1 6561 131 TRANSGLUTAMINASE IS A THERAPEUTIC TARGET FOR OXIDATIVE STRESS, EXCITOTOXICITY AND STROKE: A NEW EPIGENETIC KID ON THE CNS BLOCK. TRANSGLUTAMINASES (TGS) ARE MULTIFUNCTIONAL, CALCIUM-DEPENDENT ENZYMES THAT HAVE BEEN RECENTLY IMPLICATED IN STROKE PATHOPHYSIOLOGY. CLASSICALLY, THESE ENZYMES ARE THOUGHT TO PARTICIPATE IN CELL INJURY AND DEATH IN CHRONIC NEURODEGENERATIVE CONDITIONS VIA THEIR ABILITY TO CATALYZE COVALENT, NONDEGRADABLE CROSSLINKS BETWEEN PROTEINS OR TO INCORPORATE POLYAMINES INTO PROTEIN SUBSTRATES. ACCUMULATING LINES OF INQUIRY INDICATE THAT SPECIFIC TG ISOFORMS CAN SHUTTLE INTO THE NUCLEUS WHEN THEY SENSE PATHOLOGIC CHANGES IN CALCIUM OR OXIDATIVE STRESS, BIND TO CHROMATIN AND THEREBY TRANSDUCE THESE CHANGES INTO TRANSCRIPTIONAL REPRESSION OF GENES INVOLVED IN METABOLIC OR OXIDANT ADAPTATION. HERE, WE REVIEW THE EVIDENCE THAT SUPPORTS PRINCIPALLY A ROLE FOR ONE ISOFORM OF THIS FAMILY, TG2, IN CELL INJURY AND DEATH ASSOCIATED WITH HEMORRHAGIC OR ISCHEMIC STROKE. WE ALSO OUTLINE AN EVOLVING MODEL IN WHICH TG2 IS A CRITICAL MEDIATOR BETWEEN PATHOLOGIC SIGNALING AND EPIGENETIC MODIFICATIONS THAT LEAD TO GENE REPRESSION. ACCORDINGLY, THE SALUTARY EFFECTS OF TG INHIBITORS IN STROKE MAY DERIVE FROM THEIR ABILITY TO RESTORE HOMEOSTASIS BY REMOVING INAPPROPRIATE DEACTIVATION OF ADAPTIVE GENETIC PROGRAMS BY OXIDATIVE STRESS OR EXTRASYNAPTIC GLUTAMATE RECEPTOR SIGNALING. 2013 2 6035 24 THE CHALLENGES OF LONG-TERM TRANSCRIPTIONAL GENE SILENCING BY RNA VIRUSES. SINCE THE PAST FEW DECADES, THE SMALL RNA (SRNA) TECHNOLOGIES INCLUDING SMALL INTERFERING RNA AND MIRNA HAVE BEEN WIDELY EXPLORED FOR THERAPEUTIC DEVELOPMENT. CLASSICALLY, THESE SRNAS TARGET THE CODING REGIONS OF MRNA TO EXERT TEMPORAL GENE SILENCING IN A POST-TRANSCRIPTIONAL MANNER. INTERESTINGLY, SRNAS TARGETING GENE PROMOTERS HAVE BEEN RECENTLY DESCRIBED TO MEDIATE LONG-TERM TRANSCRIPTIONAL GENE SILENCING (TGS) BY EPIGENETIC MODIFICATIONS. THIS HAS FURTHER HARNESSED THE POTENTIAL APPLICATIONS IN GENE THERAPY. HOWEVER, EFFICIENT DELIVERY IS A COMMON HURDLE FOR ALMOST ANY TYPES OF GENE THERAPY APPROACHES. IN A RECENT ISSUE OF TRENDS IN BIOCHEMICAL SCIENCES, BALTUSNIKAS ET AL. HAVE PROPOSED TO USE RNA VIRUSES TO DELIVER SRNA FOR LONG-TERM TGS, SUGGESTING LONG-TERM THERAPY BY A SINGLE ADMINISTRATION APPROACH FOR VARIOUS DISEASES, INCLUDING CHRONIC, INCURABLE, AND FATAL ILLNESSES. BEING A NOVEL AND AMBITIOUS GENE THERAPY STRATEGY, WE HEREBY WOULD LIKE TO EMPHASIZE THREE MAJOR CHALLENGES AND PROPOSE POTENTIAL SOLUTIONS. 2018 3 2463 17 EPIGENETIC THERAPY REPROGRAMS HEREDITARY DISEASE. IN THIS ISSUE OF BLOOD, MAKARONA ET AL DEMONSTRATE THAT HISTONE DEACETYLASE (HDAC) INHIBITORS (HDACIS) IN GLUCOSE-6-PHOSPHATE DEHYDROGENASE (G6PD)-DEFICIENT CELLS REINSTATES ENZYME ACTIVITY BY BOOSTING GENE TRANSCRIPTION. THIS THERAPEUTIC APPROACH OPENS NEW AVENUES FOR PRECLINICAL AND CLINICAL STUDIES TO TREAT NOT ONLY CHRONIC NONSPHEROCYTIC HEMOLYTIC ANEMIA CAUSED BY SEVERE G6PD VARIANTS, BUT ALSO OTHER GENETIC DISEASES. 