUGGESTED THAT HDAC2 MAY BE AN IMPORTANT NEGATIVE REGULATOR INVOLVED IN CHRONIC STRESS?INDUCED COGNITIVE IMPAIRMENT. 2017 7 2002 25 EPIGENETIC AND POST-TRANSCRIPTIONAL REPRESSION SUPPORT METABOLIC SUPPRESSION IN CHRONICALLY HYPOXIC GOLDFISH. GOLDFISH ENTER A HYPOMETABOLIC STATE TO SURVIVE CHRONIC HYPOXIA. WE RECENTLY DESCRIBED TISSUE-SPECIFIC CONTRIBUTIONS OF MEMBRANE LIPID COMPOSITION REMODELING AND MITOCHONDRIAL FUNCTION TO METABOLIC SUPPRESSION ACROSS DIFFERENT GOLDFISH TISSUES. HOWEVER, THE MOLECULAR AND ESPECIALLY EPIGENETIC FOUNDATIONS OF HYPOXIA TOLERANCE IN GOLDFISH UNDER METABOLIC SUPPRESSION ARE NOT WELL UNDERSTOOD. HERE WE SHOW THAT COMPONENTS OF THE MOLECULAR OXYGEN-SENSING MACHINERY ARE ROBUSTLY ACTIVATED ACROSS TISSUES IRRESPECTIVE OF HYPOXIA DURATION. INDUCTION OF GENE EXPRESSION OF ENZYMES INVOLVED IN DNA METHYLATION TURNOVER AND MICRORNA BIOGENESIS SUGGEST A ROLE FOR EPIGENETIC TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL SUPPRESSION OF GENE EXPRESSION IN THE HYPOXIA-ACCLIMATED BRAIN. CONVERSELY, MECHANISTIC TARGET OF RAPAMYCIN-DEPENDENT TRANSLATIONAL MACHINERY ACTIVITY IS NOT REDUCED IN LIVER AND WHITE MUSCLE, SUGGESTING THIS PATHWAY DOES NOT CONTRIBUTE TO LOWERING CELLULAR ENERGY EXPENDITURE. FINALLY, MOLECULAR EVIDENCE SUPPORTS PREVIOUSLY REPORTED CHRONIC HYPOXIA-DEPENDENT CHANGES IN MEMBRANE CHOLESTEROL, LIPID METABOLISM AND MITOCHONDRIAL FUNCTION VIA CHANGES IN TRANSCRIPTS INVOLVED IN CHOLESTEROL BIOSYNTHESIS, BETA-OXIDATION, AND MITOCHONDRIAL FUSION IN MULTIPLE TISSUES. OVERALL, THIS STUDY SHOWS THAT CHRONIC HYPOXIA ROBUSTLY INDUCES EXPRESSION OF OXYGEN-SENSING MACHINERY ACROSS TISSUES, INDUCES REPRESSIVE TRANSCRIPTIONAL AND POST-TRANSCRIPTIONAL EPIGENETIC MARKS ESPECIALLY IN THE CHRONIC HYPOXIA-ACCLIMATED BRAIN AND SUPPORTS A ROLE FOR MEMBRANE REMODELING AND MITOCHONDRIAL FUNCTION AND DYNAMICS IN PROMOTING METABOLIC SUPPRESSION. 2022 8 2732 34 EXPLORING THE EPIGENETIC REGULATED MODULATION OF FIBROBLAST GROWTH FACTOR 21 INVOLVEMENT IN HIGH-FAT DIET ASSOCIATED PARKINSON'S DISEASE IN RATS. IMBALANCE IN BRAIN GLUCOSE METABOLISM AND EPIGENETIC MODULATION DURING THE DISEASE COURSE OF INSULIN RESISTANCE (IR) ASSOCIATED WITH PARKINSON'S DISEASE (PD) RISK REMAINS A PRIME CONCERN. FIBROBLAST GROWTH FACTOR 21 (FGF21), THE METABOLIC HORMONE, IMPROVES INSULIN SENSITIVITY AND ELICITS ANTI-DIABETIC PROPERTIES. CHRONIC STRESS DURING BRAIN IR MAY MODULATE THE FGF21 EXPRESSION AND ITS DYNAMIC RELEASE VIA EPIGENETIC MODIFICATIONS. METFORMIN REGULATES AND INCREASES THE EXPRESSION OF FGF21 WHICH CAN BE MODULATING IN OBESITY, DIABETES, AND IR. HENCE, THIS STUDY WAS DESIGNED TO INVESTIGATE THE FGF21 EXPRESSION MODULATION VIA AN EPIGENETIC MECHANISM IN PD AND WHETHER METFORMIN (MF), AN AUTOPHAGY ACTIVATOR, AND SODIUM BUTYRATE (NAB), A PAN HISTONE DEACETYLASE INHIBITOR, ALONE AND IN COMBINATION, EXERT ANY THERAPEUTIC BENEFIT IN PD PATHOLOGY EXACERBATED BY HIGH-FAT DIET (HFD). OUR RESULTS PORTRAY THAT THE COMBINATION TREATMENT WITH MF AND NAB POTENTIALLY ATTENUATED THE ABNORMAL LIPID PROFILE AND INCREASED MOTOR