1 3678 153 INFLAMMATION AND REGENERATION IN THE DENTIN-PULP COMPLEX: A DOUBLE-EDGED SWORD. DENTAL TISSUE INFECTION AND DISEASE RESULT IN ACUTE AND CHRONIC ACTIVATION OF THE INNATE IMMUNE RESPONSE, WHICH IS MEDIATED BY MOLECULAR AND CELLULAR SIGNALING. DIFFERENT CELL TYPES WITHIN THE DENTIN-PULP COMPLEX ARE ABLE TO DETECT INVADING BACTERIA AT ALL STAGES OF THE INFECTION. INDEED, AT RELATIVELY EARLY DISEASE STAGES, ODONTOBLASTS WILL RESPOND TO BACTERIAL COMPONENTS, AND AS THE DISEASE PROGRESSES, CORE PULPAL CELLS INCLUDING FIBROBLASTS, STEMS CELLS, ENDOTHELIAL CELLS, AND IMMUNE CELLS WILL BECOME INVOLVED. PATTERN RECOGNITION RECEPTORS, SUCH AS TOLL-LIKE RECEPTORS EXPRESSED ON THESE CELL TYPES, ARE RESPONSIBLE FOR DETECTING BACTERIAL COMPONENTS, AND THEIR LIGAND BINDING LEADS TO THE ACTIVATION OF THE NUCLEAR FACTOR-KAPPA B AND P38 MITOGEN-ACTIVATED PROTEIN (MAP) KINASE INTRACELLULAR SIGNALING CASCADES. SUBSEQUENT NUCLEAR TRANSLOCATION OF THE TRANSCRIPTION FACTOR SUBUNITS FROM THESE PATHWAYS WILL LEAD TO PROINFLAMMATORY MEDIATOR EXPRESSION, INCLUDING INCREASES IN CYTOKINES AND CHEMOKINES, WHICH TRIGGER HOST CELLULAR DEFENSE MECHANISMS. THE COMPLEX MOLECULAR SIGNALING WILL RESULT IN THE RECRUITMENT OF IMMUNE SYSTEM CELLS TARGETED AT COMBATING THE INVADING MICROBES; HOWEVER, THE TRAFFICKING AND ANTIBACTERIAL ACTIVITY OF THESE CELLS CAN LEAD TO COLLATERAL TISSUE DAMAGE. RECENT EVIDENCE SUGGESTS THAT IF INFLAMMATION IS RESOLVED RELATIVELY LOW LEVELS OF PROINFLAMMATORY MEDIATORS MAY PROMOTE TISSUE REPAIR, WHEREAS IF CHRONIC INFLAMMATION ENSUES REPAIR MECHANISMS BECOME INHIBITED. THUS, THE EFFECTS OF MEDIATORS ARE TEMPORAL CONTEXT DEPENDENT. ALTHOUGH CONTAINMENT AND REMOVAL OF THE INFECTION ARE KEYS TO ENABLE DENTAL TISSUE REPAIR, IT IS FEASIBLE THAT THE DEVELOPMENT OF ANTI-INFLAMMATORY AND IMMUNOMODULATORY APPROACHES, BASED ON MOLECULAR, EPIGENETIC, AND PHOTOBIOMODULATORY TECHNOLOGIES, MAY ALSO BE BENEFICIAL FOR FUTURE ENDODONTIC TREATMENTS. 2014 2 6126 45 THE EPIGENETIC MODIFIER PBRM1 RESTRICTS THE BASAL ACTIVITY OF THE INNATE IMMUNE SYSTEM BY REPRESSING RETINOIC ACID-INDUCIBLE GENE-I-LIKE RECEPTOR SIGNALLING AND IS A POTENTIAL PROGNOSTIC BIOMARKER FOR COLON CANCER. IT HAS LONG BEEN KNOWN THAT PATIENTS SUFFERING FROM INFLAMMATORY BOWEL DISEASE (IBD) HAVE AN INCREASED RISK OF DEVELOPING COLORECTAL CANCER (CRC). THE INNATE IMMUNE SYSTEM OF HOST CELLS PROVIDES A FIRST-LINE DEFENCE AGAINST PATHOGENIC INFECTION, WHEREAS AN UNCONTROLLED INFLAMMATORY RESPONSE UNDER HOMEOSTATIC CONDITIONS USUALLY LEADS TO PATHOLOGICAL CONSEQUENCES, AS EXEMPLIFIED BY THE CHRONIC INFLAMMATION OF IBD. THE KEY MOLECULES AND PATHWAYS KEEPING INNATE IMMUNITY IN CHECK ARE STILL POORLY DEFINED. HERE, WE REPORT THAT THE CHROMATIN REMODELLER POLYBROMO-1 (PBRM1) IS A REPRESSOR OF INNATE IMMUNE SIGNALLING MEDIATED BY RETINOIC ACID-INDUCIBLE GENE-I (RIG-I)-LIKE RECEPTORS (RLRS). KNOCKDOWN OF PBRM1 IN COLON CANCER CELLS INCREASED THE EXPRESSION OF TWO RECEPTOR GENES (RIG-I AND MDA5) AND UPREGULATED INTERFERON (IFN)-RELATED AND INFLAMMATION-RELATED GENE SIGNATURES. THE INNATE IMMUNE SIGNAL STIMULATED BY A DOUBLE-STRANDED RNA VIRAL MIMIC WAS EXAGGERATED BY PBRM1 SUPPRESSION. PBRM1 COOPERATED WITH POLYCOMB PROTEIN EZH2 TO DIRECTLY BIND THE CIS-REGULATORY ELEMENTS OF RIG-I AND MDA5, THEREBY SUPPRESSING THEIR TRANSCRIPTION. MOREOVER, UPREGULATION OF RIG-I AND MDA5 IS REQUIRED FOR IFN RESPONSE ACTIVATION INDUCED BY PBRM1 SILENCING. TRIM25, A PROTEIN STIMULATED BY THE RLR PATHWAY AND IFN PRODUCTION, PHYSICALLY INTERACTED WITH PBRM1 AND INDUCED PBRM1 PROTEIN DESTABILIZATION BY PROMOTING ITS UBIQUITINATION. THESE FINDINGS REVEAL A PBRM1-RLR REGULATORY CIRCUIT THAT CAN KEEP INNATE IMMUNE ACTIVITY AT A MINIMAL LEVEL IN RESTING CELLS, AND ALSO ENSURE A ROBUST INFLAMMATORY RESPONSE IN THE CASE OF PATHOGEN INVASION. PBRM1 WAS FOUND TO BE DOWNREGULATED IN PRIMARY TISSUES FROM PATIENTS WITH CRC OR IBD, AND ITS EXPRESSION CORRELATED NEGATIVELY WITH THAT OF RLR GENES AND INTERFERON-STIMULATED GENES IN CRC SAMPLES. LOWER PBRM1 EXPRESSION WAS ASSOCIATED WITH ADVANCED PATHOLOGICAL GRADE AND POORER SURVIVAL OF CRC PATIENTS, INDICATING THAT PBRM1 COULD SERVE AS A POTENTIAL PROGNOSTIC BIOMARKER FOR CRC. COPYRIGHT (C) 2017 PATHOLOGICAL SOCIETY OF GREAT BRITAIN AND IRELAND. PUBLISHED BY JOHN WILEY & SONS, LTD. 2018 3 5981 41 TET2 PROMOTES PATHOGEN INFECTION-INDUCED MYELOPOIESIS THROUGH MRNA OXIDATION. VARIETIES OF RNA MODIFICATION FORM THE EPITRANSCRIPTOME FOR POST-TRANSCRIPTIONAL REGULATION. 