1 216 147 ACUTE BETA-ADRENERGIC ACTIVATION TRIGGERS NUCLEAR IMPORT OF HISTONE DEACETYLASE 5 AND DELAYS G(Q)-INDUCED TRANSCRIPTIONAL ACTIVATION. DURING HEMODYNAMIC STRESS, CATECHOLAMINES AND NEUROHUMORAL STIMULI MAY INDUCE CO-ACTIVATION OF G(Q)-COUPLED RECEPTORS AND BETA-ADRENERGIC RECEPTORS (BETA-AR), LEADING TO CARDIAC REMODELING. DYNAMIC REGULATION OF HISTONE DEACETYLASE 5 (HDAC5), A TRANSCRIPTIONAL REPRESSOR, IS CRUCIAL DURING STRESS SIGNALING DUE TO ITS ROLE IN EPIGENETIC CONTROL OF FETAL GENE MARKERS. LITTLE IS KNOWN ABOUT ITS REGULATION DURING ACUTE AND CHRONIC BETA-AR STIMULATION AND ITS CROSS-INTERACTION WITH G(Q) SIGNALING IN ADULT CARDIAC MYOCYTES. HERE, WE EVALUATE THE POTENTIAL CROSS-TALK BETWEEN G(Q)-DRIVEN AND BETA-AR MEDIATED SIGNALING AT THE LEVEL OF NUCLEOCYTOPLASMIC SHUTTLING OF HDAC5. WE SHOW THE TRANSLOCATION OF GFP-TAGGED WILD TYPE HDAC5 OR MUTANTS (S279A AND S279D) IN RESPONSE TO BETA-AR OR G(Q) AGONISTS. ISOPROTERENOL (ISO) OR PKA ACTIVATION RESULTS IN STRONG NUCLEAR ACCUMULATION OF HDAC5 IN CONTRAST TO NUCLEAR EXPORT DRIVEN BY CA(2+)-CALMODULIN PROTEIN KINASE II AND PROTEIN KINASE D. MOREOVER, NUCLEAR ACCUMULATION OF HDAC5 UNDER ACUTE ISO/PKA SIGNALING IS DEPENDENT ON PHOSPHORYLATION OF SER-279 AND CAN BLOCK SUBSEQUENT G(Q)-MEDIATED NUCLEAR HDAC5 EXPORT. INTRIGUINGLY, THE ATTENUATION OF G(Q)-INDUCED EXPORT IS ABOLISHED AFTER CHRONIC PKA ACTIVATION, YET NUCLEAR HDAC5 REMAINS ELEVATED. LAST, THE EFFECT OF CHRONIC BETA-AR SIGNALING ON HDAC5 TRANSLOCATION WAS EXAMINED IN ADULT MYOCYTES FROM A RABBIT MODEL OF HEART FAILURE, WHERE ISO-INDUCED NUCLEAR IMPORT IS ABLATED, BUT G(Q)-AGONIST MEDIATED EXPORT IS PRESERVED. ACUTE BETA-AR/PKA ACTIVATION PROTECTS AGAINST HYPERTROPHIC SIGNALING BY DELAYING G(Q)-MEDIATED TRANSCRIPTIONAL ACTIVATION. THIS SERVES AS A KEY PHYSIOLOGICAL CONTROL SWITCH BEFORE ALLOWING GENETIC REPROGRAMMING VIA HDAC5 NUCLEAR EXPORT DURING MORE SEVERE STRESS, SUCH AS HEART FAILURE. 2013 2 35 26 A CHROMATIN ACTIVITY-BASED CHEMOPROTEOMIC APPROACH REVEALS A TRANSCRIPTIONAL REPRESSOME FOR GENE-SPECIFIC SILENCING. IMMUNE CELLS DEVELOP ENDOTOXIN TOLERANCE (ET) AFTER PROLONGED STIMULATION. ET INCREASES THE LEVEL OF A REPRESSION MARK H3K9ME2 IN THE TRANSCRIPTIONALLY SILENT CHROMATIN SPECIFICALLY ASSOCIATED WITH PRO-INFLAMMATORY GENES. HOWEVER, IT IS NOT CLEAR WHAT PROTEINS ARE FUNCTIONALLY INVOLVED IN THIS PROCESS. HERE WE SHOW THAT A NOVEL CHROMATIN ACTIVITY-BASED CHEMOPROTEOMIC (CHAC) APPROACH CAN DISSECT THE FUNCTIONAL CHROMATIN PROTEIN COMPLEXES THAT REGULATE ET-ASSOCIATED INFLAMMATION. USING UNC0638 THAT BINDS THE ENZYMATICALLY ACTIVE H3K9-SPECIFIC METHYLTRANSFERASE G9A/GLP, CHAC REVEALS THAT G9A IS CONSTITUTIVELY ACTIVE AT A G9A-DEPENDENT MEGA-DALTON REPRESSOME IN PRIMARY ENDOTOXIN-TOLERANT MACROPHAGES. G9A/GLP BROADLY IMPACTS THE ET-SPECIFIC REPROGRAMMING OF THE HISTONE CODE LANDSCAPE, CHROMATIN REMODELLING AND THE ACTIVITIES OF SELECT TRANSCRIPTION FACTORS. WE DISCOVER THAT THE G9A-DEPENDENT EPIGENETIC ENVIRONMENT PROMOTES THE TRANSCRIPTIONAL REPRESSION ACTIVITY OF C-MYC FOR GENE-SPECIFIC CO-REGULATION OF CHRONIC INFLAMMATION. CHAC MAY ALSO BE APPLICABLE TO DISSECT OTHER FUNCTIONAL PROTEIN COMPLEXES IN THE CONTEXT OF PHENOTYPIC CHROMATIN ARCHITECTURES. 2014 3 1016 30 CIITA EXPRESSION IS REGULATED BY HISTONE DEACETYLASE ENZYMES AND HAS A ROLE IN ALPHA-SYNUCLEIN PRE-FORMED FIBRIL-INDUCED ANTIGEN PRESENTATION IN MURINE MICROGLIAL CELL LINE. AIM: PARKINSON'S DISEASE (PD) IS A CHRONIC NEURODEGENERATIVE DISORDER RELATED WITH SEVERAL GENETIC AND EPIGENETIC FACTORS. IN THE CONTEXT OF EPIGENETIC FACTORS, HISTONE ACETYLATION IS ONE OF THE MOST ASSOCIATED MECHANISMS WITH PARKINSON'S DISEASE PROGRESSION. THIS STUDY INVESTIGATES THE EFFECTS OF THE INCREASED HISTONE ACETYLATION ON ANTIGEN PRESENTATION IN MICROGLIAL CELLS WHICH WERE INDUCED BY PRE-FORMED FIBRILS OF ALPHA-SYNUCLEIN (PFF ALPHA-SYNUCLEIN). METHODS: PARKINSON'S DISEASE MODEL WAS CREATED WITH PFF ALPHA-SYNUCLEIN ADMINISTRATION TO THE BV-2 MICROGLIAL CELLS. BV-2 CELLS WERE CO-TREATED WITH CUDC-907 AND TMP-195 TO INCREASE HISTONE ACETYLATION IN THE PRESENCE OF ALPHA-SYNUCLEIN. ANTIGEN REPRESENTATION WAS EVALUATED BY DETERMINING EXPRESSION LEVELS OF MAJOR HISTOCOMPATIBILITY COMPLEX-II (MHC-II) AND CLASS-II MAJOR HISTOCOMPATIBILITY COMPLEX (CIITA). RESULTS: OUR RESULTS SHOWED THAT PFF ALPHA-SYNUCLEIN SIGNIFICANTLY INCREASED MHC-II EXPRESSION, AND THAT EFFECT WAS MOST SEVERE AT 6 H OF ADMINISTRATION OF ALPHA-SYNUCLEIN. INCREASING HISTONE ACETYLATION VIA CUDC-907 AND TMP-195 ENHANCED MHC-II LEVELS EXPRESSION, WHICH WAS MORE SEVERE IN CUDC-907. ADDITIONALLY, CIITA