PERFORMANCE FOR THE RATS FED WITH HFD FOR 8 WEEKS FOLLOWED BY INTRASTRIATAL 6-HYDROXY DOPAMINE ADMINISTRATION. THE ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA) ESTIMATIONS OF C-REACTIVE PROTEIN, TUMOR NECROSIS FACTOR-ALPHA, INTERLEUKIN-1 BETA AND 6, AND FGF21 EXHIBITED EXTENSIVE DOWNREGULATION AFTER TREATMENT WITH THE COMBINATION. LASTLY, MRNA, WESTERN BLOT, HISTOLOGICAL, AND CRESYL VIOLET STAINING DEPICTED THAT THE COMBINATION TREATMENT CAN RESTORE DEGENERATED NEURONAL DENSITY AND INCREASE THE PROTEIN LEVEL COMPARED TO THE DISEASE GROUP. THE FINDINGS FROM THE STUDY EFFECTIVELY CONCLUDE THAT THE EPIGENETIC MECHANISM INVOLVED IN FGF21 MEDIATED FUNCTIONAL ABNORMALITIES IN IR-LINKED PD PATHOLOGY. HENCE, COMBINED TREATMENT WITH MF AND NAB MAY PROVE TO BE A NOVEL COMBINATION IN AMELIORATING IR-ASSOCIATED PD IN RATS, PROBABLY VIA THE UPREGULATION OF FGF21 EXPRESSION. 2023 9 3207 31 HDACI: CELLULAR EFFECTS, OPPORTUNITIES FOR RESTORATIVE DENTISTRY. ACETYLATION OF HISTONE AND NON-HISTONE PROTEINS ALTERS GENE EXPRESSION AND INDUCES A HOST OF CELLULAR EFFECTS. THE ACETYLATION PROCESS IS HOMEOSTATICALLY BALANCED BY TWO GROUPS OF CELLULAR ENZYMES, HISTONE ACETYLTRANSFERASES (HATS) AND HISTONE DEACETYLASES (HDACS). HAT ACTIVITY RELAXES THE STRUCTURE OF THE HUMAN CHROMATIN, RENDERING IT TRANSCRIPTIONALLY ACTIVE, THEREBY INCREASING GENE EXPRESSION. IN CONTRAST, HDAC ACTIVITY LEADS TO GENE SILENCING. THE ENZYMATIC BALANCE CAN BE 'TIPPED' BY HISTONE DEACETYLASE INHIBITORS (HDACI), LEADING TO AN ACCUMULATION OF ACETYLATED PROTEINS, WHICH SUBSEQUENTLY MODIFY CELLULAR PROCESSES INCLUDING STEM CELL DIFFERENTIATION, CELL CYCLE, APOPTOSIS, GENE EXPRESSION, AND ANGIOGENESIS. THERE IS A VARIETY OF NATURAL AND SYNTHETIC HDACI AVAILABLE, AND THEIR PLEIOTROPIC EFFECTS HAVE CONTRIBUTED TO DIVERSE CLINICAL APPLICATIONS, NOT ONLY IN CANCER BUT ALSO IN NON-CANCER AREAS, SUCH AS CHRONIC INFLAMMATORY DISEASE, BONE ENGINEERING, AND NEURODEGENERATIVE DISEASE. INDEED, IT APPEARS THAT HDACI-MODULATED EFFECTS MAY DIFFER BETWEEN 'NORMAL' AND TRANSFORMED CELLS, PARTICULARLY WITH REGARD TO REACTIVE OXYGEN SPECIES ACCUMULATION, APOPTOSIS, PROLIFERATION, AND CELL CYCLE ARREST. THE POTENTIAL BENEFICIAL EFFECTS OF HDACI FOR HEALTH, RESULTING FROM THEIR ABILITY TO REGULATE GLOBAL GENE EXPRESSION BY EPIGENETIC MODIFICATION OF DNA-ASSOCIATED PROTEINS, ALSO OFFER POTENTIAL FOR APPLICATION WITHIN RESTORATIVE DENTISTRY, WHERE THEY MAY PROMOTE DENTAL TISSUE REGENERATION FOLLOWING PULPAL DAMAGE. 2011 10 4210 27 METFORMIN AND VITAMIN D MODULATE INFLAMMATION AND AUTOPHAGY DURING ADIPOSE-DERIVED STEM CELL DIFFERENTIATION. ADIPOSE-DERIVED STEM CELLS (ADSCS) CAME OUT FROM THE REGENERATIVE MEDICINE LANDSCAPE FOR THEIR ABILITY TO DIFFERENTIATE INTO SEVERAL PHENOTYPES, CONTRIBUTING TO TISSUE REGENERATION BOTH IN VITRO AND IN VIVO. DYSREGULATION IN STEM CELL RECRUITMENT AND DIFFERENTIATION DURING ADIPOGENESIS IS LINKED TO A CHRONIC LOW-GRADE INFLAMMATION AND MACROPHAGE INFILTRATION INSIDE THE ADIPOSE TISSUE, INSULIN RESISTANCE, CARDIOVASCULAR DISEASE AND OBESITY. IN