1 3744 123 INSIGHTS INTO THE CRYSTAL STRUCTURE OF BRD2-BD2 - PHENANTHRIDINONE COMPLEX AND THEORETICAL STUDIES ON PHENANTHRIDINONE ANALOGS. BROMODOMAIN AND EXTRA-TERMINAL FAMILY PROTEINS RECOGNIZE THE ACETYLATED HISTONE CODE ON CHROMATIN AND PARTICIPATE IN DOWNSTREAM PROCESSES LIKE DNA REPLICATION, MODIFICATION, AND REPAIR. AS PART OF EPIGENETIC APPROACHES, BRD2 AND BRD4 WERE IDENTIFIED AS PUTATIVE TARGETS, FOR THE MANAGEMENT OF CHRONIC DISEASES. WE HAVE RECENTLY REPORTED THE DISCOVERY OF A NEW SCAFFOLD OF THE PHENANTHRIDINONE-BASED INHIBITOR (L10) OF THE SECOND BROMODOMAIN OF BRD2 (BRD2-BD2). HERE, WE PRESENT THE CRYSTAL STRUCTURE OF THE BRD2-BD2, REFINED TO 1.4 A RESOLUTION, IN COMPLEX WITH BETA-MERCAPTOETHANOL (A COMPONENT OF THE PROTEIN BUFFER). THE BETA-MERCAPTOETHANOL COVALENTLY LINKS TO C425 OF BD2 IN THE ACETYL-LYSINE BINDING POCKET, TO FORM A MODIFIED CYSTEINE MERCAPTOETHANOL (CME). THE CME MODIFICATION SIGNIFICANTLY HINDERS THE ENTRY OF LIGANDS INTO THE BD2 BINDING POCKET, SUGGESTING THAT BETA-MERCAPTOETHANOL SHOULD BE REMOVED DURING PROTEIN PRODUCTION PROCESS. NEXT, TO CONFIRM WHETHER PHENANTHRIDIONONE SCAFFOLD IS A NEW INHIBITOR FAMILY OF BRD2-BD2, WE HAVE DETERMINED THE CRYSTAL STRUCTURE OF BD2 IN COMPLEX WITH 6(5H)-PHENANTHRIDINONE (A CORE MOIETY OF L10), REFINED TO 1.28 A RESOLUTION. IT CONFIRMED THAT THE PHENANTHRIDINONE MOLECULE, UNAMBIGUOUSLY, BINDS TO BD2. MOREOVER, WE PERFORMED MOLECULAR DOCKING AND MOLECULAR DYNAMIC STUDIES ON SELECTED PHENANTHRIDINONE ANALOGS. THE PREDICTED L10 ANALOGS ARE STABLE WITH ESSENTIAL HYDROPHOBIC AND HYDROPHILIC INTERACTIONS WITH BD2 DURING MOLECULAR DYNAMIC SIMULATIONS. WE PROPOSE THAT THE PREDICTED PHENANTHRIDINONE ANALOGS MAY BE POTENTIAL MOLECULES FOR INHIBITING THE BD2 FUNCTION OF ACETYLATED HISTONE RECOGNITION. 2018 2 5234 21 PROFILE ANALYSIS AND FUNCTIONAL MODELING IDENTIFY CIRCULAR RNAS IN NONALCOHOLIC FATTY LIVER DISEASE AS REGULATORS OF HEPATIC LIPID METABOLISM. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD) IS THE LEADING CAUSE OF CHRONIC LIVER DISEASE, ASSOCIATED WITH AN OUTCOME OF HEPATIC FIBROSIS/CIRRHOSIS AND HEPATOCELLULAR CARCINOMA. HOWEVER, LIMITED EXPLORATION OF THE UNDERLYING MECHANISMS HINDERS ITS PREVENTION AND TREATMENT. TO INVESTIGATE THE MECHANISMS OF EPIGENETIC REGULATION IN NAFLD, THE EXPRESSION PROFILE OF CIRCULAR RNA (CIRCRNA) OF RODENTS IN WHICH NAFLD WAS INDUCED BY A HIGH-FAT, HIGH-CHOLESTEROL (HFHC) DIET WAS STUDIED. MODELING OF THE CIRCRNA-MICRORNA (MIRNA) -MRNA REGULATORY NETWORK REVEALED THE FUNCTIONAL CHARACTERISTICS OF NAFLD-SPECIFIC CIRCRNAS. THE TARGETS AND EFFECTS IN THE LIVER OF SUCH NAFLD-SPECIFIC CIRCRNAS WERE FURTHER ASSESSED. OUR RESULTS UNCOVERED THAT THE DOWNREGULATION OF 28 ANNOTATED CIRCRNAS CHARACTERIZES HFHC DIET-INDUCED NAFLD. AMONG THE DOWNREGULATED CIRCRNAS, LONG INTERGENIC NON-PROTEIN CODING RNA, P53 INDUCED TRANSCRIPT (LNCPINT) -DERIVED CIRCRNAS (CIRC_0001452, CIRC_0001453, AND CIRC_0001454) TARGETED BOTH MIR-466I-3P AND MIR-669C-3P. THEIR DEFICIENCY IN NAFLD ABROGATED THE CIRCRNA-BASED INHIBITORY EFFECT ON BOTH MIRNAS, WHICH FURTHER INACTIVATED THE AMPK SIGNALING PATHWAY VIA AMPK-ALPHA1 SUPPRESSION. INHIBITION OF THE AMPK SIGNALING PATHWAY PROMOTES HEPATIC STEATOSIS, DEPENDING ON THE TRANSCRIPTIONAL AND TRANSLATIONAL UPREGULATION OF LIPOGENIC GENES, SUCH AS THOSE ENCODING STEROL REGULATORY ELEMENT-BINDING PROTEIN 1 (SREBP1) AND FATTY ACID SYNTHASE (FASN) IN HEPATOCYTES. THE LEVELS OF LNCPINT-DERIVED CIRCRNAS DISPLAYED A NEGATIVE ASSOCIATION WITH HEPATIC TRIGLYCERIDE (TG) CONCENTRATION. THESE FINDINGS SUGGEST THAT LOSS OF LNCPINT-DERIVED CIRCRNAS MAY UNDERLIE NAFLD VIA MIR-466I-3P- AND MIR-669C-3P-DEPENDENT INACTIVATION OF THE AMPK SIGNALING PATHWAY. 