5-METHYLCYTOSINE (5-MC) IS A SPARSE RNA MODIFICATION IN MESSENGER RNA (MRNA) UNDER PHYSIOLOGICAL CONDITIONS. THE FUNCTION OF RNA 5-HYDROXYMETHYLCYTOSINE (5-HMC) OXIDIZED BY TEN-ELEVEN TRANSLOCATION (TET) PROTEINS IN DROSOPHILA HAS BEEN REVEALED MORE RECENTLY. HOWEVER, THE TURNOVER AND FUNCTION OF 5-MC IN MAMMALIAN MRNA HAVE BEEN LARGELY UNKNOWN. TET2 SUPPRESSES MYELOID MALIGNANCIES MOSTLY IN AN ENZYMATIC ACTIVITY-DEPENDENT MANNER, AND IS IMPORTANT IN RESOLVING INFLAMMATORY RESPONSE IN AN ENZYMATIC ACTIVITY-INDEPENDENT WAY. MYELOPOIESIS IS A COMMON HOST IMMUNE RESPONSE IN ACUTE AND CHRONIC INFECTIONS; HOWEVER, ITS EPIGENETIC MECHANISM NEEDS TO BE IDENTIFIED. HERE WE DEMONSTRATE THAT TET2 PROMOTES INFECTION-INDUCED MYELOPOIESIS IN AN MRNA OXIDATION-DEPENDENT MANNER THROUGH ADAR1-MEDIATED REPRESSION OF SOCS3 EXPRESSION AT THE POST-TRANSCRIPTION LEVEL. TET2 PROMOTES BOTH ABDOMINAL SEPSIS-INDUCED EMERGENCY MYELOPOIESIS AND PARASITE-INDUCED MAST CELL EXPANSION THROUGH DECREASING MRNA LEVELS OF SOCS3, A KEY NEGATIVE REGULATOR OF THE JAK-STAT PATHWAY THAT IS CRITICAL FOR CYTOKINE-INDUCED MYELOPOIESIS. TET2 REPRESSES SOCS3 EXPRESSION THROUGH ADAR1, WHICH BINDS AND DESTABILIZES SOCS3 MRNA IN A RNA EDITING-INDEPENDENT MANNER. FOR THE UNDERLYING MECHANISM OF TET2 REGULATION AT THE MRNA LEVEL, TET2 MEDIATES OXIDATION OF 5-MC IN MRNA. TET2 DEFICIENCY LEADS TO THE TRANSCRIPTOME-WIDE APPEARANCE OF METHYLATED CYTOSINES, INCLUDING ONES IN THE 3' UNTRANSLATED REGION OF SOCS3, WHICH INFLUENCES DOUBLE-STRANDED RNA FORMATION FOR ADAR1 BINDING, PROBABLY THROUGH CYTOSINE METHYLATION-SPECIFIC READERS, SUCH AS RNA HELICASES. OUR STUDY REVEALS A PREVIOUSLY UNKNOWN REGULATORY ROLE OF TET2 AT THE EPITRANSCRIPTOMIC LEVEL, PROMOTING MYELOPOIESIS DURING INFECTION IN THE MAMMALIAN SYSTEM BY DECREASING 5-MCS IN MRNAS. MOREOVER, THE INHIBITORY FUNCTION OF CYTOSINE METHYLATION ON DOUBLE-STRANDED RNA FORMATION AND ADAR1 BINDING IN MRNA REVEALS ITS NEW PHYSIOLOGICAL ROLE IN THE MAMMALIAN SYSTEM. 2018 4 3221 31 HELICOBACTER PYLORI AND THE MOLECULAR PATHOGENESIS OF INTESTINAL-TYPE GASTRIC CARCINOMA. GASTRIC CARCINOMA IS AN INFLAMMATION-RELATED CANCER CAUSED BY LONG-TERM INFECTION WITH THE HUMAN BACTERIAL PATHOGEN, HELICOBACTER PYLORI. THE PATTERN OF ACUTE-ON-CHRONIC INFLAMMATION CAUSES PROGRESSIVE MUCOSAL DAMAGE WHICH MAY RESULT IN ATROPHY WITH METAPLASTIC EPITHELIA AND EVENTUALLY GASTRIC CANCER. RECENTLY, IT HAS BEEN RECOGNIZED THAT H. PYLORI CAN ALSO CAUSE GENETIC INSTABILITY SUCH AS DOUBLE-STRANDED DNA BREAKS AND CAN PRODUCE GENE ACTIVATION AND SILENCING VIA EPIGENETIC PATHWAYS. AS GENETIC INSTABILITY IS THE HALLMARK OF CANCER, WE HIGHLIGHT RECENT PROGRESS IN UNDERSTANDING THE GASTRIC CARCINOGENESIS IN RELATION TO H. PYLORI-RELATED INFLAMMATION, H. PYLORI-INDUCED DOUBLE-STRANDED DNA BREAKAGE AND ABERRANT GENE EXPRESSION AS WELL AS THE MECHANISMS AND ROLE OF H. PYLORI-ASSOCIATED EPIGENETIC CHANGE IN GENE EXPRESSION. 2014 5 450 37 APOPTOSIS AND AGING: INCREASED RESISTANCE TO APOPTOSIS ENHANCES THE AGING PROCESS. APOPTOSIS IS A VITAL COMPONENT IN THE EVOLUTIONARILY CONSERVED HOST DEFENSE SYSTEM. APOPTOSIS IS THE GUARDIAN OF TISSUE INTEGRITY BY REMOVING UNFIT AND INJURED CELLS WITHOUT EVOKING INFLAMMATION. HOWEVER, APOPTOSIS SEEMS TO BE A DOUBLE-EDGED SWORD SINCE DURING LOW-LEVEL CHRONIC STRESS, SUCH AS IN AGING, INCREASED RESISTANCE TO APOPTOSIS CAN LEAD TO THE SURVIVAL OF FUNCTIONALLY DEFICIENT, POST-MITOTIC CELLS WITH DAMAGED HOUSEKEEPING FUNCTIONS. SENESCENT CELLS ARE REMARKABLY RESISTANT TO APOPTOSIS, AND SEVERAL STUDIES INDICATE THAT HOST DEFENSE MECHANISMS CAN ENHANCE ANTI-APOPTOTIC SIGNALING, WHICH SUBSEQUENTLY INDUCES A SENESCENT, PRO-INFLAMMATORY PHENOTYPE DURING THE AGING PROCESS. AT THE MOLECULAR LEVEL, AGE-RELATED RESISTANCE TO APOPTOSIS INVOLVES (1) FUNCTIONAL DEFICIENCY IN P53 NETWORK, (2) INCREASED ACTIVITY IN THE NF-KAPPAB-IAP/JNK AXIS, AND (3) CHANGES IN MOLECULAR CHAPERONES, MICRORNAS, AND EPIGENETIC REGULATION. WE WILL DISCUSS THE MOLECULAR BASIS OF AGE-RELATED RESISTANCE TO APOPTOSIS AND EMPHASIZE THAT INCREASED RESISTANCE COULD ENHANCE THE AGING PROCESS. 