1 4706 151 NMP4/CIZ CLOSES THE PARATHYROID HORMONE ANABOLIC WINDOW. CHRONIC DEGENERATIVE DISEASES ARE INCREASING WITH THE AGING U.S. POPULATION. ONE CONSEQUENCE OF THIS PHENOMENON IS THE NEED FOR LONG-TERM OSTEOPOROSIS THERAPIES. PARATHYROID HORMONE (PTH), THE ONLY FDA-APPROVED TREATMENT THAT ADDS BONE TO THE AGED SKELETON, LOSES ITS POTENCY WITHIN TWO YEARS OF INITIAL TREATMENT BUT THE MECHANISM REGULATING ITS LIMITED "ANABOLIC WINDOW" IS UNKNOWN. WE HAVE DISCOVERED THAT DISABLING THE NUCLEOCYTOPLASMIC SHUTTLING TRANSCRIPTION FACTOR NUCLEAR MATRIX PROTEIN 4/CAS INTERACTING ZINC FINGER PROTEIN (NMP4/CIZ) IN MICE EXTENDS THE PTH BONE-FORMING CAPACITY. NMP4 WAS DISCOVERED DURING OUR SEARCH FOR NUCLEAR MATRIX TRANSCRIPTION FACTORS THAT COUPLE THIS HORMONE'S IMPACT ON OSTEOBLAST CYTOSKELETAL AND NUCLEAR ORGANIZATION WITH ITS ANABOLIC CAPACITY. CIZ WAS INDEPENDENTLY DISCOVERED AS A PROTEIN THAT ASSOCIATES WITH THE FOCAL ADHESION-ASSOCIATED MECHANOSENSOR P130CAS. THE NMP4/CIZ-KNOCKOUT (KO) SKELETAL PHENOTYPE EXHIBITS A MODESTLY ENHANCED BONE MINERAL DENSITY BUT MANIFESTS AN EXAGGERATED RESPONSE TO BOTH PTH AND TO BMP2 AND IS RESISTANT TO DISUSE-INDUCED BONE LOSS. THE CELLULAR BASIS OF THE GLOBAL NMP4/CIZ-KO SKELETAL PHENOTYPE REMAINS TO BE ELUCIDATED BUT MAY INVOLVE AN EXPANSION OF THE BONE MARROW OSTEOPROGENITOR POPULATION ALONG WITH MODESTLY ENHANCED OSTEOBLAST AND OSTEOCLAST ACTIVITIES SUPPORTING ANABOLIC BONE TURNOVER. AS A SHUTTLING CYS(2)HIS(2) ZINC FINGER PROTEIN, NMP4/CIZ ACTS AS A REPRESSIVE TRANSCRIPTION FACTOR PERHAPS ASSOCIATED WITH EPIGENETIC REMODELING COMPLEXES, BUT THE FUNCTIONAL SIGNIFICANCE OF ITS INTERACTION WITH P130CAS IS NOT KNOWN. DESPITE NUMEROUS REMAINING QUESTIONS, NMP4/CIZ PROVIDES INSIGHTS INTO HOW THE ANABOLIC WINDOW IS REGULATED, AND ITSELF MAY PROVIDE AN ADJUVANT THERAPY TARGET FOR THE TREATMENT OF OSTEOPOROSIS BY EXTENDING PTH ANABOLIC EFFICACY. 2012 2 5153 30 PPP2R2B HYPERMETHYLATION CAUSES ACQUIRED APOPTOSIS DEFICIENCY IN SYSTEMIC AUTOIMMUNE DISEASES. CHRONIC INFLAMMATION CAUSES TARGET ORGAN DAMAGE IN PATIENTS WITH SYSTEMIC AUTOIMMUNE DISEASES. THE FACTORS THAT ALLOW THIS PROTRACTED RESPONSE ARE POORLY UNDERSTOOD. WE ANALYZED THE TRANSCRIPTIONAL REGULATION OF PPP2R2B (B55SS), A MOLECULE NECESSARY FOR THE TERMINATION OF THE IMMUNE RESPONSE, IN PATIENTS WITH AUTOIMMUNE DISEASES. ALTERED EXPRESSION OF B55SS CONDITIONED RESISTANCE TO CYTOKINE WITHDRAWAL-INDUCED DEATH (CWID) IN PATIENTS WITH AUTOIMMUNE DISEASES. THE IMPAIRED UPREGULATION OF B55SS WAS CAUSED BY INFLAMMATION-DRIVEN HYPERMETHYLATION OF SPECIFIC CYTOSINES LOCATED WITHIN A REGULATORY ELEMENT OF PPP2R2B PREVENTING CTCF BINDING. THIS PHENOTYPE COULD BE INDUCED IN HEALTHY T CELLS BY EXPOSURE TO TNF-ALPHA. OUR RESULTS REVEAL A GENE WHOSE EXPRESSION IS AFFECTED BY AN ACQUIRED DEFECT, THROUGH AN EPIGENETIC MECHANISM, IN THE SETTING OF SYSTEMIC AUTOIMMUNITY. BECAUSE FAILURE TO REMOVE ACTIVATED T CELLS THROUGH CWID COULD CONTRIBUTE TO AUTOIMMUNE PATHOLOGY, THIS MECHANISM ILLUSTRATES A VICIOUS CYCLE THROUGH WHICH AUTOIMMUNE INFLAMMATION CONTRIBUTES TO ITS OWN PERPETUATION. 2019 3 5433 20 REL/NF-KAPPA B/I KAPPA B SIGNAL TRANSDUCTION IN THE GENERATION AND TREATMENT OF HUMAN CANCER. THE REL/NF-KAPPA B FAMILY IS A GROUP OF STRUCTURALLY-RELATED, TIGHTLY-REGULATED TRANSCRIPTION FACTORS THAT CONTROL THE EXPRESSION OF A MULTITUDE OF GENES INVOLVED IN KEY CELLULAR AND ORGANISMAL PROCESSES. THE REL/NF-KAPPA B SIGNAL TRANSDUCTION PATHWAY IS MISREGULATED IN A VARIETY OF HUMAN CANCERS, ESPECIALLY ONES OF LYMPHOID CELL ORIGIN, DUE EITHER TO GENETIC CHANGES (SUCH AS CHROMOSOMAL REARRANGEMENTS, AMPLIFICATIONS, AND MUTATIONS) OR TO CHRONIC ACTIVATION OF THE PATHWAY BY EPIGENETIC MECHANISMS. CONSTITUTIVE ACTIVATION OF THE REL/NF-KAPPA B PATHWAY CAN CONTRIBUTE TO THE ONCOGENIC STATE IN SEVERAL WAYS, FOR EXAMPLE, BY DRIVING PROLIFERATION, BY ENHANCING CELL SURVIVAL, OR BY PROMOTING ANGIOGENESIS OR METASTASIS. IN MANY CASES, INHIBITION OF REL/NF-KAPPA B ACTIVITY REVERSES ALL OR PART OF THE MALIGNANT STATE. THUS, THE REL/NF-KAPPA B PATHWAY HAS RECEIVED MUCH ATTENTION AS A FOCAL POINT FOR CLINICAL INTERVENTION. 