1 129 167 A UNIQUE VIRULENCE GENE OCCUPIES A PRINCIPAL POSITION IN IMMUNE EVASION BY THE MALARIA PARASITE PLASMODIUM FALCIPARUM. MUTUALLY EXCLUSIVE GENE EXPRESSION, WHEREBY ONLY ONE MEMBER OF A MULTI-GENE FAMILY IS SELECTED FOR ACTIVATION, IS USED BY THE MALARIA PARASITE PLASMODIUM FALCIPARUM TO ESCAPE THE HUMAN IMMUNE SYSTEM AND PERPETUATE LONG-TERM, CHRONIC INFECTIONS. A FAMILY OF GENES CALLED VAR ENCODES THE CHIEF ANTIGENIC AND VIRULENCE DETERMINANT OF P. FALCIPARUM MALARIA. VAR GENES ARE TRANSCRIBED IN A MUTUALLY EXCLUSIVE MANNER, WITH SWITCHING BETWEEN ACTIVE GENES RESULTING IN ANTIGENIC VARIATION. WHILE RECENT WORK HAS SHED CONSIDERABLE LIGHT ON THE EPIGENETIC BASIS FOR VAR GENE ACTIVATION AND SILENCING, HOW SWITCHING IS CONTROLLED REMAINS A MYSTERY. IN PARTICULAR, SWITCHING SEEMS NOT TO BE RANDOM, BUT INSTEAD APPEARS TO BE COORDINATED TO RESULT IN TIMELY ACTIVATION OF INDIVIDUAL GENES LEADING TO SEQUENTIAL WAVES OF ANTIGENICALLY DISTINCT PARASITE POPULATIONS. THE MOLECULAR BASIS FOR THIS APPARENT COORDINATION IS UNKNOWN. HERE WE SHOW THAT VAR2CSA, AN UNUSUAL AND HIGHLY CONSERVED VAR GENE, OCCUPIES A UNIQUE POSITION WITHIN THE VAR GENE SWITCHING HIERARCHY. INDUCTION OF SWITCHING THROUGH THE DESTABILIZATION OF VAR SPECIFIC CHROMATIN USING BOTH GENETIC AND CHEMICAL METHODS REPEATEDLY LED TO THE RAPID AND EXCLUSIVE ACTIVATION OF VAR2CSA. ADDITIONAL EXPERIMENTS DEMONSTRATED THAT THESE REPRESENT "TRUE" SWITCHING EVENTS AND NOT SIMPLY DE-SILENCING OF THE VAR2CSA PROMOTER, AND THAT ACTIVATION IS LIMITED TO THE UNIQUE LOCUS ON CHROMOSOME 12. COMBINED WITH TRANSLATIONAL REPRESSION OF VAR2CSA TRANSCRIPTS, FREQUENT "DEFAULT" SWITCHING TO THIS LOCUS AND DETECTION OF VAR2CSA UNTRANSLATED TRANSCRIPTS IN NON-PREGNANT INDIVIDUALS, THESE DATA SUGGEST THAT VAR2CSA COULD PLAY A CENTRAL ROLE IN COORDINATING SWITCHING, FULFILLING A PREDICTION MADE BY MATHEMATICAL MODELS DERIVED FROM POPULATION SWITCHING PATTERNS. THESE STUDIES PROVIDE THE FIRST INSIGHTS INTO THE MECHANISMS BY WHICH VAR GENE SWITCHING IS COORDINATED AS WELL AS AN EXAMPLE OF HOW A PHARMACOLOGICAL AGENT CAN DISRUPT ANTIGENIC VARIATION IN PLASMODIUM FALCIPARUM. 2015 2 2091 47 EPIGENETIC DYSREGULATION OF VIRULENCE GENE EXPRESSION IN SEVERE PLASMODIUM FALCIPARUM MALARIA. CHRONIC INFECTIONS WITH THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM DEPEND ON ANTIGENIC VARIATION. P. FALCIPARUM ERYTHROCYTE MEMBRANE PROTEIN 1 (PFEMP1), THE MAJOR ERYTHROCYTE SURFACE ANTIGEN MEDIATING PARASITE SEQUESTRATION IN THE MICROVASCULATURE, IS ENCODED IN PARASITES BY A HIGHLY DIVERSE FAMILY OF VAR GENES. ANTIGENIC SWITCHING IS MEDIATED BY CLONAL VARIATION IN VAR EXPRESSION, AND RECENT IN VITRO STUDIES HAVE DEMONSTRATED A ROLE FOR EPIGENETIC PROCESSES IN VAR REGULATION. EXPRESSION OF PARTICULAR PFEMP1 VARIANTS MAY RESULT IN PARASITE ENRICHMENT IN DIFFERENT TISSUES, A FACTOR IN THE DEVELOPMENT OF SEVERE DISEASE. HERE, WE STUDY IN VIVO HUMAN INFECTIONS AND PROVIDE EVIDENCE THAT INFECTION-INDUCED STRESS RESPONSES IN THE HOST CAN MODIFY PFEMP1 EXPRESSION VIA THE PERTURBATION OF EPIGENETIC MECHANISMS. OUR WORK SUGGESTS THAT SEVERE DISEASE MAY NOT BE THE DIRECT RESULT OF AN ADAPTIVE VIRULENCE STRATEGY TO MAXIMIZE PARASITE SURVIVAL BUT THAT IT MAY INDICATE A LOSS OF CONTROL OF THE CAREFULLY REGULATED PROCESS OF ANTIGENIC SWITCHING THAT MAINTAINS CHRONIC INFECTIONS. 2012 3 1219 66 CRISPR/CAS9 GENOME EDITING REVEALS THAT THE INTRON IS NOT ESSENTIAL FOR VAR2CSA GENE ACTIVATION OR SILENCING IN PLASMODIUM FALCIPARUM. PLASMODIUM FALCIPARUM RELIES ON MONOALLELIC EXPRESSION OF 1 OF 60 VAR VIRULENCE GENES FOR ANTIGENIC VARIATION AND HOST IMMUNE EVASION. EACH VAR GENE CONTAINS A CONSERVED INTRON WHICH HAS BEEN IMPLICATED IN PREVIOUS STUDIES IN BOTH ACTIVATION AND REPRESSION OF TRANSCRIPTION VIA SEVERAL EPIGENETIC MECHANISMS, INCLUDING INTERACTION WITH THE VAR PROMOTER, PRODUCTION OF LONG NONCODING RNAS (LNCRNAS), AND LOCALIZATION TO REPRESSIVE PERINUCLEAR SITES. HOWEVER, FUNCTIONAL STUDIES HAVE RELIED PRIMARILY ON ARTIFICIAL EXPRESSION CONSTRUCTS. USING THE RECENTLY DEVELOPED P. FALCIPARUM CLUSTERED REGULARLY INTERSPACED SHORT PALINDROMIC REPEATS (CRISPR)/CAS9 SYSTEM, WE DIRECTLY DELETED THE VAR2CSA P. FALCIPARUM 3D7_1200600 (PF3D7_1200600) ENDOGENOUS INTRON, RESULTING IN AN INTRONLESS VAR GENE IN A NATURAL, MARKER-FREE CHROMOSOMAL CONTEXT. DELETION OF THE VAR2CSA INTRON RESULTED IN AN UPREGULATION OF TRANSCRIPTION OF THE VAR2CSA GENE IN RING-STAGE PARASITES AND SUBSEQUENT