2022 3 2409 21 EPIGENETIC SCARRING OF EXHAUSTED T CELLS HINDERS MEMORY DIFFERENTIATION UPON ELIMINATING CHRONIC ANTIGENIC STIMULATION. EXHAUSTED CD8 T CELLS (T(EX)) ARE A DISTINCT STATE OF T CELL DIFFERENTIATION ASSOCIATED WITH FAILURE TO CLEAR CHRONIC VIRUSES AND CANCER. IMMUNOTHERAPIES SUCH AS PD-1 BLOCKADE CAN REINVIGORATE T(EX) CELLS, BUT REINVIGORATION IS NOT DURABLE. A MAJOR UNANSWERED QUESTION IS WHETHER T(EX) CELLS DIFFERENTIATE INTO FUNCTIONAL DURABLE MEMORY T CELLS (T(MEM)) UPON ANTIGEN CLEARANCE. HERE, USING A MOUSE MODEL, WE FOUND THAT UPON ELIMINATING CHRONIC ANTIGENIC STIMULATION, T(EX) CELLS PARTIALLY (RE)ACQUIRE PHENOTYPIC AND TRANSCRIPTIONAL FEATURES OF T(MEM) CELLS. THESE 'RECOVERING' T(EX) CELLS ORIGINATED FROM THE T CELL FACTOR (TCF-1(+)) T(EX) PROGENITOR SUBSET. NEVERTHELESS, THE RECALL CAPACITY OF THESE RECOVERING T(EX) CELLS REMAINED COMPROMISED AS COMPARED TO T(MEM) CELLS. CHROMATIN-ACCESSIBILITY PROFILING REVEALED A FAILURE TO RECOVER CORE MEMORY EPIGENETIC CIRCUITS AND MAINTENANCE OF A LARGELY EXHAUSTED OPEN CHROMATIN LANDSCAPE. THUS, DESPITE SOME PHENOTYPIC AND TRANSCRIPTIONAL RECOVERY UPON ANTIGEN CLEARANCE, EXHAUSTION LEAVES DURABLE EPIGENETIC SCARS CONSTRAINING FUTURE IMMUNE RESPONSES. THESE RESULTS SUPPORT EPIGENETIC REMODELING INTERVENTIONS FOR T(EX) CELL-TARGETED IMMUNOTHERAPIES. 2021 4 1461 30 DISRUPTION OF RCAN1.4 EXPRESSION MEDIATED BY YY1/HDAC2 MODULATES CHRONIC RENAL ALLOGRAFT INTERSTITIAL FIBROSIS. CHRONIC ALLOGRAFT DYSFUNCTION (CAD) IS A MAJOR FACTOR THAT HINDERS KIDNEY TRANSPLANT SURVIVAL IN THE LONG RUN. EPITHELIAL-MESENCHYMAL TRANSITION (EMT) HAS BEEN CONFIRMED TO SIGNIFICANTLY CONTRIBUTE TO INTERSTITIAL FIBROSIS/TUBULAR ATROPHY (IF/TA), WHICH IS THE MAIN HISTOPATHOLOGICAL FEATURE OF CAD. ABERRANT EXPRESSION OF THE REGULATOR OF CALCINEURIN 1 (RCAN1), RECOGNIZED AS AN ENDOGENOUS INHIBITOR OF THE CALCINEURIN PHOSPHATASE, HAS BEEN SHOWN TO BE EXTENSIVELY INVOLVED IN VARIOUS KIDNEY DISEASES. HOWEVER, IT REMAINS UNCLEAR HOW RCAN1.4 REGULATES IF/TA FORMATION IN CAD PATIENTS. HEREIN, AN IN VIVO MOUSE RENAL TRANSPLANTATION MODEL AND AN IN VITRO MODEL OF HUMAN RENAL TUBULAR EPITHELIAL CELLS (HK-2) TREATED WITH TUMOR NECROSIS FACTOR-ALPHA (TNF-ALPHA) WERE EMPLOYED. OUR RESULTS PROVED THAT RCAN1.4 EXPRESSION WAS DECREASED IN VIVO AND IN VITRO, IN ADDITION TO THE UP-REGULATION OF YIN YANG 1 (YY1), A TRANSCRIPTION FACTOR THAT HAS BEEN REPORTED TO CONVEY MULTIPLE FUNCTIONS IN CHRONIC KIDNEY DISEASE (CKD). KNOCKING IN OF RCAN1.4 EFFICIENTLY ATTENUATED CHRONIC RENAL ALLOGRAFT INTERSTITIAL FIBROSIS IN VIVO AND INHIBITED TNF-ALPHA-INDUCED EMT IN VITRO THROUGH REGULATING ANTI-OXIDATIVE STRESS AND THE CALCINEURIN/NUCLEAR FACTOR OF ACTIVATED T CELLS CYTOPLASMIC 1 (NFATC1) SIGNALING PATHWAY. IN ADDITION, SUPPRESSION OF YY1 MEDIATED BY SHRNA OR SIRNA ALLEVIATED TNF-ALPHA-INDUCED EMT THROUGH ABOLISHING REACTIVE SPECIES PARTLY IN AN RCAN1.4-DEPENDENT MANNER. NOTABLY, WE CONFIRMED THAT YY1 NEGATIVELY REGULATED RCAN1.4 TRANSCRIPTION BY DIRECTLY INTERACTING WITH THE RCAN1.4 PROMOTER. IN ADDITION, HISTONE DEACETYLASE 2 (HDAC2) INTERACTED WITH YY1 TO FORM A MULTI-MOLECULAR COMPLEX, WHICH WAS INVOLVED IN TNF-ALPHA-INDUCED RCAN1.4 TRANSCRIPTIONAL REPRESSION. THEREFORE, RCAN1.4 IS SUGGESTED TO BE MODULATED BY THE YY1/HDAC2 TRANSCRIPTION REPRESSOR COMPLEX IN AN EPIGENETIC MANNER, WHICH IS A MEDIATED NEPHROPROTECTIVE EFFECT PARTLY THROUGH MODULATING O2?