2002 4 4968 33 PATHOLOGICAL MECHANISMS AND THERAPEUTIC OUTLOOKS FOR ARTHROFIBROSIS. ARTHROFIBROSIS IS A FIBROTIC JOINT DISORDER THAT BEGINS WITH AN INFLAMMATORY REACTION TO INSULTS SUCH AS INJURY, SURGERY AND INFECTION. EXCESSIVE EXTRACELLULAR MATRIX AND ADHESIONS CONTRACT POUCHES, BURSAE AND TENDONS, CAUSE PAIN AND PREVENT A NORMAL RANGE OF JOINT MOTION, WITH DEVASTATING CONSEQUENCES FOR PATIENT QUALITY OF LIFE. ARTHROFIBROSIS AFFECTS PEOPLE OF ALL AGES, WITH PUBLISHED RATES VARYING. THE RISK FACTORS AND BEST MANAGEMENT STRATEGIES ARE LARGELY UNKNOWN DUE TO A POOR UNDERSTANDING OF THE PATHOLOGY AND LACK OF DIAGNOSTIC BIOMARKERS. HOWEVER, CURRENT RESEARCH INTO THE PATHOGENESIS OF FIBROSIS IN ORGANS NOW INFORMS THE UNDERSTANDING OF ARTHROFIBROSIS. THE PROCESS BEGINS WHEN STRESS SIGNALS STIMULATE IMMUNE CELLS. THE RESULTING CASCADE OF CYTOKINES AND MEDIATORS DRIVES FIBROBLASTS TO DIFFERENTIATE INTO MYOFIBROBLASTS, WHICH SECRETE FIBRILLAR COLLAGENS AND TRANSFORMING GROWTH FACTOR-BETA (TGF-BETA). POSITIVE FEEDBACK NETWORKS THEN DYSREGULATE PROCESSES THAT NORMALLY TERMINATE HEALING PROCESSES. WE PROPOSE TWO SUBTYPES OF ARTHROFIBROSIS OCCUR: ACTIVE ARTHROFIBROSIS AND RESIDUAL ARTHROFIBROSIS. IN THE LATTER THE FIBROGENIC PROCESSES HAVE RESOLVED BUT THE JOINT REMAINS STIFF. THE BEST THERAPEUTIC APPROACH FOR EACH SUBTYPE MAY DIFFER SIGNIFICANTLY. TREATMENT TYPICALLY INVOLVES SURGERY, HOWEVER, A PHARMACOLOGICAL APPROACH TO CORRECT DYSREGULATED CELL SIGNALLING COULD BE MORE EFFECTIVE. RECENT RESEARCH SHOWS THAT MYOFIBROBLASTS ARE CAPABLE OF REVERSING DIFFERENTIATION, AND UNDERSTANDING THE MECHANISMS OF PATHOGENESIS AND RESOLUTION WILL BE ESSENTIAL FOR THE DEVELOPMENT OF CELL-BASED TREATMENTS. THERAPIES WITH SIGNIFICANT PROMISE ARE CURRENTLY AVAILABLE, WITH MORE IN DEVELOPMENT, INCLUDING THOSE THAT INHIBIT TGF-BETA SIGNALLING AND EPIGENETIC MODIFICATIONS. THIS REVIEW FOCUSES ON PATHOGENESIS OF STERILE ARTHROFIBROSIS AND THERAPEUTIC TREATMENTS. 2019 5 3465 35 HYPOTHESIS: REGULATION OF NEUROPLASTICITY MAY INVOLVE I-MOTIF AND G-QUADRUPLEX DNA FORMATION MODULATED BY EPIGENETIC MECHANISMS. RECENT STUDIES DEMONSTRATED THE EXISTENCE IN VIVO OF VARIOUS FUNCTIONAL DNA STRUCTURES THAT DIFFER FROM THE DOUBLE HELIX. THE G-QUADRUPLEX (G4) AND INTERCALATED MOTIF (I-MOTIF OR IM) DNA STRUCTURES ARE FORMED AS KNOTS WHERE, CORRESPONDINGLY, GUANINES OR CYTOSINES ON THE SAME STRAND OF DNA BIND TO EACH OTHER. THERE ARE GROUNDS TO BELIEVE THAT G4 AND IM SEQUENCES PLAY A SIGNIFICANT ROLE IN REGULATING GENE EXPRESSION CONSIDERING THEIR TENDENCY TO BE FOUND IN OR NEAR REGULATORY SITES (SUCH AS PROMOTERS, ENHANCERS, AND TELOMERES) AS WELL AS THE CORRELATION BETWEEN THE PREVALENCE OF G4 OR IM CONFORMATIONS AND SPECIFIC PHASES OF CELL CYCLE. NOTABLY, G4 AND IM CAPABLE SEQUENCES TEND TO BE FOUND ON THE OPPOSITE STRANDS OF THE SAME DNA SITE WITH AT MOST ONE OF THE TWO STRUCTURES FORMED AT ANY GIVEN TIME. THE RECENT EVIDENCE THAT K(+), MG(2+) CONCENTRATIONS DIRECTLY AFFECT IM FORMATION (AND LIKELY G4 FORMATION INDIRECTLY) LEAD US TO BELIEVE THAT THESE STRUCTURES MAY PLAY A MAJOR ROLE IN SYNAPTIC PLASTICITY OF NEURONS, AND, THEREFORE, IN A VARIETY OF CENTRAL NERVOUS SYSTEM (CNS) FUNCTIONS INCLUDING MEMORY, LEARNING, HABITUAL BEHAVIORS, PAIN PERCEPTION AND OTHERS. FURTHERMORE, EPIGENETIC MECHANISMS, WHICH HAVE AN IMPORTANT ROLE IN SYNAPTIC PLASTICITY AND MEMORY FORMATION, WERE ALSO SHOWN TO INFLUENCE FORMATION AND STABILITY OF G4S AND IMS. OUR HYPOTHESIS IS THAT NON-CANONICAL DNA AND RNA STRUCTURES COULD BE AN INTEGRAL PART OF NEUROPLASTICITY CONTROL VIA GENE EXPRESSION REGULATION AT THE LEVEL OF TRANSCRIPTION, TRANSLATION AND SPLICING. WE PROPOSE THAT THE REGULATORY ACTIVITY OF DNA IM AND G4 STRUCTURES IS MODULATED BY DNA METHYLATION/DEMETHYLATION OF THE IM AND/OR G4 SEQUENCES, WHICH FACILITATES THE SWITCH BETWEEN CANONICAL AND NON-CANONICAL CONFORMATION. OTHER NEURONAL MECHANISMS INTERACTING WITH THE FORMATION AND REGULATORY ACTIVITY OF NON-CANONICAL DNA AND RNA STRUCTURES, PARTICULARLY G4, IM AND TRIPLEXES, MAY INVOLVE MICRORNAS AS WELL AS ION AND PROTON FLUXES. WE ARE PROPOSING EXPERIMENTS IN ACUTE BRAIN SLICES AND IN VIVO TO TEST OUR HYPOTHESIS. THE PROPOSED STUDIES WOULD PROVIDE NEW INSIGHTS INTO FUNDAMENTAL NEURONAL MECHANISMS IN HEALTH AND DISEASE AND POTENTIALLY OPEN NEW AVENUES FOR TREATING MENTAL HEALTH DISORDERS. 