2011 6 5758 34 SOCS3 DELETION IN T LYMPHOCYTES SUPPRESSES DEVELOPMENT OF CHRONIC OCULAR INFLAMMATION VIA UPREGULATION OF CTLA-4 AND EXPANSION OF REGULATORY T CELLS. SUPPRESSORS OF CYTOKINE SIGNALING (SOCS) PROTEINS ARE NEGATIVE-FEEDBACK REGULATORS OF THE JAK/STAT PATHWAY, AND SOCS3 CONTRIBUTES TO HOST IMMUNITY BY REGULATING THE INTENSITY AND DURATION OF CYTOKINE SIGNALS AND INFLAMMATORY RESPONSES. MICE WITH SOCS3 DELETION IN MYELOID CELLS EXHIBIT ENHANCED STAT3 SIGNALING, EXPANSION OF TH1 AND TH17 CELLS, AND DEVELOP SEVERE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS. INTERESTINGLY, DEVELOPMENT OF THE UNIQUE IL-17/IFN-GAMMA DOUBLE-PRODUCING (TH17/IFN-GAMMA AND TC17/IFN-GAMMA) SUBSETS THAT EXHIBIT STRONG CYTOTOXIC ACTIVITIES AND ARE ASSOCIATED WITH PATHOGENESIS OF SEVERAL AUTOIMMUNE DISEASES HAS RECENTLY BEEN SHOWN TO DEPEND ON EPIGENETIC SUPPRESSION OF SOCS3 EXPRESSION, FURTHER SUGGESTING INVOLVEMENT OF SOCS3 IN AUTOIMMUNITY AND TUMOR IMMUNITY. IN THIS STUDY, WE GENERATED MICE WITH SOCS3 DELETION IN THE CD4 T CELL COMPARTMENT (CD4-SOCS3 KNOCKOUT [KO]) TO DETERMINE IN VIVO EFFECTS OF THE LOSS OF SOCS3 IN THE T CELL-MEDIATED AUTOIMMUNE DISEASE, EXPERIMENTAL AUTOIMMUNE UVEITIS (EAU). IN CONTRAST TO THE EXACERBATION OF EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS IN MYELOID-SPECIFIC SOCS3-DELETED MICE, CD4-SOCS3KO MICE WERE PROTECTED FROM ACUTE AND CHRONIC UVEITIS. PROTECTION FROM EAU CORRELATED WITH ENHANCED EXPRESSION OF CTLA-4 AND EXPANSION OF IL-10-PRODUCING REGULATORY T CELLS WITH AUGMENTED SUPPRESSIVE ACTIVITIES. WE FURTHER SHOW THAT SOCS3 INTERACTS WITH CTLA-4 AND NEGATIVELY REGULATES CTLA-4 LEVELS IN T CELLS, PROVIDING A MECHANISTIC EXPLANATION FOR THE EXPANSION OF REGULATORY T CELLS IN CD4-SOCS3 DURING EAU. CONTRARY TO IN VITRO EPIGENETIC STUDIES, TH17/IFN-GAMMA AND TC17/IFN-GAMMA POPULATIONS WERE MARKEDLY REDUCED IN CD4-SOCS3KO, SUGGESTING THAT SOCS3 PROMOTES EXPANSION OF THE TH17/IFN-GAMMA SUBSET ASSOCIATED WITH DEVELOPMENT OF SEVERE UVEITIS. THUS, SOCS3 IS A POTENTIAL THERAPEUTIC TARGET IN UVEITIS AND OTHER AUTOINFLAMMATORY DISEASES. 2013 7 6383 29 THE ROLE OF PHF6 IN HEMATOPOIESIS AND HEMATOLOGIC MALIGNANCIES. EPIGENETIC REGULATION OF GENE EXPRESSION REPRESENTS AN IMPORTANT MECHANISM IN THE MAINTENANCE OF STEM CELL FUNCTION. ALTERATIONS IN EPIGENETIC REGULATION CONTRIBUTE TO THE PATHOGENESIS OF HEMATOLOGICAL MALIGNANCIES. PLANT HOMEODOMAIN FINGER PROTEIN 6 (PHF6) IS A MEMBER OF THE PLANT HOMEODOMAIN (PHD)-LIKE ZINC FINGER FAMILY OF PROTEINS THAT IS INVOLVED IN TRANSCRIPTIONAL REGULATION THROUGH THE MODIFICATION OF THE CHROMATIN STATE. GERMLINE MUTATION OF PHF6 IS THE CAUSATIVE GENETIC ALTERATION OF THE X-LINKED MENTAL RETARDATION BORJESON-FORSSMAN-LEHMANN SYNDROME (BFLS). SOMATIC MUTATIONS IN PHF6 ARE IDENTIFIED IN HUMAN LEUKEMIA, SUCH AS ADULT T-CELL ACUTE LYMPHOBLASTIC LEUKEMIA (T-ALL, ~ 38%), PEDIATRIC T-ALL (~ 16%), ACUTE MYELOID LEUKEMIA (AML, ~ 3%), CHRONIC MYELOID LEUKEMIA (CML, ~ 2.5%), MIXED PHENOTYPE ACUTE LEUKEMIA (MPAL, ~ 20%), AND HIGH-GRADE B-CELL LYMPHOMA (HGBCL, ~ 3%). MORE RECENT STUDIES IMPLY AN ONCOGENIC EFFECT OF PHF6 IN B-CELL ACUTE LYMPHOBLASTIC LEUKEMIA (B-ALL) AND SOLID TUMORS. THESE DATA DEMONSTRATE THAT PHF6 COULD ACT AS A DOUBLE-EDGED SWORD, EITHER A TUMOR SUPPRESSOR OR AN ONCOGENE, IN A LINEAGE-DEPENDENT MANNER. HOWEVER, THE UNDERLYING MECHANISMS OF PHF6 IN NORMAL HEMATOPOIESIS AND LEUKEMOGENESIS REMAIN LARGELY UNKNOWN. IN THIS REVIEW, WE SUMMARIZE CURRENT KNOWLEDGE OF PHF6, EMPHASIZING THE ROLE OF PHF6 IN HEMATOLOGICAL MALIGNANCIES. EPIGENETIC REGULATION OF PHF6 IN B-ALL. PHF6 MAINTAINS A CHROMATIN STRUCTURE THAT IS PERMISSIVE TO B-CELL IDENTITY GENES, BUT NOT T-CELL-SPECIFIC GENES (LEFT). LOSS OF PHF6 LEADS TO ABERRANT EXPRESSION OF B-CELL- AND T-CELL-SPECIFIC GENES RESULTING FROM LINEAGE PROMISCUITY AND BINDING OF T-CELL TRANSCRIPTION FACTORS (RIGHT). 