1 3606 152 IMPROVING TREATMENT OF NEURODEVELOPMENTAL DISORDERS: RECOMMENDATIONS BASED ON PRECLINICAL STUDIES. INTRODUCTION: NEURODEVELOPMENTAL DISORDERS (NDDS) ARE COMMON AND SEVERELY DEBILITATING. THEIR CHRONIC NATURE AND RELIANCE ON BOTH GENETIC AND ENVIRONMENTAL FACTORS MAKES STUDYING NDDS AND THEIR TREATMENT A CHALLENGING TASK. AREAS COVERED: HEREIN, THE AUTHORS DISCUSS THE NEUROBIOLOGICAL MECHANISMS OF NDDS, AND PRESENT RECOMMENDATIONS ON THEIR TRANSLATIONAL RESEARCH AND THERAPY, OUTLINED BY THE INTERNATIONAL STRESS AND BEHAVIOR SOCIETY. VARIOUS DRUGS CURRENTLY PRESCRIBED TO TREAT NDDS ALSO REPRESENT A HIGHLY DIVERSE GROUP. ACTING ON VARIOUS NEUROTRANSMITTER AND PHYSIOLOGICAL SYSTEMS, THESE DRUGS OFTEN LACK SPECIFICITY OF ACTION, AND ARE COMMONLY USED TO TREAT MULTIPLE OTHER PSYCHIATRIC CONDITIONS. THERE HAS ALSO BEEN RELATIVELY LITTLE PROGRESS IN THE DEVELOPMENT OF NOVEL MEDICATIONS TO TREAT NDDS. BASED ON CLINICAL, PRECLINICAL AND TRANSLATIONAL MODELS OF NDDS, OUR RECOMMENDATIONS COVER A WIDE RANGE OF METHODOLOGICAL APPROACHES AND CONCEPTUAL STRATEGIES. EXPERT OPINION: TO IMPROVE PHARMACOTHERAPY AND DRUG DISCOVERY FOR NDDS, WE NEED A STRONGER EMPHASIS ON TARGETING MULTIPLE ENDOPHENOTYPES, A BETTER DISSECTION OF GENETIC/EPIGENETIC FACTORS OR "HIDDEN HERITABILITY," AND A CAREFUL CONSIDERATION OF POTENTIAL DEVELOPMENTAL/TROPHIC ROLES OF BRAIN NEUROTRANSMITTERS. THE VALIDITY OF ANIMAL NDD MODELS CAN BE IMPROVED THROUGH DISCOVERY OF NOVEL (BEHAVIORAL, PHYSIOLOGICAL AND NEUROIMAGING) BIOMARKERS, APPLYING PROPER ENVIRONMENTAL ENRICHMENT, WIDENING THE SPECTRUM OF MODEL ORGANISMS, TARGETING DEVELOPMENTAL TRAJECTORIES OF NDD-RELATED BEHAVIORS AND COMORBID CONDITIONS BEYOND TRADITIONAL NDDS. WHILE THESE RECOMMENDATIONS CANNOT BE ADDRESSED ALL IN ONCE, OUR INCREASED UNDERSTANDING OF NDD PATHOBIOLOGY MAY TRIGGER INNOVATIVE CROSS-DISCIPLINARY RESEARCH EXPANDING BEYOND TRADITIONAL METHODS AND CONCEPTS. 2016 2 4344 28 MINIREVIEW: TRANSLATIONAL ANIMAL MODELS OF HUMAN MENOPAUSE: CHALLENGES AND EMERGING OPPORTUNITIES. INCREASING IMPORTANCE IS PLACED ON THE TRANSLATIONAL VALIDITY OF ANIMAL MODELS OF HUMAN MENOPAUSE TO DISCERN RISK VS. BENEFIT FOR PREDICTION OF OUTCOMES AFTER THERAPEUTIC INTERVENTIONS AND TO DEVELOP NEW THERAPEUTIC STRATEGIES TO PROMOTE HEALTH. BASIC DISCOVERY RESEARCH CONDUCTED OVER MANY DECADES HAS BUILT AN EXTENSIVE BODY OF KNOWLEDGE REGARDING REPRODUCTIVE SENESCENCE ACROSS MAMMALIAN SPECIES UPON WHICH TO ADVANCE ANIMAL MODELS OF HUMAN MENOPAUSE. MODIFICATIONS TO EXISTING ANIMAL MODELS COULD RAPIDLY ADDRESS TRANSLATIONAL GAPS RELEVANT TO CLINICAL ISSUES IN HUMAN MENOPAUSAL HEALTH, WHICH INCLUDE THE IMPACT OF 1) CHRONIC OVARIAN HORMONE DEPRIVATION AND HORMONE THERAPY, 2) CLINICALLY RELEVANT HORMONE THERAPY REGIMENS (CYCLIC VS. CONTINUOUS COMBINED), 3) CLINICALLY RELEVANT HORMONE THERAPY FORMULATIONS, AND 4) WINDOWS OF OPPORTUNITY AND OPTIMAL DURATION OF INTERVENTIONS. MODIFICATIONS IN EXISTING ANIMAL MODELS TO MORE ACCURATELY REPRESENT HUMAN MENOPAUSE AND CLINICAL INTERVENTIONS COULD RAPIDLY PROVIDE PRECLINICAL TRANSLATIONAL DATA TO PREDICT OUTCOMES REGARDING UNRESOLVED CLINICAL ISSUES RELEVANT TO WOMEN'S MENOPAUSAL HEALTH. DEVELOPMENT OF THE NEXT GENERATION OF ANIMAL MODELS OF HUMAN MENOPAUSE COULD LEVERAGE ADVANCES IN IDENTIFYING GENOTYPIC VARIATIONS IN ESTROGEN AND PROGESTERONE RECEPTORS TO DEVELOP PERSONALIZED MENOPAUSAL CARE AND TO PREDICT OUTCOMES OF INTERVENTIONS FOR PROTECTION AGAINST OR VULNERABILITY TO DISEASE. KEY TO THE SUCCESS OF THESE MODELS IS THE CLOSE COUPLING BETWEEN THE TRANSLATIONAL TARGET AND THE RANGE OF PREDICTIVE VALIDITY. PRECLINICAL TRANSLATIONAL ANIMAL MODELS OF HUMAN MENOPAUSE NEED TO KEEP PACE WITH CHANGES IN CLINICAL PRACTICE. WITH FOCUS ON PREDICTIVE VALIDITY AND STRATEGIC USE OF ADVANCES IN GENETIC AND EPIGENETIC SCIENCE, NEW ANIMAL MODELS OF HUMAN MENOPAUSE HAVE THE OPPORTUNITY TO SET NEW DIRECTIONS FOR MENOPAUSAL CLINICAL CARE FOR WOMEN WORLDWIDE. 