2019 6 4507 34 MRTF: BASIC BIOLOGY AND ROLE IN KIDNEY DISEASE. A LESSER KNOWN BUT CRUCIALLY IMPORTANT DOWNSTREAM EFFECT OF RHO FAMILY GTPASES IS THE REGULATION OF GENE EXPRESSION. THIS MAJOR ROLE IS MEDIATED VIA THE CYTOSKELETON, THE ORGANIZATION OF WHICH DICTATES THE NUCLEOCYTOPLASMIC SHUTTLING OF A SET OF TRANSCRIPTION FACTORS. CENTRAL AMONG THESE IS MYOCARDIN-RELATED TRANSCRIPTION FACTOR (MRTF), WHICH UPON ACTIN POLYMERIZATION TRANSLOCATES TO THE NUCLEUS AND BINDS TO ITS COGNATE PARTNER, SERUM RESPONSE FACTOR (SRF). THE MRTF/SRF COMPLEX THEN DRIVES A LARGE COHORT OF GENES INVOLVED IN CYTOSKELETON REMODELING, CONTRACTILITY, EXTRACELLULAR MATRIX ORGANIZATION AND MANY OTHER PROCESSES. ACCORDINGLY, MRTF, ACTIVATED BY A VARIETY OF MECHANICAL AND CHEMICAL STIMULI, AFFECTS A PLETHORA OF FUNCTIONS WITH PHYSIOLOGICAL AND PATHOLOGICAL RELEVANCE. THESE INCLUDE CELL MOTILITY, DEVELOPMENT, METABOLISM AND THUS METASTASIS FORMATION, INFLAMMATORY RESPONSES AND-PREDOMINANTLY-ORGAN FIBROSIS. THE AIM OF THIS REVIEW IS TWOFOLD: TO PROVIDE AN UP-TO-DATE SUMMARY ABOUT THE BASIC BIOLOGY AND REGULATION OF THIS VERSATILE TRANSCRIPTIONAL COACTIVATOR; AND TO HIGHLIGHT ITS PRINCIPAL INVOLVEMENT IN THE PATHOBIOLOGY OF KIDNEY DISEASE. ACTING THROUGH BOTH DIRECT TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS, MRTF PLAYS A KEY (YET NOT FULLY APPRECIATED) ROLE IN THE INDUCTION OF A PROFIBROTIC EPITHELIAL PHENOTYPE (PEP) AS WELL AS IN FIBROBLAST-MYOFIBROBLAST TRANSITION, PRIME PATHOMECHANISMS IN CHRONIC KIDNEY DISEASE AND RENAL FIBROSIS. 2021 7 3390 33 HOPX PLAYS A CRITICAL ROLE IN ANTIRETROVIRAL DRUGS INDUCED EPIGENETIC MODIFICATION AND CARDIAC HYPERTROPHY. PEOPLE LIVING WITH HIV (PLWH) HAVE TO TAKE AN ANTIRETROVIRAL THERAPY (ART) FOR LIFE AND SHOW NONCOMMUNICABLE ILLNESSES SUCH AS CHRONIC INFLAMMATION, IMMUNE ACTIVATION, AND MULTIORGAN DYSREGULATION. RECENT STUDIES SUGGEST THAT LONG-TERM USE OF ART INDUCES COMORBID CONDITIONS AND IS ONE OF THE LEADING CAUSES OF HEART FAILURE IN PLWH. HOWEVER, THE MOLECULAR MECHANISM OF ANTIRETROVIRAL DRUGS (ARVS) INDUCED HEART FAILURE IS UNCLEAR. TO DETERMINE THE MECHANISM OF ARVS INDUCED CARDIAC DYSFUNCTION, WE PERFORMED GLOBAL TRANSCRIPTOMIC PROFILING OF ARVS TREATED NEONATAL RAT VENTRICULAR CARDIOMYOCYTES IN CULTURE. DIFFERENTIALLY EXPRESSED GENES WERE IDENTIFIED BY RNA-SEQUENCING. OUR DATA SHOW THAT ARVS TREATMENT CAUSES UPREGULATION OF SEVERAL BIOLOGICAL FUNCTIONS ASSOCIATED WITH CARDIOTOXICITY, HYPERTROPHY, AND HEART FAILURE. GLOBAL GENE EXPRESSION DATA WERE VALIDATED IN CARDIAC TISSUE ISOLATED FROM HIV PATIENTS HAVING A HISTORY OF ART. INTERESTINGLY, WE FOUND THAT HOMEODOMAIN-ONLY PROTEIN HOMEOBOX (HOPX) EXPRESSION WAS SIGNIFICANTLY INCREASED IN CARDIOMYOCYTES TREATED WITH ARVS AND IN THE HEART TISSUE OF HIV PATIENTS. FURTHERMORE, WE FOUND THAT HOPX PLAYS A CRUCIAL ROLE IN ARVS MEDIATED CELLULAR HYPERTROPHY. MECHANISTICALLY, WE FOUND THAT HOPX PLAYS A CRITICAL ROLE IN EPIGENETIC REGULATION, THROUGH DEACETYLATION OF HISTONE, WHILE THE HDAC INHIBITOR, TRICHOSTATIN A, CAN RESTORE THE ACETYLATION LEVEL OF HISTONE 3 IN THE PRESENCE OF ARVS. 2021 8 984 30 CHRONIC PSYCHOLOGICAL STRESS ALTERS GENE EXPRESSION IN RAT COLON EPITHELIAL CELLS PROMOTING CHROMATIN REMODELING, BARRIER DYSFUNCTION AND INFLAMMATION. CHRONIC STRESS IS COMMONLY ASSOCIATED WITH ENHANCED ABDOMINAL PAIN (VISCERAL HYPERSENSITIVITY), BUT THE CELLULAR MECHANISMS UNDERLYING HOW CHRONIC STRESS INDUCES VISCERAL HYPERSENSITIVITY ARE POORLY UNDERSTOOD. IN THIS STUDY, WE EXAMINED CHANGES IN GENE EXPRESSION IN COLON EPITHELIAL CELLS FROM A RAT MODEL USING RNA-SEQUENCING TO EXAMINE STRESS-INDUCED CHANGES TO THE TRANSCRIPTOME. FOLLOWING CHRONIC STRESS, THE MOST SIGNIFICANTLY UP-REGULATED GENES INCLUDED ATG16L1, COQ10B, DCAF13, NAT2, PTBP2, RRAS2, SPINK4 AND DOWN-REGULATED GENES INCLUDING ABAT, CITED2, CNNM2, DAB2IP, PLEKHM1, SCD2, AND