2023 8 6011 31 THE ANTIRESECTION ACTIVITY OF THE X PROTEIN ENCODED BY HEPATITIS VIRUS B. CHRONIC INFECTION OF HEPATITIS B VIRUS (HBV) IS ASSOCIATED WITH AN INCREASED INCIDENCE OF HEPATOCELLULAR CARCINOMA (HCC). HBV ENCODES AN ONCOPROTEIN, HEPATITIS B X PROTEIN (HBX), THAT IS CRUCIAL FOR VIRAL REPLICATION AND INTERFERES WITH MULTIPLE CELLULAR ACTIVITIES INCLUDING GENE EXPRESSION, HISTONE MODIFICATIONS, AND GENOMIC STABILITY. TO DATE, IT REMAINS UNCLEAR HOW DISRUPTION OF THESE ACTIVITIES CONTRIBUTES TO HEPATOCARCINOGENESIS. HERE, WE REPORT THAT HBV EXHIBITS ANTIRESECTION ACTIVITY BY DISRUPTING DNA END RESECTION, THUS IMPAIRING THE INITIAL STEPS OF HOMOLOGOUS RECOMBINATION (HR). THIS ANTIRESECTION ACTIVITY OCCURS IN PRIMARY HUMAN HEPATOCYTES UNDERGOING A NATURAL VIRAL INFECTION-REPLICATION CYCLE AS WELL AS IN CELLS WITH INTEGRATED HBV GENOMES. AMONG THE SEVEN HBV-ENCODED PROTEINS, WE IDENTIFIED HBX AS THE SOLE VIRAL FACTOR THAT INHIBITS RESECTION. BY DISRUPTING AN EVOLUTIONARILY CONSERVED CULLIN4A-DAMAGE-SPECIFIC DNA BINDING PROTEIN 1-RING TYPE OF E3 LIGASE, CRL4(WDR70) , THROUGH ITS H-BOX, WE SHOW THAT HBX INHIBITS H2B MONOUBIQUITYLATION AT LYSINE 120 AT DOUBLE-STRAND BREAKS, THUS REDUCING THE EFFICIENCY OF LONG-RANGE RESECTION. WE FURTHER SHOW THAT DIRECTLY IMPAIRING H2B MONOUBIQUITYLATION ELICITED TUMORIGENESIS UPON ENGRAFTMENT OF DEFICIENT CELLS IN ATHYMIC MICE, CONFIRMING THAT THE IMPAIRMENT OF CRL4(WDR70) FUNCTION BY HBX IS SUFFICIENT TO PROMOTE CARCINOGENESIS. FINALLY, WE DEMONSTRATE THAT LACK OF H2B MONOUBIQUITYLATION IS MANIFEST IN HUMAN HBV-ASSOCIATED HCC WHEN COMPARED WITH HBV-FREE HCC, IMPLYING CORRESPONDING DEFECTS OF EPIGENETIC REGULATION AND END RESECTION. CONCLUSION: THE ANTIRESECTION ACTIVITY OF HBX INDUCES AN HR DEFECT AND GENOMIC INSTABILITY AND CONTRIBUTES TO TUMORIGENESIS OF HOST HEPATOCYTES. 2019 9 3225 30 HELICOBACTER PYLORI INFECTION INTRODUCES DNA DOUBLE-STRAND BREAKS IN HOST CELLS. GASTRIC CANCER IS AN INFLAMMATION-RELATED MALIGNANCY RELATED TO LONG-STANDING ACUTE AND CHRONIC INFLAMMATION CAUSED BY INFECTION WITH THE HUMAN BACTERIAL PATHOGEN HELICOBACTER PYLORI. INFLAMMATION CAN RESULT IN GENOMIC INSTABILITY. HOWEVER, THERE ARE CONSIDERABLE DATA THAT H. PYLORI ITSELF CAN ALSO PRODUCE GENOMIC INSTABILITY BOTH DIRECTLY AND THROUGH EPIGENETIC PATHWAYS. OVERALL, THE MECHANISMS OF H. PYLORI-INDUCED HOST GENOMIC INSTABILITIES REMAIN POORLY UNDERSTOOD. WE USED MICROARRAY SCREENING OF H. PYLORI-INFECTED HUMAN GASTRIC BIOPSY SPECIMENS TO IDENTIFY CANDIDATE GENES INVOLVED IN H. PYLORI-INDUCED HOST GENOMIC INSTABILITIES. WE FOUND UPREGULATION OF ATM EXPRESSION IN VIVO IN GASTRIC MUCOSAL CELLS INFECTED WITH H. PYLORI. USING GASTRIC CANCER CELL LINES, WE CONFIRMED THAT THE H. PYLORI-RELATED ACTIVATION OF ATM WAS DUE TO THE ACCUMULATION OF DNA DOUBLE-STRAND BREAKS (DSBS). DSBS WERE OBSERVED FOLLOWING INFECTION WITH BOTH CAG PATHOGENICITY ISLAND (PAI)-POSITIVE AND -NEGATIVE STRAINS, BUT THE EFFECT WAS MORE ROBUST WITH CAG PAI-POSITIVE STRAINS. THESE RESULTS ARE CONSISTENT WITH THE FACT THAT INFECTIONS WITH BOTH CAG PAI-POSITIVE AND -NEGATIVE STRAINS ARE ASSOCIATED WITH GASTRIC CARCINOGENESIS, BUT THE RISK IS HIGHER IN INDIVIDUALS INFECTED WITH CAG PAI-POSITIVE STRAINS. 2014 10 6117 31 THE EPIGENETIC DRUG TRICHOSTATIN A AMELIORATES EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS VIA T CELL TOLERANCE INDUCTION AND IMPAIRED INFLUX OF T CELLS INTO THE SPINAL CORD. MULTIPLE SCLEROSIS IS A T CELL MEDIATED CHRONIC DEMYELINATING DISEASE OF THE CENTRAL NERVOUS SYSTEM. ALTHOUGH CURRENTLY AVAILABLE THERAPIES REDUCE RELAPSES, THEY DO NOT FACILITATE TOLERIZATION OF MYELIN ANTIGEN-SPECIFIC T LYMPHOCYTES TO ENSURE PROLONGED PROTECTION AGAINST MULTIPLE SCLEROSIS. HERE, WE SHOW THAT TREATMENT OF NOD MICE WITH THE HISTONE DEACETYLASE INHIBITOR, TRICHOSTATIN A AFFORDS ROBUST PROTECTION AGAINST MYELIN PEPTIDE INDUCED EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS, A MOUSE MODEL OF MULTIPLE SCLEROSIS. PROTECTION WAS ACCOMPANIED BY