THE PRESENT PAPER WE AIMED TO EVALUATE THE ROLE OF METFORMIN AND VITAMIN D, ALONE OR IN COMBINATION, IN MODULATING INFLAMMATION AND AUTOPHAGY IN ADSCS DURING ADIPOGENIC COMMITMENT. ADSCS WERE CULTURED FOR 21 DAYS IN THE PRESENCE OF A SPECIFIC ADIPOGENIC DIFFERENTIATION MEDIUM, TOGETHER WITH METFORMIN, OR VITAMIN D, OR BOTH. WE THEN ANALYZED THE EXPRESSION OF FOXO1 AND HEAT SHOCK PROTEINS (HSP) AND THE SECRETION OF PROINFLAMMATORY CYTOKINES IL-6 AND TNF-ALPHA BY ELISA. AUTOPHAGY WAS ALSO ASSESSED BY SPECIFIC WESTERN BLOT ANALYSIS OF ATG12, LC3B I, AND LC3B II EXPRESSION. OUR RESULTS SHOWED THE ABILITY OF THE CONDITIONED MEDIA TO MODULATE ADIPOGENIC DIFFERENTIATION, FINELY TUNING THE INFLAMMATORY RESPONSE AND AUTOPHAGY. WE OBSERVED A MODULATION IN HSP MRNA LEVELS, AND A SIGNIFICANT DOWNREGULATION IN CYTOKINE SECRETION. TAKEN TOGETHER, OUR FINDINGS SUGGEST THE POSSIBLE APPLICATION OF THESE MOLECULES IN CLINICAL PRACTICE TO COUNTERACT UNCONTROLLED LIPOGENESIS AND PREVENT OBESITY AND OBESITY-RELATED METABOLIC DISORDERS. 2021 11 3335 27 HISTONE DEACETYLASE INHIBITORS FOR CARDIOVASCULAR CONDITIONS AND HEALTHY LONGEVITY. HISTONE DEACETYLASE INHIBITORS (HDACI) REGULATE GENE EXPRESSION VIA EPIGENETIC MECHANISMS. ACCUMULATING EVIDENCE SUGGESTS THAT HDACI EXERT ANTIPROLIFERATIVE, ANTIOXIDANT, ANTINEOPLASTIC, AND PROAPOPTOTIC EFFECTS THROUGH EPIGENETIC MECHANISMS. FURTHERMORE, HDACI ALSO EXERT ANTITHROMBOTIC AND ANTIFIBROTIC EFFECTS THROUGH REGULATION OF THROMBOTIC AND FIBROTIC TRANSDUCTION MECHANISMS. ONE OF THE OLDEST HDACI IS VALPROIC ACID, WHICH WAS FIRST SYNTHESISED IN 1882. AFTER THE DISCOVERY OF ITS ANTICONVULSANT PROPERTIES FOR THE TREATMENT OF EPILEPSY, THE USE OF VALPROIC ACID WAS EXTENDED TO OTHER CONDITIONS, SUCH AS BIPOLAR DISORDER AND MIGRAINE. GIVEN THE ACCUMULATING EVIDENCE SUPPORTING THE ROLE OF HDACI IN THE TREATMENT OF MULTIPLE MEDICAL CONDITIONS BEYOND EPILEPSY, THE INTEREST IN NOVEL POTENTIAL INDICATIONS FOR HDACI HAS BEEN RENEWED. CONSIDERING THE PLEOTROPIC EPIGENETIC EFFECTS OF HDACI, FUTURE STUDIES COULD ASSESS THEIR EFFICACY AND SAFETY FOR CARDIOVASCULAR DISEASE PREVENTION AND TREATMENT; TREATMENT OF VENOUS THROMBOSIS, ALZHEIMER'S DISEASE, AUTOIMMUNE AND PROINFLAMMATORY CONDITIONS, CHRONIC THROMBOEMBOLIC PULMONARY HYPERTENSION, AND PULMONARY ARTERIAL HYPERTENSION; AND AS A COADJUVANT THERAPY FOR CANCER. ADEQUATELY DESIGNED AND POWERED CLINICAL TRIALS ARE REQUIRED TO ASSESS THE EFFICACY AND SAFETY OF HDACI BEFORE THEIR CLINICAL REPURPOSING. 2021 12 3527 21 IL-6 ENHANCES THE NUCLEAR TRANSLOCATION OF DNA CYTOSINE-5-METHYLTRANSFERASE 1 (DNMT1) VIA PHOSPHORYLATION OF THE NUCLEAR LOCALIZATION SEQUENCE BY THE AKT KINASE. THE EPIGENETIC PROGRAMMING OF GENOMIC DNA IS ACCOMPLISHED, IN PART, BY SEVERAL DNA CYTOSINE-5-METHYLTRANSFERASES THAT ACT BY COVALENTLY MODIFYING CYTOSINES WITH THE ADDITION OF A METHYL GROUP. THIS COVALENT MODIFICATION IS MAINTAINED BY THE DNA CYTOSINE-5-METHYLTRANSFERASE-1 ENZYME (DNMT1), WHICH IS CAPABLE OF ACTING IN CONCERT WITH OTHER SIMILAR ENZYMES TO SILENCE IMPORTANT TUMOR SUPPRESSOR