TAB2. THE PRIMARY ALTERED BIOLOGICAL PROCESSES REVEALED BY NETWORK ENRICHMENT ANALYSIS WERE INFLAMMATION/IMMUNE RESPONSE, TISSUE MORPHOGENESIS AND DEVELOPMENT, AND NUCLEOSOME/CHROMATIN ASSEMBLY. THE MOST SIGNIFICANTLY DOWN-REGULATED PROCESS WAS THE DIGESTIVE SYSTEM DEVELOPMENT/FUNCTION, WHEREAS THE MOST SIGNIFICANTLY UP-REGULATED PROCESSES WERE INFLAMMATORY RESPONSE, ORGANISMAL INJURY, AND CHROMATIN REMODELING MEDIATED BY H3K9 METHYLATION. FURTHERMORE, A SUBPOPULATION OF STRESSED RATS DEMONSTRATED VERY SIGNIFICANTLY ALTERED GENE EXPRESSION AND TRANSCRIPT ISOFORMS, ENRICHED FOR THE DIFFERENTIAL EXPRESSION OF GENES INVOLVED IN THE INFLAMMATORY RESPONSE, INCLUDING UPREGULATION OF CYTOKINE AND CHEMOKINE RECEPTOR GENE EXPRESSION COUPLED WITH DOWNREGULATION OF EPITHELIAL ADHERENS AND TIGHT JUNCTION MRNAS. IN SUMMARY, THESE FINDINGS SUPPORT THAT CHRONIC STRESS IS ASSOCIATED WITH INCREASED LEVELS OF CYTOKINES AND CHEMOKINES, THEIR DOWNSTREAM SIGNALING PATHWAYS COUPLED TO DYSREGULATION OF INTESTINAL CELL DEVELOPMENT AND FUNCTION. EPIGENETIC REGULATION OF CHROMATIN REMODELING LIKELY PLAYS A PROMINENT ROLE IN THIS PROCESS. RESULTS ALSO SUGGEST THAT SUPER ENHANCERS PLAY A PRIMARY ROLE IN CHRONIC STRESS-ASSOCIATED INTESTINAL BARRIER DYSFUNCTION. 2022 9 3762 34 INTEGRATING THE TUMOR-SUPPRESSIVE ACTIVITY OF MASPIN WITH P53 IN RETUNING THE EPITHELIAL HOMEOSTASIS: A WORKING HYPOTHESIS AND APPLICABLE PROSPECTS. EPITHELIAL MALIGNANT TRANSFORMATION AND TUMOROUS DEVELOPMENT WERE BELIEVED TO BE CLOSELY ASSOCIATED WITH THE LOSS OF ITS MICROENVIRONMENT INTEGRITY AND HOMEOSTASIS. THE TUMOR-SUPPRESSIVE MOLECULES MASPIN AND P53 WERE DEMONSTRATED TO PLAY A CRUCIAL ROLE IN BODY EPITHELIAL AND IMMUNE HOMEOSTASIS. DOWNREGULATION OF MASPIN AND MUTATION OF P53 WERE FREQUENTLY ASSOCIATED WITH MALIGNANT TRANSFORMATION AND POOR PROGNOSIS IN VARIOUS HUMAN CANCERS. IN THIS REVIEW, WE FOCUSED ON SUMMARIZING THE PROGRESS OF THE MOLECULAR NETWORK OF MASPIN IN STUDYING EPITHELIAL TUMOROUS DEVELOPMENT AND ITS RESPONSE TO CLINIC TREATMENT AND TRY TO CLARIFY THE UNDERLYING ANTITUMOR MECHANISM. NOTABLY, MASPIN EXPRESSION WAS REPORTED TO BE TRANSCRIPTIONALLY ACTIVATED BY P53, AND THE TRANSCRIPTIONAL ACTIVITY OF P53 WAS DEMONSTRATED TO BE ENHANCED BY ITS ACETYLATION THROUGH INHIBITION OF HDAC1. AS AN ENDOGENOUS INHIBITOR OF HDAC1, MASPIN POSSIBLY POTENTIATES THE TRANSCRIPTIONAL ACTIVITY OF P53 BY ACETYLATING THE P53 PROTEIN. HEREBY, IT COULD FORM A "SELF-PROPELLING" ANTITUMOR MECHANISM. THUS, WE SUMMARIZED THAT, UPON STIMULATION OF CELLULAR STRESS AND BY INTEGRATING WITH P53, THE AROUSED MASPIN PLAYED THE EPIGENETIC SURVEILLANT ROLE TO PREVENT THE EPITHELIAL DIGRESSIONAL PROCESS AND RETUNE THE EPITHELIAL HOMEOSTASIS, WHICH IS INVOLVED IN ACTIVATING HOST IMMUNE SURVEILLANCE, REGULATING THE INFLAMMATORY FACTORS, AND FINE-TUNING ITS ASSOCIATED CELL SIGNALING PATHWAYS. CONSEQUENTIALLY, IN A NORMAL PHYSIOLOGICAL CONDITION, ACTIVATION OF THE ABOVE "SELF-PROPELLING" ANTITUMOR MECHANISM OF MASPIN AND P53 COULD REDUCE CELLULAR STRESS (E.G., CHRONIC INFECTION/INFLAMMATION, OXIDATIVE STRESS, TRANSFORMATION) EFFECTIVELY AND ACHIEVE CANCER PREVENTION. MEANWHILE, DESIGNING A STRATEGY OF MIMICKING MASPIN'S EPIGENETIC REGULATION ACTIVITY WITH INTEGRATING P53 TUMOR-SUPPRESSIVE ACTIVITY COULD ENHANCE THE CHEMOTHERAPY EFFICACY THEORETICALLY IN A PATHOLOGICAL CONDITION OF CANCER. 2022 10 4002 29 LOSS OF P120 CATENIN AND LINKS TO MITOTIC ALTERATIONS, INFLAMMATION, AND SKIN CANCER. TUMOR FORMATION INVOLVES EPIGENETIC MODIFICATIONS AND MICROENVIRONMENTAL CHANGES AS WELL AS CUMULATIVE GENETIC ALTERATIONS ENCOMPASSING SOMATIC MUTATIONS, LOSS OF HETEROZYGOSITY, AND ANEUPLOIDY. HERE, WE SHOW THAT CONDITIONAL TARGETING OF P120 CATENIN IN MICE LEADS TO PROGRESSIVE DEVELOPMENT OF SKIN NEOPLASIAS ASSOCIATED WITH INTRINSIC NF-KAPPAB ACTIVATION. WE FIND THAT, SIMILARLY, SQUAMOUS CELL CARCINOMAS IN HUMANS DISPLAY ALTERED P120 AND ACTIVATED NF-KAPPAB. WE SHOW THAT EPIDERMAL HYPERPROLIFERATION ARISING FROM P120 LOSS CAN BE ABROGATED BY IKAPPAB KINASE 2 INHIBITORS. ALTHOUGH THIS UNDERSCORES THE IMPORTANCE OF THIS PATHWAY, THE