2014 4 5154 23 PRAKRITI-BASED MEDICINE: A STEP TOWARDS PERSONALIZED MEDICINE. THE CONCEPT OF PERSONALIZED MEDICINE HAS BEEN AROUND FOR AS LONG AS PEOPLE HAVE BEEN PRACTICING MEDICINE. FROM CHARAKA TO HIPPOCRATES, ALL HAVE PRACTICED THE PERSONALIZED APPROACH FOR TREATING A DISEASE. IN THE 21(ST) CENTURY, PERSONALIZED MEDICINE IS ALL ABOUT DNA. WHEREAS THE SINGLE NUCLEOTIDE POLYMORPHISM (SNP) AND EPIGENETIC FACTORS INFLUENCE DRUG RESPONSE AND FORM THE BASIS OF PERSONALIZED MEDICINE, THE TRIDOSHA THEORY FORMS THE BASIS OF PRAKRITI-BASED MEDICINE. IT IS WELL ESTABLISHED BY NOW THAT WESTERN ALLOPATHIC MEDICINE IS EXCELLENT IN HANDLING ACUTE MEDICAL CRISES, WHEREAS AYURVEDA HAS SUCCESSFULLY DEMONSTRATED AN ABILITY TO MANAGE CHRONIC DISORDERS THAT WESTERN MEDICINE HAS BEEN UNABLE TO CURE. WITH EFFECTIVE INTEGRATION OF 'OMICS' PRAKRITI-BASED MEDICINE CAN PLAY A VITAL ROLE IN THIS CHANGING SCENARIO OF GLOBAL HEALTH WISDOM AS AYURVEDA OFFERS ITS MODALITIES BY WAY OF AHARA (DIET), VIHARA (LIFESTYLE), AND AUSHADHI (MEDICATION), WHICH ARE THE THREE PILLARS OF PRAKRITI-BASED MEDICINE MAKING IT A HOLISTIC SCIENCE. PRAKRITI-BASED MEDICINE AND OTHER TRADITIONAL MEDICINE SYSTEMS HAVE THE POTENTIAL TO OFFER REMEDIES TO THE CHALLENGING HEALTH ISSUES LIKE ADVERSE DRUG REACTIONS, DRUG WITHDRAWALS, AND ECONOMIC DISPARITIES AMONG FEW. AN INTEGRATIVE GLOBAL APPROACH COULD DO WONDERS TO HEALTH SCIENCES BENEFITING A BROAD SPECTRUM OF PATIENTS. 2011 5 4207 30 METABOTROPIC GLUTAMATE RECEPTORS AND THE CONTROL OF CHRONIC PAIN. OVER THE PAST TWO DECADES METABOTROPIC GLUTAMATE (MGLU) RECEPTOR LIGANDS HAVE BEEN INVESTIGATED FOR THEIR POTENTIAL THERAPEUTIC EFFECTS IN DIFFERENT DISORDERS OF THE CENTRAL NERVOUS SYSTEM (CNS), INCLUDING ANXIETY, DEPRESSION, SCHIZOPHRENIA, AND NEURODEGENERATIVE DISEASES. IN ADDITION, IT HAS BEEN WIDELY DEMONSTRATED THAT MGLU RECEPTORS ARE ABLE TO MODULATE PAIN TRANSMISSION BOTH IN INFLAMMATORY AND NEUROPATHIC PAIN MODELS. A LARGE NUMBER OF PRECLINICAL STUDIES COMBINING THE USE OF SELECTIVE LIGANDS WITH THE KNOCKOUT STRATEGY HAVE REVEALED MORE DETAILS ABOUT THE ROLE OF THE DIFFERENT MGLU RECEPTOR SUBTYPES IN THE MODULATION OF PAIN INFORMATION. THIS REVIEW WILL ADDRESS THE ROLE OF MGLU RECEPTORS IN PAIN SENSITIVITY FOCUSING ON DIFFERENT STRATEGIES TO ACHIEVE PAIN CONTROL BY TARGETING SPECIFIC MGLU RECEPTOR SUBTYPES. SPECIFICALLY, PHARMACOLOGICAL INTERVENTIONS AIMED AT INHIBITING GROUP I MGLU RECEPTOR-MEDIATED SIGNALING AND/OR POTENTIATING GROUPS II AND III MGLU RECEPTOR SIGNALING TOGETHER WITH AN EPIGENETIC APPROACH LEADING TO AN INCREASED EXPRESSION OF MGLU2 RECEPTORS WILL BE DISCUSSED. 2012 6 3968 32 LONG-LASTING ANALGESIA VIA TARGETED IN SITU REPRESSION OF NA(V)1.7 IN MICE. CURRENT TREATMENTS FOR CHRONIC PAIN RELY LARGELY ON OPIOIDS DESPITE THEIR SUBSTANTIAL SIDE EFFECTS AND RISK OF ADDICTION. GENETIC STUDIES HAVE IDENTIFIED IN HUMANS KEY TARGETS PIVOTAL TO NOCICEPTIVE PROCESSING. IN PARTICULAR, A HEREDITARY LOSS-OF-FUNCTION MUTATION IN NA(V)1.7, A SODIUM CHANNEL PROTEIN ASSOCIATED WITH SIGNALING IN NOCICEPTIVE SENSORY AFFERENTS, LEADS TO INSENSITIVITY TO PAIN WITHOUT OTHER NEURODEVELOPMENTAL ALTERATIONS. HOWEVER, THE HIGH SEQUENCE AND STRUCTURAL SIMILARITY BETWEEN NA(V) SUBTYPES HAS FRUSTRATED EFFORTS TO DEVELOP SELECTIVE INHIBITORS. HERE, WE INVESTIGATED TARGETED EPIGENETIC REPRESSION OF NA(V)1.7 IN PRIMARY AFFERENTS VIA EPIGENOME ENGINEERING APPROACHES BASED ON CLUSTERED REGULARLY INTERSPACED