1 3889 146 KLOTHO RECOVERY BY GENISTEIN VIA PROMOTER HISTONE ACETYLATION AND DNA DEMETHYLATION MITIGATES RENAL FIBROSIS IN MICE. RENAL FIBROSIS IS A COMMON HISTOMORPHOLOGICAL FEATURE OF RENAL AGING AND CHRONIC KIDNEY DISEASES OF ALL ETIOLOGIES, AND ITS INITIATION AND PROGRESSION ARE SUBSTANTIALLY INFLUENCED BY ABERRANT EPIGENETIC MODIFICATIONS OF FIBROSIS-SUSCEPTIBLE GENES, YET WITHOUT EFFECTIVE THERAPY. "EPIGENETIC DIETS" EXHIBIT TISSUE-PROTECTIVE AND EPIGENETIC-MODULATING PROPERTIES; HOWEVER, THEIR ANTI-RENAL FIBROSIS FUNCTIONS AND THE UNDERLYING MECHANISMS ARE LESS UNDERSTOOD. IN THIS STUDY, WE SHOW THAT GENISTEIN, A PHYTOESTROGENIC ISOFLAVONE ENRICHED IN DIETARY SOY PRODUCTS, EXHIBITS IMPRESSIVE ANTI-RENAL FIBROSIS ACTIVITIES BY RECOVERING EPIGENETIC LOSS OF KLOTHO, A KIDNEY-ENRICHED ANTI-AGING AND FIBROSIS-SUPPRESSING PROTEIN. MOUSE FIBROTIC KIDNEYS INDUCED BY UUO (UNILATERAL URETERAL OCCLUSION) DISPLAYED SEVERER KLOTHO SUPPRESSION AND ADVERSE EXPRESSION OF RENAL FIBROSIS-ASSOCIATED PROTEINS, BUT GENISTEIN ADMINISTRATION MARKEDLY RECOVERED THE KLOTHO LOSS AND ATTENUATED RENAL FIBROSIS AND THE PROTEIN EXPRESSION ABNORMALITIES. THE EXAMINATION OF POSSIBLE CAUSES OF THE KLOTHO RECOVERY REVEALED THAT GENISTEIN SIMULTANEOUSLY INHIBITED HISTONE 3 DEACETYLATION OF KLOTHO PROMOTER AND NORMALIZED THE PROMOTER DNA HYPERMETHYLATION BY SUPPRESSING ELEVATED DNA METHYLTRANSFERASE DNMT1 AND DNMT3A. MORE IMPORTANTLY, GENISTEIN'S ANTI-RENAL FIBROSIS EFFECTS ON THE RENAL FIBROTIC LESIONS AND THE ABNORMAL EXPRESSIONS OF FIBROSIS-ASSOCIATED PROTEINS WERE ABROGATED WHEN KLOTHO IS KNOCKDOWN BY RNA INTERFERENCES IN UUO MICE. THUS, OUR RESULTS IDENTIFY KLOTHO RESTORATION VIA EPIGENETIC HISTONE ACETYLATION AND DNA DEMETHYLATION AS A CRITICAL MECHANISM OF GENISTEIN'S ANTI-FIBROSIS FUNCTION AND SHED NEW LIGHTS ON THE POTENTIALS OF EPIGENETIC DIETS IN PREVENTING OR TREATING AGING OR RENAL FIBROSIS-ASSOCIATED KIDNEY DISEASES. KEY MESSAGES: GENISTEIN PREVENTS RENAL FIBROSIS AND THE ASSOCIATED KLOTHO SUPPRESSION IN UUO MICE. GENISTEIN UPREGULATES KLOTHO IN PART BY REVERSING THE PROMOTER HISTONE 3 HYPOACETYLATION. GENISTEIN ALSO PRESERVES KLOTHO VIA RELIEVING KLOTHO PROMOTER HYPERMETHYLATION. GENISTEIN DEMETHYLATES KLOTHO PROMOTER BY INHIBITING ABERRANT DNMT1/3A EXPRESSION. GENISTEIN RESTORATION OF KLOTHO IS ESSENTIAL FOR ITS ANTI-RENAL FIBROSIS FUNCTION. 2019 2 3036 61 GENISTEIN AMELIORATES RENAL FIBROSIS THROUGH REGULATION SNAIL VIA M6A RNA DEMETHYLASE ALKBH5. RENAL TUBULE-INTERSTITIAL FIBROSIS IS RELATED TO CHRONIC KIDNEY DISEASE PROGRESSION AND A TYPICAL FEATURE OF THE AGING KIDNEY. EPIGENETIC MODIFICATIONS OF FIBROSIS-PRONE GENES REGULATE THE DEVELOPMENT OF RENAL FIBROSIS. AS A KIND OF "EPIGENETIC DIET", SOY ISOFLAVONE GENISTEIN WAS REPORTED TO HAVE RENAL PROTECTIVE ACTION AND EPIGENETIC-MODULATING EFFECTS. HOWEVER, ITS RENAL PROTECTION ROLE AND UNDERLYING MECHANISMS ARE YET TO BE FULLY CLARIFIED. HEREIN, WE SHOWED THAT GENISTEIN EXHIBITS A DEMONSTRABLE ANTI-FIBROTIC EFFECT ON KIDNEY IN VIVO UUO (UNILATERAL URETERAL OCCLUSION) MODEL AND RENAL EPITHELIAL CELLS IN VITRO MODEL. THE MECHANISM IS STRONGLY ASSOCIATED WITH EPITHELIAL-TO-MESENCHYMAL TRANSITION AND M6A RNA DEMETHYLASE ALKBH5. MOUSE FIBROTIC KIDNEYS INDUCED BY UUO EXHIBITED ADVERSE EXPRESSION OF RENAL FIBROSIS-RELATED PROTEINS AND SIGNIFICANT INCREASES IN THE TOTAL M6A LEVEL. AS AN ERASER, ALKBH5 SHOWED SEVERER SUPPRESSION IN THE RENAL FIBROSIS PROCESS. HOWEVER, GENISTEIN PRETREATMENT RESTORED ALKBH5 LOSS REMARKABLY AND REDUCED RENAL FIBROSIS, ABNORMAL PROTEIN, AND INFLAMMATORY MARKERS. THE EXAMINATION OF POSSIBLE MECHANISMS REVEALED THAT GENISTEIN PROMOTED ALKBH5 AND MAYBE INDUCED THE LEVEL OF MRNA M6A METHYLATION IN SOME EPITHELIAL-TO-MESENCHYMAL TRANSITION-RELATED TRANSCRIPTION FACTORS. WE FOUND SNAIL WAS THE CRITICAL REGULATOR AND CRITICAL FOR THE PROTECTIVE ROLE OF GENISTEIN. TO VERIFY THE RELATIONSHIP BETWEEN ALKBH5 AND SNAIL, WE GENERATED KNOCKDOWN AND OVEREXPRESSION OF ALKBH5 CELLS IN VITRO. ALKBH5 KNOCKDOWN ENHANCED THE MESENCHYMAL PHENOTYPE MARKER ALPHA-SMOOTH MUSCLE ACTIN AND SNAIL EXPRESSION. IN AGREEMENT, OVEREXPRESSION ALKBH5 INCREASED EPITHELIAL ADHESION MOLECULE E-CADHERIN AND REDUCED SNAIL EXPRESSION. IN CONCLUSION, GENISTEIN INCREASED RENAL ALKBH5 EXPRESSION IN UUO-INDUCED RENAL FIBROSIS AND REDUCED RNA M6A LEVELS AND AMELIORATES RENAL DAMAGES. 