EXPRESSION LEVELS WERE SIGNIFICANTLY INCREASED WITH PFF ALPHA-SYNUCLEIN ADMINISTRATION AND INTENSIFIED WITH THE CO-TREATMENT OF CUDC-907 AND TMP-195. FURTHERMORE, PFF ALPHA-SYNUCLEIN CAUSED A TIME-DEPENDENT INCREASE IN THE IFN-GAMMA (IFN-?) AND INTERLEUKIN-16(IL-16) LEVELS, AND THAT INCREASE WAS POTENTIATED WITH CUDC-907 AND TMP-195. CONCLUSION: CHANGES IN MHC-II AND CIITA EXPRESSION INDICATE THAT HISTONE ACETYLATION INCREASES THE ANTIGEN PRESENTATION PROPERTIES OF MICROGLIAL CELLS AFTER PFF ALPHA-SYNUCLEIN OR HISTONE DEACETYLASE INHIBITOR (HDACI) ADMINISTRATION. OUR RESULTS SHOW THAT MICROGLIAL ANTIGEN PRESENTATION MIGHT HAVE AN ESSENTIAL ROLE IN THE PATHOLOGY OF PARKINSON'S DISEASE, AND ALPHA-SYNUCLEIN LIKELY TO PLAY A PRIMARY ROLE IN THIS MECHANISM. 2022 4 2080 28 EPIGENETIC DNA METHYLATION OF EBI3 MODULATES HUMAN INTERLEUKIN-35 FORMATION VIA NFKB SIGNALING: A PROMISING THERAPEUTIC OPTION IN ULCERATIVE COLITIS. ULCERATIVE COLITIS (UC), A SEVERE CHRONIC DISEASE WITH UNCLEAR ETIOLOGY THAT IS ASSOCIATED WITH INCREASED RISK FOR COLORECTAL CANCER, IS ACCOMPANIED BY DYSREGULATION OF CYTOKINES. EPSTEIN-BARR VIRUS-INDUCED GENE 3 (EBI3) ENCODES A SUBUNIT IN THE UNIQUE HETERODIMERIC IL-12 CYTOKINE FAMILY OF EITHER PRO- OR ANTI-INFLAMMATORY FUNCTION. AFTER HAVING RECENTLY DEMONSTRATED THAT UPREGULATION OF EBI3 BY HISTONE ACETYLATION ALLEVIATES DISEASE SYMPTOMS IN A DEXTRAN SULFATE SODIUM (DSS)-TREATED MOUSE MODEL OF CHRONIC COLITIS, WE NOW AIMED TO EXAMINE A POSSIBLE FURTHER EPIGENETIC REGULATION OF EBI3 BY DNA METHYLATION UNDER INFLAMMATORY CONDITIONS. TREATMENT WITH THE DNA METHYLTRANSFERASE INHIBITOR (DNMTI) DECITABINE (DAC) AND TNFALPHA LED TO SYNERGISTIC UPREGULATION OF EBI3 IN HUMAN COLON EPITHELIAL CELLS (HCEC). USE OF DIFFERENT SIGNALING PATHWAY INHIBITORS INDICATED NFKAPPAB SIGNALING WAS NECESSARY AND PROPORTIONAL TO THE SYNERGISTIC EBI3 INDUCTION. MALDI-TOF/MS AND HPLC-ESI-MS/MS ANALYSIS OF DAC/TNFALPHA-TREATED HCEC IDENTIFIED IL-12P35 AS THE MOST PROBABLE BINDING PARTNER TO FORM A FUNCTIONAL PROTEIN. EBI3/IL-12P35 HETERODIMERS (IL-35) INDUCE THEIR OWN GENE UPREGULATION, SOMETHING THAT WAS INDEED OBSERVED IN HCEC CULTURED WITH MEDIA FROM PREVIOUSLY DAC/TNFALPHA-TREATED HCEC. THESE RESULTS SUGGEST THAT UNDER INFLAMMATORY AND DEMETHYLATING CONDITIONS THE UPREGULATION OF EBI3 RESULTS IN THE FORMATION OF ANTI-INFLAMMATORY IL-35, WHICH MIGHT BE CONSIDERED AS A THERAPEUTIC TARGET IN COLITIS. 2021 5 5601 30 RORALPHA IS CRUCIAL FOR ATTENUATED INFLAMMATORY RESPONSE TO MAINTAIN INTESTINAL HOMEOSTASIS. RETINOIC ACID-RELATED ORPHAN RECEPTOR ALPHA (RORALPHA) FUNCTIONS AS A TRANSCRIPTION FACTOR FOR VARIOUS BIOLOGICAL PROCESSES, INCLUDING CIRCADIAN RHYTHM, CANCER, AND METABOLISM. HERE, WE GENERATE INTESTINAL EPITHELIAL CELL (IEC)-SPECIFIC RORALPHA-DEFICIENT (RORALPHA(DELTAIEC)) MICE AND FIND THAT RORALPHA IS CRUCIAL FOR MAINTAINING INTESTINAL HOMEOSTASIS BY ATTENUATING NUCLEAR FACTOR KAPPAB (NF-KAPPAB) TRANSCRIPTIONAL ACTIVITY. RORALPHA(DELTAIEC) MICE EXHIBIT EXCESSIVE INTESTINAL INFLAMMATION AND HIGHLY ACTIVATED INFLAMMATORY RESPONSES IN THE DEXTRAN SULFATE SODIUM (DSS) MOUSE COLITIS MODEL. TRANSCRIPTOME ANALYSIS REVEALS THAT DELETION OF RORALPHA LEADS TO UP-REGULATION OF NF-KAPPAB TARGET GENES IN IECS. CHROMATIN IMMUNOPRECIPITATION ANALYSIS REVEALS CORECRUITMENT OF RORALPHA AND HISTONE DEACETYLASE 3 (HDAC3) ON NF-KAPPAB TARGET PROMOTERS AND SUBSEQUENT DISMISSAL OF CREB BINDING PROTEIN (CBP) AND BROMODOMAIN-CONTAINING PROTEIN 4 (BRD4) FOR TRANSCRIPTIONAL REPRESSION. TOGETHER, WE DEMONSTRATE THAT RORALPHA/HDAC3-MEDIATED ATTENUATION OF NF-KAPPAB SIGNALING CONTROLS THE BALANCE OF INFLAMMATORY RESPONSES, AND THERAPEUTIC STRATEGIES TARGETING THIS EPIGENETIC REGULATION COULD BE BENEFICIAL TO THE TREATMENT OF CHRONIC INFLAMMATORY DISEASES, INCLUDING INFLAMMATORY BOWEL DISEASE (IBD). 2019 6 768 28 CD47 (CLUSTER OF DIFFERENTIATION 47). CD47, ALSO KNOWN AS INTEGRIN-ASSOCIATED PROTEIN, IS A CONSTITUTIVELY AND UBIQUITOUSLY EXPRESSED TRANSMEMBRANE RECEPTOR. CD47 IS CONSERVED ACROSS AMNIOTES INCLUDING MAMMALS, REPTILES, AND BIRDS. EXPRESSION IS INCREASED IN MANY CANCERS AND, IN NON-MALIGNANT CELLS, BY STRESS AND WITH AGING. THE UP-REGULATION OF CD47 EXPRESSION IS GENERALLY EPIGENETIC, WHEREAS GENE AMPLIFICATION OCCURS WITH LOW FREQUENCY IN SOME CANCERS. CD47 IS A HIGH AFFINITY SIGNALING RECEPTOR FOR THE SECRETED PROTEIN THROMBOSPONDIN-1 (THBS1) AND THE COUNTER-RECEPTOR FOR SIGNAL REGULATORY PROTEIN-ALPHA (SIRPA, SIRPALPHA) AND SIRPGAMMA (SIRPG). CD47 INTERACTION WITH SIRPALPHA SERVES AS A MARKER OF SELF TO INNATE IMMUNE CELLS AND THEREBY PROTECTS CANCER CELLS FROM PHAGOCYTIC