SHORT PALINDROMIC REPEATS (CRISPR)-DCAS9 AND ZINC FINGER PROTEINS AT THE SPINAL LEVEL AS A POTENTIAL TREATMENT FOR CHRONIC PAIN. TOWARD THIS END, WE FIRST OPTIMIZED THE EFFICIENCY OF NA(V)1.7 REPRESSION IN VITRO IN NEURO2A CELLS AND THEN, BY THE LUMBAR INTRATHECAL ROUTE, DELIVERED BOTH EPIGENOME ENGINEERING PLATFORMS VIA ADENO-ASSOCIATED VIRUSES (AAVS) TO ASSESS THEIR EFFECTS IN THREE MOUSE MODELS OF PAIN: CARRAGEENAN-INDUCED INFLAMMATORY PAIN, PACLITAXEL-INDUCED NEUROPATHIC PAIN, AND BZATP-INDUCED PAIN. OUR RESULTS SHOW EFFECTIVE REPRESSION OF NA(V)1.7 IN LUMBAR DORSAL ROOT GANGLIA, REDUCED THERMAL HYPERALGESIA IN THE INFLAMMATORY STATE, DECREASED TACTILE ALLODYNIA IN THE NEUROPATHIC STATE, AND NO CHANGES IN NORMAL MOTOR FUNCTION IN MICE. WE ANTICIPATE THAT THIS LONG-LASTING ANALGESIA VIA TARGETED IN VIVO EPIGENETIC REPRESSION OF NA(V)1.7 METHODOLOGY WE DUB PAIN LATER, MIGHT HAVE THERAPEUTIC POTENTIAL IN MANAGEMENT OF PERSISTENT PAIN STATES. 2021 7 3598 18 IMPLICATIONS ON HYPNOTHERAPY: NEUROPLASTICITY, EPIGENETICS AND PAIN. WE PROVIDE A BRIEF REVIEW ABOUT THE SIGNIFICANCE OF HYPNOSIS WITH RESPECT TO APPLICATIONS AND PHYSIOLOGICAL PROCESSES IN HYPNOTHERAPY. OUR REVIEW CONCLUDES THAT HYPNOSIS IS A PROMISING METHOD TO MANAGE ACUTE AND CHRONIC PAIN. IN ADDITION, WE DISCUSS INDICATIONS POINTING TOWARD THE VIEW THAT HYPNOSIS CAN INDUCE CHANGES IN NEUROPLASTICITY POSSIBLY INVOLVING EPIGENETIC MECHANISMS. 2021 8 691 32 BRD4 PROFILING IDENTIFIES CRITICAL CHRONIC LYMPHOCYTIC LEUKEMIA ONCOGENIC CIRCUITS AND REVEALS SENSITIVITY TO PLX51107, A NOVEL STRUCTURALLY DISTINCT BET INHIBITOR. BROMODOMAIN AND EXTRA-TERMINAL (BET) FAMILY PROTEINS ARE KEY REGULATORS OF GENE EXPRESSION IN CANCER. HEREIN, WE UTILIZE BRD4 PROFILING TO IDENTIFY CRITICAL PATHWAYS INVOLVED IN PATHOGENESIS OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL). BRD4 IS OVEREXPRESSED IN CLL AND IS ENRICHED PROXIMAL TO GENES UPREGULATED OR DE NOVO EXPRESSED IN CLL WITH KNOWN FUNCTIONS IN DISEASE PATHOGENESIS AND PROGRESSION. THESE GENES, INCLUDING KEY MEMBERS OF THE B-CELL RECEPTOR (BCR) SIGNALING PATHWAY, PROVIDE A RATIONALE FOR THIS THERAPEUTIC APPROACH TO IDENTIFY NEW TARGETS IN ALTERNATIVE TYPES OF CANCER. ADDITIONALLY, WE DESCRIBE PLX51107, A STRUCTURALLY DISTINCT BET INHIBITOR WITH NOVEL IN VITRO AND IN VIVO PHARMACOLOGIC PROPERTIES THAT EMULATES OR EXCEEDS THE EFFICACY OF BCR SIGNALING AGENTS IN PRECLINICAL MODELS OF CLL. HEREIN, THE DISCOVERY OF THE INVOLVEMENT OF BRD4 IN THE CORE CLL TRANSCRIPTIONAL PROGRAM PROVIDES A COMPELLING RATIONALE FOR CLINICAL INVESTIGATION OF PLX51107 AS EPIGENETIC THERAPY IN CLL AND APPLICATION OF BRD4 PROFILING IN OTHER CANCERS.SIGNIFICANCE: TO DATE, FUNCTIONAL STUDIES OF BRD4 IN CLL ARE LACKING. THROUGH INTEGRATED GENOMIC, FUNCTIONAL, AND PHARMACOLOGIC ANALYSES, WE UNCOVER THE EXISTENCE OF BRD4-REGULATED CORE CLL TRANSCRIPTIONAL PROGRAMS AND PRESENT PRECLINICAL PROOF-OF-CONCEPT STUDIES VALIDATING BET INHIBITION AS AN EPIGENETIC APPROACH TO TARGET BCR SIGNALING IN CLL. CANCER DISCOV; 8(4); 458-77. (C)2018 AACR.THIS ARTICLE IS HIGHLIGHTED IN THE IN THIS ISSUE FEATURE, P. 371. 