2020 3 5994 70 TGFBETA-INCURRED EPIGENETIC ABERRATIONS OF MIRNA AND DNA METHYLTRANSFERASE SUPPRESS KLOTHO AND POTENTIATE RENAL FIBROSIS. RENAL FIBROSIS IS A COMMON PATHOLOGICAL FEATURE OF CHRONIC KIDNEY DISEASES (CKD) AND ITS DEVELOPMENT AND PROGRESSION ARE SIGNIFICANTLY AFFECTED BY EPIGENETIC MODIFICATIONS SUCH AS ABERRANT MIRNA AND DNA METHYLATION. KLOTHO IS AN ANTI-AGING AND ANTI-FIBROTIC PROTEIN AND ITS EARLY DECLINE AFTER RENAL INJURY IS REPORTEDLY ASSOCIATED WITH ABERRANT DNA METHYLATION. HOWEVER, THE KEY UPSTREAM PATHOLOGICAL MEDIATORS AND THE MOLECULAR CASCADE LEADING TO EPIGENETIC KLOTHO SUPPRESSION ARE NOT EXCLUSIVELY ESTABLISHED. HERE WE INVESTIGATE THE EPIGENETIC MECHANISM OF KLOTHO DEFICIENCY AND ITS FUNCTIONAL RELEVANCE IN RENAL FIBROGENESIS. FIBROTIC KIDNEYS INDUCED BY UNILATERAL URETERAL OCCLUSION (UUO) DISPLAYED MARKED KLOTHO SUPPRESSION AND THE PROMOTER HYPERMETHYLATION. THESE ABNORMALITIES WERE LIKELY DUE TO DEREGULATED TRANSFORMING GROWTH FACTOR-BETA (TGFBETA) SINCE TGFBETA ALONE CAUSED THE SIMILAR EPIGENETIC ABERRATIONS IN CULTURED RENAL CELLS AND TGFBETA BLOCKADE PREVENTED THE ALTERATIONS IN UUO KIDNEY. FURTHER INVESTIGATION REVEALED THAT TGFBETA ENHANCED DNA METHYLTRANSFERASE (DNMT) 1 AND DNMT3A VIA INHIBITING MIR-152 AND MIR-30A IN BOTH RENAL CELLS AND FIBROTIC KIDNEYS. ACCORDINGLY THE BLOCKADE OF EITHER TGFBETA SIGNALING OR DNMT1/3A ACTIVITIES SIGNIFICANTLY RECOVERED THE KLOTHO LOSS AND ATTENUATED PRO-FIBROTIC PROTEIN EXPRESSION AND RENAL FIBROSIS. MOREOVER, KLOTHO KNOCKDOWN BY RNA INTERFERENCES ABOLISHED THE ANTI-FIBROTIC EFFECTS OF DNMT INHIBITION IN BOTH TGFBETA-TREATED RENAL CELL AND UUO KIDNEY, INDICATING THAT TGFBETA-MEDIATED MIR-152/30A INHIBITIONS, DNMT1/3A ABERRATIONS AND SUBSEQUENT KLOTHO LOSS CONSTITUTE A CRITICAL REGULATORY LOOP THAT ELIMINATES KLOTHO'S ANTI-FIBROTIC ACTIVITIES AND POTENTIATES RENAL FIBROGENESIS. THUS, OUR STUDY ELABORATES A NOVEL EPIGENETIC CASCADE OF RENAL FIBROGENESIS AND REVEALS THE POTENTIAL THERAPEUTIC TARGETS FOR TREATING THE RENAL FIBROSIS-ASSOCIATED KIDNEY DISEASES. 2017 4 6235 44 THE M(6)A DEMETHYLASE FTO PROMOTES RENAL EPITHELIAL-MESENCHYMAL TRANSITION BY REDUCING THE M(6)A MODIFICATION OF LNCRNA GAS5. BACKGROUND: RENAL INTERSTITIAL FIBROSIS (RIF) IS THE MAIN PATHOLOGICAL CHANGE OF A VARIETY OF CHRONIC KIDNEY DISEASES (CKD). EPIGENETIC MODIFICATIONS OF FIBROSIS-PRONE GENES REGULATE RIF PROGRESSION. THIS STUDY AIMED TO INVESTIGATE LONG NON-CODING RNA (LNCRNA) N6-METHYLADENOSINE (M(6)A) MODIFICATION AND ITS ROLE IN REGULATING RIF PROGRESSION. METHODS: UNILATERAL URETERAL OCCLUSION (UUO) WAS EMPLOYED TO CONSTRUCT THE RIF IN VIVO MODEL; AND TGF-BETA1-TREATED HK-2 AND HKC-8 CELLS WERE USED FOR IN VITRO EXPERIMENTS. THE MRNA AND PROTEIN EXPRESSIONS WERE ASSESSED USING QRT-PCR AND WESTERN BLOT. THE PROLIFERATION AND MIGRATION WERE EVALUATED BY EDU ASSAY AND TRANSWELL ASSAY, RESPECTIVELY. IN ADDITION, LEVELS OF INFLAMMATORY CYTOKINES WERE DETERMINED BY ELISA ASSAY AND QRT-PCR. MOREOVER, LNCRNA GAS5 M(6)A LEVEL WAS DETECTED USING ME-RIP ASSAY. HE AND MASSON STAINING WERE EMPLOYED TO EVALUATE FIBROTIC LESIONS OF THE KIDNEY. RESULTS: FTO EXPRESSION WAS ELEVATED IN HK-2 AND HKC-8 CELLS AFTER TGF-BETA1 TREATMENT AND MOUSE KIDNEY TISSUE FOLLOWING UUO, AND LNCRNA GAS5 WAS DOWNREGULATED. LNCRNA GAS5 OVEREXPRESSION OR FTO SILENCING SUPPRESSED TGF-BETA1-INDUCED THE INCREASE OF EMT-RELATED PROTEINS (VIMENTIN, SNAIL AND N-CADHERIN) AND INFLAMMATORY CYTOKINES (IL-6, IL-1BETA AND TNF-ALPHA) LEVELS IN HK-2 CELLS. FTO SUPPRESSED LNCRNA GAS5 EXPRESSION BY REDUCING THE M6A MODIFICATION OF LNCRNA GAS5. ADDITIONALLY, FTO KNOCKDOWN COULD SUPPRESS EMT PROCESS AND INFLAMMATION RESPONSE INDUCED BY TGF-BETA1 AND UUO IN VITRO AND IN VIVO. AS EXPECTED, FTO KNOCKDOWN ABROGATED THE PROMOTION EFFECTS OF LNCRNA GAS5 SILENCING ON TGF-BETA1-INDUCED EMT PROCESS AND INFLAMMATION RESPONSE IN HK-2 AND HKC-8 CELLS. CONCLUSION: FTO PROMOTED EMT PROCESS AND INFLAMMATION RESPONSE THROUGH REDUCING THE M(6)A MODIFICATION OF LNCRNA GAS5. 2022 5 766 43 CCL5 SUPPRESSES KLOTHO EXPRESSION VIA P-STAT3/DNA METHYLTRANSFERASE1-MEDIATED PROMOTER HYPERMETHYLATION. BACKGROUND: ENHANCED INFLAMMATION AND REDUCED KLOTHO ARE COMMON FEATURES IN CHRONIC KIDNEY DISEASE (CKD). INFLAMMATION INDUCES DNA HYPERMETHYLATION. THIS STUDY ASSESSED THE PERFORMANCE OF INFLAMMATORY MARKER C-C MOTIF CHEMOKINE 5 (CCL5) IN EPIGENETIC REGULATION OF KLOTHO EXPRESSION. METHODS: FIFTY CKD PATIENTS AND 25 MATCHED CONTROLS WERE ENROLLED, AND SERUM CCL5 LEVEL, SKLOTHO LEVEL, AND DNA METHYLATION WERE EVALUATED IN THESE SUBJECTS. A RENAL INTERSTITIAL FIBROSIS (RIF) MODEL WITH CKD WAS INDUCED IN MICE VIA UNILATERAL URETERAL OBSTRUCTION (UUO) IN VIVO AND HUMAN PROXIMAL TUBULAR EPITHELIAL (HK-2) CELLS TREATED WITH CCL5 IN VITRO. 