1 6145 355 THE EXPANDING PHENOTYPES OF COHESINOPATHIES: ONE RING TO RULE THEM ALL! PRESERVATION AND DEVELOPMENT OF LIFE DEPEND ON THE ADEQUATE SEGREGATION OF SISTER CHROMATIDS DURING MITOSIS AND MEIOSIS. THIS PROCESS IS ENSURED BY THE COHESIN MULTI-SUBUNIT COMPLEX. MUTATIONS IN THIS COMPLEX HAVE BEEN ASSOCIATED WITH AN INCREASING NUMBER OF DISEASES, TERMED COHESINOPATHIES. THE BEST CHARACTERIZED COHESINOPATHY IS CORNELIA DE LANGE SYNDROME (CDLS), IN WHICH INTELLECTUAL AND GROWTH RETARDATIONS ARE THE MAIN PHENOTYPIC MANIFESTATIONS. DESPITE SOME OVERLAP, THE CLINICAL MANIFESTATIONS OF COHESINOPATHIES VARY CONSIDERABLY. NOVEL ROLES OF THE COHESIN COMPLEX HAVE EMERGED DURING THE PAST DECADES, SUGGESTING THAT IMPORTANT CELL CYCLE REGULATORS EXERT IMPORTANT BIOLOGICAL EFFECTS THROUGH NON-COHESION-RELATED FUNCTIONS AND BROADENING THE POTENTIAL PATHOMECHANISMS INVOLVED IN COHESINOPATHIES. THIS REVIEW FOCUSES ON NON-COHESION-RELATED FUNCTIONS OF THE COHESIN COMPLEX, GENE DOSAGE EFFECT, EPIGENETIC REGULATION AND TGF-BETA IN COHESINOPATHY CONTEXT, ESPECIALLY IN COMPARISON TO CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA (CAID) SYNDROME, A VERY DISTINCT COHESINOPATHY CAUSED BY A HOMOZYGOUS SHUGOSHIN-1 (SGO1) MUTATION (K23E) AND CHARACTERIZED BY PACEMAKER FAILURE IN BOTH HEART (SICK SINUS SYNDROME FOLLOWED BY ATRIAL FLUTTER) AND GUT (CHRONIC INTESTINAL PSEUDO-OBSTRUCTION) WITH NO INTELLECTUAL OR GROWTH DELAY. WE DISCUSS THE POSSIBLE IMPACT OF SGO1 ALTERATIONS IN HUMAN PATHOLOGIES AND THE POTENTIAL IMPACT OF THE SGO1 K23E MUTATION IN THE SINUS NODE AND GUT DEVELOPMENT AND FUNCTIONS. WE SUGGEST THAT THE HUMAN PHENOTYPES OBSERVED IN CDLS, CAID SYNDROME AND OTHER COHESINOPATHIES CAN INFORM FUTURE STUDIES INTO THE LESS WELL-KNOWN NON-COHESION-RELATED FUNCTIONS OF COHESIN COMPLEX GENES. ABBREVIATIONS: AD: ALZHEIMER DISEASE; AFF4: AF4/FMR2 FAMILY MEMBER 4; ANKRD11: ANKYRIN REPEAT DOMAIN 11; APC: ANAPHASE PROMOTER COMPLEX; ASD: ATRIAL SEPTAL DEFECT; ATRX: ATRX CHROMATIN REMODELER; ATRX: ALPHA THALASSEMIA X-LINKED INTELLECTUAL DISABILITY SYNDROME; BIRC5: BACULOVIRAL IAP REPEAT CONTAINING 5; BMP: BONE MORPHOGENETIC PROTEIN; BRD4: BROMODOMAIN CONTAINING 4; BUB1: BUB1 MITOTIC CHECKPOINT SERINE/THREONINE KINASE; CAID: CHRONIC ATRIAL AND INTESTINAL DYSRHYTHMIA; CDK1: CYCLIN DEPENDENT KINASE 1; CDLS: CORNELIA DE LANGE SYNDROME; CHD: CONGENITAL HEART DISEASE; CHOPS: COGNITIVE IMPAIRMENT, COARSE FACIES, HEART DEFECTS, OBESITY, PULMONARY INVOLVEMENT, SHORT STATURE, AND SKELETAL DYSPLASIA; CIPO: CHRONIC INTESTINAL PSEUDO-OBSTRUCTION; C-KIT: KIT PROTO-ONCOGENE RECEPTOR TYROSINE KINASE; COATS: COHESIN ACETYLTRANSFERASES; CTCF: CCCTC-BINDING FACTOR; DDX11: DEAD/H-BOX HELICASE 11; ERG: TRANSCRIPTIONAL REGULATOR ERG; ESCO2: ESTABLISHMENT OF SISTER CHROMATID COHESION N-ACETYLTRANSFERASE 2; GJC1: GAP JUNCTION PROTEIN GAMMA 1; H2A: HISTONE H2A; H3K4: HISTONE H3 LYSINE 4; H3K9: HISTONE H3 LYSINE 9; HCN4: HYPERPOLARIZATION ACTIVATED CYCLIC NUCLEOTIDE GATED POTASSIUM AND SODIUM CHANNEL 4;P HDAC8: HISTONE DEACETYLASES 8; HP1: HETEROCHROMATIN PROTEIN 1; ICC: INTERSTITIAL CELLS OF CAJAL; ICC-MP: MYENTERIC PLEXUS INTERSTITIAL CELLS OF CAJAL; ICC-DMP: DEEP MUSCULAR PLEXUS INTERSTITIAL CELLS OF CAJAL; I(F): PACEMAKER FUNNY CURRENT; IP3: INOSITOL TRISPHOSPHATE; JNK: C-JUN N-TERMINAL KINASE; LDS: LOEYS-DIETZ SYNDROME; LOAD: LATE-ONSET ALZHEIMER DISEASE; MAPK: MITOGEN-ACTIVATED PROTEIN KINASE; MAU: MAU SISTER CHROMATID COHESION FACTOR; MFS: MARFAN SYNDROME; NIPBL: NIPBL, COHESIN LOADING FACTOR; OCT4: OCTAMER-BINDING PROTEIN 4; P38: P38 MAP KINASE; PDA: PATENT DUCTUS ARTERIOSUS; PDS5: PDS5 COHESIN ASSOCIATED FACTOR; P-H3: PHOSPHO HISTONE H3; PLK1: POLO LIKE KINASE 1; POPDC1: POPEYE DOMAIN CONTAINING 1; POPDC2: POPEYE DOMAIN CONTAINING 2; PP2A: PROTEIN PHOSPHATASE 2; RAD21: RAD21 COHESIN COMPLEX COMPONENT; RBS: ROBERTS SYNDROME; REC8: REC8 MEIOTIC RECOMBINATION PROTEIN; RNAP2: RNA POLYMERASE II; SAN: SINOATRIAL NODE; SCN5A: SODIUM VOLTAGE-GATED CHANNEL ALPHA SUBUNIT 5; SEC: SUPER ELONGATION COMPLEX; SGO1: SHOGOSHIN-1; SMAD: SMAD FAMILY MEMBER; SMC1A: STRUCTURAL MAINTENANCE OF CHROMOSOMES 1A; SMC3: STRUCTURAL MAINTENANCE OF CHROMOSOMES 3; SNV: SINGLE NUCLEOTIDE VARIANT; SOX2: SRY-BOX 2; SOX17: SRY-BOX 17; SSS: SICK SINUS SYNDROME; STAG2: COHESIN SUBUNIT SA-2; TADS: TOPOLOGY ASSOCIATED DOMAINS; TBX: T-BOX TRANSCRIPTION FACTORS; TGF-BETA: TRANSFORMING GROWTH FACTOR BETA; TGFBR: TRANSFORMING GROWTH FACTOR BETA RECEPTOR; TOF: TETRALOGY OF FALLOT; TREK1: TREK-1 K(+) CHANNEL SUBUNIT; VSD: VENTRICULAR SEPTAL DEFECT; WABS: WARSAW BREAKAGE SYNDROME; WAPL: WAPL COHESIN RELEASE FACTOR. 2019 2 5677 43 SHORT AIP1 (ASK1-INTERACTING PROTEIN-1) ISOFORM LOCALIZES TO THE MITOCHONDRIA AND PROMOTES VASCULAR DYSFUNCTION. OBJECTIVE: VASCULAR ENDOTHELIAL CELLS (ECS) NORMALLY MAINTAIN VASCULAR HOMEOSTASIS AND ARE REGULATED BY PROINFLAMMATORY CYTOKINES AND REACTIVE OXYGEN SPECIES. A HUMAN GENOME-WIDE ASSOCIATION STUDY IDENTIFIED THAT AIP1 (ASK1 [APOPTOSIS SIGNAL-REGULATING KINASE 1]-INTERACTING PROTEIN-1; ALSO IDENTIFIED AS DAB2IP) GENE VARIANTS CONFER SUSCEPTIBILITY TO CARDIOVASCULAR DISEASE, BUT THE UNDERLYING MECHANISM IS UNKNOWN. APPROACH AND RESULTS: WE DETECTED A NORMAL AIP1 FORM (NAMED AIP1A) IN THE HEALTHY AORTA, BUT A SHORTER FORM OF AIP1 (NAMED AIP1B) WAS FOUND IN DISEASED AORTAE THAT CONTAINED ATHEROSCLEROTIC PLAQUES AND GRAFT ARTERIOSCLEROSIS. AIP1B TRANSCRIPTION IN RESTING ECS WAS SUPPRESSED THROUGH EPIGENETIC INHIBITION BY RIF1 (RAP1 [RAS-RELATED PROTEIN 1]-INTERACTING FACTOR 1)/H3K9 (HISTONE H3 LYSINE 9) METHYLTRANSFERASE-MEDIATED H3K9 TRIMETHYLATION, AND THIS INHIBITION WAS RELEASED BY PROINFLAMMATORY CYTOKINES. AIP1A, BUT NOT AIP1B, WAS DOWNREGULATED BY PROTEOLYTIC DEGRADATION THROUGH A SMURF1 (SMAD [SUPPRESSOR OF MOTHERS AGAINST DECAPENTAPLEGIC MISCELLANEOUS] UBIQUITYLATION REGULATORY FACTOR 1)-DEPENDENT PATHWAY IN ECS UNDER INFLAMMATION. THEREFORE, AIP1B WAS THE MAJOR FORM PRESENT DURING INFLAMMATORY CONDITIONS. AIP1B, WHICH LACKS THE N-TERMINAL PLECKSTRIN HOMOLOGY DOMAIN OF AIP1A, LOCALIZED TO THE MITOCHONDRIA AND AUGMENTED TNFALPHA (TUMOR NECROSIS FACTOR ALPHA)-INDUCED MITOCHONDRIAL REACTIVE OXYGEN SPECIES GENERATION AND EC ACTIVATION. AIP1B-ECTG (EC-SPECIFIC AIP1B TRANSGENIC) MICE EXHIBITED AUGMENTED REACTIVE OXYGEN SPECIES PRODUCTION, EC ACTIVATION, AND NEOINTIMA FORMATION IN VASCULAR REMODELING MODELS. CONCLUSIONS: OUR CURRENT STUDY SUGGESTS THAT A SHIFT FROM ANTI-INFLAMMATORY AIP1A TO PROINFLAMMATORY AIP1B DURING CHRONIC INFLAMMATION PLAYS A KEY ROLE IN INFLAMMATORY VASCULAR DISEASES. 