2012 3 757 28 CARTILAGE REPAIR BY MESENCHYMAL STEM CELLS: CLINICAL TRIAL UPDATE AND PERSPECTIVES. OSTEOARTHRITIS IS A DEGENERATIVE DISEASE OF JOINTS WITH DESTRUCTION OF ARTICULAR CARTILAGE ASSOCIATED WITH SUBCHONDRAL BONE HYPERTROPHY AND INFLAMMATION. OA IS THE LEADING CAUSE OF JOINT PAIN RESULTING IN SIGNIFICANT WORSENING OF THE QUALITY-OF-LIFE IN THE ELDERLY. NUMEROUS EFFORTS HAVE BEEN SPENT TO OVERCOME THE INHERENTLY POOR HEALING ABILITY OF ARTICULAR CARTILAGE. MESENCHYMAL STEM CELLS (MSCS) HAVE BEEN IN THE LIMELIGHT OF CELL-BASED THERAPIES TO PROMOTE CARTILAGE REPAIR. DESPITE PROGRESSIVE ADVANCEMENTS IN MSC MANIPULATION AND THE INTRODUCTION OF VARIOUS BIOACTIVE SCAFFOLDS AND GROWTH FACTORS IN PRECLINICAL STUDIES, CURRENT CLINICAL TRIALS ARE STILL AT EARLY STAGES WITH PRELIMINARY AIMS TO EVALUATE SAFETY, FEASIBILITY AND EFFICACY. THIS REVIEW SUMMARISES RECENTLY REPORTED MSC-BASED CLINICAL TRIALS AND DISCUSSES NEW RESEARCH DIRECTIONS WITH PARTICULAR FOCUS ON THE POTENTIAL APPLICATION OF MSC-DERIVED EXTRACELLULAR VEHICLES, MIRNAS AND ADVANCED GENE EDITING TECHNIQUES WHICH MAY SHED LIGHT ON THE DEVELOPMENT OF NOVEL TREATMENT STRATEGIES. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: THIS REVIEW SUMMARISES RECENT MSC-RELATED CLINICAL RESEARCH THAT FOCUSES ON CARTILAGE REPAIR. WE ALSO PROPOSE A NOVEL POSSIBLE TRANSLATIONAL DIRECTION FOR HYALINE CARTILAGE FORMATION AND A NEW PARADIGM MAKING USE OF EXTRA-CELLULAR SIGNALLING AND EPIGENETIC REGULATION IN THE APPLICATION OF MSCS FOR CARTILAGE REPAIR. 2017 4 5778 19 SPINAL CORD INJURY INDUCED NEUROPATHIC PAIN: MOLECULAR TARGETS AND THERAPEUTIC APPROACHES. NEUROPATHIC PAIN, ESPECIALLY THAT RESULTING FROM SPINAL CORD INJURY, IS A TREMENDOUS CLINICAL CHALLENGE. A MYRIAD OF BIOLOGICAL CHANGES HAVE BEEN IMPLICATED IN PRODUCING THESE PAIN STATES INCLUDING CELLULAR INTERACTIONS, EXTRACELLULAR PROTEINS, ION CHANNEL EXPRESSION, AND EPIGENETIC INFLUENCES. PHYSIOLOGICAL CONSEQUENCES OF THESE CHANGES ARE VARIED AND INCLUDE FUNCTIONAL DEFICITS AND PAIN RESPONSES. DEVELOPING THERAPIES THAT EFFECTIVELY ADDRESS THE CAUSE OF THESE SYMPTOMS REQUIRE A DEEPER KNOWLEDGE OF ALTERATIONS IN THE MOLECULAR PATHWAYS. MATRIX METALLOPROTEINASES AND TISSUE INHIBITORS OF METALLOPROTEINASES ARE TWO PROMISING THERAPEUTIC TARGETS. MATRIX METALLOPROTEINASES INTERACT WITH AND INFLUENCE MANY OF THE STUDIED PAIN PATHWAYS. GENE EXPRESSION OF ION CHANNELS AND INFLAMMATORY MEDIATORS CLEARLY CONTRIBUTES TO NEUROPATHIC PAIN. LOCALIZED AND TIME DEPENDENT TARGETING OF THESE PROTEINS COULD ALLEVIATE AND EVEN PREVENT NEUROPATHIC PAIN FROM DEVELOPING. CURRENT THERAPEUTIC OPTIONS FOR NEUROPATHIC PAIN ARE LIMITED PRIMARILY TO ANALGESICS TARGETING THE OPIOID PATHWAY. THERAPIES DIRECTED AT MOLECULAR TARGETS ARE HIGHLY DESIRABLE AND IN EARLY STAGES OF DEVELOPMENT. THESE INCLUDE TRANSPLANTATION OF EXOGENOUSLY ENGINEERED CELL POPULATIONS AND TARGETED GENE MANIPULATION. THIS REVIEW DESCRIBES SPECIFIC MOLECULAR TARGETS AMENABLE TO THERAPEUTIC INTERVENTION USING CURRENTLY AVAILABLE DELIVERY SYSTEMS. 