5-AZA-2'-DEOXYCYTIDINE (5-AZA), A DNA METHYLTRANSFERASE INHIBITOR WAS GIVEN TO UUO MICE. HEMATOXYLIN AND EOSIN (HE) AND MASSON TRICHROME STAINING WERE ADOPTED TO EVALUATE RENAL PATHOLOGICAL CHANGES. METHYLATION-SPECIFIC PCR WAS PERFORMED TO ASSESS DNA METHYLATION OF KLOTHO PROMOTER IN THE PERIPHERAL BLOOD LEUCOCYTES (PBLS) FROM CKD PATIENTS AND OBSTRUCTIVE KIDNEY FROM UUO MICE. CCL5, KLOTHO, AND DNA METHYLTRANSFERASES (DNMTS) WERE DETERMINED BY ELISAS, IMMUNOFLUORESCENCE, OR WESTERN BLOTTING. HK-2 CELLS WERE EXPOSED TO CCL5 WITH OR WITHOUT 5-AZA AND STATTIC, A P-SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 3 (STAT3) INHIBITOR, AND EXPRESSIONS OF P-STAT3, DNMT1, AND KLOTHO WERE DETERMINED BY WESTERN BLOTTING. RESULTS: CCL5 UPREGULATION CONCOMITANT WITH KLOTHO DOWNREGULATION IN SERUM AND GLOBAL DNA METHYLATION IN PBLS WERE OBSERVED IN CKD SAMPLES. UUO CONTRIBUTED TO SEVERE RENAL INTERSTITIAL FIBROSIS AND ENHANCED EXPRESSIONS OF FIBROTIC MARKERS. MOREOVER, UUO INCREASED THE CCL5 LEVEL, INDUCED KLOTHO PROMOTER METHYLATION, SUPPRESSED KLOTHO LEVEL, ACTIVATED P-STAT3 SIGNALING, AND UPREGULATED DNMT1 LEVEL. A SIMILAR OBSERVATION WAS MADE IN HK-2 CELLS TREATED WITH CCL5. MORE IMPORTANTLY, 5-AZA INHIBITED UUO-INDUCED KLOTHO HYPERMETHYLATION, REVERSED KLOTHO, DOWNREGULATED P-STAT3 EXPRESSIONS, AND AMELIORATED RIF IN VIVO. THE CONSISTENT FINDINGS IN VITRO WERE ALSO OBTAINED IN HK-2 CELLS EXPOSED TO 5-AZA AND STATTIC. CONCLUSION: THE CCL5/P-STAT3/DNMT1 AXIS IS IMPLICATED IN EPIGENETIC REGULATION OF KLOTHO EXPRESSION IN CKD. THIS STUDY PROVIDES NOVEL THERAPEUTIC POSSIBILITIES FOR REVERSAL OF KLOTHO SUPPRESSION BY CKD. 2022 6 5124 28 POST-OCCLUSION ADMINISTRATION OF SODIUM BUTYRATE ATTENUATES COGNITIVE IMPAIRMENT IN A RAT MODEL OF CHRONIC CEREBRAL HYPOPERFUSION. CHRONIC CEREBRAL HYPOPERFUSION (CCH) HAS BEEN COMMONLY ASSOCIATED WITH ALZHEIMER'S DISEASE AND OTHER TYPES OF DEMENTIA, BUT THERAPIES THAT CAN IMPROVE CEREBRAL BLOOD FLOW DISPLAYED LITTLE EFFECT ON IMPAIRED COGNITION. EPIGENETIC INTERVENTION WITH HISTONE DEACETYLASE INHIBITORS, SUCH AS SODIUM BUTYRATE (SB), ON THE OTHER HAND HAS BEEN SHOWN TO IMPROVE COGNITION IN SEVERAL ANIMAL MODELS OF DEMENTIA. TO INVESTIGATE THE EFFECT OF SB ON COGNITIVE IMPAIRMENT INDUCED BY CCH IN RATS, ADULT MALE SD RATS WERE GIVEN INTRAPERITONEAL INJECTIONS OF SB AT A DAILY DOSE OF 840MG/KG FOR 4WEEKS, FROM THE 29TH DAY AFTER PERMANENT OCCLUSION OF BILATERAL COMMON CAROTID ARTERIES (2VO). LEARNING AND MEMORY WERE ASSESSED BY MORRIS WATER MAZE AND NOVEL OBJECT RECOGNITION. FOLLOWING BEHAVIORAL TESTS, WESTERN BLOTTING OF HISTONE ACETYLATION, OF TRANSCRIPTION FACTORS, OF NEURONAL/SYNAPTIC PROTEINS, WERE PERFORMED USING RAT HIPPOCAMPUS AND CORTEX. THE DATA SHOWED THAT SB TREATMENT ALLEVIATED HIPPOCAMPAL DEPENDENT SPATIAL LEARNING DISABILITY IN 2VO RATS, AND ALTERED HDAC1/2 MRNA LEVEL, HISTONE H4 ACETYLATION AND NRF2 TRANSCRIPTIONAL ACTIVATION IN RAT HIPPOCAMPUS. ACCORDINGLY, COGNITION-PROTECTIVE EFFECT OF SB APPEARED TO BE PARTIALLY MEDIATED BY ENHANCING HISTONE ACETYLATION AND HENCE BY FACILITATING THE TRANSCRIPTION OF NRF2 DOWNSTREAM GENES IN THE HIPPOCAMPUS. THUS, SB MIGHT BE CONSIDERED FOR PUTATIVE TREATMENT FOR CCH-RELATED COGNITIVE IMPAIRMENT. 2015 7 5866 30 SUPPRESSION OF MICRORNA-9-5P RESCUES LEARNING AND MEMORY IN CHRONIC CEREBRAL HYPOPERFUSION RATS MODEL. CHRONIC CEREBRAL HYPOPERFUSION HAS BEEN ASSOCIATED WITH COGNITIVE IMPAIRMENT IN DEMENTIAS, SUCH AS ALZHEIMER'S DISEASE (AD) AND VASCULAR DISEASE (VAD), THE TWO MOST COMMON NEURODEGENERATIVE DISEASES IN AGED PEOPLE. HOWEVER, THE EFFECTIVE THERAPEUTIC APPROACHES FOR BOTH AD AND VAD ARE STILL MISSING. MICRORNAS (MIRNAS) ARE SMALL NON-CODING RNAS THAT PLAY IMPORTANT ROLES IN THE EPIGENETIC REGULATION IN MANY NEUROLOGICAL DISORDERS; THE CRITICAL ROLES OF MIRNADEREGULATION HAD BEEN IMPLICATED IN BOTH AD AND VAD. IN THE CURRENT STUDY, WE REPORTED THAT MIR-9-5P IS ELEVATED IN THE SERUM AND CEREBROSPINALFLUID OF PATIENTSWITH VAD. THE MIR-9-5P WASALSO INCREASED IN BOTH THE HIPPOCAMPUS AND CORTEX OF RATS WITH 2-VESSEL OCCLUSIONSURGERY. FURTHERMORE, APPLICATION OFMIR-9-5P ANTAGOMIRS ATTENUATED THE MEMORY IMPAIRMENTS IN RATS WITH 2-VESSEL OCCLUSION SURGERY BOTH IN THE MORRIS WATER MAZE AND INHIBITORY AVOIDANCE STEP-DOWN TASKS. FURTHERMORE, MIR-9-5P ANTAGOMIRS REDUCEDTHE INHIBITION OFLONG-TERM POTENTIATION AND LOSS OF DENDRITIC SPINES IN CHRONIC CEREBRAL HYPOPERFUSIONRATS. ADDITIONALLY, THE CHOLINERGIC NEURONAL FUNCTION WAS RESCUED BY MIR-9-5P ANTAGOMIRS, AS WELL AS THE NEURONAL LOSS AND THE OXIDATIVE STRESS. WE CONCLUDED THAT MIR-9-5P INHIBITION MAY BE A POTENTIAL THERAPEUTIC TARGET FOR THE MEMORY IMPAIRMENTS CAUSED BY CHRONIC CEREBRAL HYPOPERFUSION. 