2020 3 1441 38 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 4 216 34 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 5 1016 35 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 6 5487 32 REVERSIBLE ALTERATION IN THE EXPRESSION OF THE GAP JUNCTIONAL PROTEIN CONNEXIN 32 DURING TUMOR PROMOTION IN RAT LIVER AND ITS ROLE DURING CELL PROLIFERATION. ALTHOUGH NUMEROUS BIOCHEMICAL MARKERS CAN IDENTIFY PUTATIVE PRENEOPLASTIC ALTERED HEPATIC FOCI (AHF) IN RAT LIVER, NO CONSISTENT PATTERN OF EXPRESSION DURING HEPATOCARCINOGENESIS HAS EMERGED. USING QUANTITATIVE STEREOLOGIC ANALYSES WE DEMONSTRATED THAT DECREASED EXPRESSION OF THE MAJOR HEPATOCYTE GAP JUNCTION PROTEIN, CONNEXIN 32 (CX32), IN RAT AHF IS A CONSISTENT OBSERVATION IN SEVERAL PROTOCOLS OF MULTISTAGE HEPATOCARCINOGENESIS. THIS CHANGE WAS OBSERVED AFTER INITIATION BY EITHER ETHYLNITROSOUREA (ENU) OR DIETHYLNITROSAMINE (DEN), FOLLOWED BY PROMOTION WITH PHENOBARBITAL (PB), DIOXIN, CHLORENDIC ACID, C.I. SOLVENT YELLOW, OR TAMOXIFEN. AHF GENERATED BY WY-14,643, CIPROFIBRATE, AND A CHOLINE/METHIONINE-DEFICIENT DIETARY REGIMEN ALSO SHOWED DECREASED CX32 EXPRESSION. THE DECREASE OF CX32 IN AHF WAS RAPIDLY REVERSIBLE AFTER WITHDRAWAL OF PB, AND THIS CHANGE PRECEDED A REDUCTION IN PLACENTAL ISOZYME OF GLUTATHIONE-S-TRANSFERASE (GST) EXPRESSION IN THE SAME AHF. WITHIN 20 DAYS OF WITHDRAWAL, FEWER THAN 4% OF GST-POSITIVE AHF WERE CX32 DEFICIENT, WHILE THE VOLUME OF TOTAL AHF DECREASED 30%. CHRONIC PB TREATMENT ALSO RESULTED IN A REVERSIBLE DECREASE IN CX32 SPECIFICALLY IN MID- AND CENTRO-LOBULAR HEPATOCYTES. CONTINUOUS THYMIDINE LABELING DEMONSTRATED THAT CX32 COULD BE UNCOUPLED FROM THE CELL CYCLE, SUGGESTING THAT SOME LIVER PROMOTERS MAY ACT DIRECTLY TO ALTER THE EXPRESSION OF CX32. THESE OBSERVATIONS SUGGEST THAT A DECREASE IN CX32 CONTENT WAS A RELATIVELY COMMON EPIGENETIC CHANGE IN AHF INDUCED DURING HEPATOCARCINOGENESIS BY A NUMBER OF INITIATING AND PROMOTING AGENTS BUT THAT THIS CHANGE WAS NOT SUFFICIENT FOR CARCINOGENESIS. THIS CHANGE, HOWEVER, MAY BE NECESSARY FOR THE MECHANISM(S) OF TUMOR PROMOTION, SINCE CX32-POSITIVE AHF DID NOT PROLIFERATE AS READILY AS CX32-DEFICIENT AHF. 1990 7 5017 29 PERSISTENT INFECTION OF CULTURED CELLS WITH MOUSE HEPATITIS VIRUS (MHV) RESULTS FROM THE EPIGENETIC EXPRESSION OF THE MHV RECEPTOR. THE A59 STRAIN OF MURINE CORONAVIRUS MOUSE HEPATITIS VIRUS (MHV) CAN CAUSE PERSISTENT INFECTION OF 17C1-1 CELLS AND OTHER MURINE CELL LINES. PERSISTENTLY INFECTED CULTURES RELEASED LARGE AMOUNTS OF VIRUS (10(7) TO 10(8) PFU/ML) AND WERE RESISTANT TO SUPERINFECTION WITH MHV BUT NOT TO INFECTION WITH UNRELATED SEMLIKI FOREST AND VESICULAR STOMATITIS VIRUSES. THE CULTURE MEDIUM FROM PERSISTENTLY INFECTED CULTURES DID NOT CONTAIN A SOLUBLE INHIBITOR SUCH AS INTERFERON THAT PROTECTED UNINFECTED CELLS FROM INFECTION BY MHV OR VESICULAR STOMATITIS VIRUS. THE PERSISTENT INFECTION WAS CURED IF FEWER THAN 100 CELLS WERE TRANSFERRED DURING SUBCULTURING, AND SUCH CURED CULTURES WERE SUSCEPTIBLE TO REINFECTION AND THE REESTABLISHMENT OF PERSISTENT INFECTION. CULTURES OF 17C1-1 CELLS THAT HAD BEEN NEWLY CLONED FROM SINGLE CELLS CONSISTED OF A MIXTURE OF MHV-RESISTANT AND -SUSCEPTIBLE CELLS. 