EXPRESSION OF THE PFEMP1 PROTEIN IN LATE-STAGE PARASITES. INTRON DELETION DID NOT AFFECT THE NORMAL TEMPORAL REGULATION AND SUBSEQUENT TRANSCRIPTIONAL SILENCING OF THE VAR GENE IN TROPHOZOITES BUT DID RESULT IN INCREASED RATES OF VAR GENE SWITCHING IN SOME MUTANT CLONES. TRANSCRIPTIONAL REPRESSION OF THE INTRONLESS VAR2CSA GENE COULD BE ACHIEVED VIA LONG-TERM CULTURE OR PANNING WITH THE CD36 RECEPTOR, AFTER WHICH REACTIVATION WAS POSSIBLE WITH CHONDROITIN SULFATE A (CSA) PANNING. THESE DATA SUGGEST THAT THE VAR2CSA INTRON IS NOT REQUIRED FOR SILENCING OR ACTIVATION IN RING-STAGE PARASITES BUT POINT TO A SUBTLE ROLE IN REGULATION OF SWITCHING WITHIN THE VAR GENE FAMILY.IMPORTANCEPLASMODIUM FALCIPARUM IS THE MOST VIRULENT SPECIES OF MALARIA PARASITE, CAUSING HIGH RATES OF MORBIDITY AND MORTALITY IN THOSE INFECTED. CHRONIC INFECTION DEPENDS ON AN IMMUNE EVASION MECHANISM TERMED ANTIGENIC VARIATION, WHICH IN TURN RELIES ON MONOALLELIC EXPRESSION OF 1 OF ~60 VAR GENES. UNDERSTANDING ANTIGENIC VARIATION AND THE TRANSCRIPTIONAL REGULATION OF MONOALLELIC EXPRESSION IS IMPORTANT FOR DEVELOPING DRUGS AND/OR VACCINES. THE VAR GENE FAMILY ENCODES THE ANTIGENIC SURFACE PROTEINS THAT DECORATE INFECTED ERYTHROCYTES. UNTIL RECENTLY, STUDYING THE UNDERLYING GENETIC ELEMENTS THAT REGULATE MONOALLELIC EXPRESSION IN P. FALCIPARUM WAS DIFFICULT, AND MOST STUDIES RELIED ON ARTIFICIAL SYSTEMS SUCH AS EPISOMAL REPORTER GENES. OUR STUDY WAS THE FIRST TO USE CRISPR/CAS9 GENOME EDITING FOR THE FUNCTIONAL STUDY OF AN IMPORTANT, CONSERVED GENETIC ELEMENT OF VAR GENES-THE INTRON-IN AN ENDOGENOUS, EPISOME-FREE MANNER. OUR FINDINGS SHED LIGHT ON THE ROLE OF THE VAR GENE INTRON IN TRANSCRIPTIONAL REGULATION OF MONOALLELIC EXPRESSION. 2017 4 17 44 5' FLANKING REGION OF VAR GENES NUCLEATE HISTONE MODIFICATION PATTERNS LINKED TO PHENOTYPIC INHERITANCE OF VIRULENCE TRAITS IN MALARIA PARASITES. IN THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM ANTIGENIC VARIATION FACILITATES LONG-TERM CHRONIC INFECTION OF THE HOST. THIS IS ACHIEVED BY SEQUENTIAL EXPRESSION OF A SINGLE MEMBER OF THE 60-MEMBER VAR FAMILY. HERE WE SHOW THAT THE 5' FLANKING REGION NUCLEATES EPIGENETIC EVENTS STRONGLY LINKED TO THE MAINTENANCE OF MONO-ALLELIC VAR GENE EXPRESSION PATTERN DURING PARASITE PROLIFERATION. TRI- AND DIMETHYLATION OF HISTONE H3 LYSINE 4 PEAK IN THE 5' UPSTREAM REGION OF TRANSCRIBED VAR AND DURING THE POISED STATE (NON-TRANSCRIBED PHASE OF VAR GENES DURING THE 48 H ASEXUAL LIFE CYCLE), 'BOOKMARKING' THIS MEMBER FOR RE-ACTIVATION AT THE ONSET OF THE NEXT CYCLE. HISTONE H3 LYSINE 9 TRIMETHYLATION ACTS AS AN ANTAGONIST TO LYSINE 4 METHYLATION TO ESTABLISH STABLY SILENT VAR GENE STATES ALONG THE 5' FLANKING AND CODING REGION. FURTHERMORE, WE SHOW THAT COMPETITION EXISTS BETWEEN H3K9 METHYLATION AND H3K9 ACETYLATION IN THE 5' FLANKING REGION AND THAT THESE MARKS CONTRIBUTE EPIGENETICALLY TO REPRESSING OR ACTIVATING VAR GENE EXPRESSION. OUR WORK POINTS TO A PIVOTAL ROLE OF THE HISTONE METHYL MARK WRITING AND READING MACHINERY IN THE PHENOTYPIC INHERITANCE OF VIRULENCE TRAITS IN THE MALARIA PARASITE. 2007 5 1218 59 CRISPR INTERFERENCE OF A CLONALLY VARIANT GC-RICH NONCODING RNA FAMILY LEADS TO GENERAL REPRESSION OF VAR GENES IN PLASMODIUM FALCIPARUM. THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM USES MUTUALLY EXCLUSIVE EXPRESSION OF THE PFEMP1-ENCODING VAR GENE FAMILY TO EVADE THE HOST IMMUNE SYSTEM. DESPITE PROGRESS IN THE MOLECULAR UNDERSTANDING OF THE DEFAULT SILENCING MECHANISM, THE ACTIVATION MECHANISM OF THE UNIQUELY EXPRESSED VAR MEMBER REMAINS ELUSIVE. A GC-RICH NONCODING RNA (NCRNA) GENE FAMILY HAS COEVOLVED WITH PLASMODIUM SPECIES THAT EXPRESS VAR GENES. HERE, WE SHOW THAT THIS NCRNA FAMILY IS TRANSCRIBED IN A CLONALLY VARIANT MANNER, WITH PREDOMINANT TRANSCRIPTION OF A SINGLE MEMBER OCCURRING WHEN THE NCRNA IS LOCATED ADJACENT TO AND UPSTREAM OF AN ACTIVE VAR GENE. WE DEVELOPED A SPECIFIC CRISPR INTERFERENCE (CRISPRI) STRATEGY THAT ALLOWED FOR THE TRANSCRIPTIONAL REPRESSION OF ALL GC-RICH MEMBERS. A LACK OF GC-RICH NCRNA TRANSCRIPTION LED TO THE DOWNREGULATION OF THE ENTIRE VAR GENE FAMILY IN RING-STAGE PARASITES. STRIKINGLY, IN MATURE BLOOD-STAGE PARASITES, THE GC-RICH NCRNA CRISPRI AFFECTED THE TRANSCRIPTION PATTERNS OF OTHER CLONALLY VARIANT GENE FAMILIES, INCLUDING THE DOWNREGULATION OF ALL PFMC-2TM MEMBERS. WE PROVIDE EVIDENCE FOR THE KEY ROLE OF GC-RICH NCRNA TRANSCRIPTION IN VAR GENE ACTIVATION AND DISCOVERED A MOLECULAR