2015 5 3996 25 LOOKING FORWARD: NOVEL THERAPEUTIC APPROACHES IN CHRONIC AND ADVANCED PHASES OF MYELOFIBROSIS. MYELOFIBROSIS (MF) IS COMPLEX AT THE PATHOBIOLOGIC LEVEL AND HETEROGENEOUS AT THE CLINICAL LEVEL. THE ADVANCES IN MOLECULAR CHARACTERIZATION OF MF PROVIDE IMPORTANT INSIGHT INTO THE MECHANISMS DRIVING THIS CHRONIC MYELOID MALIGNANCY, REFINE RISK STRATIFICATION, OFFER NOVEL THERAPEUTIC TARGETS, AND SERVE TO MEASURE THERAPEUTIC RESPONSE. ALTHOUGH JAK2 INHIBITION HAS BEEN THE FOCUS OF LABORATORY AND CLINICAL EFFORTS OVER THE LAST DECADE, CURRENT EXPERIMENTAL THERAPEUTIC APPROACHES HAVE BROADENED TO INCLUDE INHIBITORS OF KEY ALTERNATIVE SIGNALING PATHWAYS, EPIGENETIC MODULATORS, ANTI-FIBROTICS, AND IMMUNOTHERAPIES. BASED ON COMPELLING PRECLINICAL RATIONALE, A NUMBER OF JAK2 INHIBITOR BASED COMBINATION THERAPIES ARE NOW ACTIVELY BEING EVALUATED IN THE CLINIC WITH THE GOAL OF DISEASE COURSE MODIFICATION. THE ROLE AND TIMING OF HEMATOPOIETIC STEM CELL TRANSPLANT (HSCT) FOR MF HAS BEEN CHALLENGED WITH THE AVAILABILITY OF COMMERCIAL RUXOLITINIB AND THE PLETHORA OF EXPERIMENTAL TREATMENT OPTIONS THAT EXIST. INTEGRATION OF PRECONDITIONING JAK2 INHIBITION, REDUCED INTENSITY CONDITIONING REGIMENS, AND ALTERNATIVE DONOR SOURCES ARE ALL BEING EXPLORED IN AN ATTEMPT TO OPTIMIZE THIS POTENTIALLY CURATIVE MODALITY. THIS REVIEW WILL SUMMARIZE MODERN MF RISK STRATIFICATION, CURRENT CLINICAL RESEARCH APPROACHES TO CHRONIC AND ADVANCE PHASE MF FOCUSING ON NOVEL AGENTS ALONE AND IN COMBINATION, AND UPDATE THE READER ON NEW DIRECTIONS IN HSCT. 2015 6 232 30 ADAPTIVE PLASTICITY IN THE RETINA: PROTECTION AGAINST ACUTE INJURY AND NEURODEGENERATIVE DISEASE BY CONDITIONING STIMULI. ALTHOUGH BOTH PRECLINICAL AND CLINICAL CONDITIONING STUDIES IN HEART AND BRAIN LEAD THE FIELD OF CONDITIONING MEDICINE, INVESTIGATIONS OF RETINAL CONDITIONING STILL NUMBER MORE THAN 100. IN THIS BRIEF REVIEW, WE HIGHLIGHT FINDINGS TO DATE FROM ANIMAL AND CELL CULTURE MODELS OF CONDITIONING THAT PROVIDE DEMONSTRATED PROTECTION IN ACUTE AND CHRONIC RETINAL INJURY AND DISEASE MODELS. THE MULTITUDE OF STIMULI USED TO CONDITION THE RETINA, THE SIGNALING MEDIATORS AND PATHWAYS IDENTIFIED, AND THE INJURY- AND DISEASE-RESILIENT PHENOTYPES DOCUMENTED ARE DISCUSSED HEREIN, ALONG WITH OUR RECOMMENDATIONS FOR THE KINDS OF STUDIES NEEDED TO CONTINUE TO ADVANCE THIS PROMISING FIELD. IN OUR VIEW, THE ROBUST PROTECTION AFFORDED BY THESE ADAPTIVE EPIGENETIC RESPONSES TO CONDITIONING STRESS PROVIDES SIGNIFICANT INCENTIVES FOR BOTH FURTHERING OUR INVESTMENT IN BENCH RESEARCH AND UNDERWRITING CLINICAL TRIALS, SO THAT THE FULL POTENTIAL OF THIS THERAPY CAN BE REALIZED. 2018 7 3374 25 HISTONE POST-TRANSLATIONAL MODIFICATIONS AS POTENTIAL THERAPEUTIC TARGETS FOR PAIN MANAGEMENT. EFFECTIVE PHARMACOLOGICAL MANAGEMENT OF PAIN ASSOCIATED WITH TISSUE PATHOLOGY IS AN UNMET MEDICAL NEED. TRANSCRIPTIONAL MODIFICATIONS IN NOCICEPTIVE PATHWAYS ARE PIVOTAL FOR THE DEVELOPMENT AND THE MAINTENANCE OF PAIN ASSOCIATED WITH TISSUE DAMAGE. ACCUMULATING EVIDENCE HAS SHOWN THE IMPORTANCE OF THE EPIGENETIC CONTROL OF TRANSCRIPTION IN NOCICEPTIVE PATHWAYS VIA HISTONE POST-TRANSLATIONAL MODIFICATIONS (PTMS). HENCE, HISTONE PTMS COULD BE TARGETS FOR NOVEL EFFECTIVE ANALGESICS. HERE, WE DISCUSS THE CURRENT UNDERSTANDING OF HISTONE PTMS IN THE MODULATION OF GENE EXPRESSION AFFECTING NOCICEPTION AND PAIN PHENOTYPES FOLLOWING TISSUE INJURY. WE ALSO PROVIDE A CRITICAL VIEW OF THE TRANSLATIONAL IMPLICATIONS OF PRECLINICAL MODELS AND DISCUSS OPPORTUNITIES AND CHALLENGES OF TARGETING HISTONE PTMS TO RELIEVE PAIN IN CLINICALLY RELEVANT TISSUE INJURIES. 