- GENERATION AND THE CALCINEURIN/NFATC1 SIGNALING PATHWAY. THUS, THE YY1-RCAN1.4 AXIS CONSTITUTES AN INNOVATIVE TARGET FOR IF/TA TREATMENT IN CAD PATIENTS. 2023 5 4097 20 MATRIX STIFFNESS REGULATES MACROPHAGE POLARIZATION IN ATHEROSCLEROSIS. ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY DISEASE AND THE PATHOLOGICAL BASIS OF MANY FATAL CARDIOVASCULAR DISEASES. MACROPHAGES, THE MAIN INFLAMMATORY CELLS IN ATHEROSCLEROTIC PLAQUE, HAVE A PARADOX ROLE IN DISEASE PROGRESSION. IN RESPONSE TO DIFFERENT MICROENVIRONMENTS, MACROPHAGES MAINLY HAVE TWO POLARIZED DIRECTIONS: PRO-INFLAMMATORY MACROPHAGES AND ANTI-INFLAMMATORY MACROPHAGES. MORE AND MORE EVIDENCE SHOWS THAT MACROPHAGE IS MECHANOSENSITIVE AND MATRIX STIFFNESS REGULATE MACROPHAGE PHENOTYPES IN ATHEROSCLEROSIS. HOWEVER, THE MOLECULAR MECHANISM OF MATRIX STIFFNESS REGULATING MACROPHAGE POLARIZATION STILL LACKS IN-DEPTH RESEARCH, WHICH HINDERS THE DEVELOPMENT OF NEW ANTI-ATHEROSCLEROTIC THERAPIES. IN THIS REVIEW, WE DISCUSS THE IMPORTANT ROLE OF MATRIX STIFFNESS IN REGULATING MACROPHAGE POLARIZATION THROUGH MECHANICAL SIGNAL TRANSDUCTION (HIPPO, PIEZO, CYTOSKELETON, AND INTEGRIN) AND EPIGENETIC MECHANISMS (MIRNA, DNA METHYLATION, AND HISTONE). WE HOPE TO PROVIDE A NEW PERSPECTIVE FOR ATHEROSCLEROSIS THERAPY BY TARGETING MATRIX STIFFNESS AND MACROPHAGE POLARIZATION. 2022 6 3770 23 INTEGRATIVE SMALL AND LONG RNA OMICS ANALYSIS OF HUMAN HEALING AND NONHEALING WOUNDS DISCOVERS COOPERATING MICRORNAS AS THERAPEUTIC TARGETS. MICRORNAS (MIR), AS IMPORTANT EPIGENETIC CONTROL FACTORS, REPORTEDLY REGULATE WOUND REPAIR. HOWEVER, OUR INSUFFICIENT KNOWLEDGE OF CLINICALLY RELEVANT MIRS HINDERS THEIR POTENTIAL THERAPEUTIC USE. FOR THIS, WE PERFORMED PAIRED SMALL AND LONG RNA-SEQUENCING AND INTEGRATIVE OMICS ANALYSIS IN HUMAN TISSUE SAMPLES, INCLUDING MATCHED SKIN AND ACUTE WOUNDS COLLECTED AT EACH HEALING STAGE AND CHRONIC NONHEALING VENOUS ULCERS (VUS). ON THE BASIS OF THE FINDINGS, WE DEVELOPED A COMPENDIUM (HTTPS://WWW.XULANDENLAB.COM/HUMANWOUNDS-MIRNA-MRNA), WHICH WILL BE AN OPEN, COMPREHENSIVE RESOURCE TO BROADLY AID WOUND HEALING RESEARCH. WITH THIS FIRST CLINICAL, WOUND-CENTRIC RESOURCE OF MIRS AND MRNAS, WE IDENTIFIED 17 PATHOLOGICALLY RELEVANT MIRS THAT EXHIBITED ABNORMAL VU EXPRESSION AND DISPLAYED THEIR TARGETS ENRICHED EXPLICITLY IN THE VU GENE SIGNATURE. INTERMESHING REGULATORY NETWORKS CONTROLLED BY THESE MIRS REVEALED THEIR HIGH COOPERATIVITY IN CONTRIBUTING TO CHRONIC WOUND PATHOLOGY CHARACTERIZED BY PERSISTENT INFLAMMATION AND PROLIFERATIVE PHASE INITIATION FAILURE. FURTHERMORE, WE DEMONSTRATED THAT MIR-34A, MIR-424, AND MIR-516, UPREGULATED IN VU, COOPERATIVELY SUPPRESSED KERATINOCYTE MIGRATION AND GROWTH WHILE PROMOTING INFLAMMATORY RESPONSE. BY COMBINING MIR EXPRESSION PATTERNS WITH THEIR SPECIFIC TARGET GENE EXPRESSION CONTEXT, WE IDENTIFIED MIRS HIGHLY RELEVANT TO VU PATHOLOGY. OUR STUDY OPENS THE POSSIBILITY OF DEVELOPING INNOVATIVE WOUND TREATMENT THAT TARGETS PATHOLOGICALLY RELEVANT COOPERATING MIRS TO ATTAIN HIGHER THERAPEUTIC EFFICACY AND SPECIFICITY. 