GENES. IL-6 IS A MULTIFUNCTIONAL MEDIATOR OF INFLAMMATION, ACTING THROUGH SEVERAL MAJOR SIGNALING CASCADES, INCLUDING THE PHOSPHATIDYLINOSITOL-3-KINASE PATHWAY (PI-3-K), WHICH ACTIVATES PROTEIN KINASE B (AKT/PKB) DOWNSTREAM. HERE, WE SHOW THAT THE SUBCELLULAR LOCALIZATION OF DNMT1 CAN BE ALTERED BY THE ADDITION OF IL-6, INCREASING THE RATE OF NUCLEAR TRANSLOCATION OF THE ENZYME FROM THE CYTOSOLIC COMPARTMENT. THE MECHANISM OF NUCLEAR TRANSLOCATION OF DNMT1 IS GREATLY ENHANCED BY PHOSPHORYLATION OF THE DNMT1 NUCLEAR LOCALIZATION SIGNAL (NLS) BY PKB/AKT KINASE. MUTAGENIC ALTERATION OF THE TWO AKT TARGET AMINO ACIDS WITHIN THE NLS RESULTS IN A MAJOR LOSS OF DNMT1 NUCLEAR TRANSLOCATION, WHILE THE CREATION OF A "PHOSPHO-MIMIC" AMINO ACID (MUTATION TO ACIDIC RESIDUES) RESTORES THIS COMPARTMENTATION ABILITY. THESE OBSERVATIONS SUGGEST AN INTERESTING HYPOTHESIS REGARDING HOW MEDIATORS OF CHRONIC INFLAMMATION MAY DISTURB THE DELICATE BALANCE OF CELLULAR COMPARTMENTALIZATION OF IMPORTANT PROTEINS, AND REVEALS A POTENTIAL MECHANISM FOR THE INDUCTION OR ENHANCEMENT OF TUMOR GROWTH VIA ALTERATION OF THE COMPONENTS INVOLVED IN THE EPIGENETIC PROGRAMMING OF A CELL. 2007 13 2590 32 EPIGENETICS OF PROTEASOME INHIBITION IN THE LIVER OF RATS FED ETHANOL CHRONICALLY. AIM: TO EXAMINE THE EFFECTS OF ETHANOL-INDUCED PROTEASOME INHIBITION, AND THE EFFECTS OF PROTEASOME INHIBITION IN THE REGULATION OF EPIGENETIC MECHANISMS. METHODS: RATS WERE FED ETHANOL FOR 1 MO USING THE TSUKAMOTO-FRENCH MODEL AND WERE COMPARED TO RATS GIVEN THE PROTEASOME INHIBITOR PS-341 (BORTEZOMIB, VELCADE(TM)) BY INTRAPERITONEAL INJECTION. MICROARRAY ANALYSIS AND REAL TIME PCR WERE PERFORMED AND PROTEASOME ACTIVITY ASSAYS AND WESTERN BLOT ANALYSIS WERE PERFORMED USING ISOLATED NUCLEI. RESULTS: CHRONIC ETHANOL FEEDING CAUSED A SIGNIFICANT INHIBITION OF THE UBIQUITIN PROTEASOME PATHWAY IN THE NUCLEUS, WHICH LED TO CHANGES IN THE TURNOVER OF TRANSCRIPTIONAL FACTORS, HISTONE-MODIFYING ENZYMES, AND, THEREFORE, AFFECTED EPIGENETIC MECHANISMS. CHRONIC ETHANOL FEEDING WAS RELATED TO AN INCREASE IN HISTONE ACETYLATION, AND IT IS HYPOTHESIZED THAT THE PROTEASOME PROTEOLYTIC ACTIVITY REGULATED HISTONE MODIFICATIONS BY CONTROLLING THE STABILITY OF HISTONE MODIFYING ENZYMES, AND, THEREFORE, REGULATED THE CHROMATIN STRUCTURE, ALLOWING EASY ACCESS TO CHROMATIN BY RNA POLYMERASE, AND, THUS, PROPER GENE EXPRESSION. PROTEASOME INHIBITION BY PS-341 INCREASED HISTONE ACETYLATION SIMILAR TO CHRONIC ETHANOL FEEDING. IN ADDITION, PROTEASOME INHIBITION CAUSED DRAMATIC CHANGES IN HEPATIC REMETHYLATION REACTIONS AS THERE WAS A SIGNIFICANT DECREASE IN THE ENZYMES RESPONSIBLE FOR THE REGENERATION OF S-ADENOSYLMETHIONINE, AND, IN PARTICULAR, A SIGNIFICANT DECREASE IN THE BETAINE-HOMOCYSTEINE METHYLTRANSFERASE ENZYME. THIS SUGGESTED THAT HYPOMETHYLATION WAS ASSOCIATED WITH PROTEASOME INHIBITION, AS INDICATED BY THE DECREASE IN HISTONE METHYLATION. CONCLUSION: THE ROLE OF PROTEASOME INHIBITION IN REGULATING EPIGENETIC MECHANISMS, AND ITS LINK TO LIVER INJURY IN ALCOHOLIC LIVER DISEASE, IS THUS A PROMISING APPROACH TO STUDY LIVER INJURY DUE TO CHRONIC ETHANOL CONSUMPTION. 