2021 8 5835 38 STRESS-INDUCED VISCERAL PAIN: TOWARD ANIMAL MODELS OF IRRITABLE-BOWEL SYNDROME AND ASSOCIATED COMORBIDITIES. VISCERAL PAIN IS A GLOBAL TERM USED TO DESCRIBE PAIN ORIGINATING FROM THE INTERNAL ORGANS, WHICH IS DISTINCT FROM SOMATIC PAIN. IT IS A HALLMARK OF FUNCTIONAL GASTROINTESTINAL DISORDERS SUCH AS IRRITABLE-BOWEL SYNDROME (IBS). CURRENTLY, THE TREATMENT STRATEGIES TARGETING VISCERAL PAIN ARE UNSATISFACTORY, WITH DEVELOPMENT OF NOVEL THERAPEUTICS HINDERED BY A LACK OF DETAILED KNOWLEDGE OF THE UNDERLYING MECHANISMS. STRESS HAS LONG BEEN IMPLICATED IN THE PATHOPHYSIOLOGY OF VISCERAL PAIN IN BOTH PRECLINICAL AND CLINICAL STUDIES. HERE, WE DISCUSS THE COMPLEX ETIOLOGY OF VISCERAL PAIN REVIEWING OUR CURRENT UNDERSTANDING IN THE CONTEXT OF THE ROLE OF STRESS, GENDER, GUT MICROBIOTA ALTERATIONS, AND IMMUNE FUNCTIONING. FURTHERMORE, WE REVIEW THE ROLE OF GLUTAMATE, GABA, AND EPIGENETIC MECHANISMS AS POSSIBLE THERAPEUTIC STRATEGIES FOR THE TREATMENT OF VISCERAL PAIN FOR WHICH THERE IS AN UNMET MEDICAL NEED. MOREOVER, WE DISCUSS THE MOST WIDELY DESCRIBED RODENT MODELS USED TO MODEL VISCERAL PAIN IN THE PRECLINICAL SETTING. THE THEORY BEHIND, AND APPLICATION OF, ANIMAL MODELS IS KEY FOR BOTH THE UNDERSTANDING OF UNDERLYING MECHANISMS AND DESIGN OF FUTURE THERAPEUTIC INTERVENTIONS. TAKEN TOGETHER, IT IS APPARENT THAT STRESS-INDUCED VISCERAL PAIN AND ITS PSYCHIATRIC COMORBIDITIES, AS TYPIFIED BY IBS, HAS A MULTIFACETED ETIOLOGY. MOREOVER, TREATMENT STRATEGIES STILL LAG FAR BEHIND WHEN COMPARED TO OTHER PAIN MODALITIES. THE DEVELOPMENT OF NOVEL, EFFECTIVE, AND SPECIFIC THERAPEUTICS FOR THE TREATMENT OF VISCERAL PAIN HAS NEVER BEEN MORE PERTINENT. 2015 9 3275 24 HEPATOCELLULAR CARCINOMA: THERAPEUTIC ADVANCES IN SIGNALING, EPIGENETIC AND IMMUNE TARGETS. HEPATOCELLULAR CARCINOMA (HCC) REMAINS A GLOBAL MEDICAL BURDEN WITH RISING INCIDENCE DUE TO CHRONIC VIRAL HEPATITIS AND NON-ALCOHOLIC FATTY LIVER DISEASES. TREATMENT OF ADVANCED DISEASE STAGES IS STILL UNSATISFYING. BESIDES FIRST AND SECOND GENERATION TYROSINE KINASE INHIBITORS, IMMUNE CHECKPOINT INHIBITORS HAVE BECOME CENTRAL FOR THE TREATMENT OF HCC. NEW MODALITIES LIKE EPIGENETIC THERAPY USING HISTONE DEACETYLASE INHIBITORS (HDACI) AND CELL THERAPY APPROACHES WITH CHIMERIC ANTIGEN RECEPTOR T CELLS (CAR-T CELLS) ARE CURRENTLY UNDER INVESTIGATION IN CLINICAL TRIALS. DEVELOPMENT OF SUCH NOVEL DRUGS IS CLOSELY LINKED TO THE AVAILABILITY AND IMPROVEMENT OF NOVEL PRECLINICAL AND ANIMAL MODELS AND THE IDENTIFICATION OF PREDICTIVE BIOMARKERS. THE CURRENT STATUS OF TREATMENT OPTIONS FOR ADVANCED HCC, EMERGING NOVEL THERAPEUTIC APPROACHES AND DIFFERENT PRECLINICAL MODELS FOR HCC DRUG DISCOVERY AND DEVELOPMENT ARE REVIEWED HERE. 2019 10 4716 31 NON-GENETIC RATS MODELS FOR ATHEROSCLEROSIS RESEARCH: FROM PAST TO PRESENT. ATHEROSCLEROSIS IS AN INFLAMMATORY, PROGRESSIVE, AND CHRONIC ILLNESS THAT INVOLVES SEVERAL MOLECULAR AND EPIGENETIC FACTORS. DESPITE TREATMENT LIMITATIONS, CLINICAL AND THERAPEUTIC APPROACHES HAVE UNDENIABLY CHANGED RADICALLY IN RECENT DECADES THROUGH BETTER KNOWLEDGE OF THE PATHOPHYSIOLOGICAL BASIS OF THE DISEASE, WHICH HAS CONSIDERABLY IMPROVED PATIENTS' SURVIVAL AND QUALITY OF LIFE. SOME OF THESE ADVANCES ARE ATTRIBUTABLE TO BASIC BIOMEDICAL RESEARCH THAT PROVIDES INSIGHTS INTO A BETTER UNDERSTANDING AND IDENTIFICATION