CLEARANCE. CONSEQUENTLY, HIGHER CD47 CORRELATES WITH A POOR PROGNOSIS IN SOME CANCERS, AND THERAPEUTIC BLOCKADE CAN SUPPRESS TUMOR GROWTH BY ENHANCING INNATE ANTITUMOR IMMUNITY. CD47 EXPRESSED ON CYTOTOXIC T CELLS, DENDRITIC CELLS, AND NK CELLS MEDIATES INHIBITORY THBS1 SIGNALING THAT FURTHER LIMITS ANTITUMOR IMMUNITY. CD47 LATERALLY ASSOCIATES WITH SEVERAL INTEGRINS AND THEREBY REGULATES CELL ADHESION AND MIGRATION. CD47 HAS ADDITIONAL LATERAL BINDING PARTNERS IN SPECIFIC CELL TYPES, AND LIGATION OF CD47 IN SOME CASES MODULATES THEIR FUNCTION. THBS1-CD47 SIGNALING IN NON-MALIGNANT CELLS INHIBITS NITRIC OXIDE/CGMP, CALCIUM, AND VEGF SIGNALING, MITOCHONDRIAL HOMEOSTASIS, STEM CELL MAINTENANCE, PROTECTIVE AUTOPHAGY, AND DNA DAMAGE RESPONSE, AND PROMOTES NADPH OXIDASE ACTIVITY. CD47 SIGNALING IS A PHYSIOLOGICAL REGULATOR OF PLATELET ACTIVATION, ANGIOGENESIS AND BLOOD FLOW. THBS1/CD47 SIGNALING IS FREQUENTLY DYSREGULATED IN CHRONIC DISEASES. 2021 7 368 32 AMYLOID BETA-MEDIATED EPIGENETIC ALTERATION OF INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN 3 CONTROLS CELL SURVIVAL IN ALZHEIMER'S DISEASE. SWEDISH DOUBLE MUTATION (KM670/671NL) OF AMYLOID PRECURSOR PROTEIN (APP) IS REPORTED TO INCREASE TOXIC AMYLOID BETA (ABETA) PRODUCTION VIA ABERRANT CLEAVAGE AT THE BETA-SECRETASE SITE AND THEREBY CAUSE EARLY-ONSET ALZHEIMER'S DISEASE (AD). HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS LEADING TO AD PATHOGENESIS REMAINS LARGELY UNKNOWN. PREVIOUSLY, OUR TRANSCRIPTOME SEQUENCE ANALYSES REVEALED GLOBAL EXPRESSIONAL MODIFICATIONS OF OVER 600 GENES IN APP-SWEDISH MUTANT-EXPRESSING H4 (H4-SW) CELLS COMPARED TO WILD TYPE H4 CELLS. INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN 3 (IGFBP3) IS ONE GENE THAT SHOWED SIGNIFICANTLY DECREASED MRNA EXPRESSION IN H4-SW CELLS. IN THIS STUDY, WE INVESTIGATED THE FUNCTIONAL ROLE OF IGFBP3 IN AD PATHOGENESIS AND ELUCIDATED THE MECHANISMS REGULATING ITS EXPRESSION. WE OBSERVED DECREASED IGFBP3 EXPRESSION IN THE H4-SW CELL LINE AS WELL AS THE HIPPOCAMPUS OF AD MODEL TRANSGENIC MICE. TREATMENT WITH EXOGENOUS IGFBP3 PROTEIN INHIBITED ABETA1-42- INDUCED CELL DEATH AND CASPASE-3 ACTIVITY, WHEREAS SIRNA-MEDIATED SUPPRESSION OF IGFBP3 EXPRESSION INDUCED CELL DEATH AND CASPASE-3 CLEAVAGE. IN PRIMARY HIPPOCAMPAL NEURONS, ADMINISTRATION OF IGFBP3 PROTEIN BLOCKED APOPTOTIC CELL DEATH DUE TO ABETA1-42 TOXICITY. THESE DATA IMPLICATE A PROTECTIVE ROLE FOR IGFBP3 AGAINST ABETA1-42-MEDIATED APOPTOSIS. NEXT, WE INVESTIGATED THE REGULATORY MECHANISMS OF IGFBP3 EXPRESSION IN AD PATHOGENESIS. WE OBSERVED ABNORMAL IGFBP3 HYPERMETHYLATION WITHIN THE PROMOTER CPG ISLAND IN H4-SW CELLS. TREATMENT WITH THE DNA METHYLTRANSFERASE INHIBITOR 5-AZA-2'-DEOXYCYTIDINE RESTORED IGFBP3 EXPRESSION AT BOTH THE MRNA AND PROTEIN LEVELS. CHRONIC EXPOSURE TO ABETA1-42 INDUCED IGFBP3 HYPERMETHYLATION AT CPGS, PARTICULARLY AT LOCI -164 AND -173, AND SUBSEQUENTLY SUPPRESSED IGFBP3 EXPRESSION. THEREFORE, WE DEMONSTRATE THAT EXPRESSION OF ANTI-APOPTOTIC IGFBP3 IS REGULATED BY EPIGENETIC DNA METHYLATION, SUGGESTING A MECHANISM THAT CONTRIBUTES TO AD PATHOGENESIS. 2014 8 224 36 ACUTE SKELETAL MUSCLE CONTRACTIONS ORCHESTRATE SIGNALING MECHANISMS TO TRIGGER NUCLEAR NFATC1 SHUTTLING AND EPIGENETIC HISTONE MODIFICATIONS. BACKGROUND/AIMS: CALCIUM (CA(2)(+)) COORDINATES SKELETAL MUSCLE FUNCTIONS BY CONTROLLING CONTRACTIONS AS WELL AS SIGNALING PATHWAYS AND TRANSCRIPTIONAL PROPERTIES. THE RYANODINE RECEPTOR 1 (RYR1), ITS PHOSPHORYLATION SITE (PRYR1SER(2)(8)(4)(0)) AND ITS STABILIZERS NAVIGATE CA(2)(+) OSCILLATIONS TO COMMAND MUSCLE SIGNALING CASCADES AND TRANSCRIPTIONAL ACTIVITIES. WHILE CHRONIC EXERCISE INCREASES PRYR1SER(2)(8)(4)(0), INVESTIGATIONS ON ACUTE EXERCISE'S EFFECTS ON RYR1 AND CA(2)(+)-DEPENDENT MODIFICATIONS OF SKELETAL MUSCLE ARE RARE. THE AIM OF THIS STUDY WAS TO EXAMINE MOLECULAR EVENTS LEADING TO RYR1 PHOSPHORYLATION IN A PHYSIOLOGICAL MODEL OF ACUTE EXERCISE. WE HYPOTHESIZED THAT EXERCISE-INDUCED RYR1 PHOSPHORYLATION IS ASSOCIATED WITH ALTERED CA(2)(+)-DEPENDENT PHYSIOLOGICAL PHENOTYPES. METHODS: WE ANALYZED PRYR1SER(2)(8)(4)(0), ITS STABILIZERS, INVOLVED SIGNALING PATHWAYS, AND CA(2)(+)-SENSITIVE MUSCLE-DETERMINING FACTORS (I.E. NFATC1 AND EPIGENETIC HISTONE H3 MODIFICATIONS) IN RAT MUSCLES UPON ONE SINGLE RUNNING BOUT OF EITHER CONCENTRIC OR ECCENTRIC CONTRACTIONS. RESULTS: BOTH ACUTE EXERCISES SIGNIFICANTLY INCREASED PRYRSER(2)(8)(4)(0) LEVELS IN MUSCLES, WHICH WAS ACCOMPANIED BY DISSOCIATIONS OF STABILIZERS FROM RYR1. ADDITIONALLY, RYR1 PHOSPHORYLATION-INDUCING SIGNALING CASCADES PTEN/CAMKII/ PKA WERE SIGNIFICANTLY ACTIVATED UPON EXERCISE. FURTHER, RYR1 PHOSPHORYLATIONS WERE ASSOCIATED WITH INCREASED CA(2)(+)-DEPENDENT NFATC1 NUCLEAR ABUNDANCES AS WELL AS INCREASED CA(2)(+)-DEPENDENT EPIGENETIC H3 ACETYLATIONS POINTING TO A PRYR1SER(2)(8)(4)(0)-DEPENDENT RAPID AND NOVEL CA(2)(+) EQUILIBRIUM UPON EXERCISE. CONCLUSION: OUR DATA REPORT SYNERGISTIC ACTIONS OF SEVERAL DISTINCT PATHWAYS TO MODIFY RYR1 FUNCTION TO GOVERN PHYSIOLOGICAL PHENOTYPES, HERE EXPRESSED AS INCREASED NUCLEAR NFATC1 ABUNDANCES AND EPIGENETIC H3 MODIFICATIONS. 