2017 8 3655 29 INDOXYL SULFATE ENHANCE THE HYPERMETHYLATION OF KLOTHO AND PROMOTE THE PROCESS OF VASCULAR CALCIFICATION IN CHRONIC KIDNEY DISEASE. CHRONIC KIDNEY DISEASE (CKD) IS A STATE OF KLOTHO DEFICIENCY. THE KLOTHO EXPRESSION MAY BE SUPPRESSED DUE TO DNA HYPERMETHYLATION IN CANCER CELLS SO WE HAVE INVESTIGATED THE EFFECTS AND POSSIBLE MECHANISMS BY WHICH KLOTHO EXPRESSION IS REGULATED IN HUMAN AORTIC SMOOTH MUSCLE CELLS (HASMCS). THE VASCULAR KLOTHO HYPERMETHYLATION IN RADIAL ARTERIES OF PATIENTS WITH END-STAGE RENAL DISEASE WAS DESCRIBED. CULTURED HASMCS AND 5/6-NEPHRECTOMIZED SPRAGUE DAWLEY (SD) RATS TREATED WITH INDOXYL SULFATE (IS) WERE USED AS IN VITRO AND IN VIVO MODELS, RESPECTIVELY. IS INCREASED CPG HYPERMETHYLATION OF THE KLOTHO GENE AND DECREASED KLOTHO EXPRESSION IN HASMCS, AND POTENTIATED HASMCS CALCIFICATION. THE EXPRESSION OF DNA METHYLTRANSFERASE (DNMT) 1 AND 3A IN HASMCS TREATED WITH IS WAS SIGNIFICANTLY INCREASED AND SPECIFIC INHIBITION OF DNA METHYLTRANSFERASE 1 BY 5-AZA-2'-DEOXYCYTIDINE(5AZA-2DC) CAUSED DEMETHYLATION OF THE KLOTHO GENE AND INCREASED KLOTHO EXPRESSION. IN RATS, INJECTION OF IS POTENTIATED VASCULAR CALCIFICATION, INCREASED CPG HYPERMETHYLATION OF THE KLOTHO GENE AND DECREASED KLOTHO EXPRESSION IN THE AORTIC MEDIAL LAYER AND ALL OF THESE CHANGES COULD BE REVERTED BY 5AZA-2DC TREATMENT. TRANSCRIPTIONAL SUPPRESSION OF VASCULAR KLOTHO GENE EXPRESSION BY IS AND EPIGENETIC MODIFICATION OF KLOTHO BY IS MAY BE AN IMPORTANT PATHOLOGICAL MECHANISM OF VASCULAR CALCIFICATION IN CKD. 2016 9 5504 60 RHEIN REVERSAL OF DNA HYPERMETHYLATION-ASSOCIATED KLOTHO SUPPRESSION AMELIORATES RENAL FIBROSIS IN MICE. RENAL FIBROSIS IS THE HALLMARK OF CHRONIC KIDNEY DISEASES (CKD) AND ITS DEVELOPMENT AND PROGRESSION ARE SIGNIFICANTLY AFFECTED BY EPIGENETIC MODIFICATIONS. RHEIN, A PLANT-DERIVED ANTHRAQUINONE, DISPLAYS STRONG ANTI-FIBROSIS PROPERTIES, BUT ITS PROTECTIVE MODE OF ACTION REMAINS INCOMPLETELY UNDERSTOOD. HERE WE EXPLORE THE MECHANISM OF RHEIN ANTI-RENAL FIBROSIS BY INVESTIGATING ITS REGULATION OF KLOTHO, A KNOWN RENAL ANTI-FIBROTIC PROTEIN WHOSE SUPPRESSION AFTER RENAL INJURY REPORTEDLY INVOLVES ABERRANT DNA METHYLATION. WE REPORT THAT RHEIN IS AN IMPRESSIVE UP-REGULATOR OF KLOTHO AND IT MARKEDLY REVERSED KLOTHO DOWN-REGULATION IN UNILATERAL URETERAL OCCLUSION-INDUCED FIBROTIC KIDNEY. FURTHER EXAMINATIONS REVEALED THAT KLOTHO LOSS IN FIBROTIC KIDNEY IS ASSOCIATED WITH KLOTHO PROMOTER HYPERMETHYLATION DUE TO ABERRANT METHYLTRANSFERASE 1 AND 3A EXPRESSIONS. HOWEVER, RHEIN SIGNIFICANTLY CORRECTED ALL THESE EPIGENETIC ALTERATIONS AND SUBSEQUENTLY ALLEVIATED PRO-FIBROTIC PROTEIN EXPRESSION AND RENAL FIBROSIS, WHEREAS KLOTHO KNOCKDOWN VIA RNA INTERFERENCES LARGELY ABROGATED THE ANTI-RENAL FIBROTIC EFFECTS OF RHEIN, SUGGESTING THAT RHEIN EPIGENETIC REVERSAL OF KLOTHO LOSS REPRESENTS A CRITICAL MODE OF ACTION THAT CONFERS RHEIN'S ANTI- RENAL FIBROTIC FUNCTIONS. ALTOGETHER OUR STUDIES UNCOVER A NOVEL HYPOMETHYLATING CHARACTER OF RHEIN IN PREVENTING KLOTHO LOSS AND RENAL FIBROSIS, AND DEMONSTRATE THE EFFICACY OF KLOTHO-TARGETED EPIGENETIC INTERVENTION IN POTENTIAL TREATMENT OF RENAL FIBROSIS-ASSOCIATED KIDNEY DISEASES. 2016 10 6569 32 TRANSPLANTATION OF EPIGENETICALLY MODIFIED ADULT CARDIAC C-KIT+ CELLS RETARDS REMODELING AND IMPROVES CARDIAC FUNCTION IN ISCHEMIC HEART FAILURE MODEL. CARDIAC C-KIT+ CELLS HAVE A MODEST CARDIOGENIC POTENTIAL THAT COULD LIMIT THEIR EFFICACY IN HEART DISEASE TREATMENT. THE PRESENT STUDY WAS DESIGNED TO AUGMENT THE CARDIOGENIC POTENTIAL OF CARDIAC C-KIT+ CELLS THROUGH CLASS I HISTONE DEACETYLASE (HDAC) INHIBITION AND EVALUATE THEIR THERAPEUTIC POTENCY IN THE CHRONIC HEART FAILURE (CHF) ANIMAL MODEL. MYOCARDIAL INFARCTION (MI) WAS CREATED BY CORONARY ARTERY OCCLUSION IN RATS. C-KIT+ CELLS WERE TREATED WITH MOCETINOSTAT (MOCE), A SPECIFIC CLASS I HDAC INHIBITOR. AT 3 WEEKS AFTER MI, CHF ANIMALS WERE RETROGRADELY INFUSED WITH UNTREATED (CONTROL) OR MOCE-TREATED C-KIT+ CELLS (MOCE/C-KIT+ CELLS) AND EVALUATED AT 3 WEEKS AFTER CELL INFUSION. WE FOUND THAT CLASS I HDAC INHIBITION IN C-KIT+ CELLS ELEVATED THE LEVEL OF ACETYLATED HISTONE H3 (ACH3) AND INCREASED ACH3 LEVELS IN THE PROMOTER REGIONS OF PLURIPOTENT AND CARDIAC-SPECIFIC GENES. EPIGENETIC CHANGES WERE ACCOMPANIED BY INCREASED EXPRESSION OF CARDIAC-SPECIFIC MARKERS. TRANSPLANTATION OF CHF RATS WITH EITHER CONTROL OR MOCE/C-KIT+ CELLS RESULTED IN AN IMPROVEMENT IN CARDIAC FUNCTION, RETARDATION OF CHF REMODELING MADE EVIDENT BY