LINK BETWEEN THE TRANSCRIPTIONAL CONTROL OF VARIOUS CLONALLY VARIANT MULTIGENE FAMILIES INVOLVED IN PARASITE VIRULENCE. THIS WORK OPENS NEW AVENUES FOR ELUCIDATING THE MOLECULAR PROCESSES THAT CONTROL IMMUNE EVASION AND PATHOGENESIS IN P. FALCIPARUMIMPORTANCEPLASMODIUM FALCIPARUM IS THE DEADLIEST MALARIA PARASITE SPECIES, ACCOUNTING FOR THE VAST MAJORITY OF DISEASE CASES AND DEATHS. THE VIRULENCE OF THIS PARASITE IS RELIANT UPON THE MUTUALLY EXCLUSIVE EXPRESSION OF CYTOADHERENCE PROTEINS ENCODED BY THE 60-MEMBER VAR GENE FAMILY. ANTIGENIC VARIATION OF THIS MULTIGENE FAMILY SERVES AS AN IMMUNE EVASION MECHANISM, ULTIMATELY LEADING TO CHRONIC INFECTION AND PATHOGENESIS. UNDERSTANDING THE REGULATION MECHANISM OF ANTIGENIC VARIATION IS KEY TO DEVELOPING NEW THERAPEUTIC AND CONTROL STRATEGIES. OUR STUDY UNCOVERS A NOVEL LAYER IN THE EPIGENETIC REGULATION OF TRANSCRIPTION OF THIS FAMILY OF VIRULENCE GENES BY MEANS OF A MULTIGENE-TARGETING CRISPR INTERFERENCE APPROACH. 2020 6 6179 50 THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM CAN SENSE ENVIRONMENTAL CHANGES AND RESPOND BY ANTIGENIC SWITCHING. THE PRIMARY ANTIGENIC AND VIRULENCE DETERMINANT OF THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM IS A VARIANT SURFACE PROTEIN CALLED PFEMP1. DIFFERENT FORMS OF PFEMP1 ARE ENCODED BY A MULTICOPY GENE FAMILY CALLED VAR, AND SWITCHING BETWEEN ACTIVE GENES ENABLES THE PARASITES TO EVADE THE ANTIBODY RESPONSE OF THEIR HUMAN HOSTS. VAR GENE SWITCHING IS KEY FOR THE MAINTENANCE OF CHRONIC INFECTIONS; HOWEVER, WHAT CONTROLS SWITCHING IS UNKNOWN, ALTHOUGH IT HAS BEEN SUGGESTED TO OCCUR AT A CONSTANT FREQUENCY WITH LITTLE OR NO ENVIRONMENTAL INFLUENCE. VAR GENE TRANSCRIPTION IS CONTROLLED EPIGENETICALLY THROUGH THE ACTIVITY OF HISTONE METHYLTRANSFERASES (HMTS). STUDIES IN MODEL SYSTEMS HAVE SHOWN THAT METABOLISM AND EPIGENETIC CONTROL OF GENE EXPRESSION ARE LINKED THROUGH THE AVAILABILITY OF INTRACELLULAR S-ADENOSYLMETHIONINE (SAM), THE PRINCIPAL METHYL DONOR IN BIOLOGICAL METHYLATION MODIFICATIONS, WHICH CAN FLUCTUATE BASED ON NUTRIENT AVAILABILITY. TO DETERMINE WHETHER ENVIRONMENTAL CONDITIONS AND CHANGES IN METABOLISM CAN INFLUENCE VAR GENE EXPRESSION, P. FALCIPARUM WAS CULTURED IN MEDIA WITH ALTERED CONCENTRATIONS OF NUTRIENTS INVOLVED IN SAM METABOLISM. WE FOUND THAT CONDITIONS THAT INFLUENCE LIPID METABOLISM INDUCE VAR GENE SWITCHING, INDICATING THAT PARASITES CAN RESPOND TO CHANGES IN THEIR ENVIRONMENT BY ALTERING VAR GENE EXPRESSION PATTERNS. GENETIC MODIFICATIONS THAT DIRECTLY MODIFIED EXPRESSION OF THE ENZYMES THAT CONTROL SAM LEVELS SIMILARLY LED TO PROFOUND CHANGES IN VAR GENE EXPRESSION, CONFIRMING THAT CHANGES IN SAM AVAILABILITY MODULATE VAR GENE SWITCHING. THESE OBSERVATIONS DIRECTLY CHALLENGE THE PARADIGM THAT ANTIGENIC VARIATION IN P. FALCIPARUM FOLLOWS AN INTRINSIC, PROGRAMED SWITCHING RATE, WHICH OPERATES INDEPENDENTLY OF ANY EXTERNAL STIMULI. 2023 7 340 46 ALTERATIONS IN LOCAL CHROMATIN ENVIRONMENT ARE INVOLVED IN SILENCING AND ACTIVATION OF SUBTELOMERIC VAR GENES IN PLASMODIUM FALCIPARUM. PLASMODIUM FALCIPARUM ERYTHROCYTE MEMBRANE PROTEIN 1 (PFEMP1), ENCODED BY THE VAR GENE FAMILY, UNDERGOES ANTIGENIC VARIATION AND PLAYS AN IMPORTANT ROLE IN CHRONIC INFECTION AND SEVERE MALARIA. ONLY A SINGLE VAR GENE IS TRANSCRIBED PER PARASITE, AND EPIGENETIC CONTROL MECHANISMS ARE FUNDAMENTAL IN THIS STRATEGY OF MUTUALLY EXCLUSIVE TRANSCRIPTION. WE SHOW THAT SUBTELOMERIC UPSB VAR GENE PROMOTERS CARRIED ON EPISOMES ARE SILENCED BY DEFAULT, AND THAT PROMOTER ACTIVATION IS SUFFICIENT TO SILENCE ALL OTHER FAMILY MEMBERS. HOWEVER, THEY ARE ACTIVE BY DEFAULT WHEN PLACED DOWNSTREAM OF A SECOND ACTIVE VAR PROMOTER, UNDERSCORING THE SIGNIFICANCE OF LOCAL CHROMATIN ENVIRONMENT AND NUCLEAR COMPARTMENTALIZATION IN VAR PROMOTER REGULATION. NATIVE CHROMATIN COVERING THE SPE2-REPEAT ARRAY IN UPSB PROMOTERS IS RESISTANT TO NUCLEASE DIGESTION, AND INSERTION OF THESE REGULATORY ELEMENTS INTO A HETEROLOGOUS PROMOTER CAUSES LOCAL ALTERATIONS IN NUCLEOSOMAL ORGANIZATION AND PROMOTER REPRESSION. OUR FINDINGS SUGGEST A COMMON LOGIC UNDERLYING THE TRANSCRIPTIONAL CONTROL OF ALL VAR GENES, AND HAVE IMPORTANT IMPLICATIONS FOR OUR UNDERSTANDING OF THE EPIGENETIC PROCESSES INVOLVED IN THE REGULATION OF THIS MAJOR VIRULENCE GENE FAMILY. 