2022 7 2443 16 EPIGENETIC STABILITY OF EXHAUSTED T CELLS LIMITS DURABILITY OF REINVIGORATION BY PD-1 BLOCKADE. BLOCKING PROGRAMMED DEATH-1 (PD-1) CAN REINVIGORATE EXHAUSTED CD8 T CELLS (T(EX)) AND IMPROVE CONTROL OF CHRONIC INFECTIONS AND CANCER. HOWEVER, WHETHER BLOCKING PD-1 CAN REPROGRAM T(EX) INTO DURABLE MEMORY T CELLS (T(MEM)) IS UNCLEAR. WE FOUND THAT REINVIGORATION OF T(EX) IN MICE BY PD-L1 BLOCKADE CAUSED MINIMAL MEMORY DEVELOPMENT. AFTER BLOCKADE, REINVIGORATED T(EX) BECAME REEXHAUSTED IF ANTIGEN CONCENTRATION REMAINED HIGH AND FAILED TO BECOME T(MEM) UPON ANTIGEN CLEARANCE. T(EX) ACQUIRED AN EPIGENETIC PROFILE DISTINCT FROM THAT OF EFFECTOR T CELLS (T(EFF)) AND T(MEM) CELLS THAT WAS MINIMALLY REMODELED AFTER PD-L1 BLOCKADE. THIS FINDING SUGGESTS THAT T(EX) ARE A DISTINCT LINEAGE OF CD8 T CELLS. NEVERTHELESS, PD-1 PATHWAY BLOCKADE RESULTED IN TRANSCRIPTIONAL REWIRING AND REENGAGEMENT OF EFFECTOR CIRCUITRY IN THE T(EX) EPIGENETIC LANDSCAPE. THESE DATA INDICATE THAT EPIGENETIC FATE INFLEXIBILITY MAY LIMIT CURRENT IMMUNOTHERAPIES. 2016 8 1866 25 EMERGING CROSSTALK BETWEEN LONG NON-CODING RNAS AND NRF2 SIGNALING. DIVERSE STIMULI TRIGGER NRF2 SIGNALING, WHICH IN TURN TRANSCRIPTIONALLY REGULATES AN ARRAY OF DOWNSTREAM TARGETS, PROVIDING FOR MULTIPLE LAYERS OF CONTROL. WHILE NRF2 ACTIVITY LARGELY IS GOVERNED BY POSTTRANSLATIONAL MODIFICATION OF CRITICAL THIOL RESIDUES IN THE PROTEIN PARTNER AND REDOX SENSOR KEAP1, FINE-TUNING IS PROVIDED BY ADDITIONAL MECHANISMS - INCLUDING EPIGENETIC REGULATION. HEREIN, WE REVIEW THE EMERGING SIGNIFICANCE OF LONG NON-CODING RNAS (LNCRNA) AS DOWNSTREAM TARGETS AND UPSTREAM REGULATORS OF THE NRF2 SIGNALING PATHWAY. AMONG THE ~16000 LNCRNAS IN GENCODE, SOME HAVE BEEN VALIDATED AS TRANSCRIPTIONALLY REGULATED BY NRF2 (E.G., LUCAT1, NMRAL2P, ODRUL, ROR AND TUG1), AND OTHERS HAVE BEEN IDENTIFIED AS UPSTREAM REGULATORS OF NRF2 EXPRESSION (E.G., HOTAIR, MALAT1, MEG1, NRAL AND UCA1). BIOINFORMATIC ANALYSES OF ANNOTATED HUMAN LNCRNAS IDENTIFIED PUTATIVE NRF2 BINDING SITES IN THE PROMOTER REGIONS OF 13,285 LNCRNAS. FURTHER INVESTIGATION IS WARRANTED TO VALIDATE THE MANY NOVEL LNCRNAS AS BONA FIDE NRF2-REGULATED TARGETS, AND THEIR ROLES IN NRF2 SIGNALING. NRF2 IS CONSIDERED A PROMISING THERAPEUTIC CANDIDATE FOR CANCER AND OTHER CHRONIC DISEASES; THUS, TARGETING THE ASSOCIATED LNCRNAS MIGHT PROVIDE FOR A MORE REFINED FINE-TUNING OF THE SYSTEM, DEPENDING ON CELLULAR AND PATHOPHYSIOLOGICAL CONTEXT. 2020 9 6802 16 [EPIGENETIC MECHANISMS IN MODELS OF CHRONIC PAIN - A TARGET FOR NOVEL THERAPY?]. EVIDENCE OF EPIGENETICS' ROLE IN PAIN RESPONSE IS ACCUMULATING IN RECENT YEARS. TIGHTLY REGULATED EPIGENETIC ALTERATIONS ON DNA AND HISTONES IN THE SENSORY CIRCUIT SHAPE THE PHYSIOLOGICAL RESPONSE TO INJURY. ALTERING THOSE EPIGENETIC PROCESSES HINDERS THERAPEUTIC POTENTIAL IN PAIN. THIS REVIEW PROVIDES AN OVERVIEW OF EPIGENOMIC MODIFICATION IN THE DEVELOPMENT OF CHRONIC PAIN, AND SUMMARIZES THE THERAPEUTIC POTENTIAL TO ALTER EPIGENETIC PROCESSES. 2018 10 6482 25 TOX TRANSCRIPTIONALLY AND EPIGENETICALLY PROGRAMS CD8(+) T CELL EXHAUSTION. EXHAUSTED CD8(+) T (T(EX)) CELLS IN CHRONIC INFECTIONS AND CANCER HAVE LIMITED EFFECTOR FUNCTION, HIGH CO-EXPRESSION OF INHIBITORY RECEPTORS AND EXTENSIVE TRANSCRIPTIONAL CHANGES COMPARED WITH EFFECTOR (T(EFF)) OR MEMORY (T(MEM)) CD8(+) T CELLS. T(EX) CELLS ARE IMPORTANT CLINICAL TARGETS OF CHECKPOINT BLOCKADE AND OTHER IMMUNOTHERAPIES. EPIGENETICALLY, T(EX) CELLS ARE A DISTINCT IMMUNE SUBSET, WITH A UNIQUE CHROMATIN LANDSCAPE COMPARED WITH T(EFF) AND T(MEM) CELLS. HOWEVER, THE MECHANISMS THAT GOVERN THE TRANSCRIPTIONAL AND EPIGENETIC DEVELOPMENT OF T(EX) CELLS REMAIN UNKNOWN. HERE WE IDENTIFY THE HMG-BOX TRANSCRIPTION FACTOR TOX AS A CENTRAL REGULATOR OF T(EX) CELLS IN MICE. TOX IS LARGELY DISPENSABLE FOR THE FORMATION OF T(EFF) AND T(MEM) CELLS, BUT IT IS CRITICAL FOR EXHAUSTION: IN THE ABSENCE OF TOX, T(EX) CELLS DO NOT FORM. TOX IS INDUCED BY CALCINEURIN AND NFAT2, AND OPERATES IN A FEED-FORWARD LOOP IN WHICH IT BECOMES CALCINEURIN-INDEPENDENT AND SUSTAINED IN T(EX) CELLS. ROBUST EXPRESSION OF TOX THEREFORE RESULTS IN COMMITMENT TO T(EX) CELLS BY TRANSLATING PERSISTENT STIMULATION INTO A DISTINCT T(EX) CELL TRANSCRIPTIONAL AND EPIGENETIC DEVELOPMENTAL PROGRAM. 