INCREASED VASCULARIZATION AND SCAR SIZE, AND CARDIOMYOCYTE HYPERTROPHY REDUCTION. COMPARED WITH CHF INFUSED WITH CONTROL CELLS, INFUSION OF MOCE/C-KIT+ CELLS RESULTED IN A FURTHER REDUCTION IN LEFT VENTRICLE END-DIASTOLIC PRESSURE AND TOTAL COLLAGEN AND AN INCREASE IN INTERLEUKIN-6 EXPRESSION. THE LOW ENGRAFTMENT OF INFUSED CELLS SUGGESTS THAT PARACRINE EFFECTS MIGHT ACCOUNT FOR THE BENEFICIAL EFFECTS OF C-KIT+ CELLS IN CHF. IN CONCLUSION, SELECTIVE INHIBITION OF CLASS I HDACS INDUCED EXPRESSION OF CARDIAC MARKERS IN C-KIT+ CELLS AND PARTIALLY AUGMENTED THE EFFICACY OF THESE CELLS FOR CHF REPAIR. SIGNIFICANCE: THE STUDY HAS SHOWN THAT SELECTIVE CLASS 1 HISTONE DEACETYLASE INHIBITION IS SUFFICIENT TO REDIRECT C-KIT+ CELLS TOWARD A CARDIAC FATE. EPIGENETICALLY MODIFIED C-KIT+ CELLS IMPROVED CONTRACTILE FUNCTION AND RETARDED REMODELING OF THE CONGESTIVE HEART FAILURE HEART. THIS STUDY PROVIDES NEW INSIGHTS INTO THE EFFICACY OF CARDIAC C-KIT+ CELLS IN THE ISCHEMIC HEART FAILURE MODEL. 2015 11 6058 39 THE DEFICIENCY OF N6-METHYLADENOSINE DEMETHYLASE ALKBH5 ENHANCES THE NEURODEGENERATIVE DAMAGE INDUCED BY COBALT. COBALT EXPOSURE, EVEN AT LOW CONCENTRATIONS, INDUCES NEURODEGENERATIVE DAMAGE, SUCH AS ALZHEIMER'S DISEASE (AD). THE SPECIFIC UNDERLYING MECHANISMS REMAIN UNCLEAR. OUR PREVIOUS STUDY DEMONSTRATED THAT M(6)A METHYLATION ALTERATION IS INVOLVED IN COBALT-INDUCED NEURODEGENERATIVE DAMAGE, SUCH AS IN AD. HOWEVER, THE ROLE OF M(6)A RNA METHYLATION AND ITS UNDERLYING MECHANISMS ARE POORLY UNDERSTOOD. IN THIS STUDY, BOTH EPIDEMIOLOGICAL AND LABORATORY STUDIES SHOWED THAT COBALT EXPOSURE COULD DOWNREGULATE THE EXPRESSION OF THE M(6)A DEMETHYLASE ALKBH5, SUGGESTING A KEY ROLE FOR ALKBH5. MOREOVER, METHYLATED RNA IMMUNOPRECIPITATION AND SEQUENCING (MERIP-SEQ) ANALYSIS REVEALED THAT ALKBH5 DEFICIENCY IS ASSOCIATED WITH NEURODEGENERATIVE DISEASES. KEGG PATHWAY AND GENE ONTOLOGY ANALYSES FURTHER REVEALED THAT THE DIFFERENTIALLY M(6)A-MODIFIED GENES RESULTING FROM ALKBH5 DOWNREGULATION AND COBALT EXPOSURE WERE AGGREGATED IN THE PATHWAYS OF PROLIFERATION, APOPTOSIS, AND AUTOPHAGY. SUBSEQUENTLY, ALKBH5 DEFICIENCY WAS SHOWN TO EXACERBATE CELL VIABILITY DECLINE, MOTIVATE CELL APOPTOSIS AND ATTENUATE CELL AUTOPHAGY INDUCED BY COBALT WITH EXPERIMENTAL TECHNIQUES OF GENE OVEREXPRESSION/INHIBITION. IN ADDITION, MORPHOLOGICAL CHANGES IN NEURONS AND THE EXPRESSION OF AD-RELATED PROTEINS, SUCH AS APP, P-TAU, AND TAU, IN THE CEREBRAL HIPPOCAMPUS OF WILD-TYPE AND ALKBH5 KNOCKOUT MICE AFTER CHRONIC COBALT EXPOSURE WERE ALSO INVESTIGATED. BOTH IN VITRO AND IN VIVO RESULTS SHOWED THAT LOWER EXPRESSION OF ALKBH5 AGGRAVATED COBALT-INDUCED NEURODEGENERATIVE DAMAGE. THESE RESULTS SUGGEST THAT ALKBH5, AS AN EPIGENETIC REGULATOR, COULD BE A POTENTIAL TARGET FOR ALLEVIATING COBALT-INDUCED NEURODEGENERATIVE DAMAGE. IN ADDITION, WE PROPOSE A NOVEL STRATEGY FOR THE PREVENTION AND TREATMENT OF ENVIRONMENTAL TOXICANT-RELATED NEURODEGENERATION FROM AN EPIGENETIC PERSPECTIVE. 2023 12 1632 32 DNMTS ARE INVOLVED IN TGF-BETA1-INDUCED EPITHELIAL-MESENCHYMAL TRANSITIONS IN AIRWAY EPITHELIAL CELLS. CHRONIC RHINOSINUSITIS (CRS) PATHOGENESIS IS CLOSELY RELATED TO TISSUE REMODELING, INCLUDING EPITHELIAL-MESENCHYMAL TRANSITION (EMT). EPIGENETIC MECHANISMS PLAY KEY ROLES IN EMT. DNA METHYLATION, MEDIATED BY DNA METHYLTRANSFERASES (DNMTS), IS AN EPIGENETIC MARKER THAT IS CRITICAL TO EMT. THE GOAL OF THIS STUDY WAS TO DETERMINE WHETHER DNMTS WERE INVOLVED IN TGF-BETA1-INDUCED EMT AND ELUCIDATE THE UNDERLYING MECHANISMS IN NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. GLOBAL DNA METHYLATION AND DNMT ACTIVITY WERE QUANTIFIED. DNMT EXPRESSION WAS MEASURED USING REAL-TIME PCR (QRT-PCR) IN HUMAN CRS TISSUES. MRNA AND PROTEIN LEVELS OF DNMTS, E-CADHERIN, VIMENTIN, ALPHA-SMA, AND FIBRONECTIN WERE DETERMINED USING RT-PCR AND WESTERN BLOTTING, RESPECTIVELY. DNMT1, DNMT3A, AND DNMT3B GENE EXPRESSION WERE KNOCKED DOWN USING SIRNA TRANSFECTION. MAPK PHOSPHORYLATION AND EMT-RELATED TRANSCRIPTION FACTOR LEVELS WERE DETERMINED USING WESTERN BLOTTING. SIGNALING PATHWAYS WERE ANALYZED USING SPECIFIC INHIBITORS OF MAPK. WE DEMONSTRATED THESE DATA IN PRIMARY NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. GLOBAL DNA METHYLATION, DNMT ACTIVITY, AND DNMT EXPRESSION INCREASED IN CRS TISSUES. DNMT EXPRESSION WAS POSITIVELY CORRELATED WITH LUND-MCKAY CT SCORES. TGF-BETA1 DOSE-DEPENDENTLY INDUCED DNMT EXPRESSION. FURTHER, 5-AZA INHIBITED TGF-BETA1-INDUCED DNMT, SNAIL, AND SLUG EXPRESSION RELATED TO EMT, AS WELL AS P38 AND JNK PHOSPHORYLATION IN A549 CELLS AND TGF-BETA1-INDUCED DNMT EXPRESSION AND EMT IN PRIMARY NASAL EPITHELIAL CELLS AND AIR-LIQUID INTERFACE CULTURES. TGF-BETA1-INDUCED DNMT EXPRESSION LEADS TO DNA METHYLATION AND EMT VIA P38, JNK, SNAIL, AND SLUG SIGNALING PATHWAYS. INHIBITION OF DNMT SUPPRESSED THE EMT PROCESS AND THEREFORE IS POTENTIALLY A CRS THERAPEUTIC STRATEGY. 