2007 8 5096 43 PLASMODIUM FALCIPARUM SET2 DOMAIN IS ALLOSTERICALLY REGULATED BY ITS PHD-LIKE DOMAIN TO METHYLATE AT H3K36. THE ANTIGENIC VARIATION IS AN ESSENTIAL MECHANISM EMPLOYED BY THE MALARIA PARASITE TO ESTABLISH A CHRONIC INFECTION IN HUMANS. THREE MAJOR VIRULENT PROTEINS EMP1, RIFINS, AND STEVOR HAVE BEEN IMPLICATED IN CONTRIBUTING TO THE ANTIGENIC VARIATION PROCESS AND ARE ENCODED BY MULTIGENE FAMILIES IN PLASMODIUM SPP. THE KEY VIRULENCE FACTOR PFEMP1 IS ENCODED BY VAR GENES, AND IT EXHIBITS A MUTUALLY EXCLUSIVE TRANSCRIPTIONAL SWITCHING BETWEEN VAR GENES, ENSURING AN INDIVIDUAL PARASITE ONLY TRANSCRIBES A SINGLE VAR GENE AT A TIME. EXPRESSION OF VAR GENES IS TIGHTLY REGULATED BY TWO HISTONE EPIGENETIC METHYLATION MARKS H3K36ME3 AND H3K9ME3, OF WHICH THE H3K36ME3 MARK IS HIGHLY ENRICHED ON TRANSCRIPTION START SITES (TSSS) OF SUPPRESSED VAR GENES IN P. FALCIPARUM. HOWEVER, THE MECHANISMS OF H3K36ME3 MARK PROPAGATION ON ALL THE 59 VAR GENES OF P. FALCIPARUM ARE NOT KNOWN. HERE, WE HAVE IDENTIFIED A PHD (PLANT HOMEODOMAIN-LIKE DOMAIN) LIKE DOMAIN PRESENT WITHIN THE PFSET2 PROTEIN THAT SPECIFICALLY BINDS TO THE H3K36ME2 MARK, AN INTERMEDIATE PRODUCT OF THE H3K36ME3 MARK FORMATION ON THE NUCLEOSOME. SURPRISINGLY, WE HAVE FOUND THAT PHD - H3K36ME2 INTERACTION LEADS TO STIMULATION OF SET2 DOMAIN ACTIVITY ON THE NUCLEOSOME SUBSTRATES. THE ALLOSTERIC STIMULATION OF THE PFSET2 DOMAIN BY PHD-LIKE DOMAIN PRESENT WITHIN THE SAME PROTEIN SUGGESTS A NOVEL MECHANISM OF H3K36ME3 MARK PROPAGATION ON VAR GENES OF P. FALCIPARUM. THIS STUDY PROPOSES ALLOSTERIC REGULATION OF PFSET2 PROTEIN BY H3K36ME2 MARK AS AN ESSENTIAL MECHANISM OF VAR GENES SUPPRESSION TO ENSURE SUCCESSFUL ANTIGENIC VARIATION BY THE MALARIA PARASITE. 2021 9 3827 50 INVESTIGATION OF HETEROCHROMATIN PROTEIN 1 FUNCTION IN THE MALARIA PARASITE PLASMODIUM FALCIPARUM USING A CONDITIONAL DOMAIN DELETION AND SWAPPING APPROACH. THE HUMAN MALARIA PARASITE PLASMODIUM FALCIPARUM ENCODES A SINGLE ORTHOLOG OF HETEROCHROMATIN PROTEIN 1 (PFHP1) THAT PLAYS A CRUCIAL ROLE IN THE EPIGENETIC REGULATION OF VARIOUS SURVIVAL-RELATED PROCESSES. PFHP1 IS ESSENTIAL FOR PARASITE PROLIFERATION AND THE HERITABLE SILENCING OF GENES LINKED TO ANTIGENIC VARIATION, HOST CELL INVASION, AND SEXUAL CONVERSION. HERE, WE EMPLOYED CRISPR/CAS9-MEDIATED GENOME EDITING COMBINED WITH THE DICRE/LOXP SYSTEM TO INVESTIGATE HOW THE PFHP1 CHROMODOMAIN (CD), HINGE DOMAIN, AND CHROMOSHADOW DOMAIN (CSD) CONTRIBUTE TO OVERALL PFHP1 FUNCTION. WE SHOW THAT THE 76 C-TERMINAL RESIDUES ARE RESPONSIBLE FOR TARGETING PFHP1 TO THE NUCLEUS. FURTHERMORE, WE REVEAL THAT EACH OF THE THREE FUNCTIONAL DOMAINS OF PFHP1 ARE REQUIRED FOR HETEROCHROMATIN FORMATION, GENE SILENCING, AND MITOTIC PARASITE PROLIFERATION. FINALLY, WE DISCOVERED THAT THE HINGE DOMAIN AND CSD OF HP1 ARE FUNCTIONALLY CONSERVED BETWEEN P. FALCIPARUM AND P. BERGHEI, A RELATED MALARIA PARASITE INFECTING RODENTS. IN SUMMARY, OUR STUDY PROVIDES NEW INSIGHTS INTO PFHP1 FUNCTION AND OFFERS A TOOL FOR FURTHER STUDIES ON EPIGENETIC REGULATION AND LIFE CYCLE DECISION IN MALARIA PARASITES.IMPORTANCE MALARIA IS CAUSED BY UNICELLULAR PLASMODIUM SPECIES PARASITES THAT REPEATEDLY INVADE AND REPLICATE INSIDE RED BLOOD CELLS. SOME BLOOD-STAGE PARASITES EXIT THE CELL CYCLE AND DIFFERENTIATE INTO GAMETOCYTES THAT ARE ESSENTIAL FOR MALARIA TRANSMISSION VIA THE MOSQUITO VECTOR. EPIGENETIC CONTROL MECHANISMS ALLOW THE PARASITES TO ALTER THE EXPRESSION OF SURFACE ANTIGENS AND TO BALANCE THE SWITCH BETWEEN PARASITE MULTIPLICATION AND GAMETOCYTE PRODUCTION. THESE PROCESSES ARE CRUCIAL TO ESTABLISH CHRONIC INFECTION AND OPTIMIZE PARASITE TRANSMISSION. HERE, WE PERFORMED A MUTATIONAL ANALYSIS OF HETEROCHROMATIN PROTEIN 1 (HP1) IN P. FALCIPARUM WE DEMONSTRATE THAT ALL THREE DOMAINS OF THIS PROTEIN ARE INDISPENSABLE FOR THE PROPER FUNCTION OF HP1 IN PARASITE MULTIPLICATION, HETEROCHROMATIN FORMATION, AND GENE SILENCING. MOREOVER, EXPRESSION OF CHIMERIC PROTEINS REVEALED THE FUNCTIONAL CONSERVATION OF HP1 PROTEINS BETWEEN DIFFERENT PLASMODIUM SPECIES. THESE RESULTS PROVIDE NEW INSIGHT INTO THE FUNCTION AND EVOLUTION OF HP1 AS AN ESSENTIAL EPIGENETIC REGULATOR OF PARASITE SURVIVAL. 