ROLE OF NF-KAPPAB IN HYPERPROLIFERATION APPEARS ROOTED IN ITS IMPACT ON EPIDERMAL MICROENVIRONMENT BECAUSE AS P120-NULL KERATINOCYTES DISPLAY A GROWTH-ARRESTED PHENOTYPE IN CULTURE. WE TRACE THIS TO A MITOTIC DEFECT, RESULTING IN UNSTABLE, BINUCLEATED CELLS IN VITRO AND IN VIVO. WE SHOW THAT THE ABNORMAL MITOSES CAN BE AMELIORATED BY INHIBITING RHOA, THE ACTIVITY OF WHICH IS ABNORMALLY HIGH. CONVERSELY, WE CAN ELICIT SUCH MITOTIC DEFECTS IN CONTROL KERATINOCYTES BY ELEVATING RHOA ACTIVITY. THE ABILITY OF P120 DEFICIENCY TO ELICIT MITOTIC ALTERATIONS AND CHRONIC INFLAMMATORY RESPONSES, THAT TOGETHER MAY FACILITATE THE DEVELOPMENT OF GENETIC INSTABILITY IN VIVO, PROVIDES INSIGHTS INTO WHY IT FIGURES SO PROMINENTLY IN SKIN CANCER PROGRESSION. 2008 11 4545 32 MUTANT P53 GAIN OF FUNCTION AND CHEMORESISTANCE: THE ROLE OF MUTANT P53 IN RESPONSE TO CLINICAL CHEMOTHERAPY. PURPOSE: TO REVIEW MECHANISMS UNDERLYING MUTANT P53 (MUTP53) GAIN OF FUNCTION (GOF) AND MUTP53-INDUCED CHEMORESISTANCE, AND TO INVESTIGATE THE ROLE OF MUTP53 IN RESPONSE TO CLINICAL CHEMOTHERAPY. METHODS: WE SEARCHED THE PUBMED DATABASE FOR CLINICAL STUDIES FROM THE PAST DECADE, INCLUDING DATA EVALUATING THE IMPACT OF MUTP53 IN CLINICAL CHEMOTHERAPY RESPONSE. RESULTS: INTERACTIONS BETWEEN MUTP53 AND TRANSCRIPTIONAL FACTORS, PROTEINS OR DNA STRUCTURES, AS WELL AS EPIGENETIC REGULATION, CONTRIBUTE TO MUTP53 GOF. MAJOR MECHANISMS OF MUTP53-INDUCED CHEMORESISTANCE INCLUDE ENHANCED DRUG EFFLUX AND METABOLISM, PROMOTING SURVIVAL, INHIBITING APOPTOSIS, UPREGULATING DNA REPAIR, SUPPRESSING AUTOPHAGY, ELEVATING MICROENVIRONMENTAL RESISTANCE AND INDUCING A STEM-LIKE PHENOTYPE. CLINICALLY, MUTP53 PREDICTED RESISTANCE TO CHEMOTHERAPY IN DIFFUSE LARGE B-CELL LYMPHOMA, AND ESOPHAGEAL AND OROPHARYNGEAL CANCERS, BUT ITS IMPACT ON CHRONIC LYMPHOCYTIC LEUKEMIA WAS UNCLEAR. IN BLADDER CANCER, MUTP53 DID NOT PREDICT RESISTANCE, WHEREAS IN SOME BREAST AND OVARIAN CANCERS, IT WAS ASSOCIATED WITH SENSITIVITY TO CERTAIN CHEMOTHERAPEUTIC AGENTS. CONCLUSION: MUTP53 HAS AN INTRICATE ROLE IN THE RESPONSE TO CLINICAL CHEMOTHERAPY AND SHOULD NOT BE INTERPRETED IN ISOLATION. FURTHERMORE, WHEN PREDICTING TUMOR RESPONSE TO CHEMOTHERAPY BASED ON THE P53 STATUS, THE DRUGS USED SHOULD ALSO BE TAKEN INTO CONSIDERATION. THESE CONCEPTS REQUIRE FURTHER INVESTIGATION. 2017 12 3327 32 HISTONE DEACETYLASE 4 PROMOTES CHOLESTATIC LIVER INJURY IN THE ABSENCE OF PROHIBITIN-1. PROHIBITIN-1 (PHB1) IS AN EVOLUTIONARILY CONSERVED PLEIOTROPIC PROTEIN THAT PARTICIPATES IN DIVERSE PROCESSES DEPENDING ON ITS SUBCELLULAR LOCALIZATION AND INTERACTOME. RECENT DATA HAVE INDICATED A DIVERSE ROLE FOR PHB1 IN THE PATHOGENESIS OF OBESITY, CANCER, AND INFLAMMATORY BOWEL DISEASE, AMONG OTHERS. DATA PRESENTED HERE SUGGEST THAT PHB1 IS ALSO LINKED TO CHOLESTATIC LIVER DISEASE. EXPRESSION OF PHB1 IS MARKEDLY REDUCED IN PATIENTS WITH PRIMARY BILIARY CIRRHOSIS AND BILIARY ATRESIA OR WITH ALAGILLE SYNDROME, TWO MAJOR PEDIATRIC CHOLESTATIC CONDITIONS. IN THE EXPERIMENTAL MODEL OF BILE DUCT LIGATION, SILENCING OF PHB1 INDUCED LIVER FIBROSIS, REDUCED ANIMAL SURVIVAL, AND INDUCED BILE DUCT PROLIFERATION. IMPORTANTLY, THE MODULATORY EFFECT OF PHB1 IS NOT DEPENDENT ON ITS KNOWN MITOCHONDRIAL FUNCTION. ALSO, PHB1 INTERACTS WITH HISTONE DEACETYLASE 4 (HDAC4) IN THE PRESENCE OF BILE ACIDS. HENCE, PHB1 DEPLETION LEADS TO INCREASED NUCLEAR HDAC4 CONTENT AND ITS ASSOCIATED EPIGENETIC CHANGES. REMARKABLY, HDAC4 SILENCING AND THE ADMINISTRATION OF THE HDAC INHIBITOR PARTHENOLIDE DURING OBSTRUCTIVE CHOLESTASIS IN VIVO PROMOTE GENOMIC REPROGRAMMING, LEADING TO REGRESSION OF THE FIBROTIC PHENOTYPE IN LIVER-SPECIFIC PHB1 KNOCKOUT MICE. CONCLUSION: PHB1 IS AN IMPORTANT MEDIATOR OF CHOLESTATIC LIVER INJURY THAT REGULATES THE ACTIVITY OF HDAC4, WHICH CONTROLS SPECIFIC EPIGENETIC MARKERS; THESE RESULTS IDENTIFY POTENTIAL NOVEL STRATEGIES TO TREAT LIVER INJURY AND FIBROSIS, PARTICULARLY AS A CONSEQUENCE OF CHRONIC CHOLESTASIS. 