2022 13 3887 23 KLOTHO METHYLATION IS LINKED TO UREMIC TOXINS AND CHRONIC KIDNEY DISEASE. EPIGENETIC REGULATION PLAYS A MAJOR ROLE IN UREMIC TOXIN-INDUCED CHRONIC KIDNEY DISEASE (CKD) PROGRESSION. THE KLOTHO PROTEIN IS A KEY MODULATOR OF HOMEOSTASIS IN RENAL FUNCTION. UREMIC TOXIN ACCUMULATION CAN INDUCE DNA METHYLTRANSFERASE (DNMT) PROTEIN EXPRESSION, WHICH IS INVOLVED IN THE SILENCING OF KLOTHO THROUGH HYPERMETHYLATION. TREATMENT WITH DNMT INHIBITORS CAN INDUCE A HYPERMETHYLATED STATUS OF KLOTHO AND SUPPRESS MRNA AND PROTEIN EXPRESSION. EPIGENETIC TARGETING OF SPECIFIC GENES MAY BECOME AN EFFECTIVE STRATEGY TO PREVENT PROGRESSION OF UREMIA-RELATED CKD. 2012 14 6665 34 UPSTREAM AND DOWNSTREAM REGULATORS OF KLOTHO EXPRESSION IN CHRONIC KIDNEY DISEASE. KLOTHO IS A CRITICAL PROTEIN THAT PROTECTS THE KIDNEY. KLOTHO IS SEVERELY DOWNREGULATED IN CHRONIC KIDNEY DISEASE (CKD), AND ITS DEFICIENCY IS IMPLICATED IN THE PATHOGENESIS AND PROGRESSION OF CKD. CONVERSELY, AN INCREASE IN KLOTHO LEVELS RESULTS IN IMPROVED KIDNEY FUNCTION AND DELAYS CKD PROGRESSION, SUPPORTING THE NOTION THAT MODULATING KLOTHO LEVELS COULD REPRESENT A POSSIBLE THERAPEUTIC STRATEGY FOR CKD TREATMENT. NEVERTHELESS, THE REGULATORY MECHANISMS RESPONSIBLE FOR THE LOSS OF KLOTHO REMAIN ELUSIVE. PREVIOUS STUDIES HAVE DEMONSTRATED THAT OXIDATIVE STRESS, INFLAMMATION, AND EPIGENETIC MODIFICATIONS CAN MODULATE KLOTHO LEVELS. THESE MECHANISMS RESULT IN A DECREASE IN KLOTHO MRNA TRANSCRIPT LEVELS AND REDUCED TRANSLATION, THUS CAN BE GROUPED TOGETHER AS UPSTREAM REGULATORY MECHANISMS. HOWEVER, THERAPEUTIC STRATEGIES THAT AIM TO RESCUE KLOTHO LEVELS BY TARGETING THESE UPSTREAM MECHANISMS DO NOT ALWAYS RESULT IN INCREASED KLOTHO, INDICATING THE INVOLVEMENT OF OTHER REGULATORY MECHANISMS. EMERGING EVIDENCE HAS SHOWN THAT ENDOPLASMIC RETICULUM (ER) STRESS, THE UNFOLDED PROTEIN RESPONSE, AND ER-ASSOCIATED DEGRADATION ALSO AFFECT THE MODIFICATION, TRANSLOCATION, AND DEGRADATION OF KLOTHO, AND THUS ARE PROPOSED TO BE DOWNSTREAM REGULATORY MECHANISMS. HERE, WE DISCUSS THE CURRENT UNDERSTANDING OF UPSTREAM AND DOWNSTREAM REGULATORY MECHANISMS OF KLOTHO AND EXAMINE POTENTIAL THERAPEUTIC STRATEGIES TO UPREGULATE KLOTHO EXPRESSION FOR CKD TREATMENT. 2023 15 2385 31 EPIGENETIC REGULATORS OF THE REVASCULARIZATION RESPONSE TO CHRONIC ARTERIAL OCCLUSION. PERIPHERAL ARTERIAL DISEASE (PAD) IS THE LEADING CAUSE OF LOWER LIMB AMPUTATION AND ESTIMATED TO AFFECT OVER 202 MILLION PEOPLE WORLDWIDE. PAD IS CAUSED BY ATHEROSCLEROTIC LESIONS THAT OCCLUDE LARGE ARTERIES IN THE LOWER LIMBS, LEADING TO INSUFFICIENT BLOOD PERFUSION OF DISTAL TISSUES. GIVEN THE SEVERITY OF THIS CLINICAL PROBLEM, THERE HAS BEEN LONG-STANDING INTEREST IN BOTH UNDERSTANDING HOW CHRONIC ARTERIAL OCCLUSIONS AFFECT MUSCLE TISSUE AND VASCULATURE AND IDENTIFYING THERAPEUTIC APPROACHES CAPABLE OF RESTORING TISSUE COMPOSITION AND VASCULAR FUNCTION TO A HEALTHY STATE. TO DATE, THE MOST WIDELY UTILIZED ANIMAL MODEL FOR PERFORMING SUCH STUDIES HAS BEEN THE ISCHAEMIC MOUSE HINDLIMB. DESPITE NOT BEING A MODEL OF PAD PER SE, THE ISCHAEMIC HINDLIMB MODEL DOES RECAPITULATE SEVERAL KEY ASPECTS OF PAD. FURTHER, IT HAS SERVED AS A VALUABLE PLATFORM UPON WHICH WE HAVE BUILT MUCH OF OUR UNDERSTANDING OF HOW CHRONIC ARTERIAL OCCLUSIONS AFFECT MUSCLE TISSUE COMPOSITION, MUSCLE REGENERATION AND ANGIOGENESIS, AND COLLATERAL ARTERIOGENESIS. RECENTLY, THERE HAS BEEN A GLOBAL SURGE IN RESEARCH AIMED AT UNDERSTANDING HOW GENE EXPRESSION IS REGULATED BY EPIGENETIC FACTORS (I.E. NON-CODING RNAS, HISTONE POST-TRANSLATIONAL MODIFICATIONS, AND DNA METHYLATION). THUS, PERHAPS NOT UNEXPECTEDLY, MANY RECENT STUDIES HAVE IDENTIFIED ESSENTIAL ROLES FOR EPIGENETIC FACTORS IN REGULATING KEY RESPONSES TO CHRONIC ARTERIAL OCCLUSION(S). IN THIS REVIEW, WE SUMMARIZE THE MECHANISMS OF ACTION OF THESE EPIGENETIC REGULATORS AND HIGHLIGHT SEVERAL RECENT STUDIES INVESTIGATING THE ROLE OF SAID REGULATORS IN THE CONTEXT OF HINDLIMB ISCHAEMIA. IN ADDITION, WE FOCUS ON HOW THESE RECENT ADVANCES IN OUR UNDERSTANDING OF THE ROLE OF EPIGENETICS IN REGULATING RESPONSES TO CHRONIC ARTERIAL OCCLUSION(S) CAN INFORM FUTURE THERAPEUTIC APPLICATIONS TO PROMOTE REVASCULARIZATION AND PERFUSION RECOVERY IN THE SETTING OF PAD. 2019 16 2001 29 EPIGENETIC AND