2019 9 3626 27 IN-SILICO DISCOVERY OF DUAL ACTIVE MOLECULE TO RESTORE SYNAPTIC WIRING AGAINST AUTISM SPECTRUM DISORDER VIA HDAC2 AND H3R INHIBITION. METAL-DEPENDENT HISTONE DEACETYLASES (HDACS) ARE ESSENTIAL EPIGENETIC REGULATORS; THEIR MOLECULAR AND PHARMACOLOGICAL ROLES IN MEDICALLY CRITICAL DISEASES SUCH AS NEUROPSYCHIATRIC DISORDERS, NEURODEGENERATION, AND CANCER ARE BEING STUDIED GLOBALLY. HDAC2'S DIFFERENTIAL EXPRESSION IN THE CENTRAL NERVOUS SYSTEM MAKES IT AN APPEALING THERAPEUTIC TARGET FOR CHRONIC NEUROLOGICAL DISEASES LIKE AUTISM SPECTRUM DISORDER. IN THIS STUDY, WE IDENTIFIED H3R INHIBITOR MOLECULES THAT ARE COMPUTATIONALLY EFFECTIVE AT BINDING TO THE HDAC2 METAL-COORDINATED BINDING SITE. THE STUDY HIGHLIGHTS THE IMPORTANCE OF PITOLISANT IN SCREENING THE POTENTIAL H3R INHIBITORS BY USING A HYBRID WORKFLOW OF LIGAND AND RECEPTOR-BASED DRUG DISCOVERY. THE SCREENED LEAD COMPOUNDS WITH PUBCHEM SIDS 103179850, 103185945, AND 103362074 SHOW VIABLE BINDING WITH HDAC2 IN SILICO. THE IMPORTANCE OF LIGAND CONTACTS WITH THE ZN2+ ION IN THE HDAC2 CATALYTIC SITE IS ALSO DISCUSSED AND INVESTIGATED FOR A SIGNIFICANT ROLE IN ENZYME INHIBITION. THE PROPOSED H3R INHIBITORS 103179850, 103185945, AND 103362074 ARE ESTIMATED AS DUAL-ACTIVE MOLECULES TO BLOCK THE HDAC2-MEDIATED DEACETYLATION OF THE EAAT2 GENE (SLC1A2) AND H3R-MEDIATED SYNAPTIC TRANSMISSION IRREGULARITY AND ARE, THEREFORE, OPEN FOR EXPERIMENTAL VALIDATION. 2022 10 238 26 ADENOSINE KINASE: A KEY REGULATOR OF PURINERGIC PHYSIOLOGY. ADENOSINE (ADO) IS AN ESSENTIAL BIOMOLECULE FOR LIFE THAT PROVIDES CRITICAL REGULATION OF ENERGY UTILIZATION AND HOMEOSTASIS. ADENOSINE KINASE (ADK) IS AN EVOLUTIONARY ANCIENT RIBOKINASE DERIVED FROM BACTERIAL SUGAR KINASES THAT IS WIDELY EXPRESSED IN ALL FORMS OF LIFE, TISSUES AND ORGAN SYSTEMS THAT TIGHTLY REGULATES INTRACELLULAR AND EXTRACELLULAR ADO CONCENTRATIONS. THE FACILE ABILITY OF ADK TO ALTER ADO AVAILABILITY PROVIDES A "SITE AND EVENT" SPECIFICITY TO THE ENDOGENOUS PROTECTIVE EFFECTS OF ADO IN SITUATIONS OF CELLULAR STRESS. IN ADDITION TO MODULATING THE ABILITY OF ADO TO ACTIVATE ITS COGNATE RECEPTORS (P1 RECEPTORS), NUCLEAR ADK ISOFORM ACTIVITY HAS BEEN LINKED TO EPIGENETIC MECHANISMS BASED ON TRANSMETHYLATION PATHWAYS. PREVIOUS DRUG DISCOVERY RESEARCH HAS TARGETED ADK INHIBITION AS A THERAPEUTIC APPROACH TO MANAGE EPILEPSY, PAIN, AND INFLAMMATION. THESE EFFORTS GENERATED MULTIPLE CLASSES OF HIGHLY POTENT AND SELECTIVE INHIBITORS. HOWEVER, CLINICAL DEVELOPMENT OF EARLY ADK INHIBITORS WAS STOPPED DUE TO APPARENT MECHANISTIC TOXICITY AND THE LACK OF SUITABLE TRANSLATIONAL MARKERS. NEW INSIGHTS REGARDING THE POTENTIAL ROLE OF THE NUCLEAR ADK ISOFORM (ADK-LONG) IN THE EPIGENETIC MODULATION OF MALADAPTIVE DNA METHYLATION OFFERS THE POSSIBILITY OF IDENTIFYING NOVEL ADK-ISOFORM SELECTIVE INHIBITORS AND NEW INTERVENTIONAL STRATEGIES THAT ARE INDEPENDENT OF ADO RECEPTOR ACTIVATION. 2021 11 1951 28 EPIGENETIC ACTIVATION OF THE TUSC3 GENE AS A POTENTIAL THERAPY FOR XMEN DISEASE. BACKGROUND: X-LINKED MAGT1 DEFICIENCY WITH INCREASED SUSCEPTIBILITY TO EPSTEIN-BARR VIRUS INFECTION AND N-LINKED GLYCOSYLATION DEFECT (XMEN) DISEASE IS A RARE COMBINED IMMUNODEFICIENCY CAUSED BY LOSS-OF-FUNCTION MUTATIONS IN THE MAGNESIUM TRANSPORTER 1 (MAGT1) GENE. MAGT1 DEFICIENCY IMPAIRS MAGNESIUM TRANSPORT AND THE N-LINKED GLYCOSYLATION OF A PANEL OF PROTEINS, WHICH SUBSEQUENTLY ABOLISHES THE EXPRESSION OF KEY IMMUNE RECEPTORS SUCH AS NATURAL KILLER GROUP 2, MEMBER D (AKA NKG2D). THESE EFFECTS INDUCE IMMUNE SYSTEM ABNORMALITIES, CHRONIC EPSTEIN-BARR VIRUS INFECTION, AND NEOPLASIA. RECENT RESEARCH SHOWS THAT MAGT1 AND TUMOR CANDIDATE SUPPRESSOR 3 (TUSC3) SHARE HIGH SEQUENCE AND FUNCTIONAL SIMILARITY. OBJECTIVE: WE SOUGHT TO INVESTIGATE THE FEASIBILITY OF ACTIVATING TUSC3 EXPRESSION TO PROVIDE A POTENTIAL THERAPEUTIC STRATEGY FOR XMEN DISEASE. METHODS: THE EXPRESSION PROFILES OF MAGT1 AND TUSC3 WERE ANALYZED USING MULTIPLE DATABASES, REAL-TIME QUANTITATIVE PCR, AND WESTERN BLOT. THE EFFECTS OF DECITABINE AND PANOBINOSTAT ON THE REGULATION OF TUSC3 EXPRESSION WERE EXPLORED IN BOTH