2018 9 6899 26 [THE DEVELOPMENT HISTORY AND FUTURE PERSPECTIVE OF MOLECULARLY TARGETED THERAPY]. THE ORIGIN OF MOLECULARLY TARGETED DRUGS DATES BACK TO 'MAGIC BULLET' THEORY PROPOSED BY PAUL EHRLICH. THE SUCCESS OF ABL TYROSINE KINASE INHIBITOR, IMATINIB FOR THE TREATMENT OF CHRONIC MYELOID LEUKEMIA REALIZED THAT SMALL MOLECULES INHIBITING ATP BINDING CAN BECOME SPECIFIC INHIBITORS FOR THE RELEVANT KINASES. SUBSEQUENTLY, A NUMBER OF KINASE INHIBITORS WHICH TARGETS VARIOUS SIGNAL TRANSDUCTION MOLECULES, ARE IN THE CLINICAL FIELD OR UNDER DEVELOPMENT. THE CLINICAL SUCCESS OF ANTIBODY THERAPEUTICS HAS BEEN ACHIEVED BY THE GENETIC ENGINEERING WHICH MAKES HUMAN-MOUSE CHIMERIC, HUMANIZED OR HUMAN ANTIBODY. TO AUGMENT THE THERAPEUTIC EFFECTS OF ANTIBODY, RADIOISOTOPE-CONJUGATE ANTIBODY AND ANTIBODY-DRUG CONJUGATE HAVE COME TO THE CLINICAL FIELD. IN THE NEAR FUTURE, WE HAVE TO DEVELOP THE COMBINATION THERAPY OF MOLECULARLY TARGETED DRUGS AND ALSO INHIBITORS FOR EPIGENETIC AND TRANSCRIPTIONAL REGULATORS. 2014 10 2883 27 G9A INHIBITS CREB-TRIGGERED EXPRESSION OF MU OPIOID RECEPTOR IN PRIMARY SENSORY NEURONS FOLLOWING PERIPHERAL NERVE INJURY. NEUROPATHIC PAIN, A DISTRESSING AND DEBILITATING DISORDER, IS STILL POORLY MANAGED IN CLINIC. OPIOIDS, LIKE MORPHINE, REMAIN THE MAINSTAY OF PRESCRIBED MEDICATIONS IN THE TREATMENT OF THIS DISORDER, BUT THEIR ANALGESIC EFFECTS ARE HIGHLY UNSATISFACTORY IN PART DUE TO NERVE INJURY-INDUCED REDUCTION OF OPIOID RECEPTORS IN THE FIRST-ORDER SENSORY NEURONS OF DORSAL ROOT GANGLIA. G9A IS A REPRESSOR OF GENE EXPRESSION. WE FOUND THAT NERVE INJURY-INDUCED INCREASES IN G9A AND ITS CATALYZED REPRESSIVE MARKER H3K9M2 ARE RESPONSIBLE FOR EPIGENETIC SILENCING OF OPRM1, OPRK1, AND OPRD1 GENES IN THE INJURED DORSAL ROOT GANGLIA. BLOCKING THESE INCREASES RESCUED DORSAL ROOT GANGLIA OPRM1, OPRK1, AND OPRD1 GENE EXPRESSION AND MORPHINE OR LOPERAMIDE ANALGESIA AND PREVENTED THE DEVELOPMENT OF MORPHINE OR LOPERAMIDE-INDUCED ANALGESIC TOLERANCE UNDER NEUROPATHIC PAIN CONDITIONS. CONVERSELY, MIMICKING THESE INCREASES REDUCED THE EXPRESSION OF THREE OPIOID RECEPTORS AND PROMOTED THE MU OPIOID RECEPTOR-GATED RELEASE OF PRIMARY AFFERENT NEUROTRANSMITTERS. MECHANISTICALLY, NERVE INJURY-INDUCED INCREASES IN THE BINDING ACTIVITY OF G9A AND H3K9ME2 TO THE OPRM1 GENE WERE ASSOCIATED WITH THE REDUCED BINDING OF CYCLIC AMP RESPONSE ELEMENT BINDING PROTEIN TO THE OPRM1 GENE. THESE FINDINGS SUGGEST THAT G9A PARTICIPATES IN THE NERVE INJURY-INDUCED REDUCTION OF THE OPRM1 GENE LIKELY THROUGH G9A-TRIGGERED BLOCKAGE IN THE ACCESS OF CYCLIC AMP RESPONSE ELEMENT BINDING PROTEIN TO THIS GENE. 2016 11 78 27 A NEW MECHANISTIC APPROACH FOR THE TREATMENT OF CHRONIC NEUROPATHIC PAIN WITH NITROUS OXIDE INTEGRATED FROM A SYSTEMS BIOLOGY NARRATIVE REVIEW. THE LIMITATIONS OF THE CURRENTLY AVAILABLE TREATMENTS FOR CHRONIC NEUROPATHIC PAIN HIGHLIGHT THE NEED FOR SAFER AND MORE EFFECTIVE ALTERNATIVES. THE AUTHORS CARRIED OUT A FOCUSED REVIEW USING A SYSTEMS BIOLOGY APPROACH TO INTEGRATE THE COMPLEX MECHANISMS OF NOCICEPTION AND NEUROPATHIC PAIN, AND TO DECIPHER THE EFFECTS OF NITROUS OXIDE (N(2)O) ON THOSE PATHWAYS, BEYOND THE KNOWN EFFECT OF N(2)O ON N-METHYL-D-ASPARTATE RECEPTORS. THIS REVIEW IDENTIFIED A NUMBER OF POTENTIAL MECHANISMS BY WHICH N(2)O COULD IMPACT THE PROCESSES INVOLVED IN PERIPHERAL AND CENTRAL