2009 14 2442 30 EPIGENETIC STABILITY IN THE ADULT MOUSE CORTEX UNDER CONDITIONS OF PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION. HISTONE ACETYLATION IS CONSIDERED A MAJOR EPIGENETIC PROCESS THAT AFFECTS BRAIN DEVELOPMENT AND SYNAPTIC PLASTICITY, AS WELL AS LEARNING AND MEMORY. THE TRANSCRIPTIONAL EFFECTORS AND MORPHOLOGICAL CHANGES RESPONSIBLE FOR PLASTICITY AS A RESULT OF LONG-TERM MODIFICATIONS TO HISTONE ACETYLATION ARE NOT FULLY UNDERSTOOD. TO THIS END, WE PHARMACOLOGICALLY INHIBITED HISTONE DEACETYLATION USING TRICHOSTATIN A IN ADULT (6-MONTH-OLD) MICE AND FOUND SIGNIFICANT INCREASES IN THE LEVELS OF THE ACETYLATED HISTONE MARKS H3LYS9, H3LYS14 AND H4LYS12. HIGH-RESOLUTION TRANSCRIPTOME ANALYSIS OF DIVERSE BRAIN REGIONS UNCOVERED FEW DIFFERENCES IN GENE EXPRESSION BETWEEN TREATED AND CONTROL ANIMALS, NONE OF WHICH WERE PLASTICITY RELATED. INSTEAD, AFTER INCREASED HISTONE ACETYLATION, WE DETECTED A LARGE NUMBER OF NOVEL TRANSCRIPTIONALLY ACTIVE REGIONS, WHICH CORRESPOND TO LONG NON-CODING RNAS (LNCRNAS). WE ALSO SURPRISINGLY FOUND NO SIGNIFICANT CHANGES IN DENDRITIC SPINE PLASTICITY IN LAYERS 1 AND 2/3 OF THE VISUAL CORTEX USING LONG-TERM IN VIVO TWO-PHOTON IMAGING. OUR RESULTS INDICATE THAT CHRONIC PHARMACOLOGICALLY INDUCED HISTONE ACETYLATION CAN BE DECOUPLED FROM GENE EXPRESSION AND INSTEAD, MAY POTENTIALLY EXERT A POST-TRANSCRIPTIONAL EFFECT THROUGH THE DIFFERENTIAL PRODUCTION OF LNCRNAS. 2016 15 4772 31 NUCLEAR SIRTUINS AND INFLAMMATORY SIGNALING PATHWAYS. THE REGULATION OF CHRONIC INFLAMMATION HAS RECEIVED CONSIDERABLE RESEARCH ATTENTION IN RECENT YEARS BECAUSE OF ITS CONTRIBUTION TO THE PATHOGENESIS OF CHRONIC DISEASES SUCH AS ARTHRITIS, DIABETES, METABOLIC SYNDROME AND OBESITY. THUS, STRATEGIES THAT INHIBIT THE INFLAMMATORY STATE MAY BE BENEFICIAL IN IMPROVING THE PATHOPHYSIOLOGY OF SEVERAL INFLAMMATION-RELATED DISORDERS. SIRTUINS ARE A FAMILY OF HISTONE DEACETYLASES THAT CONTAIN SEVEN ENZYMATIC ACTIVITIES IN MAMMALS (SIRT1-SIRT7) AND FUNCTION TO SUPPRESS GENE TRANSCRIPTION BY EPIGENETIC MECHANISMS. NUCLEAR SIRTUINS (SIRT 1, 2, 6 AND 7) IN PARTICULAR MAY PLAY AN IMPORTANT ROLE IN THE REGULATION OF INFLAMMATORY RESPONSES. IN THE PRESENT REVIEW, WE ASSESSED THE ROLES OF NUCLEAR SIRTUINS IN INFLAMMATORY REACTIONS: SIRT1 HAS BEEN SHOWN TO SUPPRESS NF-KAPPAB ACTIVITY, THE MASTER REGULATOR OF CELLULAR INFLAMMATORY RESPONSE, DECREASE COX-2 AND INOS PRODUCTION, AND INCREASE ANTIOXIDANT GENE EXPRESSION THAT SUPPRESSED INFLAMMATION. SIRT2 ACTIVITY INCLUDED THE DEACETYLATION OF P65 SUBUNIT OF NF-KAPPABETA AND RIP-1, WHILE SIRT6 HAS BEEN SHOWN TO INTERACT WITH P65/RELA BOUND TO THE NF-KAPPABETA PROMOTER REGION AND REPRESS TRANSCRIPTIONAL ACTIVITY. FURTHERMORE, RECENT STUDIES HAVE SHOWN THAT THE ABSENCE OF SIRT7 PRODUCED AN INCREASE IN INFLAMMATION, ILLUSTRATING THAT SIRT7 ALSO FUNCTIONED TO DECREASE INFLAMMATION. GIVEN THEIR SIGNIFICANT ROLES IN THE REGULATION OF CHRONIC INFLAMMATION, NUCLEAR SIRTUINS REPRESENT POTENTIAL THERAPEUTIC TARGETS IN THE CONTROL OF CHRONIC INFLAMMATORY DISEASES. 