MAGT1 KNOCKOUT (KO)/PATIENT-DERIVED LYMPHOCYTES AND MAGT1 KO HEPATOCYTES. RESULTS: ALTHOUGH TUSC3 IS WIDELY EXPRESSED, IT IS UNDETECTABLE SPECIFICALLY IN THE IMMUNE SYSTEM AND LIVER, CONSISTENT WITH THE MAIN DISEASED TISSUES IN PATIENTS WITH XMEN DISEASE. CRISPR/CAS9-MEDIATED KO OF MAGT1 IN THE NKL CELL LINE SUCCESSFULLY MIMICKED THE PHENOTYPES OF XMEN PATIENT-DERIVED LYMPHOCYTES, AND EXOGENOUS EXPRESSION OF TUSC3 RESCUED THE DEFICIENCIES IN KO NKL CELLS. USING THIS IN VITRO MODEL, WE IDENTIFIED 2 EPIGENETIC DRUGS, DECITABINE AND PANOBINOSTAT, BY SCREENING. COMBINATION TREATMENT USING THESE 2 DRUGS SIGNIFICANTLY UPREGULATED TUSC3 EXPRESSION AND RESCUED THE IMMUNE AND LIVER ABNORMALITIES. CONCLUSIONS: EPIGENETIC ACTIVATION OF TUSC3 EXPRESSION CONSTITUTES AN EFFECTIVE THERAPEUTIC STRATEGY FOR XMEN DISEASE. 2023 12 1843 22 EFFECTS OF TELOMERASE INHIBITOR ON EPIGENETIC CHROMATIN MODIFICATION ENZYMES IN MALIGNANCIES. TELOMERASE HAS A CRITICAL ROLE IN CELL PROLIFERATION, TUMOR MAINTAINING, AND THERAPY RESISTANCE, WHICH ACT BY MODIFYING MANY SIGNALING PATHWAYS. 2-[(E)-3-NAPHTALEN-2-YL-BUT-2-ENOYLAMINO]-BENZOIC ACID (BIBR1532) IS ONE OF THE MOST STUDIED TELOMERASE INHIBITORS, AND IT TARGETS TELOMERASE COMPONENTS TERC AND TERT. IN THIS NOVEL STUDY, WE AIMED TO INVESTIGATE THE EPIGENETIC EFFECTS OF BIBR1532 ON BOTH HEMATOLOGIC MALIGNANCIES AND SOLID TUMORS. K-562 HUMAN CHRONIC MYELOID LEUKEMIA CELL LINE AND U87MG GLIOBLASTOMA CELL LINE WERE COMPARED WITH CONTROL GROUPS WITHOUT BIBR1532 TREATMENT. CYTOTOXIC EFFECTS OF BIBR1532 WERE DETERMINED BY USING WST-1 ASSAY. APOPTOTIC EFFECTS OF BIBR1532 WERE DETECTED BY USING ANNEXIN V METHOD. TO ASSESS EXPRESSION CHANGES IN THE HUMAN EPIGENETIC CHROMATIN MODIFICATION ENZYME GENES, TOTAL RNA WAS ISOLATED FROM K-562 AND U87MG CELLS TREATED WITH BIBR1532 AND UNTREATED CONTROL CELLS. BIBR1532 INDUCED 2.41-FOLD APOPTOTIC CELL DEATH IN U87MG CELL LINES COMPARED WITH CONTROL GROUPS. APOPTOSIS WAS SLIGHTLY INDUCED IN K-562 CELLS WITH BIBR1532 TREATMENT COMPARED WITH CONTROL CELLS. WE OBSERVED THAT BIBR1532 ALSO REGULATES SIMILAR GENES IN BOTH CELL LINES, AND IT IS USEFUL ON EPIGENETIC MECHANISMS. AS A RESULT, TELOMERASE INHIBITOR BIBR1532 HAS A SIGNIFICANT EFFECT ON BOTH HEMATOLOGICAL MALIGNANCIES AND SOLID TUMORS. 2018 13 1441 31 DIFFERENTIAL REGULATION OF K(CA) 2.1 (KCNN1) K(+) CHANNEL EXPRESSION BY HISTONE DEACETYLASES IN ATRIAL FIBRILLATION WITH CONCOMITANT HEART FAILURE. ATRIAL FIBRILLATION (AF) WITH CONCOMITANT HEART FAILURE (HF) POSES A SIGNIFICANT THERAPEUTIC CHALLENGE. MECHANISM-BASED APPROACHES MAY OPTIMIZE AF THERAPY. SMALL-CONDUCTANCE, CALCIUM-ACTIVATED K(+) (K(CA) , KCNN) CHANNELS CONTRIBUTE TO CARDIAC ACTION POTENTIAL REPOLARIZATION. KCNN1 EXHIBITS PREDOMINANT ATRIAL EXPRESSION AND IS DOWNREGULATED IN CHRONIC AF PATIENTS WITH PRESERVED CARDIAC FUNCTION. EPIGENETIC REGULATION IS SUGGESTED BY AF SUPPRESSION FOLLOWING HISTONE DEACETYLASE (HDAC) INHIBITION. WE HYPOTHESIZED THAT HDAC-DEPENDENT KCNN1 REMODELING CONTRIBUTES TO ARRHYTHMOGENESIS IN AF COMPLICATED BY HF. THE AIM OF THIS STUDY WAS TO ASSESS KCNN1 AND HDAC1-7 AND 9 TRANSCRIPT LEVELS IN AF/HF PATIENTS AND IN A PIG MODEL OF ATRIAL TACHYPACING-INDUCED AF WITH REDUCED LEFT VENTRICULAR FUNCTION. IN HL-1 ATRIAL MYOCYTES, TACHYPACING AND ANTI-HDAC SIRNAS WERE EMPLOYED TO INVESTIGATE EFFECTS ON KCNN1 MRNA LEVELS. KCNN1 EXPRESSION DISPLAYED SIDE-SPECIFIC REMODELING IN AF/HF PATIENTS WITH UPREGULATION IN LEFT AND SUPPRESSION IN RIGHT ATRIUM. IN PIGS, KCNN1 REMODELING SHOWED INTERMEDIATE PHENOTYPES. HDAC LEVELS WERE DIFFERENTIALLY ALTERED IN HUMANS AND PIGS, REFLECTING HIGHLY VARIABLE EPIGENETIC REGULATION. TACHYPACING RECAPITULATED DOWNREGULATION OF HDACS 1, 3, 4, 6, AND 7 WITH A TENDENCY TOWARDS REDUCED KCNN1 LEVELS IN VITRO, INDICATING THAT ATRIAL HIGH RATES INDUCE REMODELING. FINALLY, KCNN1 EXPRESSION WAS DECREASED BY KNOCKDOWN OF HDACS 2, 3, 6, AND 7 AND ENHANCED BY GENETIC HDAC9 INACTIVATION, WHILE ANTI-HDAC 1, 4, AND 5 SIRNAS DID NOT AFFECT KCNN1 TRANSCRIPT LEVELS. IN CONCLUSION, KCNN1 AND HDAC EXPRESSION IS DIFFERENTIALLY REMODELED IN AF COMPLICATED BY HF. DIRECT REGULATION OF KCNN1 BY HDACS IN ATRIAL MYOCYTES PROVIDES A BASIS FOR MECHANISM-BASED ANTIARRHYTHMIC THERAPY. 