2015 13 5009 28 PERK IS A CRITICAL METABOLIC HUB FOR IMMUNOSUPPRESSIVE FUNCTION IN MACROPHAGES. CHRONIC INFLAMMATION TRIGGERS COMPENSATORY IMMUNOSUPPRESSION TO STOP INFLAMMATION AND MINIMIZE TISSUE DAMAGE. STUDIES HAVE DEMONSTRATED THAT ENDOPLASMIC RETICULUM (ER) STRESS AUGMENTS THE SUPPRESSIVE PHENOTYPES OF IMMUNE CELLS; HOWEVER, THE MOLECULAR MECHANISMS UNDERPINNING THIS PROCESS AND HOW IT LINKS TO THE METABOLIC REPROGRAMMING OF IMMUNOSUPPRESSIVE MACROPHAGES REMAIN ELUSIVE. IN THE PRESENT STUDY, WE REPORT THAT THE HELPER T CELL 2 CYTOKINE INTERLEUKIN-4 AND THE TUMOR MICROENVIRONMENT INCREASE THE ACTIVITY OF A PROTEIN KINASE RNA-LIKE ER KINASE (PERK)-SIGNALING CASCADE IN MACROPHAGES AND PROMOTE IMMUNOSUPPRESSIVE M2 ACTIVATION AND PROLIFERATION. LOSS OF PERK SIGNALING IMPEDED MITOCHONDRIAL RESPIRATION AND LIPID OXIDATION CRITICAL FOR M2 MACROPHAGES. PERK ACTIVATION MEDIATED THE UPREGULATION OF PHOSPHOSERINE AMINOTRANSFERASE 1 (PSAT1) AND SERINE BIOSYNTHESIS VIA THE DOWNSTREAM TRANSCRIPTION FACTOR ATF-4. INCREASED SERINE BIOSYNTHESIS RESULTED IN ENHANCED MITOCHONDRIAL FUNCTION AND ALPHA-KETOGLUTARATE PRODUCTION REQUIRED FOR JMJD3-DEPENDENT EPIGENETIC MODIFICATION. INHIBITION OF PERK SUPPRESSED MACROPHAGE IMMUNOSUPPRESSIVE ACTIVITY AND COULD ENHANCE THE EFFICACY OF IMMUNE CHECKPOINT PROGRAMMED CELL DEATH PROTEIN 1 INHIBITION IN MELANOMA. OUR FINDINGS DELINEATE A PREVIOUSLY UNDESCRIBED CONNECTION BETWEEN PERK SIGNALING AND PSAT1-MEDIATED SERINE METABOLISM CRITICAL FOR PROMOTING IMMUNOSUPPRESSIVE FUNCTION IN M2 MACROPHAGES. 2022 14 3096 32 GENOMIC CHARACTERIZATION REVEALS NOVEL MECHANISMS UNDERLYING THE VALOSIN-CONTAINING PROTEIN-MEDIATED CARDIAC PROTECTION AGAINST HEART FAILURE. CHRONIC HYPERTENSION IS A KEY RISK FACTOR FOR HEART FAILURE. HOWEVER, THE UNDERLYING MOLECULAR MECHANISMS ARE NOT FULLY UNDERSTOOD. OUR PREVIOUS STUDIES FOUND THAT THE VALOSIN-CONTAINING PROTEIN (VCP), AN ATPASE-ASSOCIATED PROTEIN, WAS SIGNIFICANTLY DECREASED IN THE HYPERTENSIVE HEART TISSUES. IN THIS STUDY, WE TESTED THE HYPOTHESIS THAT RESTORATION OF VCP PROTECTED THE HEART AGAINST PRESSURE OVERLOAD-INDUCED HEART FAILURE. WITH A CARDIAC-SPECIFIC TRANSGENIC (TG) MOUSE MODEL, WE SHOWED THAT A MODERATE INCREASE OF VCP WAS ABLE TO ATTENUATE CHRONIC PRESSURE OVERLOAD-INDUCED MALADAPTIVE CARDIAC HYPERTROPHY AND DYSFUNCTION. RNA SEQUENCING AND A COMPREHENSIVE BIOINFORMATIC ANALYSIS FURTHER DEMONSTRATED THAT OVEREXPRESSION OF VCP IN THE HEART NORMALIZED THE PRESSURE OVERLOAD-STIMULATED HYPERTROPHIC SIGNALS AND REPRESSED THE STRESS-INDUCED INFLAMMATORY RESPONSE. IN ADDITION, VCP OVEREXPRESSION PROMOTED CELL SURVIVAL BY ENHANCING THE MITOCHONDRIA RESISTANCE TO THE OXIDATIVE STRESS VIA ACTIVATING THE RICTOR-MEDIATED-GENE NETWORKS. VCP WAS ALSO FOUND TO BE INVOLVED IN THE REGULATION OF THE ALTERNATIVE SPLICING AND DIFFERENTIAL ISOFORM EXPRESSION FOR SOME GENES THAT ARE RELATED TO ATP PRODUCTION AND PROTEIN SYNTHESIS BY INTERACTING WITH LONG NO-CODING RNAS AND HISTONE DEACETYLASES, INDICATING A NOVEL EPIGENETIC REGULATION OF VCP IN INTEGRATING CODING AND NONCODING GENOMIC NETWORK IN THE STRESSED HEART. IN SUMMARY, OUR STUDY DEMONSTRATED THAT THE RESCUING OF A DEFICIENT VCP IN THE HEART COULD PREVENT PRESSURE OVERLOAD-INDUCED HEART FAILURE BY RECTIFYING CARDIAC HYPERTROPHIC AND INFLAMMATORY SIGNALING AND ENHANCING THE CARDIAC RESISTANCE TO OXIDATIVE STRESS, WHICH BROUGHT IN NOVEL INSIGHTS INTO THE UNDERSTANDING OF THE MECHANISM OF VCP IN PROTECTING PATIENTS FROM HYPERTENSIVE HEART FAILURE. 2020 15 5688 30 SILENCING EFFECTS OF MUTANT RAS SIGNALLING ON TRANSCRIPTOMES. MUTATED GENES OF THE RAS FAMILY ENCODING SMALL GTP-BINDING PROTEINS DRIVE NUMEROUS CANCERS, INCLUDING PANCREATIC, COLON AND LUNG TUMORS. BESIDES THE NUMEROUS EFFECTS OF MUTANT RAS GENE EXPRESSION ON ABERRANT PROLIFERATION, TRANSFORMED PHENOTYPES, METABOLISM, AND THERAPY RESISTANCE, THE MOST STRIKING CONSEQUENCES OF CHRONIC RAS ACTIVATION ARE CHANGES OF THE GENETIC PROGRAM. BY PERFORMING SYSTEMATIC GENE EXPRESSION STUDIES IN CELLULAR MODELS THAT ALLOW COMPARISONS OF PRE-NEOPLASTIC WITH RAS-TRANSFORMED CELLS, WE AND OTHERS HAVE ESTIMATED THAT 7 PERCENT OR MORE OF ALL TRANSCRIPTS ARE ALTERED IN CONJUNCTION WITH THE EXPRESSION OF THE ONCOGENE. IN THIS CONTEXT, THE NUMBER OF UP-REGULATED