2017 16 171 30 ABROGATION OF HISTONE DEACETYLASES (HDACS) DECREASES SURVIVAL OF CHRONIC MYELOID LEUKEMIA CELLS: NEW INSIGHT INTO ATTENUATING EFFECTS OF THE PI3K/C-MYC AXIS ON PANOBINOSTAT CYTOTOXICITY. ALTHOUGH THE IDENTIFICATION OF TYROSINE KINASE INHIBITORS (TKIS) HAS CHANGED THE TREATMENT PARADIGM OF MANY CANCER TYPES INCLUDING CHRONIC MYELOID LEUKEMIA (CML), STILL ADJUSTMENT OF NEOPLASTIC CELLS TO CYTOTOXIC EFFECTS OF ANTICANCER DRUGS IS A SERIOUS CHALLENGE. IN THE AREA OF DRUG RESISTANCE, EPIGENETIC ALTERATIONS ARE AT THE CENTER OF ATTENTION AND THE PRESENT STUDY AIMED TO EVALUATE WHETHER BLOCKAGE OF EPIGENETICS MECHANISMS USING A PAN-HISTONE DEACETYLASE (HDAC) INHIBITOR INDUCES CELL DEATH IN CML-DERIVED K562 CELLS. WE FOUND THAT THE ABROGATION OF HDACS USING PANOBINOSTAT RESULTED IN A REDUCTION IN SURVIVAL OF THE K562 CELL LINE THROUGH P27-MEDIATED CELL CYCLE ARREST. NOTEWORTHY, THE RESULTS OF THE SYNERGISTIC EXPERIMENTS REVEALED THAT HDAC SUPPRESSION COULD BE RECRUITED AS A WAY TO POTENTIATE CYTOTOXICITY OF IMATINIB AND TO ENHANCE THE THERAPEUTIC EFFICACY OF CML. HERE, WE PROPOSED FOR THE FIRST TIME THAT THE INHIBITORY EFFECT OF PANOBINOSTAT WAS OVERSHADOWED, AT LEAST PARTIALLY, THROUGH THE ABERRANT ACTIVATION OF THE PHOSPHOINOSITIDE 3-KINASE (PI3K)/C-MYC AXIS. MEANWHILE, WE FOUND THAT UPON BLOCKAGE OF AUTOPHAGY AND THE PROTEASOME PATHWAY, AS THE MAIN AXIS INVOLVED IN THE ACTIVATION OF AUTOPHAGY, THE ANTI-LEUKEMIC PROPERTY OF THE HDAC INHIBITOR WAS POTENTIATED. TAKEN TOGETHER, OUR STUDY SUGGESTS THE BENEFICIAL APPLICATION OF HDAC INHIBITION IN THE TREATMENT STRATEGIES OF CML; HOWEVER, FURTHER IN VIVO STUDIES ARE NEEDED TO DETERMINE THE EFFICACY OF THIS INHIBITOR, EITHER AS A SINGLE AGENT OR IN COMBINATION WITH SMALL MOLECULE INHIBITORS OF PI3K AND/OR C-MYC IN THIS MALIGNANCY. 2021 17 2297 30 EPIGENETIC REGULATION OF ACUTE INFLAMMATORY PAIN. ACUTE PAIN IS ASSOCIATED WITH TISSUE DAMAGE, WHICH RESULTS IN THE RELEASE OF INFLAMMATORY MEDIATORS. RECENT STUDIES POINT TO THE INVOLVEMENT OF EPIGENETIC MECHANISMS (DNA METHYLATION) IN THE DEVELOPMENT OF PAIN. WE HAVE FOUND THAT DURING ACUTE INFLAMMATORY PAIN INDUCED BY THE APPLICATION OF 10% MUSTARD OIL ON THE TONGUES OF RATS, LEVELS OF DNMT3A AND 3B WERE ELEVATED MARKEDLY (36 AND 42 % RESPECTIVELY), WHEREAS THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY. PREVIOUS INJECTION OF XEFOCAM WITH 0,4 MG/KG DOSE DECREASED LEVELS OF DNMT3A AND 3B (25 AND 24% RESPECTIVELY). THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY COMPARED TO THE CONTROL GROUP. THE FINDINGS SUPPORT THE IDEA THAT INHIBITORS OF DNA-METHYLTRANSFERASES COULD BE USEFUL FOR PAIN MANAGEMENT. OUR DATA SUGGEST THAT NSAIDS (ALONE OR IN COMBINATION WITH DNMT INHIBITORS) MAY BE PROPOSED AS POSSIBLE EPIGENETIC REGULATORY AGENTS, WHICH MAY PLAY A ROLE IN EPIGENETIC MECHANISMS INDIRECTLY THROUGH ALTERING THE ACTIVITY OF INFLAMMATORY MEDIATORS INVOLVED IN PAIN DEVELOPMENT. 