NON-EPIGENETIC REGULATION OF KLOTHO IN KIDNEY DISEASE. KLOTHO IS A NOVEL RENOPROTECTIVE ANTI-AGING PROTEIN AVAILABLE IN MEMBRANE-BOUND OR SOLUBLE FORM. KLOTHO IS EXPRESSED IN BRAIN, PANCREAS, AND OTHER SOLID ORGANS BUT SHOWS HIGHEST EXPRESSION LEVELS IN THE KIDNEY. KLOTHO SUSTAINS NORMAL KIDNEY PHYSIOLOGY BUT KLOTHO REGULATION ALSO CONTRIBUTES TO THE PROGRESSION OF KIDNEY DISEASE. SYSTEMIC AND INTRARENAL LEVELS OF KLOTHO FALL DRASTICALLY DURING ACUTE KIDNEY INJURY, KIDNEY FIBROSIS, DIABETIC NEPHROPATHY, AND OTHER FORMS OF CHRONIC KIDNEY DISEASE, ETC. MOREOVER, EXOGENOUS SUPPLEMENTATION OR OVEREXPRESSION OF ENDOGENOUS KLOTHO ATTENUATES KIDNEY DISEASE. THE REGULATION OF ENDOGENOUS KLOTHO EXPRESSION INVOLVES EPIGENETIC AS WELL AS NON-EPIGENETIC MECHANISMS. THE EPIGENETIC MODIFICATIONS SUCH AS DNA METHYLATION, POST-TRANSLATIONAL HISTONE MODIFICATIONS, MIRNAS REGULATE THE CHANGE IN KLOTHO EXPRESSION IN KIDNEY DISEASE. NON-EPIGENETIC MECHANISMS SUCH AS ER STRESS, WNT SIGNALING, ACTIVATION OF THE RENIN ANGIOTENSIN SYSTEM (RAS), EXCESSIVE REACTIVE OXYGEN SPECIES AND CYTOKINE GENERATION, ALBUMIN OVERLOAD, AND PPAR-GAMMA SIGNALING ALSO CONTRIBUTE TO KLOTHO REGULATION. EVOLVING EVIDENCE HIGHLIGHT THE CAPACITY OF NATURAL PRODUCTS TO REGULATE KLOTHO EXPRESSION IN KIDNEY DISEASE. ALL THESE PRECLINICAL DATA SUGGEST THAT KLOTHO COULD BE A NOVEL BIOMARKER AS WELL AS THERAPEUTIC TARGET. HERE WE REVIEW THE DIFFERENT MECHANISMS OF KLOTHO REGULATION IN THE CONTEXT OF KLOTHO AS A BIOMARKER AND POTENTIAL THERAPEUTIC AGENT. 2021 17 2197 25 EPIGENETIC MODIFICATION OF BDNF MEDIATES NEUROPATHIC PAIN VIA MIR-30A-3P/EP300 AXIS IN CCI RATS. RECENT INVESTIGATION OF MICRORNAS ON CHRONIC PAIN HAS DEVELOPED A BREAKTHROUGH IN NEUROPATHIC PAIN MANAGEMENT. IN THE PRESENT STUDY, DECREASED EXPRESSION OF MIR-30A-3P WAS REPORTED USING QRT-PCR ANALYSIS AND LOSS OF MIR-30A-3P PROMOTED NEUROPATHIC PAIN PROGRESSION IN SCIATIC NERVE CHRONIC CONSTRICTIVE INJURY RATS THROUGH DETERMINING THE PAIN THRESHOLD. WE PREDICTED MIR-30A-3P COULD TARGET E-CADHERIN TRANSCRIPTIONAL ACTIVATOR (EP300) VIA BIOINFORMATICS ANALYSIS. MEANWHILE, WE FOUND THAT BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) IS INVOLVED IN NEUROPATHIC PAIN. HERE, WE EXHIBITED THAT EP300 EPIGENETICALLY UP-REGULATED BDNF VIA ENHANCING ACETYLATED HISTONE H3 AND H4 ON THE PROMOTER. FOR ANOTHER, MIR-30A-3P WAS ABLE TO MODIFY THE LEVEL OF BDNF AND ACETYLATED HISTONE H3 AND H4. LOSS OF MIR-30A-3P ENHANCED EP300 AND BDNF COLOCALIZATION IN CCI RATS. SUBSEQUENTLY, IT WAS SHOWN THAT INCREASED EP300 INDUCED NEUROPATHIC PAIN BY AN ENHANCEMENT OF NEURONAL BDNF LEVEL IN VIVO. TO SUM UP, IT WAS REVEALED THAT EPIGENETIC MODIFICATION OF BDNF PROMOTED NEUROPATHIC PAIN VIA EP300 INDUCED BY MIR-30A-3P IN CCI RATS. 2020 18 2417 27 EPIGENETIC SIGNATURE OF CHRONIC CEREBRAL HYPOPERFUSION AND BENEFICIAL EFFECTS OF S-ADENOSYLMETHIONINE IN RATS. CHRONIC CEREBRAL HYPOPERFUSION IS ASSOCIATED WITH COGNITIVE DECLINE IN AGING AND AGE-RELATED NEURODEGENERATIVE DISEASE. EPIGENETIC MECHANISMS ARE INVOLVED IN THE MAINTENANCE OF LONG-TERM HYPOXIA-ADAPTED CELLULAR PHENOTYPES. IN THE PRESENT STUDY, THE EPIGENETIC SIGNATURES SUCH AS DNA METHYLATION AND HISTONE ACETYLATION, AS WELL AS S-ADENOSYLMETHIONINE (SAM) CYCLE USING CHRONIC CEREBRAL HYPOPERFUSION RAT MODEL WERE EXPLORED. CHRONIC CEREBRAL HYPOXIA-INDUCED GLOBAL DNA HYPERMETHYLATION ASSOCIATED WITH THE INCREASE OF DNA METHYLTRANSFERASE (DNMT) 3A AS WELL AS ALTERATION OF SAM CYCLE. MEANWHILE, AN ENHANCED LEVEL OF GLOBAL HISTONE H4 ACETYLATION ACCOMPANIED WITH THE UPREGULATION OF HISTONE ACETYLTRANSFERASE, P300/CREB-BINDING PROTEIN (CBP), AND THE DOWNREGULATION OF HISTONE DEACETYLASES (HDACS), WAS ALSO OBSERVED. SAM COULD IMPROVE SPATIAL CAPACITY THROUGH THE UPREGULATION OF ACETYLCHOLINE AND BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF) RATHER THAN ALTERATION OF DNA METHYLATION LEVELS. IN CONCLUSION, WE HAVE DEMONSTRATED A GENOME-WIDE ADJUSTMENT OF DNA METHYLATION AND HISTONE ACETYLATION UNDER CHRONIC CEREBRAL HYPOXIC CONDITIONS IN A RAT'S BRAIN. THESE EPIGENETIC SIGNATURES MAY REPRESENT AN ADDITIONAL MECHANISM TO PROMOTE AND MAINTAIN A HYPOXIC-ADAPTED CELLULAR RESPONDS WITH A POTENTIAL ROLE IN MEMORY DEFICITS. 