17C1-1/#97 CELLS, WHICH WERE CURED BY SUBCLONING AFTER 97 PASSAGES OF A PERSISTENTLY INFECTED CULTURE OVER A 1-YEAR PERIOD, CONTAINED 5 TO 10% OF THEIR POPULATION AS SUSCEPTIBLE CELLS, WHILE 17C1-1/#402 CELLS, WHICH WERE CURED BY SUBCLONING AFTER 402 PASSAGES OVER A 3-YEAR PERIOD, HAD LESS THAN 1% SUSCEPTIBLE CELLS. SUSCEPTIBILITY TO INFECTION CORRELATED WITH THE EXPRESSION OF MHV RECEPTOR GLYCOPROTEIN (MHVR [BGP1A]). FLUORESCENCE-ACTIVATED CELL SORTER ANALYSIS WITH ANTIBODY TO MHVR SHOWED THAT 17C1-1/#97 CELLS CONTAINED A SMALL FRACTION OF MHVR-EXPRESSING CELLS. THESE MHVR-EXPRESSING CELLS WERE SELECTIVELY ELIMINATED WITHIN 24 H AFTER CHALLENGE WITH MHV-A59, AND PRETREATMENT OF 17C1-1/#97 CELLS WITH MONOCLONAL ANTIBODY CC1, WHICH BINDS TO THE N-TERMINAL DOMAIN OF MHVR, BLOCKED INFECTION. WE CONCLUDE THAT THE SUBPOPULATION OF MHVR-EXPRESSING CELLS WERE INFECTED AND KILLED IN ACUTELY OR PERSISTENTLY INFECTED CULTURES, WHILE THE SUBPOPULATION OF MHVR-NONEXPRESSING CELLS SURVIVED AND PROLIFERATED. THE SUBPOPULATION OF MHVR-NEGATIVE CELLS PRODUCED A SMALL PROPORTION OF PROGENY CELLS THAT EXPRESSED MHVR AND BECAME INFECTED, THEREBY MAINTAINING THE PERSISTENT INFECTION AS A STEADY-STATE CARRIER CULTURE. THUS, IN 17C1-1 CELL CULTURES, THE UNSTABLE OR EPIGENETIC EXPRESSION OF MHVR PERMITTED THE ESTABLISHMENT OF A PERSISTENT, CHRONIC INFECTION. 1995 8 16 39 4CRNA NEAT1 SPONGE ADSORPTION OF MIR-378 MODULATES ACTIVITY OF LIPOPOLYSACCHARIDE-TREATED ARTICULAR CHONDROCYTES AND INFLUENCES THE PATHOLOGICAL DEVELOPMENT OF OSTEOARTHRITIS. CONTEXT: OSTEOARTHRITIS (OA) IS A CHRONIC JOINT DISEASE THAT CAN EVENTUALLY LEAD TO DEGENERATION, FIBROSIS, FRACTURES, AND DEFECTS OF THE ARTICULAR CARTILAGE. LONG NON-CODING RNA (LNCRNA) IS A KEY SUBSTANCE IN MANY PROCESSES, SUCH AS EPIGENETIC REGULATION AND CELL-CYCLE AND CELL-DIFFERENTIATION MODULATION, AND ITS RELATIONSHIP WITH OA HAS BEEN REPEATEDLY VERIFIED. OBJECTIVE: THE STUDY INTENDED TO CLARIFY THE INFLUENCE OF LNCRNA NUCLEAR ENRICHED ABUNDANT TRANSCRIPT 1 (NEAT1), LNCRNA NEAT1, ON LIPOPOLYSACCHARIDE (LPS)-INDUCED OA CHONDROCYTES THROUGH SPONGE ADSORPTION OF MICRORNA-378 (MIR-378) AND TO PROVIDE NOVEL INSIGHTS INTO FUTURE DIAGNOSIS AND TREATMENT OF OA. DESIGN: THE RESEARCH TEAM PERFORMED AN ANIMAL STUDY. SETTING: THE STUDY TOOK PLACE IN THE DEPARTMENT OF REHABILITATION MEDICINE AT LINYI PEOPLE'S HOSPITAL IN LINYI, SHANGDONG, CHINA. ANIMALS: THE STUDY'S ANIMALS WERE 10 SPRAGUE DAWLEY (SD) RATS, 3-5 DAYS OLD AND 10-15 G IN WEIGHT, OF THE SPECIFIC-PATHOGEN-FREE (SPF) GRADE. INTERVENTION: THE RAT CHONDROCYTES FOR THE POSITIVE CONTROL GROUP (THE MODEL GROUP) WERE TREATED WITH 500 NG/ML OF LPS TO INDUCE OA. CHONDROCYTES TREATED WITH THE SAME AMOUNT OF NORMAL SALINE WERE USED AS THE NEGATIVE CONTROL GROUP. THE CHONDROCYTES OF THE LPS-INDUCED RATS WERE INTO SIX GROUPS: (1) A POSITIVE CONTROL GROUP TRANSFECTED WITH NEAT1-INTERFERING RNA, THE SH-NEAT1 GROUP; (2) A NEGATIVE CONTROL GROUP NOT TRANSFECTED WITH NEAT1-INTERFERING RNA, THE NEAT1 EMPTY VECTOR (NC-NEAT1) GROUP; (3) AN INTERVENTION GROUP CO-TRANSFECTED WITH NEAT1 INTERFERING RNA AND THE MIR-378 INHIBITOR SEQUENCE (INH-MIR-378 THE SH-NEAT1+ INH-MIR-378 GROUP; (4) A NEGATIVE CONTROL GROUP TRANSFECTED WITH NEAT1 INTERFERING RNA BUT NOT TRANSFECTED WITH THE MIR-378 INHIBITOR SEQUENCE, THE SH-NEAT1+ MIR-378 NEGATIVE CONTROL (NC-MIR-378) GROUP; (5) A NEGATIVE CONTROL GROUP TRANSFECTED WITH THE MIR-378 INHIBITOR SEQUENCE BUT NOT TRANSFECTED WITH NEAT1 INTERFERING RNA, THE NEAT1 EMPTY VECTOR (NC-NEAT1) + INH-MIR-378 GROUP; (6) A NEGATIVE CONTROL GROUP NOT TRANSFECTED WITH EITHER NEAT1 INTERFERING RNA OR THE MIR-378 INHIBITOR SEQUENCE, THE NC-NEAT1 + NC-MIR-378 GROUP. OUTCOME MEASURES: AN OA-CHONDROCYTE MODEL WAS INDUCED BY LPS AND MEASUREMENTS OF NEAT1 AND MIR-378 EXPRESSION WERE MADE BY REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTION (QRT)- POLYMERASE