SENSITIZATION. IN THE ASCENDING PATHWAY, THE EFFECTS OF N(2)O INCLUDE ACTIVATING TWIK-RELATED K(+) CHANNEL 1 POTASSIUM CHANNELS ON FIRST-ORDER NEURONS, BLOCKING VOLTAGE-DEPENDENT CALCIUM CHANNELS TO ATTENUATE NEURONAL EXCITABILITY, ATTENUATING POSTSYNAPTIC GLUTAMATERGIC RECEPTOR ACTIVATION, AND POSSIBLY BLOCKING VOLTAGE-DEPENDENT SODIUM CHANNELS. IN THE DESCENDING PATHWAY, N(2)O INDUCES THE RELEASE OF ENDOGENOUS OPIOID LIGANDS AND STIMULATES NOREPINEPHRINE RELEASE. IN ADDITION, N(2)O MAY MEDIATE EPIGENETIC CHANGES BY INHIBITING METHIONINE SYNTHASE, A KEY ENZYME INVOLVED IN DNA AND RNA METHYLATION. THIS COULD EXPLAIN WHY THIS SHORT-ACTING ANALGESIC HAS SHOWN LONG-LASTING ANTI-PAIN SENSITIZATION EFFECTS IN ANIMAL MODELS OF CHRONIC PAIN. THESE NEW HYPOTHESES SUPPORT THE RATIONALE FOR INVESTIGATING N(2)O, EITHER ALONE OR IN COMBINATION WITH OTHER ANALGESICS, FOR THE MANAGEMENT OF CHRONIC NEUROPATHIC PAIN. 2021 12 1018 23 CIRCFHIT MODULATES GABAERGIC SYNAPTIC TRANSMISSION VIA REGULATING THE PARENTAL GENE FHIT EXPRESSION IN THE SPINAL DORSAL HORN IN A RAT MODEL OF NEUROPATHIC PAIN. EFFECTIVE TREATMENTS FOR NEUROPATHIC PAIN ARE LACKING DUE TO OUR LIMITED UNDERSTANDING OF THE MECHANISMS. THE CIRCRNAS ARE MAINLY ENRICHED IN THE CENTRAL NERVOUS SYSTEM. HOWEVER, THEIR FUNCTION IN VARIOUS PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS HAVE YET TO BE DETERMINED. HERE, WE IDENTIFIED CIRCFHIT, AN EXON-INTRON CIRCRNA EXPRESSED IN GABAERGIC NEURONS, WHICH REDUCED THE INHIBITORY SYNAPTIC TRANSMISSION IN THE SPINAL DORSAL HORN TO MEDIATE SPARED NERVE INJURY-INDUCED NEUROPATHIC PAIN. MOREOVER, WE FOUND THAT CIRCFHIT DECREASED THE EXPRESSION OF GAD65 AND INDUCED HYPEREXCITATION IN NK1R(+) NEURONS BY PROMOTING THE EXPRESSION OF ITS PARENTAL GENE FHIT IN CIS. MECHANISTICALLY, CIRCFHIT WAS DIRECTLY BOUND TO THE INTRONIC REGION OF FHIT, AND FORMED A CIRCFHIT/HNRNPK COMPLEX TO PROMOTE POL II PHOSPHORYLATION AND H2B MONOUBIQUITINATION BY RECRUITING CDK9 AND RNF40 TO THE FHIT INTRON. IN SUMMARY, WE REVEALED THAT THE EXON-INTRON CIRCFHIT CONTRIBUTES TO GABAERGIC NEURON-MEDIATED NK1R(+) NEURONAL HYPEREXCITATION AND NEUROPATHIC PAIN VIA REGULATING FHIT IN CIS. 2023 13 1449 23 DIRECT LINEAGE REPROGRAMMING FOR INDUCED KERATINOCYTE STEM CELLS: A POTENTIAL APPROACH FOR SKIN REPAIR. SEVERE TRAUMA OR CHRONIC WOUNDS CAN DEPLETE THE KERATINOCYTE STEM CELLS (KSCS) PRESENT IN THE EPIDERMAL BASAL LAYER OR INHIBIT THEIR MIGRATION LEADING TO COMPROMISED WOUND HEALING. SUPPLEMENTING KSCS IS THE KEY TO SOLUTION WHILE LINEAGE REPROGRAMMING PROVIDES A NEW APPROACH TO ACQUIRING KSCS. THROUGH DIRECT LINEAGE REPROGRAMMING, INDUCED KSCS (IKSCS) CAN BE PRODUCED FROM SOMATIC CELLS, WHICH EXHIBIT GREAT APPLICATION POTENTIAL. TWO STRATEGIES ARE CURRENTLY BEING USED TO DIRECTLY GENERATE IKSCS, LINEAGE TRANSCRIPTION FACTOR (TF)-MEDIATED AND PLURIPOTENCY FACTORS-MEDIATED. THIS REVIEW FOCUSES ON LINEAGE TF-MEDIATED DIRECT REPROGRAMMING AND DESCRIBES THE CONVERSION PROCESS ALONG WITH THE UNDERLYING EPIGENETIC MECHANISMS. IT ALSO DISCUSSES OTHER POTENTIAL INDUCTION STRATEGIES TO GENERATE IKSCS AND CHALLENGES ASSOCIATED WITH IN SITU REPROGRAMMING FOR SKIN REPAIR. 