OF NEW MOLECULAR AND CELLULAR TARGETS FOR ATHEROSCLEROSIS TREATMENT. ALTHOUGH RODENT MODELS HAVE CONTRIBUTED SUBSTANTIALLY TO A BETTER UNDERSTANDING OF THE DEVELOPMENT OF ATHEROSCLEROSIS, THE ACCURACY OF THESE MODELS REMAINS CONTROVERSIAL. RESEARCH THAT UTILIZES GENETIC RODENT MODELS IS WELL ESTABLISHED, BUT THE USE OF SPECIFIC DIETS THAT ARE ASSOCIATED WITH OTHER RISK FACTORS (E.G., HYPERTENSION, HORMONE DEPRIVATION, AND PHARMACOLOGICAL TOOLS) IS STILL DEBATABLE. THE PRESENT REVIEW PROVIDES AN UPDATE ON NON-GENETIC RAT MODELS OF ATHEROSCLEROSIS AND AN OVERVIEW OF THE MAIN METHODOLOGIES THAT ARE CURRENTLY AVAILABLE. 2019 11 2141 38 EPIGENETIC INTERVENTIONS FOR EPILEPTOGENESIS: A NEW FRONTIER FOR CURING EPILEPSY. THIS ARTICLE HIGHLIGHTS THE EMERGING THERAPEUTIC POTENTIAL OF SPECIFIC EPIGENETIC MODULATORS AS PROMISING ANTIEPILEPTOGENIC OR DISEASE-MODIFYING AGENTS FOR CURING EPILEPSY. CURRENTLY, THERE IS AN UNMET NEED FOR ANTIEPILEPTOGENIC AGENTS THAT TRULY PREVENT THE DEVELOPMENT OF EPILEPSY IN PEOPLE AT RISK. THERE IS STRONG EVIDENCE THAT EPIGENETIC SIGNALING, WHICH EXERTS HIGH FIDELITY REGULATION OF GENE EXPRESSION, PLAYS A CRUCIAL ROLE IN THE PATHOPHYSIOLOGY OF EPILEPTOGENESIS AND CHRONIC EPILEPSY. THESE MODIFICATIONS ARE NOT HARD-WIRED INTO THE GENOME AND ARE CONSTANTLY REPROGRAMMED BY ENVIRONMENTAL INFLUENCES. THE POTENTIAL EPIGENETIC MECHANISMS, INCLUDING HISTONE MODIFICATIONS, DNA METHYLATION, MICRORNA-BASED TRANSCRIPTIONAL CONTROL, AND BROMODOMAIN READING ACTIVITY, CAN DRASTICALLY ALTER THE NEURONAL GENE EXPRESSION PROFILE BY EXERTING THEIR SUMMATIVE EFFECTS IN A COORDINATED FASHION. SUCH AN EPIGENETIC INTERVENTION APPEARS MORE RATIONAL STRATEGY FOR PREVENTING EPILEPSY BECAUSE IT TARGETS THE PRIMARY PATHWAY THAT INITIALLY TRIGGERS THE NUMEROUS DOWNSTREAM CELLULAR AND MOLECULAR EVENTS MEDIATING EPILEPTOGENESIS. AMONG CURRENTLY APPROVED EPIGENETIC DRUGS, THE MAJORITY ARE ANTICANCER DRUGS WITH WELL-ESTABLISHED PROFILES IN CLINICAL TRIALS AND PRACTICE. EVIDENCE FROM PRECLINICAL STUDIES SUPPORTS THE PREMISE THAT THESE DRUGS MAY BE APPLIED TO A WIDE RANGE OF BRAIN DISORDERS. TARGETING HISTONE DEACETYLATION BY INHIBITING HISTONE DEACETYLASE ENZYMES APPEARS TO BE ONE PROMISING EPIGENETIC THERAPY SINCE CERTAIN INHIBITORS HAVE BEEN SHOWN TO PREVENT EPILEPTOGENESIS IN ANIMAL MODELS. HOWEVER, DEVELOPING NEURONAL SPECIFIC EPIGENETIC MODULATORS REQUIRES RATIONAL, PATHOPHYSIOLOGY-BASED OPTIMIZATION TO EFFICIENTLY INTERCEPT THE UPSTREAM PATHWAYS IN EPILEPTOGENESIS. OVERALL, EPIGENETIC AGENTS HAVE BEEN WELL POSITIONED AS NEW FRONTIER TOOLS TOWARDS THE NATIONAL GOAL OF CURING EPILEPSY. 2017 12 3333 28 HISTONE DEACETYLASE INHIBITORS AND DIABETIC KIDNEY DISEASE. DESPITE RECENT CLINICAL TRIAL ADVANCES AND IMPROVEMENTS IN CLINICAL CARE, KIDNEY DISEASE DUE TO DIABETES REMAINS THE MOST COMMON CAUSE OF CHRONIC KIDNEY FAILURE WORLDWIDE. IN THE SEARCH FOR NEW TREATMENTS, RECENT ATTENTIONS HAVE TURNED TO DRUG REPURPOSING OPPORTUNITIES, INCLUDING STUDY OF THE HISTONE DEACETYLASE (HDAC) INHIBITOR CLASS OF AGENTS. HDACS ARE A GROUP OF ENZYMES THAT REMOVE FUNCTIONAL ACETYL GROUPS FROM HISTONE AND NON-HISTONE PROTEINS AND THEY CAN AFFECT CELLULAR FUNCTION THROUGH BOTH EPIGENETIC AND NON-EPIGENETIC MEANS. OVER THE PAST DECADE, SEVERAL HDAC INHIBITORS HAVE BEEN ADOPTED INTO CLINICAL PRACTICE, PRIMARILY FOR THE TREATMENT OF HEMATOLOGICAL MALIGNANCY, WHEREAS OTHER EXISTING THERAPIES (FOR INSTANCE VALPROATE) HAVE BEEN FOUND TO HAVE HDAC INHIBITORY