CHAIN REACTION (PCR). THEN, SMALL NEAT1-INTERFERING RNA (SH-NEAT1), EMPTY VECTOR NEAT1 (NC-NEAT1), INHIBITOR-SEQUENCE-MIR-378 (INH-MIR-378), AND NEGATIVE-CONTROL-MIR-378 (NC-MIR-378) WERE TRANSFECTED INTO CELLS, AND CELL VIABILITY AND APOPTOSIS RATE WERE MEASURED. FINALLY, THE STUDY VERIFIED THE RELATIONSHIP BETWEEN NEAT1 AND MIR-378. RESULTS: COMPARED TO THE CONTROL GROUP, NEAT1 WAS SIGNIFICANTLY ELEVATED IN THE MODEL GROUP, AND ITS MIR-378 WAS SIGNIFICANTLY DECREASED. SILENCING NEAT1 CAN ENHANCE OA-CHONDROCYTE ACTIVITY AND DECREASE APOPTOSIS. WHEN NEAT1 AND MIR-378 WERE INHIBITED TOGETHER, AS SHOWN FORT THE NC-NEAT1 + NC-MIR-378 GROUP, NEAT1 EXPRESSION, AS WELL AS THE MULTIPLICATION AND APOPTOSIS ABILITY OF THE OA-MODEL CELLS, WERE THE SAME AS THOSE OF CELLS TRANSFECTED WITH AN EMPTY VECTOR, THE NC-NEAT1 GROUP. ALSO, THE NEAT1 + NC-MIR-378 GROUP'S CELL ACTIVITY WAS LOWER THAN THAT OF THE SH-NEAT1+NC-MIR-378 GROUP BUT HIGHER THAN THAT OF THE NC-NEAT1 + INH-MIR-378 GROUP. FINALLY, HIGHER FLUORESCENCE ACTIVITY OCCURRED FOR NEAT1-MUTANT TYPE (MUT) TRANSFECTED WITH INH-MIR-378. CONCLUSIONS: NEAT1, WHICH IS HIGHLY EXPRESSED IN OA, MEDIATES LPS-INDUCED OA-CHONDROCYTE ACTIVITY THROUGH SPONGE ADSORPTION OF MIR-378. 2022 9 2080 33 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 10 1217 36 CREG PROTECTS FROM MYOCARDIAL ISCHEMIA/REPERFUSION INJURY BY REGULATING MYOCARDIAL AUTOPHAGY AND APOPTOSIS. AIMS: HUMAN CELLULAR REPRESSOR OF E1A-STIMULATED GENES (CREG) IS A SECRETED GLYCOPROTEIN THAT REGULATES TISSUE AND CELL HOMEOSTASIS AND HAS BEEN SHOWN TO ANTAGONIZE HEART FIBROSIS, WHICH INDICATES A POTENTIAL PROTECTIVE EFFECT OF CREG AGAINST CARDIOMYOCYTE CHRONIC DAMAGE. HOWEVER, LITTLE IS KNOWN ABOUT THE ROLE OF CREG IN MYOCARDIAL TISSUE ACUTE INJURY, IN THIS STUDY, WE AIMED TO INVESTIGATE THE ROLE OF CREG IN MYOCARDIAL ISCHEMIA/REPERFUSION (MI/R) INJURY AND CLARIFY THE MECHANISM OF ACTION. METHODS AND RESULTS: WILD-TYPE CREG (CREG(+/+)), HETEROZYGOUS CREG (CREG(+/-)) MICE AND MICE PRETREATED WITH INFUSION OF RECOMBINANT 0.3MG/KG.D CREG PROTEIN (RECREG(+/+)) WERE SUBJECTED TO 30MIN OF LEFT ASCENDING CORONARY ISCHEMIA AND 24H OF REPERFUSION. EVAN'S BLUE-TRIPHENYL- TETRAZOLIUM CHLORIDE (TTC) SOLUTION AND ECHOCARDIOGRAPHY ANALYSIS WERE USED TO EVALUATE THE EFFECTS OF CREG ON MI/R MICE. THE UNDERLYING MECHANISMS WERE FURTHER DETERMINED BY CULTURED MYOCARDIAL CELLS IN VITRO. OUR FINDINGS REVEALED THAT THE LEVEL OF CREG PROTEIN IN MOUSE HEARTS WAS SIGNIFICANTLY DECREASED AFTER MICE WERE SUBJECTED TO MI/R. MOREOVER, CREG(+/-) MICE HAD LARGER INFARCTION SIZE 2H AFTER REPERFUSION AND WORSE CARDIAC FUNCTION 28DAYS AFTER MI/R INJURY COMPARED TO THAT IN CREG(+/+) MICE. HOWEVER, RECREG(+/+) MICE COULD MAINTAIN CREG AT A HIGH LEVEL EVEN AFTER MI/R INJURY, AND MITIGATED INFARCTION SIZE AND IMPROVED CARDIAC FUNCTION SIGNIFICANTLY. IN CREG(+/-) MICE, MYOCARDIAL AUTOPHAGY WAS DYSFUNCTIONAL CHARACTERIZED BY ACCUMULATION OF LC3A AND P62, WHILE APOPTOTIC CELL NUMBER INCREASE WAS DETECTED BY CLEAVED CASPASE-3 BLOTTING AND TUNEL STAINING. CONVERSELY, DECREASED APOPTOSIS AND ACTIVATED AUTOPHAGY WERE DETECTED IN RECREG(+/+) MICE. FURTHERMORE, CHLOROQUINE, A KIND OF AUTOPHAGY BLOCKER, WAS USED TO DEMONSTRATE RECOMBINANT CREG PROTECTED CARDIOMYOCYTES AGAINST APOPTOSIS MEDIATED BY ACTIVATING AUTOPHAGY BOTH IN VIVO AND IN VITRO. FINALLY, WE FOUND CREG WAS INVOLVED INTO LYSOSOMAL PROTEIN TRANSFER AND IMPROVE CELLULAR AUTOPHAGY. CONCLUSION: CREG PROTECTS HEART AGAINST MI/R INJURY-INDUCED CARDIOMYOCYTES APOPTOSIS BY ACTIVATING LYSOSOMAL AUTOPHAGY. THIS ARTICLE IS PART OF A SPECIAL ISSUE ENTITLED: GENETIC AND EPIGENETIC CONTROL OF HEART FAILURE - EDITED BY JUN REN AND MEGAN YINGMEI ZHANG. 