2019 11 2352 26 EPIGENETIC REGULATION OF NRF2/KEAP1 BY PHYTOCHEMICALS. EPIGENETICS HAS PROVIDED A NEW DIMENSION TO OUR UNDERSTANDING OF NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2/KELCH-LIKE ECH-ASSOCIATED PROTEIN 1 (HUMAN NRF2/KEAP1 AND MURINE NRF2/KEAP1) SIGNALING. UNLIKE THE GENETIC CHANGES AFFECTING DNA SEQUENCE, THE REVERSIBLE NATURE OF EPIGENETIC ALTERATIONS PROVIDES AN ATTRACTIVE AVENUE FOR CANCER INTERCEPTION. THUS, TARGETING EPIGENETIC MECHANISMS IN THE CORRESPONDING SIGNALING NETWORKS REPRESENTS AN ENTICING STRATEGY FOR THERAPEUTIC INTERVENTION WITH DIETARY PHYTOCHEMICALS ACTING AT TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, AND POST-TRANSLATIONAL LEVELS. THIS REGULATION INVOLVES THE INTERPLAY OF HISTONE MODIFICATIONS AND DNA METHYLATION STATES IN THE HUMAN NFE2L2/KEAP1 AND MURINE NFE2L2/KEAP1 GENES, ACETYLATION OF LYSINE RESIDUES IN NRF2 AND NRF2, INTERACTION WITH BROMODOMAIN AND EXTRATERMINAL DOMAIN (BET) ACETYL "READER" PROTEINS, AND NON-CODING RNAS SUCH AS MICRORNA (MIRNA) AND LONG NON-CODING RNA (LNCRNA). PHYTOCHEMICALS DOCUMENTED TO MODULATE NRF2 SIGNALING ACT BY REVERSING HYPERMETHYLATED STATES IN THE CPG ISLANDS OF NFE2L2 OR NFE2L2, VIA THE INHIBITION OF DNA METHYLTRANSFERASES (DNMTS) AND HISTONE DEACETYLASES (HDACS), THROUGH THE INDUCTION OF TEN-ELEVEN TRANSLOCATION (TET) ENZYMES, OR BY INDUCING MIRNA TO TARGET THE 3'-UTR OF THE CORRESPONDING MRNA TRANSCRIPTS. TO DATE, FEWER THAN TWENTY PHYTOCHEMICALS HAVE BEEN REPORTED AS NRF2 EPIGENETIC MODIFIERS, INCLUDING CURCUMIN, SULFORAPHANE, RESVERATROL, RESERPINE, AND URSOLIC ACID. THIS OPENS AVENUES FOR EXPLORING ADDITIONAL DIETARY PHYTOCHEMICALS THAT REGULATE THE HUMAN EPIGENOME, AND THE POTENTIAL FOR NOVEL STRATEGIES TO TARGET NRF2 SIGNALING WITH A VIEW TO BENEFICIAL INTERCEPTION OF CANCER AND OTHER CHRONIC DISEASES. 2020 12 3962 29 LONG NONCODING RNA LEENE PROMOTES ANGIOGENESIS AND ISCHEMIC RECOVERY IN DIABETES MODELS. IMPAIRED ANGIOGENESIS IN DIABETES IS A KEY PROCESS CONTRIBUTING TO ISCHEMIC DISEASES SUCH AS PERIPHERAL ARTERIAL DISEASE. EPIGENETIC MECHANISMS, INCLUDING THOSE MEDIATED BY LONG NONCODING RNAS (LNCRNAS), ARE CRUCIAL LINKS CONNECTING DIABETES AND THE RELATED CHRONIC TISSUE ISCHEMIA. HERE WE IDENTIFY THE LNCRNA THAT ENHANCES ENDOTHELIAL NITRIC OXIDE SYNTHASE (ENOS) EXPRESSION (LEENE) AS A REGULATOR OF ANGIOGENESIS AND ISCHEMIC RESPONSE. LEENE EXPRESSION WAS DECREASED IN DIABETIC CONDITIONS IN CULTURED ENDOTHELIAL CELLS (ECS), MOUSE HIND LIMB MUSCLES, AND HUMAN ARTERIES. INHIBITION OF LEENE IN HUMAN MICROVASCULAR ECS REDUCED THEIR ANGIOGENIC CAPACITY WITH A DYSREGULATED ANGIOGENIC GENE PROGRAM. DIABETIC MICE DEFICIENT IN LEENE DEMONSTRATED IMPAIRED ANGIOGENESIS AND PERFUSION FOLLOWING HIND LIMB ISCHEMIA. IMPORTANTLY, OVEREXPRESSION OF HUMAN LEENE RESCUED THE IMPAIRED ISCHEMIC RESPONSE IN LEENE-KNOCKOUT MICE AT TISSUE FUNCTIONAL AND SINGLE-CELL TRANSCRIPTOMIC LEVELS. MECHANISTICALLY, LEENE RNA PROMOTED TRANSCRIPTION OF PROANGIOGENIC GENES IN ECS, SUCH AS KDR (ENCODING VEGFR2) AND NOS3 (ENCODING ENOS), POTENTIALLY BY INTERACTING WITH LEO1, A KEY COMPONENT OF THE RNA POLYMERASE II-ASSOCIATED FACTOR COMPLEX AND MYC, A CRUCIAL TRANSCRIPTION FACTOR FOR ANGIOGENESIS. TAKEN TOGETHER, OUR FINDINGS DEMONSTRATE AN ESSENTIAL ROLE FOR LEENE IN THE REGULATION OF ANGIOGENESIS AND TISSUE PERFUSION. FUNCTIONAL ENHANCEMENT OF LEENE TO RESTORE ANGIOGENESIS FOR TISSUE REPAIR AND REGENERATION MAY REPRESENT A POTENTIAL STRATEGY TO TACKLE ISCHEMIC VASCULAR DISEASES. 