2021 14 1777 29 EDIBLE BLUE-GREEN ALGAE REDUCE THE PRODUCTION OF PRO-INFLAMMATORY CYTOKINES BY INHIBITING NF-KAPPAB PATHWAY IN MACROPHAGES AND SPLENOCYTES. BACKGROUND: CHRONIC INFLAMMATION CONTRIBUTES TO THE DEVELOPMENT OF PATHOLOGICAL DISORDERS INCLUDING INSULIN RESISTANCE AND ATHEROSCLEROSIS. IDENTIFICATION OF ANTI-INFLAMMATORY NATURAL PRODUCTS CAN PREVENT THE INFLAMMATORY DISEASES. METHODS: ANTI-INFLAMMATORY EFFECTS OF BLUE-GREEN ALGAE (BGA), I.E., NOSTOC COMMUNE VAR. SPHAEROIDES KUTZING (NO) AND SPIRULINA PLATENSIS (SP), WERE COMPARED IN RAW 264.7 AND MOUSE BONE MARROW-DERIVED MACROPHAGES (BMM) AS WELL AS SPLENOCYTES FROM APOLIPOPROTEIN E KNOCKOUT (APOE(-/-)) MICE FED BGA. RESULTS: WHEN MACROPHAGES PRETREATED WITH 100MUG/ML NO LIPID EXTRACT (NOE) OR SP LIPID EXTRACT (SPE) WERE ACTIVATED BY LIPOPOLYSACCHARIDE (LPS), EXPRESSION AND SECRETION OF PRO-INFLAMMATORY CYTOKINES, SUCH AS TUMOR NECROSIS FACTOR ALPHA (TNFALPHA), INTERLEUKIN 1BETA (IL-1BETA), AND IL-6, WERE SIGNIFICANTLY REPRESSED. NOE AND SPE ALSO SIGNIFICANTLY REPRESSED THE EXPRESSION OF TNFALPHA AND IL-1BETA IN BMM. LPS-INDUCED SECRETION OF IL-6 WAS LOWER IN SPLENOCYTES FROM APOE(-/-) FED AN ATHEROGENIC DIET CONTAINING 5% NO OR SP FOR 12WEEKS. IN RAW 264.7 MACROPHAGES, NOE AND SPE MARKEDLY DECREASED NUCLEAR TRANSLOCATION OF NF-KAPPAB. THE DEGREE OF REPRESSION OF PRO-INFLAMMATORY GENE EXPRESSION BY ALGAL EXTRACTS WAS MUCH STRONGER THAN THAT OF SN50, AN INHIBITOR OF NF-KAPPAB NUCLEAR TRANSLOCATION. TRICHOSTATIN A, A PAN HISTONE DEACETYLASE INHIBITOR, INCREASED BASAL EXPRESSION OF IL-1BETA AND ATTENUATED THE REPRESSION OF THE GENE EXPRESSION BY SPE. SPE SIGNIFICANTLY DOWN-REGULATED MRNA ABUNDANCE OF 11 HDAC ISOFORMS, CONSEQUENTLY INCREASING ACETYLATED HISTONE 3 LEVELS. CONCLUSION: NOE AND SPE REPRESS PRO-INFLAMMATORY CYTOKINE EXPRESSION AND SECRETION IN MACROPHAGES AND SPLENOCYTES VIA INHIBITION OF NF-KAPPAB PATHWAY. HISTONE ACETYLATION STATE IS LIKELY INVOLVED IN THE INHIBITION. GENERAL SIGNIFICANCE: THIS STUDY UNDERSCORES NATURAL PRODUCTS CAN EXERT ANTI-INFLAMMATORY EFFECTS BY EPIGENETIC MODIFICATIONS SUCH AS HISTONE ACETYLATION. 2013 15 4696 33 NF-KAPPAB REPRESSES RETINOIC ACID RECEPTOR-MEDIATED GPRC5A TRANSACTIVATION IN LUNG EPITHELIAL CELLS TO PROMOTE NEOPLASIA. CHRONIC INFLAMMATION IS ASSOCIATED WITH LUNG TUMORIGENESIS, IN WHICH NF-KAPPAB-MEDIATED EPIGENETIC REGULATION PLAYS A CRITICAL ROLE. LUNG TUMOR SUPPRESSOR G PROTEIN-COUPLED RECEPTOR, FAMILY C, MEMBER 5A (GPRC5A), IS REPRESSED IN MOST NON-SMALL CELL LUNG CANCER (NSCLC); HOWEVER, THE MECHANISMS REMAIN UNCLEAR. HERE, WE SHOW THAT NF-KAPPAB ACTS AS A TRANSCRIPTIONAL REPRESSOR IN SUPPRESSION OF GPRC5A. NF-KAPPAB INDUCED GPRC5A REPRESSION BOTH IN VITRO AND IN VIVO. INTRIGUINGLY, TRANSACTIVATION OF NF-KAPPAB DOWNSTREAM TARGETS WAS NOT REQUIRED, BUT THE TRANSACTIVATION DOMAIN OF RELA/P65 WAS REQUIRED FOR GPRC5A REPRESSION. NF-KAPPAB DID NOT BIND TO ANY POTENTIAL CIS-ELEMENT IN THE GPRC5A PROMOTER. INSTEAD, P65 WAS COMPLEXED WITH RETINOIC ACID RECEPTOR ALPHA/BETA (RARALPHA/BETA) AND RECRUITED TO THE RA RESPONSE ELEMENT SITE AT THE GPRC5A PROMOTER, RESULTING IN DISRUPTED RNA POLYMERASE II COMPLEXING AND SUPPRESSED TRANSCRIPTION. NOTABLY, PHOSPHORYLATION ON SERINE 276 OF P65 WAS REQUIRED FOR INTERACTION WITH RARALPHA/BETA AND REPRESSION OF GPRC5A. MOREOVER, NF-KAPPAB-MEDIATED EPIGENETIC REPRESSION WAS THROUGH SUPPRESSION OF ACETYLATED HISTONE H3K9 (H3K9AC), BUT NOT DNA METHYLATION OF THE CPG ISLANDS, AT THE GPRC5A PROMOTER. CONSISTENTLY, A HISTONE DEACETYLASE INHIBITOR, BUT NOT DNA METHYLATION INHIBITOR, RESTORED GPRC5A EXPRESSION IN NSCLC CELLS. THUS, NF-KAPPAB INDUCES TRANSCRIPTIONAL REPRESSION OF GPRC5A VIA A COMPLEX WITH RARALPHA/BETA AND MEDIATES EPIGENETIC REPRESSION VIA SUPPRESSION OF H3K9AC. 2023 16 5863 25 SUPPRESSION OF ALLERGIC ASTHMA BY LOSS OF FUNCTION OF MIZ1-MEDIATED TH1 SKEWING. ASTHMA IS THE MOST PREVALENT CHRONIC RESPIRATORY DISEASE WORLDWIDE. THERE IS CURRENTLY NO CURE, AND IT REMAINS AN IMPORTANT CAUSE OF MORBIDITY AND MORTALITY. HERE WE REPORT THAT LUNG-SPECIFIC LOSS OF FUNCTION OF THE TRANSCRIPTION FACTOR MIZ1 (C-MYC-INTERACTING ZINC FINGER PROTEIN-1) UPREGULATES THE PRO-T-HELPER CELL TYPE 1 CYTOKINE IL-12. UPREGULATION OF IL-12 IN TURN STIMULATES A TH1 RESPONSE, THEREBY COUNTERACTING T-HELPER CELL TYPE 2 RESPONSE AND PREVENTING THE ALLERGIC RESPONSE IN MOUSE MODELS OF HOUSE DUST MITE- AND OVA (OVALBUMIN)-INDUCED ASTHMA. USING TRANSGENIC MICE EXPRESSING CRE UNDER A CELL-SPECIFIC PROMOTER, WE DEMONSTRATE THAT MIZ1 ACTS IN LUNG EPITHELIAL CELLS AND DENDRITIC CELLS IN ASTHMA. CHROMATIN IMMUNOPRECIPITATION COUPLED WITH HIGH-THROUGHPUT DNA SEQUENCING OR QUANTITATIVE PCR REVEALS THE BINDING OF MIZ1 ON THE IL12 PROMOTER INDICATING DIRECT REPRESSION OF IL-12 BY MIZ1. IN ADDITION, HDAC1 (HISTONE DEACETYLASE 1) IS RECRUITED TO THE IL12 PROMOTER IN A MIZ1-DEPDENENT MANNER, SUGGESTING EPIGENETIC REPRESSION OF IL12 BY MIZ1. FURTHERMORE, MIZ1 IS UPREGULATED IN THE LUNGS OF ASTHMATIC MICE. OUR DATA TOGETHER SUGGEST THAT MIZ1 IS UPREGULATED DURING ASTHMA, WHICH IN TURN PROMOTES ASTHMA PATHOGENESIS BY PREVENTING TH1 SKEWING THROUGH THE TRANSCRIPTIONAL REPRESSION OF IL-12. 