2017 11 1013 50 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 12 768 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 13 760 33 CASZ1: CURRENT IMPLICATIONS IN CARDIOVASCULAR DISEASES AND CANCERS. CASTOR ZINC FINGER 1 (CASZ1) IS A C2H2 ZINC FINGER FAMILY PROTEIN THAT HAS TWO SPLICING VARIANTS, CASZ1A AND CASZ1B. IT IS INVOLVED IN MULTIPLE PHYSIOLOGICAL PROCESSES, SUCH AS TISSUE DIFFERENTIATION AND ALDOSTERONE ANTAGONISM. GENETIC AND EPIGENETIC ALTERNATIONS OF CASZ1 HAVE BEEN CHARACTERIZED IN MULTIPLE CARDIOVASCULAR DISORDERS, SUCH AS CONGENITAL HEART DISEASES, CHRONIC VENOUS DISEASES, AND HYPERTENSION. HOWEVER, LITTLE IS KNOWN ABOUT HOW CASZ1 MECHANICALLY PARTICIPATES IN THE PATHOGENESIS OF THESE DISEASES. OVER THE PAST DECADES, AT FIRST GLANCE, PARADOXICAL INFLUENCES ON CELL BEHAVIORS AND PROGRESSIONS OF DIFFERENT CANCER TYPES HAVE BEEN DISCOVERED FOR CASZ1, WHICH MAY BE EXPLAINED BY A "DOUBLE-AGENT" ROLE FOR CASZ1. IN THIS REVIEW, WE DISCUSS THE PHYSIOLOGICAL FUNCTION OF CASZ1, AND FOCUS ON THE ASSOCIATION OF CASZ1 ABERRATIONS WITH THE PATHOGENESIS OF CARDIOVASCULAR DISEASES AND CANCERS. 2023 14 1951 40 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 15 681 37 BRAIN LIPOTOXICITY OF PHYTANIC ACID AND VERY LONG-CHAIN FATTY ACIDS. HARMFUL CELLULAR/MITOCHONDRIAL ACTIVITIES IN REFSUM DISEASE AND X-LINKED ADRENOLEUKODYSTROPHY. IT IS INCREASINGLY UNDERSTOOD THAT IN THE AGING BRAIN, ESPECIALLY IN THE CASE OF PATIENTS SUFFERING FROM NEURODEGENERATIVE DISEASES, SOME FATTY ACIDS AT PATHOLOGICALLY HIGH CONCENTRATIONS EXERT DETRIMENTAL ACTIVITIES. TO STUDY SUCH ACTIVITIES, WE HERE ANALYZE GENETIC DISEASES, WHICH ARE DUE TO COMPROMISED METABOLISM OF SPECIFIC FATTY ACIDS, EITHER THE BRANCHED-CHAIN PHYTANIC ACID OR VERY LONG-CHAIN FATTY ACIDS (VLCFAS). MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID OR OF VLCFAS DISTURB THE INTEGRITY OF NEURAL CELLS BY IMPAIRING CA(2+) HOMEOSTASIS, ENHANCING OXIDATIVE STRESS OR DE-ENERGIZING MITOCHONDRIA. FINALLY, THESE COMBINED HARMFUL ACTIVITIES ACCELERATE CELL DEATH. MITOCHONDRIA ARE MORE SEVERELY TARGETED BY PHYTANIC ACID THAN BY VLCFAS. THE INSERTION OF VLCFAS INTO THE INNER MEMBRANE DISTORTS THE ARRANGEMENT OF MEMBRANE CONSTITUENTS AND THEIR FUNCTIONAL INTERACTIONS. PHYTANIC ACID EXERTS SPECIFIC PROTONOPHORIC ACTIVITY, INDUCES REACTIVE OXYGEN SPECIES (ROS) GENERATION, AND REDUCES ATP GENERATION. A CLEAR INHIBITION OF THE NA(+), K(+)-ATPASE ACTIVITY BY PHYTANIC ACID HAS ALSO BEEN REPORTED. IN ADDITION TO THE INSTANTANEOUS EFFECTS, A CHRONIC EXPOSURE OF BRAIN CELLS TO LOW MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID MAY PRODUCE NEURONAL DAMAGE IN REFSUM DISEASE BY ALTERING EPIGENETIC TRANSCRIPTIONAL REGULATION. MYELIN-PRODUCING OLIGODENDROCYTES RESPOND WITH PARTICULAR SENSITIVITY TO VLCFAS. DELETERIOUS ACTIVITY OF VLCFAS ON ENERGY-DEPENDENT MITOCHONDRIAL FUNCTIONS DECLINES WITH INCREASING THE HYDROCARBON CHAIN LENGTH (C22:0 > C24:0 > C26:0). IN CONTRAST, THE REVERSE SEQUENCE HOLDS TRUE FOR CELL DEATH INDUCTION BY VLCFAS (C22:0 < C24:0 < C26:0). IN ADRENOLEUKODYSTROPHY, THE UPTAKE OF VLCFAS BY PEROXISOMES IS IMPAIRED BY DEFECTS OF THE ABCD1 TRANSPORTER. STUDYING MITOCHONDRIA FROM ABCD1-DEFICIENT AND WILD-TYPE MICE PROVES THAT THE ENERGY-DEPENDENT FUNCTIONS ARE NOT ALTERED IN THE DISEASE MODEL. THUS, A DEFECTIVE ABCD1 APPARENTLY EXERTS NO OBVIOUS ADAPTIVE PRESSURE ON MITOCHONDRIA. FURTHER RESEARCH HAS TO ELUCIDATE THE DETAILED MECHANISTIC BASIS FOR THE FAILURES CAUSING FATTY ACID-MEDIATED NEURODEGENERATION AND SHOULD HELP TO PROVIDE POSSIBLE THERAPEUTIC INTERVENTIONS. 