2021 10 4490 28 MONOCYTE EPIGENETICS AND INNATE IMMUNITY TO MALARIA: YET ANOTHER LEVEL OF COMPLEXITY? CHILDREN UNDER THE AGE OF 5 YEARS LIVING IN AREAS OF MODERATE TO HIGH MALARIA TRANSMISSION ARE HIGHLY SUSCEPTIBLE TO CLINICAL MALARIA WITH FEVER THAT PROMPTS TREATMENT OF BLOOD STAGE INFECTION WITH ANTI-MALARIAL DRUGS. IN CONTRAST, OLDER SCHOOL AGE CHILDREN FREQUENTLY EXPERIENCE SUBCLINICAL MALARIA, I.E. CHRONIC PLASMODIUM FALCIPARUM PARASITEMIA WITHOUT FEVER OR OTHER CLINICAL SYMPTOMS. THE ROLE OF INNATE IMMUNE CELLS IN REGULATING INFLAMMATION AT A LEVEL THAT IS SUFFICIENT TO CONTROL THE PARASITE BIOMASS, WHILE AT THE SAME TIME MAINTAINING A DISEASE-TOLERANT CLINICAL PHENOTYPE, I.E., SUBCLINICAL MALARIA, IS NOT WELL UNDERSTOOD. RECENT STUDIES SUGGEST THAT HOST EPIGENETIC MECHANISMS UNDERLIE THE INNATE IMMUNE HOMEOSTASIS ASSOCIATED WITH SUBCLINICAL MALARIA. THIS CURRENT OPINION ARTICLE PRESENTS EVIDENCE SUPPORTING THE NOTION THAT MODIFICATIONS OF THE HOST MONOCYTE/MACROPHAGE EPIGENOME REGULATE INNATE IMMUNE FUNCTIONS PERTINENT TO SUBCLINICAL MALARIA. 2022 11 6695 34 VARIANT GENE EXPRESSION AND ANTIGENIC VARIATION BY MALARIA PARASITES. MALARIA IS A SIGNIFICANT THREAT THROUGHOUT THE DEVELOPING WORLD. AMONG THE MOST FASCINATING ASPECTS OF THE PROTOZOAN PARASITES RESPONSIBLE FOR THIS DISEASE ARE THE METHODS THEY EMPLOY TO AVOID THE IMMUNE SYSTEM AND PERPETUATE CHRONIC INFECTIONS. KEY AMONG THESE IS ANTIGENIC VARIATION: BY SYSTEMATICALLY ALTERING ANTIGENS THAT ARE DISPLAYED TO THE HOST'S IMMUNE SYSTEM, THE PARASITE RENDERS THE ADAPTIVE IMMUNE RESPONSE INEFFECTIVE. FOR PLASMODIUM FALCIPARUM, THE SPECIES RESPONSIBLE FOR THE MOST SEVERE FORM OF HUMAN MALARIA, THIS PROCESS INVOLVES A COMPLICATED MOLECULAR MECHANISM THAT RESULTS IN CONTINUOUSLY CHANGING PATTERNS OF VARIANT-ANTIGEN-ENCODING GENE EXPRESSION. ALTHOUGH MANY FEATURES OF THIS PROCESS REMAIN OBSCURE, SIGNIFICANT PROGRESS HAS BEEN MADE IN RECENT YEARS TO DECIPHER VARIOUS MOLECULAR ASPECTS OF THE REGULATORY CASCADE THAT CAUSES CHRONIC INFECTION. 2017 12 495 39 ASSESSMENT OF THE HEALTH EFFECTS OF TRICHLOROETHYLENE. THE EPIDEMIOLOGICAL STUDIES PERFORMED THUS FAR HAVE PRESENTED ONLY LIMITED EVIDENCE FOR THE CARCINOGENICITY OF TRICHLOROETHYLENE (TRI) TO HUMANS. HOWEVER, THESE STUDIES HAD DRAWBACKS SUCH AS INSUFFICIENT SIZE OF COHORT, SHORT OBSERVATION PERIOD, AND INADEQUATE TRI EXPOSURE ASSESSMENT; THEREFORE, NO CONCRETE CONCLUSION HAS BEEN REACHED CONCERNING TRI CARCINOGENICITY TO HUMANS. DESPITE THE LIMITED EPIDEMIOLOGICAL EVIDENCE AS TO THE CARCINOGENICITY OF TRI, THE INTERNATIONAL AGENCY FOR RESEARCH ON CANCER (IARC) HAS CHANGED THE CARCINOGENICITY CLASSIFICATION OF TRI FROM GROUP 3 (NOT CLASSIFIABLE AS TO CARCINOGENICITY TO HUMANS) TO GROUP 2A (PROBABLY CARCINOGENIC TO HUMANS). IN REGARD TO THE NEW CLASSIFICATION BY THE IARC, THE COMMITTEE FOR OCCUPATIONAL EXPOSURE LIMITS OF THE JAPAN SOCIETY FOR OCCUPATIONAL HEALTH HAS MADE A PROPOSAL THAT IT IS TOO EARLY TO CLASSIFY THE CARCINOGENICITY OF TRI AS GROUP 2A AND THAT IT IS PROPER TO PROMOTE EXPOSURE CONTROL WITH THE CARCINOGENICITY BEING CLASSIFIED AS 2B FOR THE MOMENT. THERE ARE SPECIES DIFFERENCES IN TRI CARCINOGENICITY, PARTICULARLY BETWEEN RATS AND MICE. ALTHOUGH EXPERIMENTAL STUDIES HAVE FOUND NO EVIDENCE THAT TRI INDUCES LIVER CANCER IN RATS, THERE IS AMPLE EVIDENCE THAT TRI PROMOTES THE DEVELOPMENT OF LIVER CANCER IN MICE, PARTICULARLY IN B6C3F1 MICE. THE CARCINOGENICITY OF TRI IN THIS STRAIN OF MICE MAY BE BASED ON AN EPIGENETIC MECHANISM RATHER ON A GENOTOXIC MECHANISM AND THE LIVER CANCER MAY BE INDUCED ONLY AFTER TRI HAS BEEN INHALED FOR A LONG PERIOD OF TIME AT CONCENTRATIONS HIGH ENOUGH TO CAUSE CYTOTOXICITY. CONVERSELY, WITH NO REPORTS SHOWING TRI-INDUCED RENAL TUMORS IN MICE, THE POSSIBILITY HAS BEEN SUGGESTED THAT THIS CHEMICAL INDUCES SUCH TUMORS IN MALE RATS. THE SPECIES DIFFERENCES ARE MAINLY ACCOUNTED FOR BY DIFFERENCES IN THE METABOLISM OF TRI BETWEEN RATS AND MICE. FROM A GENERAL SURVEY OF THE LITERATURE, IT CAN BE CONCLUDED THAT TRI ITSELF IS NOT MUTAGENIC. HOWEVER, THE CONJUGATION OF TRI WITH GLUTATHIONE (GSH), A MINOR PATHWAY OF TRI METABOLISM, RESULTS IN MUTAGENIC METABOLITES IN THE KIDNEY OF RATS. THE ACUTE TOXICITY OF TRI IS NEUROTOXICITY BASED ON ITS ANESTHETIC ACTION. AN EXPOSURE TO EXTREMELY HIGH LEVELS OF TRI MAY CAUSE THE LIVER AND KIDNEY DISORDERS. REPEATED EXPOSURES TO HIGH LEVELS OF TRI MAY RESULT IN NEURO-, HEPATO-, AND/OR NEPHROTOXICITY. THE MAIN SYMPTOMS APPEARING AFTER CHRONIC EXPOSURE AT LOW LEVELS ARE NEUROLOGICAL CHANGES REPRESENTED BY SUBJECTIVE SYMPTOMS RELATING TO CENTRAL AND AUTONOMIC NERVOUS SYSTEMS, OR BY A LOWERED CONDUCTION VELOCITY OF THE NERVES OR A PROLONGED LATENCY OF THE NERVE RESPONSES. FOR THE PRESENT, IT IS REASONABLE TO USE THE NEUROLOGICAL FINDINGS FOR ESTABLISHING THE REFERENCE VALUES OF TRI FOR BOTH WORK AND GENERAL ENVIRONMENTS. A VALUE OF 25 PPM (135 MG/M3) IS PROPOSED AS A REFERENCE VALUE FOR WORK ENVIRONMENTS, AND 25-50 PPB (135-270 MICROGRAMS/M3) FOR THE GENERAL ENVIRONMENT (1/1,000 OF THE VALUE FOR WORK ENVIRONMENT). 