2022 17 1298 22 DECREASED NUCLEAR RECEPTOR ACTIVITY AND EPIGENETIC MODULATION ASSOCIATES WITH DOWN-REGULATION OF HEPATIC DRUG-METABOLIZING ENZYMES IN CHRONIC KIDNEY DISEASE. PATIENTS WITH CHRONIC KIDNEY DISEASE (CKD) REQUIRE MANY MEDICATIONS. CYP2C AND CYP3A DRUG-METABOLIZING ENZYMES PLAY A CRITICAL ROLE IN DETERMINING THE PHARMACOKINETICS OF THE MAJORITY OF PRESCRIBED MEDICATIONS. THESE ENZYMES ARE TRANSCRIPTIONALLY REGULATED BY THE NUCLEAR RECEPTORS PREGNANE X RECEPTOR (PXR) AND HEPATIC NUCLEAR FACTOR 4ALPHA (HNF-4ALPHA). EXPRESSION OF CYP2C AND CYP3A IS DECREASED IN CKD; HOWEVER, THE MECHANISMS BY WHICH THIS OCCURS IS UNKNOWN. WE INDUCED CKD IN RATS BY 5/6 NEPHRECTOMY AND USED CHROMATIN IMMUNOPRECIPITATION (CHIP) TO DETERMINE NUCLEAR RECEPTOR- AND EPIGENETIC ALTERATION-MEDIATED DIFFERENCES IN THE PROMOTER REGION OF THE CYP2C AND CYP3A GENES. RNA POLYMERASE II AND HNF-4ALPHA BINDING WAS DECREASED 76 AND 57% IN THE CYP2C11 PROMOTOR AND 71 AND 77% IN THE CYP3A2 PROMOTER, RESPECTIVELY (P<0.05). CHIP ALSO REVEALED A 57% DECREASE IN PXR BINDING TO THE CYP3A2 PROMOTER IN CKD RATS (P<0.05). THE DECREASE IN PXR AND HNF-4ALPHA BINDING WAS ACCOMPANIED BY DIMINISHED HISTONE 4 ACETYLATION IN THE CYP3A2 PROMOTER (48%) AND HISTONE 3 ACETYLATION IN THE CYP2C11 (77%) AND CYP3A2 (77%) PROMOTER LOCI FOR NUCLEAR RECEPTOR ACTIVATION (P<0.05). THIS STUDY SUGGESTS THAT DECREASED NUCLEAR RECEPTOR BINDING AND HISTONE ACETYLATION MAY CONTRIBUTE TO THE MECHANISM OF DRUG-METABOLIZING ENZYME DOWN-REGULATION AND ALTERED PHARMACOKINETICS IN CKD. 2014 18 582 23 BEHAVIORAL AND PHYSIOLOGICAL EFFECTS OF ACUTE AND CHRONIC KAVA EXPOSURE IN ADULT ZEBRAFISH. KAVA KAVA (PIPER METHYSTICUM) IS A MEDICINAL PLANT CONTAINING KAVALACTONES THAT EXERT POTENT SEDATIVE, ANALGESIC AND ANTI-STRESS ACTION. HOWEVER, THEIR PHARMACOLOGICAL EFFECTS AND MOLECULAR TARGETS REMAIN POORLY UNDERSTOOD. THE ZEBRAFISH (DANIO RERIO) HAS RECENTLY EMERGED AS A POWERFUL NEW MODEL ORGANISM FOR NEUROSCIENCE RESEARCH AND DRUG DISCOVERY. HERE, WE EVALUATE THE EFFECTS OF ACUTE AND CHRONIC EXPOSURE TO KAVA AND KAVALACTONES ON ADULT ZEBRAFISH ANXIETY, AGGRESSION AND SOCIALITY, AS WELL AS ON THEIR NEUROCHEMICAL, NEUROENDOCRINE AND GENOMIC RESPONSES. SUPPORTING EVOLUTIONARILY CONSERVED MOLECULAR TARGETS, ACUTE KAVA AND KAVALACTONES EVOKED DOSE-DEPENDENT BEHAVIORAL INHIBITION, UPREGULATED BRAIN EXPRESSION OF EARLY PROTOONCOGENES C-FOS AND C-JUN, ELEVATED BRAIN MONOAMINES AND LOWERED WHOLE-BODY CORTISOL. CHRONIC 7-DAY KAVA EXPOSURE EVOKED SIMILAR BEHAVIORAL EFFECTS, DID NOT ALTER CORTISOL LEVELS, AND FAILED TO EVOKE WITHDRAWAL-LIKE STATES UPON DISCONTINUATION. HOWEVER, CHRONIC KAVA UPREGULATED SEVERAL MICROGLIAL (INOS, EGR-2, CD11B), ASTROCYTAL (C3, C4B, S100A), EPIGENETIC (NCOA-1) AND PRO-INFLAMMATORY (IL-1BETA, IL-6, TNFA) BIOMARKER GENES, DOWNREGULATED CD206 AND IL-4, AND DID NOT AFFECT MAJOR APOPTOTIC GENES IN THE BRAIN. COLLECTIVELY, THIS STUDY SUPPORTS ROBUST, EVOLUTIONARILY CONSERVED BEHAVIORAL AND PHYSIOLOGICAL EFFECTS OF KAVA AND KAVALACTONES IN ZEBRAFISH, IMPLICATES BRAIN MONOAMINES IN THEIR ACUTE EFFECTS, AND PROVIDES NOVEL IMPORTANT INSIGHTS INTO POTENTIAL ROLE OF NEUROGLIAL AND EPIGENETIC MECHANISMS IN LONG-TERM KAVA USE. 2020 19 1668 29 DOWNREGULATION OF SOCS1 INCREASES INTERFERON-INDUCED ISGYLATION DURING DIFFERENTIATION OF INDUCED-PLURIPOTENT STEM CELLS TO HEPATOCYTES. BACKGROUND & AIMS: INCREASED EXPRESSION OF IFN-STIMULATED GENE 15 (ISG15) AND SUBSEQUENTLY INCREASED ISGYLATION ARE KEY FACTORS IN THE HOST RESPONSE TO VIRAL INFECTION. IN THIS STUDY, WE SOUGHT TO CHARACTERIZE THE EXPRESSION OF ISG15, ISGYLATION, AND ASSOCIATED ENZYMES AT EACH STAGE OF DIFFERENTIATION FROM INDUCED PLURIPOTENT STEM CELLS (IPSCS) TO HEPATOCYTES. METHODS: TO STUDY THE REGULATION OF ISGYLATION, WE UTILIZED PATIENT SAMPLES AND IN VITRO CELL CULTURE MODELS INCLUDING IPSCS, HEPATOCYTES-LIKE CELLS, IMMORTALIZED CELL LINES, AND PRIMARY HUMAN HEPATOCYTES. PROTEIN/MRNA EXPRESSION WERE MEASURED FOLLOWING TREATMENT WITH POLY(I:C), IFNALPHA AND HCV INFECTION. RESULTS: WHEN COMPARED TO HLCS, WE OBSERVED SEVERAL NOVEL ASPECTS OF THE ISGYLATION PATHWAY IN IPSCS. THESE INCLUDE A LOWER BASELINE EXPRESSION OF THE ISGYLATION-ACTIVATING ENZYME, UBE1L, A LACK OF IFN-INDUCED EXPRESSION OF THE ISGYLATION-CONJUGATION ENZYME UBE2L6, AN ATTENUATED ACTIVATION OF THE TRANSCRIPTION FACTOR STAT1 AND CONSTITUTIVE EXPRESSION OF SOCS1. ISGYLATION WAS OBSERVED IN IPSCS FOLLOWING DOWNREGULATION