2023 13 469 23 ARID1A LOSS DRIVES NONALCOHOLIC STEATOHEPATITIS IN MICE THROUGH EPIGENETIC DYSREGULATION OF HEPATIC LIPOGENESIS AND FATTY ACID OXIDATION. NONALCOHOLIC STEATOHEPATITIS (NASH) IS A RAPIDLY GROWING CAUSE OF CHRONIC LIVER DAMAGE, CIRRHOSIS, AND HEPATOCELLULAR CARCINOMA. HOW FATTY LIVER PATHOGENESIS IS SUBJECT TO EPIGENETIC REGULATION IS UNKNOWN. WE HYPOTHESIZED THAT CHROMATIN REMODELING IS IMPORTANT FOR THE PATHOGENESIS OF FATTY LIVER DISEASE. AT-RICH INTERACTIVE DOMAIN-CONTAINING PROTEIN 1A (ARID1A), A DNA-BINDING COMPONENT OF THE SWITCH/SUCROSE NONFERMENTABLE ADENOSINE TRIPHOSPHATE-DEPENDENT CHROMATIN-REMODELING COMPLEX, CONTRIBUTES TO NUCLEOSOME REPOSITIONING AND ACCESS BY TRANSCRIPTIONAL REGULATORS. LIVER-SPECIFIC DELETION OF ARID1A (ARID1A LIVER KNOCKOUT [LKO]) CAUSED THE DEVELOPMENT OF AGE-DEPENDENT FATTY LIVER DISEASE IN MICE. TRANSCRIPTOME ANALYSIS REVEALED UP-REGULATION OF LIPOGENESIS AND DOWN-REGULATION OF FATTY ACID OXIDATION GENES. AS EVIDENCE OF DIRECT REGULATION, ARID1A DEMONSTRATED DIRECT BINDING TO THE PROMOTERS OF MANY OF THESE DIFFERENTIALLY REGULATED GENES. ADDITIONALLY, ARID1A LKO MICE WERE MORE SUSCEPTIBLE TO HIGH-FAT DIET-INDUCED LIVER STEATOSIS AND FIBROSIS. WE DELETED PTEN IN COMBINATION WITH ARID1A TO SYNERGISTICALLY DRIVE FATTY LIVER PROGRESSION. INHIBITION OF LIPOGENESIS USING CAT-2003, A POTENT STEROL REGULATORY ELEMENT-BINDING PROTEIN INHIBITOR, MEDIATED IMPROVEMENTS IN MARKERS OF FATTY LIVER DISEASE PROGRESSION IN THIS ARID1A/PTEN DOUBLE KNOCKOUT MODEL. CONCLUSION: ARID1A PLAYS A ROLE IN THE EPIGENETIC REGULATION OF HEPATIC LIPID HOMEOSTASIS, AND ITS SUPPRESSION CONTRIBUTES TO FATTY LIVER PATHOGENESIS. COMBINED ARID1A AND PTEN DELETION SHOWS ACCELERATED FATTY LIVER DISEASE PROGRESSION AND IS A USEFUL MOUSE MODEL FOR STUDYING THERAPEUTIC STRATEGIES FOR NASH. 2019 14 5009 26 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 15 4297 20 MICRORNA-1224 SPLICING CIRCULARRNA-FILIP1L IN AN AGO2-DEPENDENT MANNER REGULATES CHRONIC INFLAMMATORY PAIN VIA TARGETING UBR5. DYSFUNCTIONS OF GENE TRANSCRIPTION AND TRANSLATION IN THE NOCICEPTIVE PATHWAYS PLAY THE CRITICAL ROLE IN DEVELOPMENT AND MAINTENANCE OF CHRONIC PAIN. CIRCULAR RNAS (CIRCRNAS) ARE EMERGING AS NEW PLAYERS IN REGULATION OF GENE EXPRESSION, BUT WHETHER AND HOW CIRCRNAS ARE INVOLVED IN CHRONIC PAIN REMAIN ELUSIVE. WE SHOWED HERE THAT COMPLETE FREUND'S ADJUVANT-INDUCED CHRONIC INFLAMMATION PAIN SIGNIFICANTLY INCREASED CIRCRNA-FILIP1L (FILAMIN A INTERACTING PROTEIN 1-LIKE) EXPRESSION IN SPINAL NEURONS OF MICE. BLOCKAGE OF THIS INCREASE ATTENUATED COMPLETE FREUND'S ADJUVANT-INDUCED NOCICEPTIVE BEHAVIORS, AND OVEREXPRESSION OF SPINAL CIRCRNA-FILIP1L IN NAIVE MICE MIMICKED THE NOCICEPTIVE BEHAVIORS AS EVIDENCED BY DECREASED THERMAL AND MECHANICAL NOCICEPTIVE THRESHOLD. FURTHERMORE, WE FOUND THAT MATURE CIRCRNA-FILIP1L EXPRESSION WAS NEGATIVELY REGULATED BY MIRNA-1224 VIA BINDING AND SPLICING OF PRECURSOR OF CIRCRNA-FILIP1L (PRE-CIRCRNA-FILIP1L) IN THE ARGONAUTE-2 (AGO2)-DEPENDENT MANNER. INCREASE OF SPINAL CIRCRNA-FILIP1L EXPRESSION RESULTED FROM THE DECREASE OF MIRNA-1224 EXPRESSION UNDER CHRONIC INFLAMMATION PAIN STATE. MIRNA-1224 KNOCKDOWN OR AGO2 OVEREXPRESSION INDUCED NOCICEPTIVE BEHAVIORS IN NAIVE MICE, WHICH WAS PREVENTED