2014 19 1907 38 ENRICHED ENVIRONMENT PRIORS TO TET1 HIPPOCAMPAL ADMINISTRATION FOR REGULATING PSYCHIATRIC BEHAVIORS VIA GLIAL REACTIVITY IN CHRONIC CEREBRAL HYPOPERFUSION MODELS. BACKGROUND: CHRONIC CEREBRAL HYPOPERFUSION (CCH) HAS BEEN GRADUALLY REGARDED AS A COMMON ETIOLOGIC MECHANISM FOR COGNITIVE AND PSYCHIATRIC DISTURBANCES. TEN-ELEVEN TRANSLOCATION METHYLCYTOSINE DIOXYGENASE 1 (TET1) PLAYED AN IMPORTANT ROLE IN ADULT HIPPOCAMPAL NEUROGENESIS (AHN), NEURONAL CIRCUITS FORMATION, COGNITION AND PSYCHIATRIC DISORDERS. ENRICHED ENVIRONMENT (EE) SHOWED A BENEFICIAL EFFECT ON COGNITION AND DEPRESSION VIA EFFECTIVELY REGULATING AHN AND GLIAL REACTIVITY. THIS STUDY AIMED TO ASSESS WHICH STRATEGY WAS FEASIBLE TO IMPROVE COGNITION AND PSYCHIATRIC DISTURBANCES BY COMPARING THE TET1 HIPPOCAMPAL MICROINJECTION AND EE IN CCH MODELS AND TO INVESTIGATE THE POSSIBLE MECHANISMS. METHOD: CCH RATS WERE ESTABLISHED VIA PERMANENT BILATERAL COMMON CAROTID ARTERY OCCLUSION (2-VO). RATS WERE STEREOTAXICALLY INJECTED WITH THE HUMAN CATALYTIC DOMAIN OF TET1 (HTET1) TO OVEREXPRESS THE HTET1 IN THE HIPPOCAMPUS 10 DAYS BEFORE 2-VO. 3 DAYS AFTER 2-VO, RATS WERE SUBJECTED TO STANDARD ENVIRONMENT OR EE WITH FREE ACCESS TO FOOD AND WATER. BEHAVIORAL TESTS WERE USED TO APPRAISE DEPRESSION AND COGNITION BEFORE SACRIFICE. EPIGENETIC MOLECULES, ADULT NEUROGENESIS, SYNAPTIC PROTEINS EXPRESSION, AND GLIAL ACTIVATION WERE ANALYZED USING IMMUNOFLUORESCENT STAINING, QRT-PCR AND WESTERN BLOT. RESULTS: IN THE PRESENT STUDY, WE FOUND BOTH EE AND GENETICAL TREATMENT WITH OVEREXPRESSING HTET1 WERE SUFFICIENT FOR STIMULATING AHN. HOWEVER, PROMOTING ANH COULD NOT DEAL WITH THE COGNITIVE DYSFUNCTION AND DEPRESSIVE-LIKE BEHAVIORS IN CCH RATS. NOTABLY, A HEALTHY LOCAL BRAIN ENVIRONMENT WITH ELEVATED BDNF AND ASTROCYTES WAS CONDUCIVE TO IMPROVING COGNITIVE DYSFUNCTION. MEANWHILE, ASTROCYTES WERE INVOLVED IN THE COGNITIVE REGULATING PROCESS OF NEURONS, PRESYNAPTIC FUNCTION AND MICROGLIA. IN GENERAL, WE HELD THAT DEPRESSIVE DISTURBANCES WERE DETERMINED BY BDNF LEVELS, NEURONAL AND PRESYNAPTIC FUNCTION, AS WELL AS GLIAL ACTIVATION CONTAINING ASTROCYTES AND MICROGLIA. TO FURTHER SUPPORT THIS POINT, WE INVESTIGATED SEVERE DEPRESSIVE SYMPTOMS THAT WERE STRONGLY CORRELATED WITH THE ACTIVATION OF ASTROGLIA AND MICROGLIA. IMPORTANTLY, CAUSAL MEDIATION ANALYSIS SHOWED SIGNIFICANT MEDIATION BY THE PRESENCE OF REACTIVE GLIAL CELLS IN THE RELATION BETWEEN NEURAL PLASTICITY AND DEPRESSIVE SYMPTOMS. FINALLY, WE SHOWED EE PERFORMED BETTER THAN HTET1 TREATMENT FOR COGNITIVE DEFICITS AND DEPRESSION. EE WITH LESS GLIAL REACTIVITY WAS MUCH MORE RESISTANT TO DEPRESSION, WHILE HTET1 WITH MORE GLIAL ACTIVATION WAS MORE VULNERABLE TO DEPRESSIVE DISORDERS. CONCLUSIONS: EE WAS LIKELY TO BE SUPERIOR TO TET1 HIPPOCAMPAL ADMINISTRATION FOR COGNITION AND PSYCHIATRIC BEHAVIORS IN CCH RATS. FURTHERMORE, A HEALTHY LOCAL BRAIN ENVIRONMENT WITH ELEVATED BDNF AND ASTROCYTES WAS CONDUCIVE TO IMPROVING COGNITIVE DYSFUNCTION. MORE GLIAL ACTIVATION, AND MORE VULNERABLE TO DEPRESSIVE DISORDERS. THESE RESULTS WERE IMPORTANT FOR OUR UNDERSTANDING OF DISEASE MECHANISMS AND PROVIDED VALUABLE TOOLS FOR THE OVERALL MANAGEMENT OF CCH PATIENTS. 2022 20 364 30 AMELIORATION OF UREMIC TOXIN INDOXYL SULFATE-INDUCED OSTEOBLASTIC CALCIFICATION BY SET DOMAIN CONTAINING LYSINE METHYLTRANSFERASE 7/9 PROTEIN. BACKGROUND: VASCULAR CALCIFICATION (VC) IS A VERY COMMON PHENOMENON IN PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD). IT HAS BEEN REPORTED THAT SOME HISTONE METHYLATION PLAY A ROLE IN VC AS AN EPIGENETIC REGULATOR. INDOXYL SULFATE (IS) IS A PROTEIN-BOUND UREMIC TOXIN THAT HAS BEEN PROVEN AS ONE OF THE MAJOR RISK FACTORS OF CARDIOVASCULAR DISEASE IN CKD. SET DOMAIN CONTAINING LYSINE METHYLTRANSFERASE 7/9 (SET7/9) IS ONE OF THE IMPORTANT HISTONE METHYLTRANSFERASES. OBJECTIVES: THIS STUDY AIMED TO DETERMINE THE EFFECT OF IS ON THE EXPRESSION OF SET7/9 AND THE ROLE OF SET7/9 IN IS-INDUCED OSTEOBLASTIC DIFFERENTIATION AND CALCIFICATION OF VASCULAR SMOOTH MUSCLE CELLS (VSMCS). METHODS: VSMCS WERE INCUBATED WITH VARIOUS CONCENTRATIONS OF IS FOR DIFFERENT DURATIONS TO ASSESS OSTEOBLASTIC DIFFERENTIATION AND EXPRESSION OF SET7/9. WESTERN BLOT ANALYSIS AND QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION WERE PERFORMED TO ASSESS THE PROTEIN AND MRNA LEVELS OF SET7/9 RESPECTIVELY. THE CALCIUM CONTENT WAS MEASURED TO EVALUATE CALCIFICATION. RESULTS: OSTEOBLASTIC DIFFERENTIATION AND CALCIFICATION OF VSMCS AND DOWNREGULATION OF THE EXPRESSION OF SET7/9 WERE OBSERVED AFTER IS TREATMENT. THE AUTOPHAGY WAS ACTIVATED AFTER TREATMENT WITH IS, WHEREAS THE INHIBITION OF THE AUTOPHAGY PARTIALLY ATTENUATED THE EFFECT OF IS ON BOTH THE STIMULATION OF THE EXPRESSION OF RUNT-RELATED TRANSCRIPTION FACTOR 2 AND CALCIUM DEPOSITION. CONCLUSIONS: OUR DATA DEMONSTRATED THAT SET7/9 DOWNREGULATION AND AUTOPHAGY ACTIVATION MAY BE THE KEY MECHANISM OF IS-INDUCED VC IN CKD. 2019