1997 13 775 35 CELL TYPE-SPECIFIC WHOLE-GENOME LANDSCAPE OF DELTAFOSB BINDING IN THE NUCLEUS ACCUMBENS AFTER CHRONIC COCAINE EXPOSURE. BACKGROUND: THE ABILITY OF NEURONS TO RESPOND TO EXTERNAL STIMULI INVOLVES ADAPTATIONS OF GENE EXPRESSION. INDUCTION OF THE TRANSCRIPTION FACTOR DELTAFOSB IN THE NUCLEUS ACCUMBENS, A KEY BRAIN REWARD REGION, IS IMPORTANT FOR THE DEVELOPMENT OF DRUG ADDICTION. HOWEVER, A COMPREHENSIVE MAP OF DELTAFOSB'S GENE TARGETS HAS NOT YET BEEN GENERATED. METHODS: WE USED CUT&RUN (CLEAVAGE UNDER TARGETS AND RELEASE USING NUCLEASE) TO MAP THE GENOME-WIDE CHANGES IN DELTAFOSB BINDING IN THE 2 MAIN TYPES OF NUCLEUS ACCUMBENS NEURONS-D1 OR D2 MEDIUM SPINY NEURONS-AFTER CHRONIC COCAINE EXPOSURE. TO ANNOTATE GENOMIC REGIONS OF DELTAFOSB BINDING SITES, WE ALSO EXAMINED THE DISTRIBUTIONS OF SEVERAL HISTONE MODIFICATIONS. RESULTING DATASETS WERE LEVERAGED FOR MULTIPLE BIOINFORMATIC ANALYSES. RESULTS: THE MAJORITY OF DELTAFOSB PEAKS OCCUR OUTSIDE PROMOTER REGIONS, INCLUDING INTERGENIC REGIONS, AND ARE SURROUNDED BY EPIGENETIC MARKS INDICATIVE OF ACTIVE ENHANCERS. BRG1, THE CORE SUBUNIT OF THE SWI/SNF CHROMATIN REMODELING COMPLEX, OVERLAPS WITH DELTAFOSB PEAKS, A FINDING CONSISTENT WITH EARLIER STUDIES OF DELTAFOSB'S INTERACTING PROTEINS. CHRONIC COCAINE USE INDUCES BROAD CHANGES IN DELTAFOSB BINDING IN BOTH D1 AND D2 NUCLEUS ACCUMBENS MEDIUM SPINY NEURONS OF MALE AND FEMALE MICE. IN ADDITION, IN SILICO ANALYSES PREDICT THAT DELTAFOSB COOPERATIVELY REGULATES GENE EXPRESSION WITH HOMEOBOX AND T-BOX TRANSCRIPTION FACTORS. CONCLUSIONS: THESE NOVEL FINDINGS UNCOVER KEY ELEMENTS OF DELTAFOSB'S MOLECULAR MECHANISMS IN TRANSCRIPTIONAL REGULATION AT BASELINE AND IN RESPONSE TO CHRONIC COCAINE EXPOSURE. FURTHER CHARACTERIZATION OF DELTAFOSB'S COLLABORATIVE TRANSCRIPTIONAL AND CHROMATIN PARTNERS SPECIFICALLY IN D1 AND D2 MEDIUM SPINY NEURONS WILL REVEAL A BROADER PICTURE OF THE FUNCTION OF DELTAFOSB AND THE MOLECULAR BASIS OF DRUG ADDICTION. 2023 14 5125 36 POST-TRANSLATIONAL MODIFICATIONS OF TRYPANOSOMA CRUZI CANONICAL AND VARIANT HISTONES. CHAGAS DISEASE, CAUSED BY TRYPANOSOMA CRUZI, STILL AFFECTS MILLIONS OF PEOPLE AROUND THE WORLD. NO VACCINES NOR TREATMENT FOR CHRONIC CHAGAS DISEASE ARE AVAILABLE, AND CHEMOTHERAPY FOR THE ACUTE PHASE IS HINDERED BY LIMITED EFFICACY AND SEVERE SIDE EFFECTS. THE PROCESSES BY WHICH THE PARASITE ACQUIRES INFECTIVITY AND SURVIVES IN DIFFERENT HOSTS INVOLVE TIGHT REGULATION OF GENE EXPRESSION, MAINLY POST-TRANSCRIPTIONALLY. NEVERTHELESS, CHROMATIN STRUCTURE/ORGANIZATION OF TRYPANOSOMATIDS IS SIMILAR TO OTHER EUKARYOTES, INCLUDING HISTONE VARIANTS AND POST-TRANSLATIONAL MODIFICATIONS. EMERGING EVIDENCE SUGGESTS THAT EPIGENETIC MECHANISMS ALSO PLAY AN IMPORTANT ROLE IN THE BIOLOGY/PATHOGENESIS OF THESE PARASITES, MAKING EPIGENETIC TARGETS SUITABLE CANDIDATES TO DRUG DISCOVERY. HERE, WE PRESENT THE FIRST COMPREHENSIVE MAP OF POST-TRANSLATIONAL MODIFICATIONS OF T. CRUZI CANONICAL AND VARIANT HISTONES AND SHOW THAT ITS HISTONE CODE CAN BE AS SOPHISTICATED AS THAT OF OTHER EUKARYOTES. A TOTAL OF 13 DISTINCT MODIFICATION TYPES WERE IDENTIFIED, INCLUDING RATHER NOVEL AND UNUSUAL ONES SUCH AS ALTERNATIVE LYSINE ACYLATIONS, SERINE/THREONINE ACETYLATION, AND N-TERMINAL METHYLATION. SOME HISTONE MARKS CORRELATE TO THOSE DESCRIBED FOR OTHER ORGANISMS, SUGGESTING THAT SIMILAR REGULATORY MECHANISMS MAY BE IN PLACE. OTHERS, HOWEVER, ARE UNIQUE TO T. CRUZI OR TO TRYPANOSOMATIDS AS A GROUP AND MIGHT REPRESENT GOOD CANDIDATES FOR THE DEVELOPMENT OF ANTIPARASITIC DRUGS. 2017 15 6706 30 VIRAL GENE PRODUCTS ACTIVELY PROMOTE LATENT INFECTION BY EPIGENETIC SILENCING MECHANISMS. MANY VIRUSES UNDERGO AN ACUTE INFECTION IN THE HOST ORGANISM AND THEN ARE CLEARED BY THE ENSUING HOST IMMUNE RESPONSE, BUT OTHER VIRUSES ESTABLISH A PERSISTENT INFECTION INVOLVING A LATENT INFECTION OR A CHRONIC INFECTION. LATENT INFECTION BY THE HERPESVIRUSES OR HUMAN IMMUNODEFICIENCY VIRUS INVOLVES EPIGENETIC SILENCING OF THE DNA GENOME OR PROVIRAL GENOME, RESPECTIVELY. LATENT INFECTION WAS PREVIOUSLY THOUGHT TO BE A DEFAULT PATHWAY RESULTING FROM INFECTION OF A NONPERMISSIVE CELL, BUT RECENT STUDIES HAVE SHOWN THAT VIRAL GENE PRODUCTS CAN PROMOTE EPIGENETIC SILENCING AND LATENT INFECTION. THIS REVIEW WILL SUMMARIZE THE VIRAL GENE PRODUCTS THAT HAVE BEEN SHOWN TO PROMOTE EPIGENETIC SILENCING OF THE GENOMES AND THEIR POTENTIAL FOR THERAPEUTICS TO TARGET THESE VIRAL GENE PRODUCTS AND DISRUPT OR LOCK IN LATENT INFECTION. 