2023 14 3744 29 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 15 3157 28 GLYCEMIC MEMORY. PURPOSE OF REVIEW: THE MISTAKE OF PREDICTING THE FUTURE IS PERHAPS NOT TENDING TO REPRESSED OR PAST MEMORIES. HAMLET'S 17TH-CENTURY SOLILOQUY 'THE HEARTACHE AND THE THOUSAND NATURAL SHOCKS, THAT FLESH IS HEIR TO', (3.1. 7-8) IS A TALE THAT LOOKS BEYOND THE PRESENT BY LINKING THE PAST WITH THE FUTURE. THE PRESENT ARTICLE EXAMINES THE RESURGENCE IN THE FIELD TO UNDERSTAND GENE-REGULATING EPIGENETIC CHANGES CONFERRING GLYCEMIC MEMORY. RECENT FINDINGS: CHROMATIN MODIFICATIONS ARE CRITICAL IN REGULATING GENOME STRUCTURE AND FUNCTION AND DESPITE THE SIGNIFICANT ADVANCES OF RECENT YEARS IN IDENTIFYING THE ENZYMES-MEDIATING CHEMICAL CHANGES TO HISTONE TAILS AND THE DNA TEMPLATE, THE PRECISE REGULATION OF GENE EXPRESSION REMAINS INCOMPLETE IN MODELS OF HEALTH AND DIABETIC COMPLICATIONS. SUMMARY: DISPELLING THE MYTH THAT ALL GENOMES ARE DRIVEN AND RESPOND EQUALLY, EXPERIMENTAL RESEARCH IS NOW UNCOVERING THE FUNCTION OF ENZYMES CONFERRING CHROMATIN MODIFICATIONS. WHATEVER THE ROLE OF THE EPIGENOME, SHOWING ITS INVOLVEMENT IN GLYCEMIC SIGNALING IS THE FIRST STEP TO NEW STRATEGIES AND TARGETS TO DEVELOP THERAPIES THAT PREVENT, RETARD OR REVERSE THE LONG-TERM DELETERIOUS END-ORGAN EFFECTS OF CHRONIC, INTERMITTENT AND PRIOR HYPERGLYCEMIA. 2012 16 4990 37 PD-1-CIS IL-2R AGONISM YIELDS BETTER EFFECTORS FROM STEM-LIKE CD8(+) T CELLS. EXPANSION AND DIFFERENTIATION OF ANTIGEN-EXPERIENCED PD-1(+)TCF-1(+) STEM-LIKE CD8(+) T CELLS INTO EFFECTOR CELLS IS CRITICAL FOR THE SUCCESS OF IMMUNOTHERAPIES BASED ON PD-1 BLOCKADE(1-4). HASHIMOTO ET AL. HAVE SHOWN THAT, IN CHRONIC INFECTIONS, ADMINISTRATION OF THE CYTOKINE INTERLEUKIN (IL)-2 TRIGGERS AN ALTERNATIVE DIFFERENTIATION PATH OF STEM-LIKE T CELLS TOWARDS A DISTINCT POPULATION OF 'BETTER EFFECTOR' CD8(+) T CELLS SIMILAR TO THOSE GENERATED IN AN ACUTE INFECTION(5). IL-2 BINDING TO THE IL-2 RECEPTOR ALPHA-CHAIN (CD25) WAS ESSENTIAL IN TRIGGERING THIS ALTERNATIVE DIFFERENTIATION PATH AND EXPANDING BETTER EFFECTORS WITH DISTINCT TRANSCRIPTIONAL AND EPIGENETIC PROFILES. HOWEVER, CONSTITUTIVE EXPRESSION OF CD25 ON REGULATORY T CELLS AND SOME ENDOTHELIAL CELLS ALSO CONTRIBUTES TO UNWANTED SYSTEMIC EFFECTS FROM IL-2 THERAPY. THEREFORE, ENGINEERED IL-2 RECEPTOR BETA- AND GAMMA-CHAIN (IL-2RBETAGAMMA)-BIASED AGONISTS ARE CURRENTLY BEING DEVELOPED(6-10). HERE WE SHOW THAT IL-2RBETAGAMMA-BIASED AGONISTS ARE UNABLE TO PREFERENTIALLY EXPAND BETTER EFFECTOR T CELLS IN CANCER MODELS AND DESCRIBE PD1-IL2V, A NEW IMMUNOCYTOKINE THAT OVERCOMES THE NEED FOR CD25 BINDING BY DOCKING IN CIS TO PD-1. CIS BINDING OF PD1-IL2V TO PD-1 AND IL-2RBETAGAMMA ON THE SAME CELL RECOVERS THE ABILITY TO DIFFERENTIATE STEM-LIKE CD8(+) T CELLS INTO BETTER EFFECTORS IN THE ABSENCE OF CD25 BINDING IN BOTH CHRONIC INFECTION AND CANCER MODELS AND PROVIDES SUPERIOR EFFICACY. BY CONTRAST, PD-1- OR PD-L1-BLOCKING ANTIBODIES ALONE, OR THEIR COMBINATION WITH CLINICALLY RELEVANT DOSES OF NON-PD-1-TARGETED IL2V, CANNOT EXPAND THIS UNIQUE SUBSET OF BETTER EFFECTOR T CELLS AND INSTEAD LEAD TO THE ACCUMULATION OF TERMINALLY DIFFERENTIATED, EXHAUSTED T CELLS. THESE FINDINGS PROVIDE THE BASIS FOR THE DEVELOPMENT OF A NEW GENERATION OF PD-1 CIS-TARGETED IL-2R AGONISTS WITH ENHANCED THERAPEUTIC POTENTIAL FOR THE TREATMENT OF CANCER AND CHRONIC INFECTIONS. 