2014 18 1442 38 DIFFERENTIAL RESPONSE OF HUMAN HEPATOCYTE CHROMATIN TO HDAC INHIBITORS AS A FUNCTION OF MICROENVIRONMENTAL GLUCOSE LEVEL. DIABETES IS A COMPLEX MULTIFACTORIAL DISORDER CHARACTERIZED BY CHRONIC HYPERGLYCEMIA DUE TO IMPAIRED INSULIN SECRETION. RECENT OBSERVATIONS SUGGEST THAT THE COMPLEXITY OF THE DISEASE CANNOT BE ENTIRELY ACCOUNTED FOR GENETIC PREDISPOSITION AND A COMPELLING ARGUMENT FOR AN EPIGENETIC COMPONENT IS RAPIDLY EMERGING. THE USE OF HISTONE DEACETYLASE INHIBITOR (HDACI) IN CLINICAL SETTING IS AN EMERGING AREA OF INVESTIGATION. IN THIS STUDY, WE HAVE AIMED TO UNDERSTAND AND COMPARE THE RESPONSE OF HEPATOCYTE CHROMATIN TO VALPROIC ACID (VPA) AND TRICHOSTATIN A (TSA) TREATMENTS UNDER NORMOGLYCEMIC OR HYPERGLYCEMIC CONDITIONS TO EXPAND OUR KNOWLEDGE ABOUT THE CONSEQUENCES OF HDACI TREATMENT IN A DIABETES CELL MODEL. UNDER NORMOGLYCEMIC CONDITIONS, THESE TREATMENTS PROMOTED CHROMATIN REMODELING, AS ASSESSED BY IMAGE ANALYSIS AND H3K9AC AND H3K9ME2 ABUNDANCE. SIMULTANEOUSLY, H3K9AC MARKS SHIFTED TO THE NUCLEAR PERIPHERY ACCOMPANIED BY HP1 DISSOCIATION FROM THE HETEROCHROMATIN AND A G1 CELL CYCLE ARREST. MORE STRIKING CHANGES IN THE CELL CYCLE PROGRESSION AND MITOTIC RATIOS REQUIRED DRASTIC TREATMENT. UNDER HYPERGLYCEMIC CONDITIONS, HIGH GLUCOSE PER SE PROMOTED CHROMATIN CHANGES SIMILAR TO THOSE PROMOTED BY VPA AND TSA. NONETHELESS, THESE RESULTS WERE NOT INTENSIFIED IN CELLS TREATED WITH HDACIS UNDER HYPERGLYCEMIC CONDITIONS. DESPITE THE ABSENCE OF MORPHOLOGICAL CHANGES BEING PROMOTED, HDACI TREATMENT SEEMS TO CONFER A PHYSIOLOGICAL MEANING, AMELIORATING THE CELLULAR HYPERGLYCEMIC STATE THROUGH REDUCTION OF GLUCOSE PRODUCTION. THESE OBSERVATIONS ALLOW US TO CONCLUDE THAT THE GLUCOSE LEVEL TO WHICH THE HEPATOCYTES ARE SUBJECTED AFFECTS HOW CHROMATIN RESPONDS TO HDACI AND THEIR ACTION UNDER HIGH-GLUCOSE ENVIRONMENT MIGHT NOT REFLECT ON CHROMATIN REMODELING. J. CELL. PHYSIOL. 231: 2257-2265, 2016. (C) 2016 WILEY PERIODICALS, INC. 2016 19 5614 35 SAFETY AND EFFICACY OF EPIGENETICALLY CONVERTED HUMAN FIBROBLASTS INTO INSULIN-SECRETING CELLS: A PRECLINICAL STUDY. TYPE 1 DIABETES MELLITUS (T1DM) IS A CHRONIC DISEASE THAT LEADS TO LOSS OF INSULIN SECRETING BETA-CELLS, CAUSING HIGH LEVELS OF BLOOD GLUCOSE. EXOGENOUS INSULIN ADMINISTRATION IS NOT SUFFICIENT TO MIMIC THE NORMAL FUNCTION OF BETA-CELLS AND, CONSEQUENTLY, DIABETES MELLITUS OFTEN PROGRESSES AND CAN LEAD TO MAJOR CHRONIC COMPLICATIONS AND MORBIDITY. THE PHYSIOLOGICAL CONTROL OF GLUCOSE LEVELS CAN ONLY BE RESTORED BY REPLACING THE BETA-CELL MASS.WE RECENTLY DEVELOPED A NEW STRATEGY THAT ALLOWS FOR EPIGENETIC CONVERSION OF DERMAL FIBROBLASTS INTO INSULIN-SECRETING CELLS (EPICC), USING A BRIEF EXPOSURE TO THE DEMETHYLATING AGENT 5-AZA-CYTIDINE (5-AZA-CR), FOLLOWED BY A PANCREATIC INDUCTION PROTOCOL. THIS METHOD HAS NOTABLE ADVANTAGES COMPARED TO THE ALTERNATIVE AVAILABLE PROCEDURES AND MAY REPRESENT A PROMISING TOOL FOR CLINICAL TRANSLATION AS A THERAPY FOR T1DM. HOWEVER, A THOUGHT EVALUATION OF ITS THERAPEUTIC SAFETY AND EFFICACY IS MANDATORY TO SUPPORT PRECLINICAL STUDIES BASED ON EPICC TREATMENT.WE HERE REPORT THE DATA