EFFECTS. HERE WE REVIEW THE CURRENT HDAC INHIBITORS IN THE CLINIC AND UNDER DEVELOPMENT; THE LITERATURE EVIDENCE SUPPORTING THE RENOPROTECTIVE EFFECTS OF HDAC INHIBITORS IN EXPERIMENTAL DIABETIC KIDNEY DISEASE; AND THE ADVERSE EFFECT PROFILES THAT MAY PREVENT EXISTING THERAPIES FROM ENTERING THE CLINIC FOR THIS INDICATION. WHEREAS RECENT RESEARCH EFFORTS HAVE SHED LIGHT ON THE FUNDAMENTAL ACTIONS OF HDACS IN THE DIABETIC KIDNEY, WHETHER THESE EFFORTS WILL TRANSLATE INTO NOVEL THERAPIES FOR PATIENTS WILL REQUIRE MORE SPECIFIC AND BETTER-TOLERATED THERAPIES. 2018 13 2932 26 GENES AND EPIGENETIC PROCESSES AS PROSPECTIVE PAIN TARGETS. CHRONIC PAIN AFFECTS APPROXIMATELY ONE IN FIVE ADULTS, RESULTING IN A GREATLY REDUCED QUALITY OF LIFE AND A HIGHER RISK OF DEVELOPING CO-MORBIDITIES SUCH AS DEPRESSION. AVAILABLE TREATMENTS OFTEN PROVIDE INADEQUATE PAIN RELIEF, BUT IT IS HOPED THAT THROUGH DEEPER UNDERSTANDING OF THE MOLECULAR MECHANISMS UNDERLYING CHRONIC PAIN STATES WE CAN DISCOVER NEW AND IMPROVED THERAPIES. ALTHOUGH GENETIC RESEARCH HAS FLOURISHED OVER THE PAST DECADE AND HAS IDENTIFIED MANY KEY GENES IN PAIN PROCESSING, THE BUDDING FIELD OF EPIGENETICS PROMISES TO PROVIDE NEW INSIGHTS AND A MORE DYNAMIC VIEW OF PAIN REGULATION. THIS REVIEW GIVES AN OVERVIEW OF BASIC MECHANISMS AND CURRENT THERAPIES TO TREAT PAIN, AND DISCUSSES THE CLINICAL AND PRECLINICAL EVIDENCE FOR THE CONTRIBUTION OF GENETIC AND EPIGENETIC FACTORS, WITH A FOCUS ON HOW THIS KNOWLEDGE CAN AFFECT DRUG DEVELOPMENT. 2013 14 1867 24 EMERGING GENE-EDITING MODALITIES FOR OSTEOARTHRITIS. OSTEOARTHRITIS (OA) IS A PATHOLOGICAL DEGENERATIVE CONDITION OF THE JOINTS THAT IS WIDELY PREVALENT WORLDWIDE, RESULTING IN SIGNIFICANT PAIN, DISABILITY, AND IMPAIRED QUALITY OF LIFE. THE DIVERSE ETIOLOGY AND PATHOGENESIS OF OA CAN EXPLAIN THE PAUCITY OF VIABLE PREVENTIVE AND DISEASE-MODIFYING STRATEGIES TO COUNTER IT. ADVANCES IN GENOME-EDITING TECHNIQUES MAY IMPROVE DISEASE-MODIFYING SOLUTIONS BY ADDRESSING INHERITED PREDISPOSING RISK FACTORS AND THE ACTIVITY OF INFLAMMATORY MODULATORS. RECENT PROGRESS ON TECHNOLOGIES SUCH AS CRISPR/CAS9 AND CELL-BASED GENOME-EDITING THERAPIES TARGETING THE GENETIC AND EPIGENETIC ALTERNATIONS IN OA OFFER PROMISING AVENUES FOR EARLY DIAGNOSIS AND THE DEVELOPMENT OF PERSONALIZED THERAPIES. THE PURPOSE OF THIS LITERATURE REVIEW WAS TO CONCISELY SUMMARIZE THE GENOME-EDITING OPTIONS AGAINST CHRONIC DEGENERATIVE JOINT CONDITIONS SUCH AS OA WITH A FOCUS ON THE MORE RECENTLY EMERGING MODALITIES, ESPECIALLY CRISPR/CAS9. FUTURE ADVANCEMENTS IN NOVEL GENOME-EDITING THERAPIES MAY IMPROVE THE EFFICACY OF SUCH TARGETED TREATMENTS. 2020 15 5013 33 PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AS A THERAPEUTIC TARGET FOR HEPATIC FIBROSIS: FROM BENCH TO BEDSIDE. HEPATIC FIBROSIS IS A DYNAMIC CHRONIC LIVER DISEASE OCCURRING AS A CONSEQUENCE OF WOUND-HEALING RESPONSES TO VARIOUS HEPATIC INJURIES. THIS DISORDER IS ONE OF PRIMARY PREDICTORS FOR LIVER-ASSOCIATED MORBIDITY AND MORTALITY WORLDWIDE. TO DATE, NO PHARMACOLOGICAL AGENT HAS BEEN APPROVED FOR HEPATIC FIBROSIS OR COULD BE RECOMMENDED FOR ROUTINE USE IN CLINICAL CONTEXT. CELLULAR AND MOLECULAR UNDERSTANDING OF HEPATIC FIBROSIS HAS REVEALED THAT PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA (PPARGAMMA), THE FUNCTIONING RECEPTOR FOR ANTIDIABETIC THIAZOLIDINEDIONES, PLAYS A PIVOTAL ROLE IN THE PATHOBIOLOGY OF HEPATIC STELLATE CELLS (HSCS), WHOSE ACTIVATION IS THE CENTRAL EVENT IN THE PATHOGENESIS OF