2017 16 2826 38 FLUOXETINE EPIGENETICALLY ALTERS THE CAMKIIALPHA PROMOTER IN NUCLEUS ACCUMBENS TO REGULATE DELTAFOSB BINDING AND ANTIDEPRESSANT EFFECTS. CHRONIC SOCIAL DEFEAT STRESS IN MICE PRODUCES A SUSCEPTIBLE PHENOTYPE CHARACTERIZED BY SEVERAL BEHAVIORAL ABNORMALITIES CONSISTENT WITH HUMAN DEPRESSION THAT ARE REVERSED BY CHRONIC BUT NOT ACUTE EXPOSURE TO ANTIDEPRESSANT MEDICATIONS. RECENT WORK IN ADDICTION MODELS DEMONSTRATES THAT THE TRANSCRIPTION FACTOR DELTAFOSB AND PROTEIN KINASE CALMODULIN-DEPENDENT PROTEIN KINASE II (CAMKII) ARE CO-REGULATED IN NUCLEUS ACCUMBENS (NAC), A BRAIN REWARD REGION IMPLICATED IN BOTH ADDICTION AND DEPRESSION MODELS INCLUDING SOCIAL DEFEAT. PREVIOUS WORK HAS ALSO DEMONSTRATED THAT DELTAFOSB IS INDUCED IN NAC AFTER CHRONIC SOCIAL DEFEAT STRESS OR AFTER CHRONIC ANTIDEPRESSANT TREATMENT, WHEREIN IT MEDIATES A PRO-RESILIENCE OR ANTIDEPRESSANT-LIKE PHENOTYPE. HERE, USING CHROMATIN IMMUNOPRECIPITATION ASSAYS, WE FOUND THAT DELTAFOSB BINDS THE CAMKIIALPHA GENE PROMOTER IN NAC AND THAT THIS BINDING INCREASES AFTER MICE ARE EXPOSED TO CHRONIC SOCIAL DEFEAT STRESS. PARADOXICALLY, CHRONIC EXPOSURE TO THE ANTIDEPRESSANT FLUOXETINE REDUCES BINDING OF DELTAFOSB TO THE CAMKIIALPHA PROMOTER AND REDUCES CAMKII EXPRESSION IN NAC, DESPITE THE FACT THAT DELTAFOSB IS INDUCED UNDER THESE CONDITIONS. THESE DATA SUGGEST A NOVEL EPIGENETIC MECHANISM OF ANTIDEPRESSANT ACTION, WHEREBY FLUOXETINE INDUCES SOME CHROMATIN CHANGE AT THE CAMKIIALPHA PROMOTER, WHICH BLOCKS THE DELTAFOSB BINDING. INDEED, CHRONIC FLUOXETINE REDUCES ACETYLATION AND INCREASES LYSINE-9 DIMETHYLATION OF HISTONE H3 AT THE CAMKIIALPHA PROMOTER IN NAC, EFFECTS ALSO SEEN IN DEPRESSED HUMANS EXPOSED TO ANTIDEPRESSANTS. OVEREXPRESSION OF CAMKII IN NAC BLOCKS FLUOXETINE'S ANTIDEPRESSANT EFFECTS IN THE CHRONIC SOCIAL DEFEAT PARADIGM, WHEREAS INHIBITION OF CAMKII ACTIVITY IN NAC MIMICS FLUOXETINE EXPOSURE. THESE FINDINGS SUGGEST THAT EPIGENETIC SUPPRESSION OF CAMKIIALPHA EXPRESSION IN NAC IS BEHAVIORALLY RELEVANT AND OFFER A NOVEL PATHWAY FOR POSSIBLE THERAPEUTIC INTERVENTION IN DEPRESSION AND RELATED SYNDROMES. 2014 17 4055 41 MAPPING OF HISTONE MODIFICATIONS IN EPISOMAL HBV CCCDNA UNCOVERS AN UNUSUAL CHROMATIN ORGANIZATION AMENABLE TO EPIGENETIC MANIPULATION. CHRONIC HEPATITIS B VIRUS (HBV) INFECTION AFFECTS 240 MILLION PEOPLE WORLDWIDE AND IS A MAJOR RISK FACTOR FOR LIVER FAILURE AND HEPATOCELLULAR CARCINOMA. CURRENT ANTIVIRAL THERAPY INHIBITS CYTOPLASMIC HBV GENOMIC REPLICATION, BUT IS NOT CURATIVE BECAUSE IT DOES NOT DIRECTLY AFFECT NUCLEAR HBV CLOSED CIRCULAR DNA (CCCDNA), THE GENOMIC FORM THAT TEMPLATES VIRAL TRANSCRIPTION AND SUSTAINS VIRAL PERSISTENCE. NOVEL APPROACHES THAT DIRECTLY TARGET CCCDNA REGULATION WOULD THEREFORE BE HIGHLY DESIRABLE. CCCDNA IS ASSEMBLED WITH CELLULAR HISTONE PROTEINS INTO CHROMATIN, BUT LITTLE IS KNOWN ABOUT THE REGULATION OF HBV CHROMATIN BY HISTONE POSTTRANSLATIONAL MODIFICATIONS (PTMS). HERE, USING A NEW CCCDNA CHIP-SEQ APPROACH, WE REPORT, TO OUR KNOWLEDGE, THE FIRST GENOME-WIDE MAPS OF PTMS IN CCCDNA-CONTAINING CHROMATIN FROM DE NOVO INFECTED HEPG2 CELLS, PRIMARY HUMAN HEPATOCYTES, AND FROM HBV-INFECTED LIVER TISSUE. WE FIND HIGH LEVELS OF PTMS ASSOCIATED WITH ACTIVE TRANSCRIPTION ENRICHED AT SPECIFIC SITES WITHIN THE HBV GENOME AND, SURPRISINGLY, VERY LOW LEVELS OF PTMS LINKED TO TRANSCRIPTIONAL REPRESSION EVEN AT SILENT HBV PROMOTERS. WE SHOW THAT TRANSCRIPTION AND ACTIVE PTMS IN HBV CHROMATIN ARE REDUCED BY THE ACTIVATION OF AN INNATE IMMUNITY PATHWAY, AND THAT THIS EFFECT CAN BE RECAPITULATED WITH A SMALL MOLECULE EPIGENETIC MODIFYING AGENT, OPENING THE POSSIBILITY THAT CHROMATIN-BASED REGULATION OF CCCDNA TRANSCRIPTION COULD BE A NEW THERAPEUTIC APPROACH TO CHRONIC HBV INFECTION. 