HISTONE HYPERACETYLATION, AND REDUCED INFLAMMATION AND AXONAL DAMAGE IN THE SPINAL CORD. DRUG TREATMENT DIMINISHED THE GENERATION OF CD4(+) MEMORY T CELLS AND INDUCED TOLERANCE IN CD4(+) T CELLS RECOGNIZING THE IMMUNIZING MYELIN PEPTIDE. DURING THE EARLY IMMUNIZATION PERIOD, CD4(+) T CELLS PRODUCING GM-CSF+IFN-GAMMA, GM-CSF+IL-17A, AS WELL AS THOSE EXPRESSING BOTH IL-17A+IFN-GAMMA (DOUBLE-PRODUCERS) WERE DETECTED IN THE SECONDARY LYMPHOID ORGANS FOLLOWED BY THE APPEARANCE OF CELLS PRODUCING IFN-GAMMA AND GM-CSF. ON THE OTHER HAND, IFN-GAMMA PRODUCING TH1 CELLS APPEAR FIRST IN THE SPINAL CORD FOLLOWED BY CELLS PRODUCING IL-17A AND GM-CSF. TREATMENT WITH TRICHOSTATIN A SUBSTANTIALLY REDUCED THE FREQUENCIES OF ALL T CELLS SECRETING VARIOUS LYMPHOKINES BOTH IN THE PERIPHERY AND IN THE SPINAL CORD. THESE DATA INDICATE THAT EPIGENETIC MODIFICATIONS INDUCED BY HISTONE HYPERACETYLATION FACILITATES T CELL TOLERANCE INDUCTION IN THE PERIPHERY LEADING TO REDUCED MIGRATION OF T CELLS TO THE SPINAL CORD AND MITIGATION OF NEURONAL DAMAGE AND IMPROVED CLINICAL OUTCOME. THESE RESULTS SUGGEST THAT EPIGENETIC MODULATION OF THE GENOME MAY SIMILARLY OFFER BENEFITS TO MULTIPLE SCLEROSIS PATIENTS VIA ABROGATING THE FUNCTION OF ENCEPHALITOGENIC T LYMPHOCYTES WITHOUT EXERTING SEVERE SIDE EFFECTS ASSOCIATED WITH CURRENTLY USED DISEASE-MODIFYING THERAPIES. 2017 11 5326 42 PULP INNATE IMMUNE DEFENSE: TRANSLATIONAL OPPORTUNITIES. INTRODUCTION: THE IMPROVEMENT OF REGENERATIVE ENDODONTIC PROCEDURES REQUIRES AN UNDERSTANDING OF THE KEY CLINICAL QUESTIONS COMBINED WITH A FUNDAMENTAL BIOLOGICAL KNOWLEDGE OF HOW THE DENTAL TISSUES BEHAVE DURING HEALTH, DISEASE, AND REPAIR. THEREFORE, PARTNERSHIPS BETWEEN CLINICIANS AND BASIC SCIENTISTS ARE ESSENTIAL TO DRIVE THE FIELD FORWARD AND IMPROVE PATIENT OUTCOMES. METHODS: THIS REVIEW AIMED TO PROVIDE A BACKGROUND TO DENTIN-PULP BIOLOGY AND THE INTERACTION BETWEEN INFECTION, INFLAMMATION, AND REGENERATION. RESULTS: WE HAVE HIGHLIGHTED HOW THE RELEASE OF NEUTROPHIL EXTRACELLULAR TRAPS (NETS) WITHIN THE PULP ARE DOUBLE-EDGED; WHILE THEY AIM TO LIMIT THE BACTERIAL INFECTION, THEY MAY ACTUALLY EXACERBATE CELL DEATH AND CHRONIC INFLAMMATION. ABERRANT LEVELS OF THESE STRUCTURES MAY OCCUR BECAUSE OF INEFFECTIVE HOST IMMUNOLOGIC PROCESSES, VIRAL INFECTIONS, OR IMPAIRED CLEARANCE CAUSED BY BACTERIAL VIRULENCE FACTORS. WE ALSO POSTULATE A PROINFLAMMATORY LINK IN THE PULP BETWEEN NETS AND THE INFLAMMASOME ACTIVATED BY PATHOGEN-ASSOCIATED MOLECULAR PATTERNS AND DAMAGE-ASSOCIATED MOLECULAR PATTERNS. SUBSEQUENTLY, WE DISCUSS AREAS POTENTIALLY FRUITFUL FOR FUTURE CLINICAL EXPLOITATION INVOLVING NET INHIBITORS, INFLAMMASOME MODULATORS, PHOTOTHERAPIES, AND NOVEL EPIGENETIC APPROACHES. CONCLUSIONS: SUSTAINED SCIENTIST-CLINICIAN RESEARCH PARTNERSHIPS ALONG WITH AN INCREASED UNDERSTANDING OF THE ASSOCIATION BETWEEN INFLAMMATION AND REGENERATION WITHIN THE DENTIN-PULP COMPLEX WILL LEAD TO FUTURE PATIENT BENEFIT. 2020 12 1184 22 COOPERATIVE EPIGENETIC REMODELING BY TET2 LOSS AND NRAS MUTATION DRIVES MYELOID TRANSFORMATION AND MEK INHIBITOR SENSITIVITY. MUTATIONS IN EPIGENETIC MODIFIERS AND SIGNALING FACTORS OFTEN CO-OCCUR IN MYELOID MALIGNANCIES, INCLUDING TET2 AND NRAS MUTATIONS. CONCURRENT TET2 LOSS AND NRAS(G12D) EXPRESSION IN HEMATOPOIETIC CELLS INDUCED MYELOID TRANSFORMATION, WITH A FULLY PENETRANT, LETHAL CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), WHICH WAS SERIALLY TRANSPLANTABLE. TET2 LOSS AND NRAS MUTATION COOPERATIVELY LED TO DECREASE IN NEGATIVE REGULATORS OF MITOGEN-ACTIVATED PROTEIN KINASE (MAPK) ACTIVATION, INCLUDING SPRY2, THEREBY CAUSING SYNERGISTIC ACTIVATION OF MAPK SIGNALING BY EPIGENETIC SILENCING. TET2/NRAS DOUBLE-MUTANT LEUKEMIA SHOWED PREFERENTIAL SENSITIVITY TO MAPK KINASE (MEK) INHIBITION IN BOTH MOUSE MODEL AND PATIENT SAMPLES. THESE DATA PROVIDE INSIGHTS INTO HOW EPIGENETIC AND SIGNALING MUTATIONS COOPERATE IN MYELOID TRANSFORMATION AND PROVIDE A RATIONALE FOR MECHANISM-BASED THERAPY IN CMML PATIENTS WITH THESE HIGH-RISK GENETIC LESIONS. 