TRANSCRIPTS APPROXIMATES THAT OF DOWN-REGULATED TRANSCRIPTS. WHILE UP-REGULATED TRANSCRIPTION FACTORS SUCH AS MYC, FOSL1, AND HMGA2 HAVE BEEN IDENTIFIED AND CHARACTERIZED AS RAS-RESPONSIVE DRIVERS OF THE ALTERED TRANSCRIPTOME, THE SUPPRESSED FACTORS HAVE BEEN LESS WELL STUDIED AS POTENTIAL REGULATORS OF THE GENETIC PROGRAM AND TRANSFORMED PHENOTYPE IN THE BREADTH OF THEIR OCCURRENCE. WE THEREFORE HAVE COLLECTED INFORMATION ON DOWNREGULATED RAS-RESPONSIVE FACTORS AND DISCUSS THEIR POTENTIAL ROLE AS TUMOR SUPPRESSORS THAT ARE LIKELY TO ANTAGONIZE ACTIVE CANCER DRIVERS. TO BETTER UNDERSTAND THE ACTIVE MECHANISMS THAT ENTAIL ANTI-RAS FUNCTION AND THOSE THAT LEAD TO LOSS OF TUMOR SUPPRESSOR ACTIVITY, WE FOCUS ON THE TUMOR SUPPRESSOR HREV107 (ALIAS PLAAT3 [PHOSPHOLIPASE A AND ACYLTRANSFERASE 3], PLA2G16 [PHOSPHOLIPASE A2, GROUP XVI] AND HRASLS3 [HRAS-LIKE SUPPRESSOR 3]). INACTIVATING HREV107 MUTATIONS IN TUMORS ARE EXTREMELY RARE, HENCE EPIGENETIC CAUSES MODULATED BY THE RAS PATHWAY ARE LIKELY TO LEAD TO DOWN-REGULATION AND LOSS OF FUNCTION. 2023 16 6584 24 TRIGGERING RECEPTORS EXPRESSED ON MYELOID CELLS 1 : OUR NEW PARTNER IN HUMAN ONCOLOGY? INFLAMMATION IS RECOGNIZED AS ONE OF THE HALLMARKS OF CANCER. INDEED, STRONG EVIDENCE INDICATES THAT CHRONIC INFLAMMATION PLAYS A MAJOR ROLE IN ONCOGENESIS, PROMOTING GENOME INSTABILITY, EPIGENETIC ALTERATIONS, PROLIFERATION AND DISSEMINATION OF CANCER CELLS. MONONUCLEAR PHAGOCYTES (MPS) HAVE BEEN IDENTIFIED AS KEY CONTRIBUTORS OF THE INFLAMMATORY INFILTRATE IN SEVERAL SOLID HUMAN NEOPLASIA, PROMOTING ANGIOGENESIS AND CANCER PROGRESSION. ONE OF THE MOST DESCRIBED AMPLIFIERS OF MPS PRO-INFLAMMATORY INNATE IMMUNE RESPONSE IS THE TRIGGERING RECEPTORS EXPRESSED ON MYELOID CELLS 1 (TREM-1). GROWING EVIDENCE SUGGESTS TREM-1 INVOLVEMENT IN ONCOGENESIS THROUGH CANCER RELATED INFLAMMATION AND THE SURROUNDING TUMOR MICROENVIRONMENT. IN HUMAN ONCOLOGY, HIGH LEVELS OF TREM-1 AND/OR ITS SOLUBLE FORM HAVE BEEN ASSOCIATED WITH POORER SURVIVAL DATA IN SEVERAL SOLID MALIGNANCIES, ESPECIALLY IN HEPATOCELLULAR CARCINOMA AND LUNG CANCER. TREM-1 SHOULD BE CONSIDERED AS A POTENTIAL BIOMARKER IN HUMAN ONCOLOGY AND COULD BE USED AS A NEW THERAPEUTIC TARGET OF INTEREST IN HUMAN ONCOLOGY (TREM-1 INHIBITORS, TREM-1 AGONISTS). MORE CLINICAL STUDIES ARE URGENTLY NEEDED TO CONFIRM TREM-1 (AND TREM FAMILY) ROLES IN THE PROGNOSIS AND THE TREATMENT OF HUMAN SOLID CANCERS. 2022 17 491 23 ASSESSING THE IMPACT OF POLYETHYLENE NANO/MICROPLASTIC EXPOSURE ON HUMAN VAGINAL KERATINOCYTES. THE GLOBAL RISE OF SINGLE-USE THROW-AWAY PLASTIC PRODUCTS HAS ELICITED A MASSIVE INCREASE IN THE NANO/MICROPLASTICS (N/MPLS) EXPOSURE BURDEN IN HUMANS. RECENTLY, IT HAS BEEN DEMONSTRATED THAT DISPOSABLE PERIOD PRODUCTS MAY RELEASE N/MPLS WITH USAGE, WHICH REPRESENTS A POTENTIAL THREAT TO WOMEN'S HEALTH WHICH HAS NOT BEEN SCIENTIFICALLY ADDRESSED YET. BY USING POLYETHYL ENE (PE) PARTICLES (200 NM TO 9 MUM), WE SHOWED THAT ACUTE EXPOSURE TO A HIGH CONCENTRATION OF N/MPLS INDUCED CELL TOXICITY IN VAGINAL KERATINOCYTES AFTER EFFECTIVE CELLULAR UPTAKE, AS VIABILITY AND APOPTOSIS DATA SUGGEST, ALONG WITH TRANSMISSION ELECTRON MICROSCOPY (TEM) OBSERVATIONS. THE INTERNALISED N/MPLS ALTERED THE EXPRESSION OF JUNCTIONAL AND ADHERENCE PROTEINS AND THE ORGANISATION OF THE ACTIN CORTEX, INFLUENCING THE LEVEL OF GENES INVOLVED IN OXIDATIVE STRESS SIGNALLING PATHWAYS AND THAT OF MIRNAS RELATED TO EPITHELIAL BARRIER FUNCTION. WHEN THE EXPOSURE TO PE N/MPLS WAS DISCONTINUED OR BECAME CHRONIC, CELLS WERE ABLE TO RECOVER FROM THE NEGATIVE EFFECTS ON VIABILITY AND DIFFERENTIATION/PROLIFERATION GENE EXPRESSION IN A FEW DAYS. HOWEVER, IN ALL CASES, PE N/MPL EXPOSURE PROMPTED A SUSTAINED ALTERATION OF DNA METHYLTRANSFERASE AND DNA DEMETHYLASE EXPRESSION, WHICH MIGHT IMPACT EPIGENETIC REGULATION PROCESSES, LEADING TO ACCELERATED CELL AGEING AND INFLAMMATION, OR THE OCCURRENCE OF MALIGNANT TRANSFORMATION. 