2016 16 1843 30 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 17 1421 26 DIFFERENTIAL BRAIN ADRA2A AND ADRA2C GENE EXPRESSION AND EPIGENETIC REGULATION IN SCHIZOPHRENIA. EFFECT OF ANTIPSYCHOTIC DRUG TREATMENT. POSTSYNAPTIC ALPHA(2A)-ADRENOCEPTOR DENSITY IS ENHANCED IN THE DORSOLATERAL PREFRONTAL CORTEX (DLPFC) OF ANTIPSYCHOTIC-TREATED SCHIZOPHRENIA SUBJECTS. THIS ALTERATION MIGHT BE DUE TO TRANSCRIPTIONAL ACTIVATION, AND COULD BE REGULATED BY EPIGENETIC MECHANISMS SUCH AS HISTONE POSTTRANSLATIONAL MODIFICATIONS (PTMS). THE AIM OF THIS STUDY WAS TO EVALUATE ADRA2A AND ADRA2C GENE EXPRESSION (CODIFYING FOR ALPHA(2)-ADRENOCEPTOR SUBTYPES), AND PERMISSIVE AND REPRESSIVE HISTONE PTMS AT GENE PROMOTER REGIONS IN THE DLPFC OF SUBJECTS WITH SCHIZOPHRENIA AND MATCHED CONTROLS (N = 24 PAIRS). WE STUDIED THE EFFECT OF ANTIPSYCHOTIC (AP) TREATMENT IN AP-FREE (N = 12) AND AP-TREATED (N = 12) SUBGROUPS OF SCHIZOPHRENIA SUBJECTS AND IN RATS ACUTELY AND CHRONICALLY TREATED WITH TYPICAL AND ATYPICAL ANTIPSYCHOTICS. ADRA2A MRNA EXPRESSION WAS SELECTIVELY UPREGULATED IN AP-TREATED SCHIZOPHRENIA SUBJECTS (+93%) WHEREAS ADRA2C MRNA EXPRESSION WAS UPREGULATED IN ALL SCHIZOPHRENIA SUBJECTS (+53%) REGARDLESS OF ANTIPSYCHOTIC TREATMENT. ACUTE AND CHRONIC CLOZAPINE TREATMENT IN RATS DID NOT ALTER BRAIN CORTEX ADRA2A MRNA EXPRESSION BUT INCREASED ADRA2C MRNA EXPRESSION. BOTH ADRA2A AND ADRA2C PROMOTER REGIONS SHOWED EPIGENETIC MODIFICATION BY HISTONE METHYLATION AND ACETYLATION IN HUMAN DLPFC. THE UPREGULATION OF ADRA2A EXPRESSION IN AP-TREATED SCHIZOPHRENIA SUBJECTS MIGHT BE RELATED TO OBSERVED BIVALENT CHROMATIN AT ADRA2A PROMOTER REGION IN SCHIZOPHRENIA (DEPICTED BY INCREASED PERMISSIVE H3K4ME3 AND REPRESSIVE H3K27ME3) AND COULD BE TRIGGERED BY THE ENHANCED H4K16AC AT ADRA2A PROMOTER. IN CONCLUSION, EPIGENETIC PREDISPOSITION DIFFERENTIALLY MODULATED ADRA2A AND ADRA2C MRNA EXPRESSION IN DLPFC OF SCHIZOPHRENIA SUBJECTS. 2021 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 2649 30 EPIGENOMIC, GENOMIC, AND TRANSCRIPTOMIC LANDSCAPE OF SCHWANNOMATOSIS. SCHWANNOMATOSIS (SWNTS) IS A GENETIC CANCER PREDISPOSITION SYNDROME THAT MANIFESTS AS MULTIPLE AND OFTEN PAINFUL NEURONAL TUMORS CALLED SCHWANNOMAS (SWNS). WHILE GERMLINE MUTATIONS IN SMARCB1 OR LZTR1, PLUS SOMATIC MUTATIONS IN NF2 AND LOSS OF HETEROZYGOSITY IN CHROMOSOME 22Q HAVE BEEN IDENTIFIED IN A SUBSET OF PATIENTS, LITTLE IS KNOWN ABOUT THE EPIGENOMIC AND GENOMIC ALTERATIONS THAT DRIVE SWNTS-RELATED SWNS (SWNTS-SWNS) IN A MAJORITY OF THE CASES. WE PERFORMED MULTIPLATFORM GENOMIC ANALYSIS AND ESTABLISHED THE MOLECULAR SIGNATURE OF SWNTS-SWNS. WE SHOW THAT SWNTS-SWNS HARBOR DISTINCT GENOMIC FEATURES RELATIVE TO THE HISTOLOGICALLY IDENTICAL NON-SYNDROMIC SPORADIC SWNS (NS-SWNS). WE DEMONSTRATE THE EXISTENCE OF FOUR DISTINCT DNA METHYLATION SUBGROUPS OF SWNTS-SWNS THAT ARE ASSOCIATED WITH SPECIFIC TRANSCRIPTIONAL PROGRAMS AND TUMOR LOCATION. WE SHOW SEVERAL NOVEL RECURRENT NON-22Q DELETIONS AND STRUCTURAL REARRANGEMENTS. WE DETECTED THE SH3PXD2A-HTRA1 GENE FUSION IN SWNTS-SWNS, WITH PREDOMINANCE IN LZTR1-MUTANT TUMORS. IN ADDITION, WE IDENTIFIED SPECIFIC GENETIC, EPIGENETIC, AND ACTIONABLE TRANSCRIPTIONAL PROGRAMS ASSOCIATED WITH PAINFUL SWNTS-SWNS INCLUDING PIGF, VEGF, MEK, AND MTOR PATHWAYS, WHICH MAY BE HARNESSED FOR MANAGEMENT OF THIS SYNDROME. 