2018 13 4769 37 NUCLEAR MORPHOMETRY, NUCLEOMICS AND PROSTATE CANCER PROGRESSION. PROSTATE CANCER (PCA) RESULTS FROM A MULTISTEP PROCESS. THIS PROCESS INCLUDES INITIATION, WHICH OCCURS THROUGH VARIOUS AGING EVENTS AND MULTIPLE INSULTS (SUCH AS CHRONIC INFECTION, INFLAMMATION AND GENETIC INSTABILITY THROUGH REACTIVE OXYGEN SPECIES CAUSING DNA DOUBLE-STRAND BREAKS), FOLLOWED BY A MULTISTEP PROCESS OF PROGRESSION. THESE STEPS INCLUDE SEVERAL GENETIC AND EPIGENETIC ALTERATIONS, AS WELL AS ALTERATIONS TO THE CHROMATIN STRUCTURE, WHICH OCCUR IN RESPONSE TO THE CARCINOGENIC STRESS-RELATED EVENTS THAT SUSTAIN PROLIFERATIVE SIGNALING. EVENTS SUCH AS EVADING GROWTH SUPPRESSORS, RESISTING CELL DEATH, ENABLING REPLICATIVE IMMORTALITY, INDUCING ANGIOGENESIS, AND ACTIVATING INVASION AND METASTASIS ARE READILY OBSERVED. IN ADDITION, IN CONJUNCTION WITH THESE CRITICAL DRIVERS OF CARCINOGENESIS, OTHER FACTORS RELATED TO THE ETIOPATHOGENESIS OF PCA, INVOLVING ENERGY METABOLISM AND EVASION OF THE IMMUNE SURVEILLANCE SYSTEM, APPEAR TO BE INVOLVED. IN ADDITION, WHEN CANCER SPREAD AND METASTASIS OCCUR, THE 'TUMOR MICROENVIRONMENT' IN THE BONE OF PCA PATIENTS MAY PROVIDE A WAY TO SUSTAIN DORMANCY OR SENESCENCE AND EVENTUALLY ESTABLISH A 'SEED AND SOIL' SITE WHERE PCA PROLIFERATION AND GROWTH MAY OCCUR OVER TIME. WHEN PCA IS INITIATED AND PROGRESSION ENSUES, SIGNIFICANT ALTERATIONS IN NUCLEAR SIZE, SHAPE AND HETEROCHROMATIN (DNA TRANSCRIPTION) ORGANIZATION ARE FOUND, AND KEY NUCLEAR TRANSCRIPTIONAL AND STRUCTURAL PROTEINS, AS WELL AS MULTIPLE NUCLEAR BODIES CAN LEAD TO PRECANCEROUS AND MALIGNANT CHANGES. THESE SERIES OF CELLULAR AND TISSUE-RELATED MALIGNANCY-ASSOCIATED EVENTS CAN BE QUANTIFIED TO ASSESS DISEASE PROGRESSION AND MANAGEMENT. 2012 14 4524 38 MULTIFACETED CONTROL OF DNA REPAIR PATHWAYS BY THE HYPOXIC TUMOR MICROENVIRONMENT. HYPOXIA, AS A PERVASIVE FEATURE IN THE MICROENVIRONMENT OF SOLID TUMORS, PLAYS A SIGNIFICANT ROLE IN CANCER PROGRESSION, METASTASIS, AND ULTIMATELY CLINICAL OUTCOME. ONE KEY CELLULAR CONSEQUENCE OF HYPOXIC STRESS IS THE REGULATION OF DNA REPAIR PATHWAYS, WHICH CONTRIBUTES TO THE GENOMIC INSTABILITY AND MUTATOR PHENOTYPE OBSERVED IN HUMAN CANCERS. TUMOR HYPOXIA CAN VARY IN SEVERITY AND DURATION, RANGING FROM ACUTE FLUCTUATING HYPOXIA ARISING FROM TEMPORARY BLOCKAGES IN THE IMMATURE MICROVASCULATURE, TO CHRONIC MODERATE HYPOXIA DUE TO SPARSE VASCULATURE, TO COMPLETE ANOXIA AT DISTANCES MORE THAN 150 MUM FROM THE NEAREST BLOOD VESSEL. PARALLELING THE INTRA-TUMOR HETEROGENEITY OF HYPOXIA, THE EFFECTS OF HYPOXIA ON DNA REPAIR OCCUR THROUGH DIVERSE MECHANISMS. ACUTELY, HYPOXIA ACTIVATES DNA DAMAGE SIGNALING PATHWAYS, PRIMARILY VIA POST-TRANSLATIONAL MODIFICATIONS. ON A LONGER TIMESCALE, HYPOXIA LEADS TO TRANSCRIPTIONAL AND/OR TRANSLATIONAL DOWNREGULATION OF MOST DNA REPAIR PATHWAYS INCLUDING DNA DOUBLE-STRAND BREAK REPAIR, MISMATCH REPAIR, AND NUCLEOTIDE EXCISION REPAIR. FURTHERMORE, EXTENDED HYPOXIA CAN LEAD TO LONG-TERM PERSISTENT SILENCING OF CERTAIN DNA REPAIR GENES, INCLUDING BRCA1 AND MLH1, REVEALING A MECHANISM BY WHICH TUMOR SUPPRESSOR GENES CAN BE INACTIVATED. THE DISCOVERIES OF THE HYPOXIC MODULATION OF DNA REPAIR PATHWAYS HAVE HIGHLIGHTED MANY POTENTIAL WAYS TO TARGET SUSCEPTIBILITIES OF HYPOXIC CANCER CELLS. IN THIS REVIEW, WE WILL DISCUSS THE MULTIFACETED HYPOXIC CONTROL OF DNA REPAIR AT THE TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, AND EPIGENETIC LEVELS, AND WE WILL OFFER PERSPECTIVE ON THE FUTURE OF ITS CLINICAL IMPLICATIONS. 2015 15 1479 25 DIVERSE TARGETS OF THE TRANSCRIPTION FACTOR STAT3 CONTRIBUTE TO T CELL PATHOGENICITY AND HOMEOSTASIS. STAT3, AN ESSENTIAL TRANSCRIPTION FACTOR WITH PLEIOTROPIC FUNCTIONS, PLAYS CRITICAL ROLES IN THE PATHOGENESIS OF AUTOIMMUNITY. DESPITE RECENT DATA LINKING STAT3 WITH INFLAMMATORY BOWEL DISEASE, EXACTLY HOW IT CONTRIBUTES TO CHRONIC INTESTINAL INFLAMMATION IS NOT KNOWN. USING A T CELL TRANSFER MODEL OF COLITIS, WE FOUND THAT STAT3 EXPRESSION IN T CELLS WAS ESSENTIAL FOR THE INDUCTION OF BOTH COLITIS AND SYSTEMIC INFLAMMATION. STAT3 WAS CRITICAL IN MODULATING THE BALANCE OF T HELPER 17 (TH17) AND REGULATORY T (TREG) CELLS, AS WELL AS IN PROMOTING CD4(+) T CELL PROLIFERATION. WE USED CHROMATIN IMMUNOPRECIPITATION AND MASSIVE PARALLEL SEQUENCING (CHIP-SEQ) TO DEFINE THE GENOME-WIDE TARGETS OF STAT3 IN CD4(+) T CELLS. WE FOUND THAT STAT3 BOUND TO MULTIPLE GENES INVOLVED IN TH17 CELL DIFFERENTIATION, CELL ACTIVATION, PROLIFERATION, AND SURVIVAL, REGULATING BOTH EXPRESSION AND EPIGENETIC MODIFICATIONS. THUS, STAT3 ORCHESTRATES MULTIPLE CRITICAL ASPECTS OF T CELL FUNCTION IN INFLAMMATION AND HOMEOSTASIS. 