BY THE KNOCKDOWN OF SPINAL CIRCRNA-FILIP1L. FINALLY, WE DEMONSTRATED THAT A UBIQUITIN PROTEIN LIGASE E3 COMPONENT N-RECOGNIN 5 (UBR5), VALIDATED AS A TARGET OF CIRCRNA-FILIP1L, PLAYS A PIVOTAL ROLE IN REGULATION OF NOCICEPTION BY SPINAL CIRCRNA-FILIP1L. THESE DATA SUGGEST THAT MIRNA-1224-MEDIATED AND AGO2-DEPENDENT MODULATION OF SPINAL CIRCRNA-FILIP1L EXPRESSION REGULATES NOCICEPTION VIA TARGETING UBR5, REVEALING A NOVEL EPIGENETIC MECHANISM OF INTERACTION BETWEEN MIRNA AND CIRCRNA IN CHRONIC INFLAMMATION PAIN.SIGNIFICANCE STATEMENT CIRCRNAS ARE EMERGING AS NEW PLAYERS IN REGULATION OF GENE EXPRESSION. HERE, WE FOUND THAT THE INCREASE OF CIRCRNA-FILIP1L MEDIATED BY MIRNA-1224 IN AN AGO2-DEPENDENT WAY IN THE SPINAL CORD IS INVOLVED IN REGULATION OF NOCICEPTION VIA TARGETING UBR5 OUR STUDY REVEALS A NOVEL EPIGENETIC MECHANISM OF INTERACTION BETWEEN MIRNA AND CIRCRNA IN CHRONIC INFLAMMATION PAIN. 2019 16 4105 15 MECHANISM AND THERAPEUTIC TARGETS OF C-JUN-N-TERMINAL KINASES ACTIVATION IN NONALCOHOLIC FATTY LIVER DISEASE. NON-ALCOHOLIC FATTY LIVER (NAFL) IS THE MOST COMMON CHRONIC LIVER DISEASE. ACTIVATION OF MITOGEN-ACTIVATED KINASES (MAPK) CASCADE, WHICH LEADS TO C-JUN N-TERMINAL KINASE (JNK) ACTIVATION OCCURS IN THE LIVER IN RESPONSE TO THE NUTRITIONAL AND METABOLIC STRESS. THE ABERRANT ACTIVATION OF MAPKS, ESPECIALLY C-JUN-N-TERMINAL KINASES (JNKS), LEADS TO UNWANTED GENETIC AND EPI-GENETIC MODIFICATIONS IN ADDITION TO THE METABOLIC STRESS ADAPTATION IN HEPATOCYTES. A MECHANISM OF SUSTAINED P-JNK ACTIVATION WAS IDENTIFIED IN ACUTE AND CHRONIC LIVER DISEASES, SUGGESTING AN IMPORTANT ROLE OF ABERRANT JNK ACTIVATION IN NASH. THEREFORE, MODULATION OF JNK ACTIVATION, RATHER THAN TARGETING JNK PROTEIN LEVELS, IS A PLAUSIBLE THERAPEUTIC APPLICATION FOR THE TREATMENT OF CHRONIC LIVER DISEASE. 2022 17 4031 26 LYSINE DEACETYLASE (KDAC) REGULATORY PATHWAYS: AN ALTERNATIVE APPROACH TO SELECTIVE MODULATION. PROTEIN LYSINE DEACETYLASES (KDACS), INCLUDING THE CLASSIC ZN(2+) -DEPENDENT HISTONE DEACETYLASES (HDACS) AND THE NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD(+) )-REQUIRING SIRTUINS, ARE ENZYMES THAT PLAY CRITICAL ROLES IN NUMEROUS BIOLOGICAL PROCESSES, PARTICULARLY THE EPIGENETIC REGULATION OF GLOBAL GENE EXPRESSION PROGRAMS IN RESPONSE TO INTERNAL AND EXTERNAL CUES. DYSREGULATION OF KDACS IS CHARACTERISTIC OF SEVERAL HUMAN DISEASES, INCLUDING CHRONIC METABOLIC, NEURODEGENERATIVE, AND CARDIOVASCULAR DISEASES AND MANY CANCERS. THIS HAS LED TO THE DEVELOPMENT OF KDAC MODULATORS, TWO OF WHICH (HDAC INHIBITORS VORINOSTAT AND ROMIDEPSIN) HAVE BEEN APPROVED FOR THE TREATMENT OF CUTANEOUS T CELL LYMPHOMA. BY THEIR NATURE, EXISTING KDAC MODULATORS ARE RELATIVELY NONSPECIFIC, LEADING TO PAN-KDAC CHANGES AND UNDESIRED SIDE EFFECTS. GIVEN THAT KDACS ARE REGULATED AT MANY LEVELS, INCLUDING TRANSCRIPTIONAL, POST-TRANSLATIONAL, SUBCELLULAR LOCALIZATION, AND THROUGH THEIR COMPLEXATION WITH OTHER PROTEINS, IT SHOULD BE POSSIBLE TO AFFECT SPECIFIC KDAC ACTIVITY THROUGH MANIPULATION OF ENDOGENOUS SIGNALING PATHWAYS. IN THIS MINIREVIEW, WE DISCUSS OUR PRESENT KNOWLEDGE OF THE CELLULAR CONTROLS OF KDAC ACTIVITY AND EXAMPLES OF THEIR PHARMACOLOGIC REGULATION. 