2022 17 5780 30 SPINAL RNF20-MEDIATED HISTONE H2B MONOUBIQUITYLATION REGULATES MGLUR5 TRANSCRIPTION FOR NEUROPATHIC ALLODYNIA. TO DATE, HISTONE H2B MONOUBIQUITINATION (H2BUB), A MARK ASSOCIATED WITH TRANSCRIPTIONAL ELONGATION AND ONGOING TRANSCRIPTION, HAS NOT BEEN LINKED TO THE DEVELOPMENT OR MAINTENANCE OF NEUROPATHIC PAIN STATES. HERE, USING MALE SPRAGUE DAWLEY RATS, WE DEMONSTRATED SPINAL NERVE LIGATION (SNL) INDUCED BEHAVIORAL ALLODYNIA AND PROVOKED RING FINGER PROTEIN 20 (RNF20)-DEPENDENT H2BUB IN DORSAL HORN. MOREOVER, SNL PROVOKED RNF20-MEDIATED H2BUB PHOSPHORYLATED RNA POLYMERASE II (RNAPII) IN THE PROMOTER FRAGMENTS OF MGLUR5, THEREBY ENHANCING MGLUR5 TRANSCRIPTION/EXPRESSION IN THE DORSAL HORN. CONVERSELY, FOCAL KNOCKDOWN OF SPINAL RNF20 EXPRESSION REVERSED NOT ONLY SNL-INDUCED ALLODYNIA BUT ALSO RNF20/H2BUB/RNAPII PHOSPHORYLATION-ASSOCIATED SPINAL MGLUR5 TRANSCRIPTION/EXPRESSION. NOTABLY, TNF-ALPHA INJECTION INTO NAIVE RATS AND SPECIFIC NEUTRALIZING ANTIBODY INJECTION INTO SNL-INDUCED ALLODYNIA RATS REVEALED THAT TNF-ALPHA-ASSOCIATED ALLODYNIA INVOLVES THE RNF20/H2BUB/RNAPII TRANSCRIPTIONAL AXIS TO UPREGULATE MGLUR5 EXPRESSION IN THE DORSAL HORN. COLLECTIVELY, OUR FINDINGS INDICATED TNF-ALPHA INDUCES RNF20-DRIVED H2B MONOUBIQUITINATION, WHICH FACILITATES PHOSPHORYLATED RNAPII-DEPENDENT MGLUR5 TRANSCRIPTION IN THE DORSAL HORN FOR THE DEVELOPMENT OF NEUROPATHIC ALLODYNIA.SIGNIFICANCE STATEMENT HISTONE H2B MONOUBIQUITINATION (H2BUB), AN EPIGENETIC POST-TRANSLATIONAL MODIFICATION, POSITIVELY CORRELATED WITH GENE EXPRESSION. HERE, TNF-ALPHA PARTICIPATED IN NEUROPATHIC PAIN DEVELOPMENT BY ENHANCING RNF20-MEDIATED H2BUB, WHICH FACILITATES PHOSPHORYLATED RNAPII-DEPENDENT MGLUR5 TRANSCRIPTION IN DORSAL HORN. OUR FINDING POTENTIALLY IDENTIFIED NEUROPATHIC ALLODYNIA PATHOPHYSIOLOGICAL PROCESSES UNDERPINNING ABNORMAL NOCICEPTION PROCESSING AND OPENS A NEW AVENUE FOR THE DEVELOPMENT OF NOVEL ANALGESICS. 2018 18 5408 38 REGULATION AND SIGNALING OF THE GPR17 RECEPTOR IN OLIGODENDROGLIAL CELLS. REMYELINATION, NAMELY, THE FORMATION OF NEW MYELIN SHEATHS AROUND DENUDED AXONS, COUNTERACTS AXONAL DEGENERATION AND RESTORES NEURONAL FUNCTION. CONSIDERABLE ADVANCES HAVE BEEN MADE IN UNDERSTANDING THIS REGENERATIVE PROCESS THAT OFTEN FAILS IN DISEASES LIKE MULTIPLE SCLEROSIS, LEAVING AXONS DEMYELINATED AND VULNERABLE TO DAMAGE, THUS CONTRIBUTING TO DISEASE PROGRESSION. THE IDENTIFICATION OF THE MEMBRANE RECEPTOR GPR17 ON A SUBSET OF OLIGODENDROCYTE PRECURSOR CELLS (OPCS), WHICH MEDIATE REMYELINATION IN THE ADULT CENTRAL NERVOUS SYSTEM (CNS), HAS LED TO A HUGE AMOUNT OF EVIDENCE THAT VALIDATED THIS RECEPTOR AS A NEW ATTRACTIVE TARGET FOR REMYELINATING THERAPIES. HERE, WE SUMMARIZE THE ROLE OF GPR17 IN OPC FUNCTION, MYELINATION AND REMYELINATION, DESCRIBING ITS ATYPICAL PHARMACOLOGY, ITS DOWNSTREAM SIGNALING, AND THE GENETIC AND EPIGENETIC FACTORS MODULATING ITS ACTIVITY. WE ALSO HIGHLIGHT CRUCIAL INSIGHTS INTO GPR17 PATHOPHYSIOLOGY COMING FROM THE DEMONSTRATION THAT OLIGODENDROCYTE INJURY, ASSOCIATED WITH INFLAMMATION IN CHRONIC NEURODEGENERATIVE CONDITIONS, IS INVARIABLY CHARACTERIZED BY ABNORMAL AND PERSISTENT GPR17 UPREGULATION, WHICH, IN TURN, IS ACCOMPANIED BY A BLOCK OF OPCS AT IMMATURE PREMYELINATING STAGES. FINALLY, WE DISCUSS THE CURRENT LITERATURE IN LIGHT OF THE POTENTIAL EXPLOITMENT OF GPR17 AS A THERAPEUTIC TARGET TO PROMOTE REMYELINATION. 