2021 20 6636 47 UNRAVELING A NEW PLAYER IN MULTIPLE SCLEROSIS PATHOGENESIS: THE RNA-BINDING PROTEIN HUR. BACKGROUND: ELAV-LIKE PROTEINS ARE A SMALL FAMILY OF RNA-BINDING PROTEINS THAT ARE FUNDAMENTAL PLAYERS IN POST-TRANSCRIPTIONAL MECHANISMS AND ARE INVOLVED IN THE PATHOGENESIS OF NEUROLOGIC AND PSYCHIATRIC DISORDERS. HUR, THE UBIQUITOUSLY EXPRESSED MEMBER OF THE FAMILY, IS ALSO IMPLICATED IN SUSTAINING INFLAMMATION AND INFLAMMATORY DISEASES, SUPPORTING THE PRODUCTION OF PRO-INFLAMMATORY CYTOKINES. INFLAMMATION PLAYS A CENTRAL ROLE IN MULTIPLE SCLEROSIS (MS), WHICH REPRESENTS THE MOST COMMON CAUSE OF PERMANENT PHYSICAL DISABILITY IN YOUNG ADULTS. MS IS A CHRONIC AUTOIMMUNE DISEASE AFFECTING THE CENTRAL NERVOUS SYSTEM, WITH A COMPLEX AETIOLOGY INVOLVING GENETIC, ENVIRONMENTAL AND EPIGENETIC FACTORS. NO DATA ARE AVAILABLE ON THE POTENTIAL ENTANGLEMENT OF HUR IN MS PATHOGENESIS IN PATIENTS. IN THE PRESENT WORK, WE AIMED AT EXPLORING HUR PROTEIN LEVELS IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM MS PATIENTS, COMPARED TO HEALTHY CONTROLS. TO FURTHER ELUCIDATE THE POSSIBLE INVOLVEMENT OF HUR IN MS, WE ALSO INVESTIGATED THE RELATIONSHIP BETWEEN THIS SPECIFIC RNA-BINDING PROTEIN AND HSP70-2 PROTEIN, ALSO CONSIDERING THE HSP70-2 RS1061581 POLYMORPHISM, GIVEN THAT HSP70-2 MRNA HAS BEEN REPORTED AS A HUR TARGET AND THIS SPECIFIC POLYMORPHISM TO BE ASSOCIATED WITH MS RISK. METHODS: ALLELES AND GENOTYPES FOR HSP70-2 RS1061581 POLYMORPHISM WERE ASSESSED, BY USING A POLYMERASE CHAIN REACTION-RESTRICTION FRAGMENT LENGTH POLYMORPHISM, FOLLOWED BY DIGESTION WITH RESTRICTION ENZYME, IN MS PATIENTS AND HEALTHY CONTROLS. PBMCS FROM A SUBGROUP OF PATIENTS AND CONTROLS WERE USED TO EVALUATE HUR AND HSP70-2 PROTEIN CONTENT BY WESTERN BLOT. RESULTS: PBMCS FROM 52 MS PATIENTS HAD A LOWER HUR AND HIGHER HSP70-2 PROTEIN CONTENT COMPARED TO 43 HEALTHY CONTROLS. AN INCREASE OF 100 UNITS OF HUR SIGNIFICANTLY DECREASED THE RISK OF DEVELOPING MS BY 9.8% (OR: 0.902, 95% CI: 0.83-0.98), CONTROLLING FOR HSP70-2 PROTEIN EXPRESSION, HSP70-2 RS1061581 GENOTYPE, AGE AND SEX. MOREOVER, HOLDING HUR LEVELS, AN INCREASE OF 100 UNITS OF HSP70-2 PROTEIN SIGNIFICANTLY INCREASED THE MS RISK BY 18.1% (OR: 1.181, 95% CI: 1.03-1.36) AND THE GENETIC SUSCEPTIBILITY OF DEVELOPING MS FOR HSP70-2 RS1061581 GG CARRIERS IS CONFIRMED. OF INTEREST, MS PATIENTS WITH A MODERATE TO SEVERE FORM OF MS (MSSS >/= 3) SHOWED A TREND TOWARDS A REDUCTION OF HUR PROTEIN LEVELS COMPARED TO PATIENTS WITH MILD DISEASE SEVERITY (MSSS < 3). CONCLUSIONS: HUR PROTEIN LEVELS ARE REDUCED IN MS PATIENTS COMPARED TO HEALTHY SUBJECTS, AND THE PROTEIN AMOUNT MAY CONTINUE TO DECLINE WITH DISEASE PROGRESSION, SUGGESTING A PUTATIVE ROLE OF THIS RNA-BINDING PROTEIN. MOREOVER, OUR RESULTS SUGGEST THAT MS PATHOLOGY MAY HAVE DISRUPTED THE LINK BETWEEN HUR AND ITS TARGET TRANSCRIPT HSP70-2. IT WILL BE IMPORTANT TO FURTHER EXPLORE THE EXACT ROLE OF HUR IN MS, CONSIDERING THE COMPLEX INTERPLAY WITH OTHER RNA-BINDING FACTORS AND TARGET MRNAS. 2020