2010 16 3379 25 HIV LATENCY AND THE NONCODING RNA THERAPEUTIC LANDSCAPE. THE HUMAN IMMUNODEFICIENCY VIRUS (HIV) BELONGS TO THE SUBFAMILY OF LENTIVIRUSES THAT ARE CHARACTERIZED BY LONG INCUBATION PERIODS AND CHRONIC, PERSISTENT INFECTION. THE VIRUS INTEGRATES INTO THE GENOME OF INFECTED CD4+ CELLS AND, IN A SUBPOPULATION OF CELLS, ADOPTS A TRANSCRIPTIONALLY SILENT STATE, A PROCESS REFERRED TO A VIRAL LATENCY. THIS PROPERTY MAKES IT EXCEEDINGLY DIFFICULT TO THERAPEUTICALLY TARGET THE VIRUS AND ERADICATE INFECTION. IF LEFT UNTREATED, THE INEXORABLE DEMISE OF THE INFECTED INDIVIDUAL'S IMMUNE SYSTEM ENSUES, A CAUSAL RESULT OF ACQUIRED IMMUNODEFICIENCY SYNDROME (AIDS). LATENTLY INFECTED CELLS PROVIDE A RESERVOIR THAT MAINTAINS VIRAL INFECTION INDEFINITELY. IN THIS CHAPTER WE EXPLORE THE ROLE OF NONCODING RNAS IN HIV INFECTION AND IN THE ESTABLISHMENT AND MAINTENANCE OF VIRAL LATENCY. BOTH SHORT AND LONG NONCODING RNAS ARE ENDOGENOUS MODULATORS OF EPIGENETIC REGULATION IN HUMAN CELLS AND PLAY AN ACTIVE ROLE IN GENE EXPRESSION. LASTLY, WE EXPLORE THERAPEUTIC MODALITIES BASED ON EXPRESSED RNAS THAT ARE CAPABLE OF COUNTERING INFECTION, TRANSCRIPTIONALLY REGULATING THE VIRUS, AND SUPPRESSING OR ACTIVATING THE LATENT STATE. 2015 17 2377 36 EPIGENETIC REGULATION OF TUMOR SUPPRESSORS BY HELICOBACTER PYLORI ENHANCES EBV-INDUCED PROLIFERATION OF GASTRIC EPITHELIAL CELLS. HELICOBACTER PYLORI AND EPSTEIN-BARR VIRUS (EBV) ARE TWO WELL-KNOWN CONTRIBUTORS TO CANCER AND CAN ESTABLISH LIFELONG PERSISTENT INFECTION IN THE HOST. THIS LEADS TO CHRONIC INFLAMMATION, WHICH ALSO CONTRIBUTES TO DEVELOPMENT OF CANCER. ASSOCIATION WITH H. PYLORI INCREASES THE RISK OF GASTRIC CARCINOMA, AND COEXISTENCE WITH EBV ENHANCES PROLIFERATION OF INFECTED CELLS. FURTHER, H. PYLORI-EBV COINFECTION CAUSES CHRONIC INFLAMMATION IN PEDIATRIC PATIENTS. WE HAVE ESTABLISHED AN H. PYLORI-EBV COINFECTION MODEL SYSTEM USING HUMAN GASTRIC EPITHELIAL CELLS. WE SHOWED THAT H. PYLORI INFECTION CAN INCREASE THE ONCOGENIC PHENOTYPE OF EBV-INFECTED CELLS AND THAT THE CYTOTOXIN-ASSOCIATED GENE (CAGA) PROTEIN ENCODED BY H. PYLORI STIMULATED EBV-MEDIATED CELL PROLIFERATION IN THIS COINFECTION MODEL SYSTEM. THIS LED TO INCREASED EXPRESSION OF DNA METHYL TRANSFERASES (DNMTS), WHICH REPROGRAMMED CELLULAR TRANSCRIPTIONAL PROFILES, INCLUDING THOSE OF TUMOR SUPPRESSOR GENES (TSGS), THROUGH HYPERMETHYLATION. THESE FINDINGS PROVIDE NEW INSIGHTS INTO A MOLECULAR MECHANISM WHEREBY COOPERATIVITY BETWEEN TWO ONCOGENIC AGENTS LEADS TO ENHANCED ONCOGENIC ACTIVITY OF GASTRIC CANCER CELLS.IMPORTANCE WE HAVE STUDIED THE COOPERATIVITY BETWEEN H. PYLORI AND EBV, TWO KNOWN ONCOGENIC AGENTS. THIS LED TO AN ENHANCED ONCOGENIC PHENOTYPE IN GASTRIC EPITHELIAL CELLS. WE NOW DEMONSTRATE THAT EBV-DRIVEN EPIGENETIC MODIFICATIONS ARE ENHANCED IN THE PRESENCE OF H. PYLORI, MORE SPECIFICALLY, IN THE PRESENCE OF ITS CAGA SECRETORY ANTIGEN. THIS RESULTS IN INCREASED PROLIFERATION OF THE INFECTED GASTRIC CELLS. OUR FINDINGS NOW ELUCIDATE A MOLECULAR MECHANISM WHEREBY EXPRESSION OF CELLULAR DNA METHYL TRANSFERASES IS INDUCED INFLUENCING INFECTION BY EBV. HYPERMETHYLATION OF THE REGULATORY GENOMIC REGIONS OF TUMOR SUPPRESSOR GENES RESULTS IN THEIR SILENCING. THIS DRASTICALLY AFFECTS THE EXPRESSION OF CELL CYCLE, APOPTOSIS, AND DNA REPAIR GENES, WHICH DYSREGULATES THEIR ASSOCIATED PROCESSES, AND PROMOTION OF THE ONCOGENIC PHENOTYPE. 