OF SOCS1, WHICH FACILITATED STAT1 ACTIVATION AND SUBSEQUENTLY INCREASED EXPRESSION OF UBE2L6. INTRIGUINGLY, HCV PERMISSIVE TRANSFORMED HEPATOMA CELL LINES DEMONSTRATED HIGHER INTRINSIC EXPRESSION OF SOCS1 AND WEAKER ISGYLATION FOLLOWING IFN TREATMENT. SOCS1 DOWNREGULATION IN HCV-INFECTED HUH 7.5.1 CELLS LED TO INCREASED ISGYLATION. CONCLUSIONS: HEREIN, WE SHOW THAT HIGH BASAL LEVELS OF SOCS1 INHIBIT STAT1 ACTIVATION AND SUBSEQUENTLY IFN-INDUCED UBE2L6 AND ISGYLATION IN IPSCS. FURTHERMORE, AS IPSCS DIFFERENTIATE INTO HEPATOCYTES, EPIGENETIC MECHANISMS REGULATE ISGYLATION BY MODIFYING UBE1L AND SOCS1 EXPRESSION LEVELS. OVERALL, THIS STUDY DEMONSTRATES THAT THE DEVELOPMENT OF CELL-INTRINSIC INNATE IMMUNITY DURING THE DIFFERENTIATION OF IPSCS TO HEPATOCYTES PROVIDES INSIGHT INTO CELL TYPE-SPECIFIC REGULATION OF HOST DEFENSE RESPONSES AND RELATED ONCOGENIC PROCESSES. IMPACT AND IMPLICATIONS: TO ELUCIDATE THE MECHANISM UNDERLYING REGULATION OF ISGYLATION, A KEY PROCESS IN THE INNATE IMMUNE RESPONSE, WE STUDIED CHANGES IN ISGYLATION-ASSOCIATED GENES AT THE DIFFERENT STAGES OF DIFFERENTIATION FROM IPSCS TO HEPATOCYTES. WE FOUND THAT HIGH BASAL LEVELS OF SOCS1 INHIBIT STAT1 ACTIVATION AND SUBSEQUENTLY IFN-INDUCED UBE2L6 AND ISGYLATION IN IPSCS. IMPORTANTLY, EPIGENETIC REGULATION OF SOCS1 AND SUBSEQUENTLY ISGYLATION MAY BE IMPORTANT FACTORS IN THE DEVELOPMENT OF CELL TYPE-SPECIFIC HOST DEFENSE RESPONSES IN HEPATOCYTES THAT SHOULD BE CONSIDERED WHEN STUDYING CHRONIC INFECTIONS AND ONCOGENIC PROCESSES IN THE LIVER. 2022 20 1013 35 CIGARETTE SMOKE-INDUCED INFLAMMATION: NLRP10-MEDIATED MECHANISMS. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A PROGRESSIVE, LIFE-THREATENING DISEASE THAT CAUSES IRREVERSIBLE LUNG DAMAGE. CIGARETTE SMOKING IS THE CHIEF ETIOLOGIC FACTOR FOR THE COMMENCEMENT OF THIS CONDITION. DESPITE CONSTANT EFFORTS TO DEVELOP THERAPEUTIC INTERVENTIONS AND TO ASCERTAIN THE MOLECULAR MECHANISM LEADING TO THE PATHOPHYSIOLOGY OF THIS DISEASE, MUCH REMAINS UNKNOWN. HOWEVER, PATTERN RECOGNITION RECEPTORS (PRRS), I.E., TOLL-LIKE-RECEPTORS (TLRS) AND NOD-LIKE RECEPTORS (NLRS) ARE BELIEVED TO PLAY IMPORTANT ROLES IN COPD AND COULD SERVE AS EFFECTIVE THERAPEUTIC TARGETS. ALTHOUGH THE ROLE OF TLRS IN COPD HAS BEEN WELL STUDIED, THE IMPORTANCE OF NLRS HAS NOT YET BEEN EXPLORED IN DETAIL. THE NLR FAMILY MEMBER NLRP10 (AKA NOD8, PAN5, PYNOD) IS THE ONLY MEMBER OF THIS FAMILY OF PROTEINS THAT LACKS THE LEUCINE RICH REPEAT (LRR) DOMAIN RESPONSIBLE FOR DETECTION OF PATHOGEN AND DANGER-ASSOCIATED MOLECULAR PATTERNS (PAMPS/DAMPS). THEREFORE, INSTEAD OF FUNCTIONING AS A PRR, NLRP10 MAY HAVE A BROADER REGULATORY ROLE. TO ELUCIDATE THE ROLE OF NLRP10 IN SECONDHAND SMOKE (SHS)-INDUCED INFLAMMATION, WE EXPOSED C57BL/6 (WT) AND NLRP10-DEFICIENT MICE (NLRP10(-/-)) ON THE C57BL/6 BACKGROUND TO FILTERED AIR- OR SHS- FOR 6 WEEKS (ACUTE EXPOSURE) AND ASSESSED THE RESULTING MOLECULAR EVENTS. LEUKOCYTE RECRUITMENT IN SHS-EXPOSED NLRP10(-/-) MICE WAS FOUND TO BE SIGNIFICANTLY LOWER COMPARED TO SHS-EXPOSED WT MICE. IN ADDITION, WE OBSERVED AN IMPORTANT ROLE FOR NLRP10 IN SHS-MEDIATED CASPASE-1 ACTIVATION, CYTOKINE/CHEMOKINE PRODUCTION (IL-1BETA, IL-18, MCP-1 AND IL-17A), AND INDUCTION OF NF-KAPPAB AND MAPKS IN THE LUNGS OF C57BL/6 MICE. THE REDUCED INFLUX OF CD4(+)IL-17A(+) AND CD8(+)IL-17A(+) CELLS INTO THE LUNGS OF SHS-EXPOSED NLRP10(-/-) MICE AND IMPAIRED DIFFERENTIATION OF NLRP10(-/-) TH0 CELLS INTO TH17 CELLS (EX VIVO) PROVIDE INSIGHT INTO THE MECHANISTIC DETAILS UNDERLYING NLRP10-DEPENDENT IL-17 PRODUCTION. WE FURTHER SUBSTANTIATED OUR IN VIVO FINDINGS BY CHALLENGING HUMAN ALVEOLAR TYPE II EPITHELIAL CELLS (A549) TRANSFECTED WITH SCRAMBLED- OR NLRP10-SIRNA WITH CIGARETTE SMOKE EXTRACT (CSE). WE OBSERVED AN IMPORTANT ROLE OF NLRP10 IN CYTOKINE AND CHEMOKINE PRODUCTION AS WELL AS EXPRESSION OF NF-KAPPAB AND MAPKS IN CSE-EXPOSED A549 CELLS. FURTHERMORE, REPLENISHMENT OF A549 CELL CULTURE WITH RECOMBINANT IL-17A (RIL-17A) DURING NLRP10 KNOCKDOWN RESCUED CSE-INDUCED INFLAMMATORY RESPONSES. TO IDENTIFY UPSTREAM MEDIATORS OF NLRP10 REGULATION WE INVESTIGATED EPIGENETIC MARKERS WITHIN THE NLRP10 PROMOTER FOLLOWING CIGARETTE SMOKE EXPOSURE AND OBSERVED SIGNIFICANT CHANGES IN ACTIVE AS WELL AS REPRESSIVE GENE MARKERS ON HISTONE 3 AND HISTONE 4 USING BOTH IN VIVO AND IN VITRO STUDY MODELS. FURTHER, ALTERATIONS IN THE RESPECTIVE HISTONE ACETYL- AND METHYLTRANSFERASES (PCAF, SET1, ESET, SUV20H1) CORRELATED WELL WITH THE OBSERVED HISTONE MODIFICATIONS. OVERALL, OUR FINDINGS SUGGEST A NOVEL ROLE OF EPIGENETICALLY REGULATED NLRP10 IN TH17/IL-17 SIGNALING DURING CS EXPOSURE. 2018