2023 18 222 28 ACUTE LIVER STEATOSIS TRANSLATIONALLY CONTROLS THE EPIGENETIC REGULATOR MIER1 TO PROMOTE LIVER REGENERATION IN A STUDY WITH MALE MICE. THE EARLY PHASE LIPID ACCUMULATION IS ESSENTIAL FOR LIVER REGENERATION. HOWEVER, WHETHER THIS ACUTE LIPID ACCUMULATION CAN SERVE AS SIGNALS TO DIRECT LIVER REGENERATION RATHER THAN SIMPLY PROVIDING BUILDING BLOCKS FOR CELL PROLIFERATION REMAINS UNCLEAR. THROUGH IN VIVO CRISPR SCREENING, WE IDENTIFY MIER1 (MESODERM INDUCTION EARLY RESPONSE 1) AS A KEY EPIGENETIC REGULATOR THAT BRIDGES THE ACUTE LIPID ACCUMULATION AND CELL CYCLE GENE EXPRESSION DURING LIVER REGENERATION IN MALE ANIMALS. PHYSIOLOGICALLY, LIVER ACUTE LIPID ACCUMULATION INDUCES THE PHOSPHORYLATION OF EIF2S1(EUKARYOTIC TRANSLATION INITIATION FACTOR 2), WHICH CONSEQUENTLY ATTENUATED MIER1 TRANSLATION. MIER1 DOWNREGULATION IN TURN PROMOTES CELL CYCLE GENE EXPRESSION AND REGENERATION THROUGH CHROMATIN REMODELING. IMPORTANTLY, THE LIPIDS-EIF2S1-MIER1 PATHWAY IS IMPAIRED IN ANIMALS WITH CHRONIC LIVER STEATOSIS; WHEREAS MIER1 DEPLETION SIGNIFICANTLY IMPROVES REGENERATION IN THESE ANIMALS. TAKEN TOGETHER, OUR STUDIES IDENTIFY AN EPIGENETIC MECHANISM BY WHICH THE EARLY PHASE LIPID REDISTRIBUTION FROM ADIPOSE TISSUE TO LIVER DURING REGENERATION IMPACTS HEPATOCYTE PROLIFERATION, AND SUGGEST A POTENTIAL STRATEGY TO BOOST LIVER REGENERATION. 2023 19 6012 29 THE APKC-CBP PATHWAY REGULATES POST-STROKE NEUROVASCULAR REMODELING AND FUNCTIONAL RECOVERY. EPIGENETIC MODIFICATIONS HAVE EMERGED AS ATTRACTIVE MOLECULAR SUBSTRATES THAT INTEGRATE EXTRINSIC CHANGES INTO THE DETERMINATION OF CELL IDENTITY. SINCE STROKE-RELATED BRAIN DAMAGE RELEASES MICRO-ENVIRONMENTAL CUES, WE EXAMINED THE ROLE OF A SIGNALING-INDUCED EPIGENETIC PATHWAY, AN ATYPICAL PROTEIN KINASE C (APKC)-MEDIATED PHOSPHORYLATION OF CREB-BINDING PROTEIN (CBP), IN POST-STROKE NEUROVASCULAR REMODELING. USING A KNOCKIN MOUSE STRAIN (CBPS436A) WHERE THE APKC-CBP PATHWAY WAS DEFECTIVE, WE SHOW THAT DISRUPTION OF THE APKC-CBP PATHWAY IN A MURINE FOCAL ISCHEMIC STROKE MODEL INCREASES THE REPROGRAMMING EFFICIENCY OF ISCHEMIA-ACTIVATED PERICYTES (I-PERICYTES) TO NEURAL PRECURSORS. AS A CONSEQUENCE OF ENHANCED CELLULAR REPROGRAMMING, CBPS436A MICE SHOW AN INCREASED TRANSIENT POPULATION OF LOCALLY DERIVED NEURAL PRECURSORS AFTER STROKE, WHILE DISPLAYING A REDUCED NUMBER OF I-PERICYTES, IMPAIRED VASCULAR REMODELING, AND PERTURBED MOTOR RECOVERY DURING THE CHRONIC PHASE OF STROKE. TOGETHER, THIS STUDY ELUCIDATES THE ROLE OF THE APKC-CBP PATHWAY IN MODULATING NEUROVASCULAR REMODELING AND FUNCTIONAL RECOVERY FOLLOWING FOCAL ISCHEMIC STROKE. 2017 20 662 30 BLOOD MONOCYTE TRANSCRIPTOME AND EPIGENOME ANALYSES REVEAL LOCI ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. LITTLE IS KNOWN REGARDING THE EPIGENETIC BASIS OF ATHEROSCLEROSIS. HERE WE PRESENT THE CD14+ BLOOD MONOCYTE TRANSCRIPTOME AND EPIGENOME SIGNATURES ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. THE TRANSCRIPTOME SIGNATURE INCLUDES TRANSCRIPTION COACTIVATOR, ARID5B, WHICH IS KNOWN TO FORM A CHROMATIN DEREPRESSOR COMPLEX WITH A HISTONE H3K9ME2-SPECIFIC DEMETHYLASE AND PROMOTE ADIPOGENESIS AND SMOOTH MUSCLE DEVELOPMENT. ARID5B CPG (CG25953130) METHYLATION IS INVERSELY ASSOCIATED WITH BOTH ARID5B EXPRESSION AND ATHEROSCLEROSIS, CONSISTENT WITH THIS CPG RESIDING IN AN ARID5B ENHANCER REGION, BASED ON CHROMATIN CAPTURE AND HISTONE MARKS DATA. MEDIATION ANALYSIS SUPPORTS ASSUMPTIONS THAT ARID5B EXPRESSION MEDIATES EFFECTS OF CG25953130 METHYLATION AND SEVERAL CARDIOVASCULAR DISEASE RISK FACTORS ON ATHEROSCLEROTIC BURDEN. IN LIPOPOLYSACCHARIDE-STIMULATED HUMAN THP1 MONOCYTES, ARID5B KNOCKDOWN REDUCED EXPRESSION OF GENES INVOLVED IN ATHEROSCLEROSIS-RELATED INFLAMMATORY AND LIPID METABOLISM PATHWAYS, AND INHIBITED CELL MIGRATION AND PHAGOCYTOSIS. THESE DATA SUGGEST THAT ARID5B EXPRESSION, POSSIBLY REGULATED BY AN EPIGENETICALLY CONTROLLED ENHANCER, PROMOTES ATHEROSCLEROSIS BY DYSREGULATING IMMUNOMETABOLISM TOWARDS A CHRONIC INFLAMMATORY PHENOTYPE.THE MOLECULAR MECHANISMS MEDIATING THE IMPACT OF ENVIRONMENTAL FACTORS IN ATHEROSCLEROSIS ARE UNCLEAR. HERE, THE AUTHORS EXAMINE CD14+ BLOOD MONOCYTE'S TRANSCRIPTOME AND EPIGENOME SIGNATURES TO FIND DIFFERENTIAL METHYLATION AND EXPRESSION OF ARID5B TO BE ASSOCIATED WITH HUMAN ATHEROSCLEROSIS. 2017