2015 18 5426 39 REGULATION OF SIRTUIN EXPRESSION IN AUTOIMMUNE NEUROINFLAMMATION: INDUCTION OF SIRT1 IN OLIGODENDROCYTE PROGENITOR CELLS. IN MULTIPLE SCLEROSIS (MS) REGENERATION OF OLIGODENDROCYTES FOLLOWING INFLAMMATORY DEMYELINATION IS LIMITED BY THE COMPROMISED ABILITY OF PROGENITORS TO REPOPULATE LESIONED AREAS AND TRANSITION TO FUNCTIONALLY COMPETENT OLIGODENDROCYTES. REGARDING UNDERLYING MECHANISMS, THE INVOLVEMENT OF EPIGENETIC PROCESSES HAS BEEN SUGGESTED, E.G. THE CONTRIBUTION OF HISTONE DEACETYLASES (HDAC) KNOWN TO REGULATE OLIGODENDROCYTE PROGENITOR CELL (OPC) DIFFERENTIATION. HOWEVER, THEIR PRECISE EXPRESSION PATTERNS, PARTICULAR OF REDOX-SENSITIVE NAD(+) HDACS, REMAINS LARGELY UNKNOWN. IN THIS STUDY, WE DETERMINED THE EXPRESSION AND ACTIVITY OF SIRTUINS, MEMBERS OF THE HDAC CLASS III FAMILY WITH A SPECIFIC FOCUS ON SIRT1, PREVIOUSLY ASSOCIATED WITH NEURODEGENERATIVE, INFLAMMATORY AND DEMYELINATING DISORDERS OF THE CENTRAL NERVOUS SYSTEM (CNS). BY INVESTIGATING MOUSE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS (EAE), A MODEL FOR MS, WE FOUND THAT TRANSCRIPTION OF SIRT1, SIRT2 AND SIRT6 WAS SIGNIFICANTLY INCREASED IN THE CNS DURING CHRONIC DISEASE STAGES. WE CONFIRMED THIS FINDING FOR SIRT1 PROTEIN EXPRESSION AND WERE ABLE TO LOCALIZE UPREGULATED SIRT1 IN NUCLEI OF NG2(+) OR PDGFRALPHA(+) OPCS IN DEMYELINATED BRAIN LESIONS. IN CULTURED MOUSE A2B5(+) OPCS BLOCKADE OF SIRT1 ACTIVITY BY THE SMALL MOLECULE COMPOUND EX527 ENHANCED MITOTIC ACTIVITY BUT DID NOT AFFECT THE CAPACITY TO DIFFERENTIATE. A SIMILAR PATTERN WAS DETECTABLE IN OPCS DERIVED FROM SIRT1-DEFICIENT ANIMALS. TAKEN TOGETHER, OUR DATA SUGGEST THAT SIRT1 INHIBITION MAY HELP TO EXPAND THE ENDOGENOUS POOL OF OPCS WITHOUT AFFECTING THEIR DIFFERENTIATION. 2019 19 80 40 A NEW ROLE FOR THE P2Y-LIKE GPR17 RECEPTOR IN THE MODULATION OF MULTIPOTENCY OF OLIGODENDROCYTE PRECURSOR CELLS IN VITRO. OLIGODENDROCYTE PRECURSOR CELLS (OPCS, ALSO CALLED NG2 CELLS) ARE SCATTERED THROUGHOUT BRAIN PARENCHYMA, WHERE THEY FUNCTION AS A RESERVOIR TO REPLACE LOST OR DAMAGED OLIGODENDROCYTES, THE MYELIN-FORMING CELLS. THE HYPOTHESIS THAT, UNDER SOME CIRCUMSTANCES, OPCS CAN ACTUALLY BEHAVE AS MULTIPOTENT CELLS, THUS GENERATING ASTROCYTES AND NEURONS AS WELL, HAS ARISEN FROM SOME IN VITRO AND IN VIVO EVIDENCE, BUT THE MOLECULAR PATHWAYS CONTROLLING THIS ALTERNATIVE FATE OF OPCS ARE NOT FULLY UNDERSTOOD. THEIR IDENTIFICATION WOULD OPEN NEW OPPORTUNITIES FOR NEURONAL REPLACE STRATEGIES, BY FOSTERING THE INTRINSIC ABILITY OF THE BRAIN TO REGENERATE. HERE, WE SHOW THAT THE ANTI-EPILEPTIC EPIGENETIC MODULATOR VALPROIC ACID (VPA) CAN PROMOTE THE GENERATION OF NEW NEURONS FROM NG2(+) OPCS UNDER NEUROGENIC PROTOCOLS IN VITRO, THROUGH THEIR INITIAL DE-DIFFERENTIATION TO A STEM CELL-LIKE PHENOTYPE THAT THEN EVOLVES TO "HYBRID" CELL POPULATION, SHOWING OPC MORPHOLOGY BUT EXPRESSING THE NEURONAL MARKER BETAIII-TUBULIN AND THE GPR17 RECEPTOR, A KEY DETERMINANT IN DRIVING OPC TRANSITION TOWARDS MYELINATING OLIGODENDROCYTES. UNDER THESE CONDITIONS, THE PHARMACOLOGICAL BLOCKADE OF THE P2Y-LIKE RECEPTOR GPR17 BY CANGRELOR, A DRUG RECENTLY APPROVED FOR HUMAN USE, PARTIALLY MIMICS THE EFFECTS MEDIATED BY VPA THUS ACCELERATING CELLS' NEUROGENIC CONVERSION. THESE DATA SHOW A CO-LOCALIZATION BETWEEN NEURONAL MARKERS AND GPR17 IN VITRO, AND SUGGEST THAT, BESIDES ITS INVOLVEMENT IN OLIGODENDROGENESIS, GPR17 CAN DRIVE THE FATE OF NEURAL PRECURSOR CELLS BY INSTRUCTING PRECURSORS TOWARDS THE NEURONAL LINEAGE. BEING A MEMBRANE RECEPTOR, GPR17 REPRESENTS AN IDEAL "DRUGGABLE" TARGET TO BE EXPLOITED FOR INNOVATIVE REGENERATIVE APPROACHES TO ACUTE AND CHRONIC BRAIN DISEASES. 2016 20 1856 26 ELEVATION OF N-ACETYLTRANSFERASE 10 IN HIPPOCAMPAL NEURONS MEDIATES DEPRESSION- AND ANXIETY-LIKE BEHAVIORS. MAJOR DEPRESSIVE DISORDER (MDD) IS ONE OF THE MOST DEBILITATING AND SEVERE MENTAL DISEASES GLOBALLY. INCREASING EVIDENCE HAS SHOWN THAT EPIGENETICS IS CRITICAL FOR UNDERSTANDING BRAIN FUNCTION AND BRAIN DISORDERS, INCLUDING MDD. N-ACETYLTRANSFERASE 10 (NAT10), ACTING ON HISTONES, MRNA AND OTHER SUBSTRATES, HAS BEEN REPORTED TO BE INVOLVED IN EPIGENETIC EVENTS, INCLUDING HISTONE ACETYLATION AND MRNA MODIFICATIONS. NAT10 IS HIGHLY EXPRESSED IN THE BRAIN. HOWEVER, THE POTENTIAL EFFECTS OF NAT10 ON MDD ARE STILL UNKNOWN. HERE, WE EXPLOITED CHRONIC MILD STRESS (CMS) TO INDUCE ANXIETY- AND DEPRESSION-LIKE BEHAVIORS IN MICE AND FOUND THAT THE EXPRESSION OF NAT10 IN THE MOUSE HIPPOCAMPUS WAS UPREGULATED AFTER CMS TREATMENT. INHIBITION OF NAT10 BY PHARMACOLOGICAL METHODS PRODUCED ANXIOLYTIC- AND ANTIDEPRESSANT-LIKE EFFECTS. NEURON-SPECIFIC OVEREXPRESSION OF NAT10 IN THE HIPPOCAMPUS RESULTED IN ANXIETY- AND DEPRESSION-LIKE BEHAVIORS, ACCOMPANIED BY HIGHER SIRT1 PROTEIN LEVELS, AND LOWER DENDRITIC SPINE DENSITIES. OVERALL, IT WAS FOUND THAT ELEVATION OF NAT10 IN HIPPOCAMPAL NEURONS IS INVOLVED IN THE OCCURRENCE OF ANXIETY- AND DEPRESSION-LIKE BEHAVIORS, SUGGESTING THAT NAT10 COULD BE A POTENTIAL NEW TARGET FOR DEVELOPING ANXIOLYTICS AND ANTIDEPRESSANTS. 2022