OBTAINED USING HUMAN FIBROBLASTS ISOLATED FROM DIABETIC AND HEALTHY INDIVIDUALS, BELONGING THE TWO GENDERS. EPICC WERE INJECTED INTO 650 DIABETIC SEVERE COMBINED IMMUNODEFICIENCY (SCID) MICE AND DEMONSTRATED TO BE ABLE TO RESTORE AND MAINTAIN GLYCEMIC LEVELS WITHIN THE PHYSIOLOGICAL RANGE. CELLS HAD THE ABILITY TO SELF-REGULATE AND NOT TO CAUSE HYPOGLYCEMIA, WHEN TRANSPLANTED IN HEALTHY ANIMALS. EFFICACY TESTS SHOWED THAT EPICC SUCCESSFULLY RE-ESTABLISHED NORMOGLYCEMIA IN DIABETIC MICE, USING A DOSE RANGE THAT APPEARED CLINICALLY RELEVANT TO THE CONCENTRATION 0.6 X 10(6) EPICC. NECROPSY AND HISTOPATHOLOGICAL INVESTIGATIONS DEMONSTRATED THE ABSENCE OF MALIGNANT TRANSFORMATION AND CELL MIGRATION TO ORGANS AND LYMPH NODES.THE PRESENT PRECLINICAL STUDY DEMONSTRATES SAFETY AND EFFICACY OF HUMAN EPICC IN DIABETIC MICE AND SUPPORTS THE USE OF EPIGENETIC CONVERTED CELLS FOR REGENERATIVE MEDICINE OF DIABETES MELLITUS. 2018 20 706 35 BUTYRATE AND DIETARY SOLUBLE FIBER IMPROVE NEUROINFLAMMATION ASSOCIATED WITH AGING IN MICE. AGING RESULTS IN CHRONIC SYSTEMIC INFLAMMATION THAT CAN ALTER NEUROINFLAMMATION OF THE BRAIN. SPECIFICALLY, MICROGLIA SHIFT TO A PRO-INFLAMMATORY PHENOTYPE PREDISPOSING THEM TO HYPERACTIVATION UPON STIMULATION BY PERIPHERAL IMMUNE SIGNALS. IT IS PROPOSED THAT CERTAIN NUTRIENTS CAN DELAY BRAIN AGING BY PREVENTING OR REVERSING MICROGLIAL HYPERACTIVATION. BUTYRATE, A SHORT-CHAIN FATTY ACID (SCFA) PRODUCED PRIMARILY BY BACTERIAL FERMENTATION OF FIBER IN THE COLON, HAS BEEN EXTENSIVELY STUDIED PHARMACOLOGICALLY AS A HISTONE DEACETYLASE INHIBITOR AND SERVES AS AN ATTRACTIVE THERAPEUTIC CANDIDATE, AS BUTYRATE HAS ALSO BEEN SHOWN TO BE ANTI-INFLAMMATORY AND IMPROVE MEMORY IN ANIMAL MODELS. IN THIS STUDY, WE DEMONSTRATE THAT BUTYRATE CAN ATTENUATE PRO-INFLAMMATORY CYTOKINE EXPRESSION IN MICROGLIA IN AGED MICE. IT IS STILL NOT FULLY UNDERSTOOD, HOWEVER, IF AN INCREASE IN BUTYRATE-PRODUCING BACTERIA IN THE GUT AS A CONSEQUENCE OF A DIET HIGH IN SOLUBLE FIBER COULD AFFECT MICROGLIAL ACTIVATION DURING AGING. ADULT AND AGED MICE WERE FED EITHER A 1% CELLULOSE (LOW FIBER) OR 5% INULIN (HIGH FIBER) DIET FOR 4 WEEKS. FINDINGS INDICATE THAT MICE FED INULIN HAD AN ALTERED GUT MICROBIOME AND INCREASED BUTYRATE, ACETATE, AND TOTAL SCFA PRODUCTION. IN ADDITION, HISTOLOGICAL SCORING OF THE DISTAL COLON DEMONSTRATED THAT AGED ANIMALS ON THE LOW FIBER DIET HAD INCREASED INFLAMMATORY INFILTRATE THAT WAS SIGNIFICANTLY REDUCED IN ANIMALS CONSUMING THE HIGH FIBER DIET. FURTHERMORE, GENE EXPRESSION OF INFLAMMATORY MARKERS, EPIGENETIC REGULATORS, AND THE MICROGLIAL SENSORY APPARATUS (I.E., THE SENSOME) WERE ALTERED BY BOTH DIET AND AGE, WITH AGED ANIMALS EXHIBITING A MORE ANTI-INFLAMMATORY MICROGLIAL PROFILE ON THE HIGH FIBER DIET. TAKEN TOGETHER, HIGH FIBER SUPPLEMENTATION IN AGING IS A NON-INVASIVE STRATEGY TO INCREASE BUTYRATE LEVELS, AND THESE DATA SUGGEST THAT AN INCREASE IN BUTYRATE THROUGH ADDED SOLUBLE FIBER SUCH AS INULIN COULD COUNTERBALANCE THE AGE-RELATED MICROBIOTA DYSBIOSIS, POTENTIALLY LEADING TO NEUROLOGICAL BENEFITS. 2018