2020 19 1688 28 DUAL BET/HDAC INHIBITION TO RELIEVE NEUROPATHIC PAIN: RECENT ADVANCES, PERSPECTIVES, AND FUTURE OPPORTUNITIES. DESPITE THE INTENSE RESEARCH ON DEVELOPING NEW THERAPIES FOR NEUROPATHIC PAIN STATES, AVAILABLE TREATMENTS HAVE LIMITED EFFICACY AND UNFAVORABLE SAFETY PROFILES. EPIGENETIC ALTERATIONS HAVE A GREAT INFLUENCE ON THE DEVELOPMENT OF CANCER AND NEUROLOGICAL DISEASES, AS WELL AS NEUROPATHIC PAIN. HISTONE ACETYLATION HAS PREVAILED AS ONE OF THE WELL INVESTIGATED EPIGENETIC MODIFICATIONS IN THESE DISEASES. ALTERED SPINAL ACTIVITY OF HISTONE DEACETYLASE (HDAC) AND BROMO AND EXTRA TERMINAL DOMAIN (BET) HAVE BEEN DESCRIBED IN NEUROPATHIC PAIN MODELS AND RESTORATION OF THESE ABERRANT EPIGENETIC MODIFICATIONS SHOWED PAIN-RELIEVING ACTIVITY. OVER THE LAST DECADES HDACS AND BETS HAVE BEEN THE FOCUS OF DRUG DISCOVERY STUDIES, LEADING TO THE DEVELOPMENT OF NUMEROUS SMALL-MOLECULE INHIBITORS. CLINICAL TRIALS TO EVALUATE THEIR ANTICANCER ACTIVITY SHOWED GOOD EFFICACY BUT RAISED TOXICITY CONCERNS THAT LIMITED TRANSLATION TO THE CLINIC. TO MAXIMIZE ACTIVITY AND MINIMIZE TOXICITY, THESE COMPOUNDS CAN BE APPLIED IN COMBINATION OF SUB-MAXIMAL DOSES TO PRODUCE ADDITIVE OR SYNERGISTIC INTERACTIONS (COMBINATION THERAPY). RECENTLY, OF PARTICULAR INTEREST, DUAL BET/HDAC INHIBITORS (MULTI-TARGET DRUGS) HAVE BEEN DEVELOPED TO ASSURE SIMULTANEOUS MODULATION OF BET AND HDAC ACTIVITY BY A SINGLE MOLECULE. THIS REVIEW WILL SUMMARIZE THE MOST RECENT ADVANCES WITH THESE STRATEGIES, DESCRIBING ADVANTAGES AND LIMITATIONS OF SINGLE DRUG TREATMENT VS COMBINATION REGIMENS. THIS REVIEW WILL ALSO PROVIDE A FOCUS ON DUAL BET/HDAC DRUG DISCOVERY INVESTIGATIONS AS FUTURE THERAPEUTIC OPPORTUNITY FOR HUMAN THERAPY OF NEUROPATHIC PAIN. 2021 20 4532 23 MULTIMODAL ANALGESIA FOR PERIOPERATIVE MANAGEMENT OF PATIENTS PRESENTING FOR SPINAL SURGERY. MULTIMODAL, NON-OPIOID BASED ANALGESIA HAS BECOME THE CORNERSTONE OF ERAS PROTOCOLS FOR EFFECTIVE ANALGESIA AFTER SPINAL SURGERY. OPIOID SIDE EFFECTS, DEPENDENCE AND LEGISLATION RESTRICTING LONG TERM OPIOID USE HAS LED TO A RESURGENCE IN INTEREST IN OPIOID SPARING TECHNIQUES. THE INCREASING ARRAY OF MULTIMODAL OPIOID SPARING ANALGESICS AVAILABLE FOR SPINAL SURGERY TARGETING NOVEL RECEPTORS, TRANSMITTERS, AND ALTERING EPIGENETICS CAN HELP PROVIDE AN OPTIMAL PERIOPERATIVE EXPERIENCE WITH LESS OPIOID SIDE EFFECTS AND LONG-TERM DEPENDENCE. EPIGENETIC MECHANISMS OF PAIN MAY ENHANCE OR SUPPRESS GENE EXPRESSION, WITHOUT ALTERING THE GENOME ITSELF. SUCH MECHANISMS ARE COMPLEX, DYNAMIC AND RESPONSIVE TO ENVIRONMENT. ALTERATIONS THAT OCCUR CAN AFFECT THE PATHOPHYSIOLOGY OF PAIN MANAGEMENT AT A DNA LEVEL, MODIFYING PERCEIVED PAIN RELIEF. IN THIS REVIEW, WE PROVIDE A BRIEF OVERVIEW OF EPIGENETICS OF PAIN, SYSTEMIC LOCAL ANESTHETICS AND NEURAXIAL TECHNIQUES THAT CONTINUE TO REMAIN USEFUL FOR SPINAL SURGERY, NEUROPATHIC AGENTS, AS WELL AS OTHER COMMON AND LESS COMMON TARGET RECEPTORS FOR A TRULY MULTIMODAL APPROACH TO PERIOPERATIVE PAIN MANAGEMENT. 2019