2018 18 6209 41 THE INTERFERON-STIMULATED GENE TRIM22: A DOUBLE-EDGED SWORD IN HIV-1 INFECTION. INFECTION OF TARGET CELLS BY THE HUMAN IMMUNODEFICIENCY VIRUS TYPE-1 (HIV-1) IS HAMPERED BY CONSTITUTIVELY EXPRESSED HOST CELL PROTEINS PREVENTING OR CURTAILING VIRUS REPLICATION AND THEREFORE DEFINED AS "RESTRICTION FACTORS". AMONG THEM, MEMBERS OF THE TRIPARTITE MOTIF (TRIM) FAMILY HAVE EMERGED AS IMPORTANT PLAYERS ENDOWED WITH BOTH ANTIVIRAL EFFECTS AND MODULATORY CAPACITY OF THE INNATE IMMUNE RESPONSE. TRIM5ALPHA AND TRIM19 (I.E. PROMYELOCYTIC LEUKEMIA, PML) ARE AMONG THE BEST-CHARACTERIZED FAMILY MEMBERS; HOWEVER, IN THIS REVIEW WE WILL FOCUS ON THE POTENTIAL ROLE OF ANOTHER FAMILY MEMBER, I.E. TRIM22, A FACTOR STRONGLY INDUCED BY INTERFERON STIMULATION, IN HIV INFECTION IN VIVO AND IN VITRO IN THE CONTEXT OF ITS BROADER ANTIVIRAL EFFECTS. WE WILL ALSO FOCUS ON THE POTENTIAL ROLE OF TRIM22 IN HIV-1-INFECTED INDIVIDUALS SPECULATING ON ITS DUAL ROLE IN CONTROLLING VIRUS REPLICATION AND MORE COMPLEX ROLE IN CHRONIC INFECTION. AT THE MOLECULAR LEVELS, WE WILL REVIEW THE EVIDENCE IN FAVOR OF A RELEVANT ROLE OF TRIM22 AS EPIGENETIC INHIBITOR OF HIV-1 TRANSCRIPTION ACTING BY PREVENTING THE BINDING OF THE HOST CELL TRANSCRIPTION FACTOR SP1 TO THE VIRAL PROMOTER. THESE EVIDENCES SUGGEST THAT TRIM22 SHOULD BE CONSIDERED A POTENTIAL NEW PLAYER IN EITHER THE ESTABLISHMENT OR MAINTENANCE OF HIV-1 RESERVOIRS OF LATENTLY INFECTED CELLS UNAFFECTED BY COMBINATION ANTIRETROVIRAL THERAPY. 2018 19 5795 25 STAT3 INDUCTION OF MIR-146B FORMS A FEEDBACK LOOP TO INHIBIT THE NF-KAPPAB TO IL-6 SIGNALING AXIS AND STAT3-DRIVEN CANCER PHENOTYPES. INTERLEUKIN-6 (IL-6)-MEDIATED ACTIVATION OF SIGNAL TRANSDUCER AND ACTIVATOR OF TRANSCRIPTION 3 (STAT3) IS A MECHANISM BY WHICH CHRONIC INFLAMMATION CAN CONTRIBUTE TO CANCER AND IS A COMMON ONCOGENIC EVENT. WE DISCOVERED A PATHWAY, THE LOSS OF WHICH IS ASSOCIATED WITH PERSISTENT STAT3 ACTIVATION IN HUMAN CANCER. WE FOUND THAT THE GENE ENCODING THE TUMOR SUPPRESSOR MICRORNA MIR-146B IS A DIRECT STAT3 TARGET GENE, AND ITS EXPRESSION WAS INCREASED IN NORMAL BREAST EPITHELIAL CELLS BUT DECREASED IN TUMOR CELLS. METHYLATION OF THE MIR-146B PROMOTER, WHICH INHIBITED STAT3-MEDIATED INDUCTION OF EXPRESSION, WAS INCREASED IN PRIMARY BREAST CANCERS. MOREOVER, WE FOUND THAT MIR-146B INHIBITED NUCLEAR FACTOR KAPPAB (NF-KAPPAB)-DEPENDENT PRODUCTION OF IL-6, SUBSEQUENT STAT3 ACTIVATION, AND IL-6/STAT3-DRIVEN MIGRATION AND INVASION IN BREAST CANCER CELLS, THEREBY ESTABLISHING A NEGATIVE FEEDBACK LOOP. IN ADDITION, HIGHER EXPRESSION OF MIR-146B WAS POSITIVELY CORRELATED WITH PATIENT SURVIVAL IN BREAST CANCER SUBTYPES WITH INCREASED IL6 EXPRESSION AND STAT3 PHOSPHORYLATION. OUR RESULTS IDENTIFY AN EPIGENETIC MECHANISM OF CROSSTALK BETWEEN STAT3 AND NF-KAPPAB RELEVANT TO CONSTITUTIVE STAT3 ACTIVATION IN MALIGNANCY AND THE ROLE OF INFLAMMATION IN ONCOGENESIS. 2014 20 6590 30 TUMOR SUPPRESSOR INACTIVATION IN THE PATHOGENESIS OF ADULT T-CELL LEUKEMIA. TUMOR SUPPRESSOR FUNCTIONS ARE ESSENTIAL TO CONTROL CELLULAR PROLIFERATION, TO ACTIVATE THE APOPTOSIS OR SENESCENCE PATHWAY TO ELIMINATE UNWANTED CELLS, TO LINK DNA DAMAGE SIGNALS TO CELL CYCLE ARREST CHECKPOINTS, TO ACTIVATE APPROPRIATE DNA REPAIR PATHWAYS, AND TO PREVENT THE LOSS OF ADHESION TO INHIBIT INITIATION OF METASTASES. THEREFORE, TUMOR SUPPRESSOR GENES ARE INDISPENSABLE TO MAINTAINING GENETIC AND GENOMIC INTEGRITY. CONSEQUENTLY, INACTIVATION OF TUMOR SUPPRESSORS BY SOMATIC MUTATIONS OR EPIGENETIC MECHANISMS IS FREQUENTLY ASSOCIATED WITH TUMOR INITIATION AND DEVELOPMENT. IN CONTRAST, REACTIVATION OF TUMOR SUPPRESSOR FUNCTIONS CAN EFFECTIVELY REVERSE THE TRANSFORMED PHENOTYPE AND LEAD TO CELL CYCLE ARREST OR DEATH OF CANCEROUS CELLS AND BE USED AS A THERAPEUTIC STRATEGY. ADULT T-CELL LEUKEMIA/LYMPHOMA (ATLL) IS AN AGGRESSIVE LYMPHOPROLIFERATIVE DISEASE ASSOCIATED WITH INFECTION OF CD4 T CELLS BY THE HUMAN T-CELL LEUKEMIA VIRUS TYPE 1 (HTLV-I). HTLV-I-ASSOCIATED T-CELL TRANSFORMATION IS THE RESULT OF A MULTISTEP ONCOGENIC PROCESS IN WHICH THE VIRUS INITIALLY INDUCES CHRONIC T-CELL PROLIFERATION AND ALTERS CELLULAR PATHWAYS RESULTING IN THE ACCUMULATION OF GENETIC DEFECTS AND THE DEREGULATED GROWTH OF VIRALLY INFECTED CELLS. THIS REVIEW WILL FOCUS ON THE CURRENT KNOWLEDGE OF THE GENETIC AND EPIGENETIC MECHANISMS REGULATING THE INACTIVATION OF TUMOR SUPPRESSORS IN THE PATHOGENESIS OF HTLV-I. 2015