2014 18 4345 21 MIR-103 PROMOTES ENDOTHELIAL MALADAPTATION BY TARGETING LNCWDR59. BLOOD FLOW AT ARTERIAL BIFURCATIONS AND CURVATURES IS NATURALLY DISTURBED. ENDOTHELIAL CELLS (ECS) FAIL TO ADAPT TO DISTURBED FLOW, WHICH TRANSCRIPTIONALLY DIRECT ECS TOWARD A MALADAPTED PHENOTYPE, CHARACTERIZED BY CHRONIC REGENERATION OF INJURED ECS. MICRORNAS (MIRNAS) CAN REGULATE EC MALADAPTATION THROUGH TARGETING OF PROTEIN-CODING RNAS. HOWEVER, LONG NONCODING RNAS (LNCRNAS), KNOWN EPIGENETIC REGULATORS OF BIOLOGICAL PROCESSES, CAN ALSO BE MIRNA TARGETS, BUT THEIR CONTRIBUTION ON EC MALADAPTATION IS UNCLEAR. HERE WE SHOW THAT HYPERLIPIDEMIA- AND OXLDL-INDUCED UPREGULATION OF MIR-103 INHIBITS EC PROLIFERATION AND PROMOTES ENDOTHELIAL DNA DAMAGE THROUGH TARGETING OF NOVEL LNCWDR59. MIR-103 IMPEDES LNCWDR59 INTERACTION WITH NOTCH1-INHIBITOR NUMB, THEREFORE AFFECTING NOTCH1-INDUCED EC PROLIFERATION. MOREOVER, MIR-103 INCREASES THE SUSCEPTIBILITY OF PROLIFERATING ECS TO OXLDL-INDUCED MITOTIC ABERRATIONS, CHARACTERIZED BY AN INCREASED MICRONUCLEIC FORMATION AND DNA DAMAGE ACCUMULATION, BY AFFECTING NOTCH1-RELATED BETA-CATENIN CO-ACTIVATION. COLLECTIVELY, THESE DATA INDICATE THAT MIR-103 PROGRAMS ECS TOWARD A MALADAPTED PHENOTYPE THROUGH TARGETING OF LNCWDR59, WHICH MAY PROMOTE ATHEROSCLEROSIS. 2018 19 568 24 BATF REGULATES PROGENITOR TO CYTOLYTIC EFFECTOR CD8(+) T CELL TRANSITION DURING CHRONIC VIRAL INFECTION. DURING CHRONIC VIRAL INFECTION, CD8(+) T CELLS DEVELOP INTO THREE MAJOR PHENOTYPICALLY AND FUNCTIONALLY DISTINCT SUBSETS: LY108(+)TCF-1(+) PROGENITORS, LY108(-)CX(3)CR1(-) TERMINALLY EXHAUSTED CELLS AND THE RECENTLY IDENTIFIED CX(3)CR1(+) CYTOTOXIC EFFECTOR CELLS. NEVERTHELESS, HOW CX(3)CR1(+) EFFECTOR CELL DIFFERENTIATION IS TRANSCRIPTIONALLY AND EPIGENETICALLY REGULATED REMAINS ELUSIVE. HERE, WE IDENTIFY DISTINCT GENE REGULATORY NETWORKS AND EPIGENETIC LANDSCAPES UNDERPINNING THE FORMATION OF THESE SUBSETS. NOTABLY, OUR DATA DEMONSTRATE THAT CX(3)CR1(+) EFFECTOR CELLS BEAR A STRIKING SIMILARITY TO SHORT-LIVED EFFECTOR CELLS DURING ACUTE INFECTION. GENETIC DELETION OF TBX21 SIGNIFICANTLY DIMINISHED FORMATION OF THE CX(3)CR1(+) SUBSET. IMPORTANTLY, WE FURTHER IDENTIFY A PREVIOUSLY UNAPPRECIATED ROLE FOR THE TRANSCRIPTION FACTOR BATF IN MAINTAINING A PERMISSIVE CHROMATIN STRUCTURE THAT ALLOWS THE TRANSITION FROM TCF-1(+) PROGENITORS TO CX(3)CR1(+) EFFECTOR CELLS. BATF DIRECTLY BOUND TO REGULATORY REGIONS NEAR TBX21 AND KLF2, MODULATING THEIR ENHANCER ACCESSIBILITY TO FACILITATE THE TRANSITION. THESE MECHANISTIC INSIGHTS CAN POTENTIALLY BE HARNESSED TO OVERCOME T CELL EXHAUSTION DURING CHRONIC INFECTION AND CANCER. 2021 20 5358 18 REBALANCING TGFBETA1/BMP SIGNALS IN EXHAUSTED T CELLS UNLOCKS RESPONSIVENESS TO IMMUNE CHECKPOINT BLOCKADE THERAPY. T CELL DYSFUNCTIONALITY PREVENTS THE CLEARANCE OF CHRONIC INFECTIONS AND CANCER. FURTHERMORE, EPIGENETIC PROGRAMMING IN DYSFUNCTIONAL CD8(+) T CELLS LIMITS THEIR RESPONSE TO IMMUNOTHERAPIES, INCLUDING IMMUNE CHECKPOINT BLOCKADE (ICB). HOWEVER, IT IS UNCLEAR WHICH UPSTREAM SIGNALS DRIVE ACQUISITION OF DYSFUNCTIONAL EPIGENETIC PROGRAMS, AND WHETHER THERAPEUTICALLY TARGETING THESE SIGNALS CAN REMODEL TERMINALLY DYSFUNCTIONAL T CELLS TO AN ICB-RESPONSIVE STATE. HERE WE INNOVATE AN IN VITRO MODEL SYSTEM OF STABLE HUMAN T CELL DYSFUNCTION AND SHOW THAT CHRONIC TGFBETA1 SIGNALING IN POSTEFFECTOR CD8(+) T CELLS ACCELERATES THEIR TERMINAL DYSFUNCTION THROUGH STABLE EPIGENETIC CHANGES. CONVERSELY, BOOSTING BONE MORPHOGENETIC PROTEIN (BMP) SIGNALING WHILE BLOCKING TGFBETA1 PRESERVED EFFECTOR AND MEMORY PROGRAMS IN CHRONICALLY STIMULATED HUMAN CD8(+) T CELLS, INDUCING SUPERIOR RESPONSES TO TUMORS AND SYNERGIZING THE ICB RESPONSES DURING CHRONIC VIRAL INFECTION. THUS, REBALANCING TGFBETA1/BMP SIGNALS PROVIDES AN EXCITING NEW APPROACH TO UNLEASH DYSFUNCTIONAL CD8(+) T CELLS AND ENHANCE T CELL IMMUNOTHERAPIES. 2023