HEPATIC FIBROSIS. ACTIVATION OF PPARGAMMA INHIBITS HSC COLLAGEN PRODUCTION AND MODULATES HSC ADIPOGENIC PHENOTYPE AT TRANSCRIPTIONAL AND EPIGENETIC LEVELS. THESE MOLECULAR INSIGHTS INDICATE PPARGAMMA AS A PROMISING DRUG TARGET FOR ANTIFIBROTIC CHEMOTHERAPY. INTENSIVE ANIMAL STUDIES HAVE DEMONSTRATED THAT STIMULATION OF PPARGAMMA REGULATORY SYSTEM THROUGH GENE THERAPY APPROACHES AND PPARGAMMA LIGANDS HAS THERAPEUTIC PROMISE FOR HEPATIC FIBROSIS INDUCED BY A VARIETY OF ETIOLOGIES. AT THE SAME TIME, THIAZOLIDINEDIONE AGENTS HAVE BEEN INVESTIGATED FOR THEIR CLINICAL BENEFITS PRIMARILY IN PATIENTS WITH NONALCOHOLIC STEATOHEPATITIS, A COMMON METABOLIC LIVER DISORDER WITH HIGH POTENTIAL TO PROGRESS TO FIBROSIS AND LIVER-RELATED DEATH. ALTHOUGH SOME STUDIES HAVE SHOWN INITIAL PROMISE, NONE HAS ESTABLISHED LONG-TERM EFFICACY IN WELL-CONTROLLED RANDOMIZED CLINICAL TRIALS. THIS COMPREHENSIVE REVIEW COVERS THE 10-YEAR DISCOVERIES OF THE MOLECULAR BASIS FOR PPARGAMMA REGULATION OF HSC PATHOPHYSIOLOGY AND THEN FOCUSES ON THE ANIMAL INVESTIGATIONS AND CLINICAL TRIALS OF VARIOUS THERAPEUTIC MODALITIES TARGETING PPARGAMMA FOR HEPATIC FIBROSIS. 2013 16 357 40 ALTERNATIVE MODELS FOR TRANSGENERATIONAL EPIGENETIC INHERITANCE: MOLECULAR PSYCHIATRY BEYOND MICE AND MAN. MENTAL ILLNESS REMAINS THE GREATEST CHRONIC HEALTH BURDEN GLOBALLY WITH FEW IN-ROADS HAVING BEEN MADE DESPITE SIGNIFICANT ADVANCES IN GENOMIC KNOWLEDGE IN RECENT DECADES. THE FIELD OF PSYCHIATRY IS CONSTANTLY CHALLENGED TO BRING NEW APPROACHES AND TOOLS TO ADDRESS AND TREAT THE NEEDS OF VULNERABLE INDIVIDUALS AND SUBPOPULATIONS, AND THAT HAS TO BE SUPPORTED BY A CONTINUOUS GROWTH IN KNOWLEDGE. THE MAJORITY OF NEUROPSYCHIATRIC SYMPTOMS REFLECT COMPLEX GENE-ENVIRONMENT INTERACTIONS, WITH EPIGENETICS BRIDGING THE GAP BETWEEN GENETIC SUSCEPTIBILITY AND ENVIRONMENTAL STRESSORS THAT TRIGGER DISEASE ONSET AND DRIVE THE ADVANCEMENT OF SYMPTOMS. IT HAS MORE RECENTLY BEEN DEMONSTRATED IN PRECLINICAL MODELS THAT EPIGENETICS UNDERPINS THE TRANSGENERATIONAL INHERITANCE OF STRESS-RELATED BEHAVIOURAL PHENOTYPES IN BOTH PATERNAL AND MATERNAL LINEAGES, PROVIDING FURTHER SUPPORTING EVIDENCE FOR HERITABILITY IN HUMANS. HOWEVER, UNBIASED PROSPECTIVE STUDIES OF THIS NATURE ARE PRACTICALLY IMPOSSIBLE TO CONDUCT IN HUMANS SO PRECLINICAL MODELS REMAIN OUR BEST OPTION FOR RESEARCHING THE MOLECULAR PATHOPHYSIOLOGIES UNDERLYING MANY NEUROPSYCHIATRIC CONDITIONS. WHILE RODENTS WILL REMAIN THE DOMINANT MODEL SYSTEM FOR PRECLINICAL STUDIES (ESPECIALLY FOR ADDRESSING COMPLEX BEHAVIOURAL PHENOTYPES), THERE IS SCOPE TO EXPAND CURRENT RESEARCH OF THE MOLECULAR AND EPIGENETIC PATHOLOGIES BY USING INVERTEBRATE MODELS. HERE, WE WILL DISCUSS THE UTILITY AND ADVANTAGES OF TWO ALTERNATIVE MODEL ORGANISMS-CAENORHABDITIS ELEGANS AND DROSOPHILA MELANOGASTER-AND SUMMARISE THE COMPELLING INSIGHTS OF THE EPIGENETIC REGULATION OF TRANSGENERATIONAL INHERITANCE THAT ARE POTENTIALLY RELEVANT TO HUMAN PSYCHIATRY. 2021 17 554 38 AUTOPHAGY IN HUMAN HEALTH AND DISEASE: NOVEL THERAPEUTIC OPPORTUNITIES. SIGNIFICANCE: IN EUKARYOTES, AUTOPHAGY REPRESENTS A HIGHLY EVOLUTIONARY CONSERVED PROCESS, THROUGH WHICH MACROMOLECULES AND CYTOPLASMIC MATERIAL ARE DEGRADED INTO LYSOSOMES AND RECYCLED FOR BIOSYNTHETIC OR ENERGETIC PURPOSES. DYSFUNCTION OF THE AUTOPHAGIC PROCESS HAS BEEN ASSOCIATED WITH THE ONSET AND DEVELOPMENT OF MANY HUMAN CHRONIC PATHOLOGIES, SUCH AS CARDIOVASCULAR, METABOLIC, AND NEURODEGENERATIVE DISEASES AS WELL AS CANCER. RECENT ADVANCES: CURRENTLY, COMPREHENSIVE RESEARCH IS BEING CARRIED OUT TO DISCOVER NEW THERAPEUTIC AGENTS THAT ARE ABLE TO MODULATE THE AUTOPHAGIC PROCESS IN VIVO. RECENT EVIDENCE HAS SHOWN THAT A LARGE NUMBER OF NATURAL BIOACTIVE COMPOUNDS ARE INVOLVED IN THE REGULATION OF AUTOPHAGY BY MODULATING SEVERAL TRANSCRIPTIONAL FACTORS AND SIGNALING PATHWAYS. CRITICAL ISSUES: CRITICAL ISSUES THAT DESERVE PARTICULAR ATTENTION ARE THE INADEQUATE UNDERSTANDING OF THE COMPLEX ROLE OF AUTOPHAGY IN DISEASE PATHOGENESIS, THE LIMITED AVAILABILITY OF THERAPEUTIC DRUGS, AND THE LACK OF CLINICAL TRIALS. IN THIS CONTEXT, THE EFFECTS THAT NATURAL BIOACTIVE COMPOUNDS EXERT ON AUTOPHAGIC MODULATION SHOULD BE CLEARLY HIGHLIGHTED, SINCE THEY DEPEND ON THE TYPE AND STAGE OF THE PATHOLOGICAL CONDITIONS OF DISEASES. FUTURE DIRECTIONS: RESEARCH EFFORTS SHOULD NOW FOCUS ON UNDERSTANDING THE SURVIVAL-SUPPORTING AND DEATH-PROMOTING ROLES OF AUTOPHAGY, HOW NATURAL COMPOUNDS INTERACT EXACTLY WITH THE AUTOPHAGIC TARGETS SO AS TO INDUCE OR INHIBIT AUTOPHAGY AND ON THE EVALUATION OF THEIR PHARMACOLOGICAL EFFECTS IN A MORE IN-DEPTH AND MECHANISTIC WAY. IN ADDITION, CLINICAL STUDIES ON AUTOPHAGY-INDUCING NATURAL PRODUCTS ARE STRONGLY ENCOURAGED, ALSO TO HIGHLIGHT SOME FUNDAMENTAL ASPECTS, SUCH AS THE DOSE, THE DURATION, AND THE POSSIBLE SYNERGISTIC ACTION OF THESE COMPOUNDS WITH CONVENTIONAL THERAPY. 2019 18 1291 22 DECODING THE ROLE OF EPIGENETICS AND GENOMICS IN PAIN MANAGEMENT. PERSISTENT PAIN IS A COSTLY EPIDEMIC, AFFECTING >50 MILLION AMERICANS WITH ESTIMATED EXPENDITURES OF >$200 BILLION ANNUALLY FOR DIRECT CARE AND LOST PRODUCTIVITY. RECENT ADVANCES IN EPIGENETIC/GENOMIC UNDERSTANDING OF PAIN AND ANALGESIC RESPONSE MAY LEAD TO IMPROVEMENTS IN PAIN MANAGEMENT AND HELP CURTAIL COSTS BY PROVIDING MORE PRECISE DETECTION OF THE PAIN MECHANISMS INVOLVED AND THEREBY MORE PERSONALIZED AND EFFECTIVE TREATMENTS. HOWEVER, THE TRANSLATION OF EPIGENETIC AND GENOMIC STRATEGIES FOR PAIN MANAGEMENT INTO CLINICAL PRACTICE WILL DEPEND ON UNDERSTANDING THEIR POTENTIAL APPLICATIONS. THE PURPOSE OF THIS ARTICLE IS TO EXAMINE CURRENT KNOWLEDGE ABOUT EPIGENETIC AND GENOMIC MECHANISMS OF PERSISTENT PAIN AND POTENTIAL OPPORTUNITIES FOR IMPROVING PAIN MANAGEMENT. THE INITIAL DISCUSSION FOCUSES ON PRESENT UNDERSTANDING OF NOCICEPTIVE PATHWAYS AND ALTERATIONS THAT LEAD TO PATHOLOGIC PAIN. THE DISCUSSION THEN MOVES TO A REVIEW OF EPIGENETIC MECHANISMS THAT HAVE BEEN IDENTIFIED IN THE TRANSITION TO AND MAINTENANCE OF PERSISTENT PAIN AS WELL AS IN THE INDIVIDUAL'S RESPONSE TO ANALGESICS. POTENTIAL APPLICATIONS OF EPIGENETICS/GENOMICS TO IDENTIFY PEOPLE AT RISK AND POSSIBLY PREVENT PERSISTENT PAIN AND GUIDE DIAGNOSIS AND THE SELECTION OF THERAPEUTIC MODALITIES ARE PRESENTED. 2013 19 6061 29 THE DEVELOPMENT PROSPECTION OF HDAC INHIBITORS AS A POTENTIAL THERAPEUTIC DIRECTION IN ALZHEIMER'S DISEASE. ALZHEIMER'S DISEASE (AD) IS A CHRONIC NEURODEGENERATIVE DISEASE, WHICH IS ASSOCIATED WITH LEARNING AND MEMORY IMPAIRMENT IN THE ELDERLY. RECENT STUDIES HAVE FOUND THAT TREATING AD IN THE WAY OF CHROMATIN REMODELING VIA HISTONE ACETYLATION IS A PROMISING THERAPEUTIC REGIMEN. IN A NUMBER OF RECENT STUDIES, INHIBITORS OF HISTONE DEACETYLASE (HDACS) HAVE BEEN FOUND TO BE A NOVEL PROMISING THERAPEUTIC AGENTS FOR NEUROLOGICAL DISORDERS, PARTICULARLY FOR AD AND OTHER NEURODEGENERATIVE DISEASES. ALTHOUGH HDAC INHIBITORS HAVE THE ABILITY TO AMELIORATE COGNITIVE IMPAIRMENT, SUCCESSFUL TREATMENTS IN THE CLASSIC AD ANIMAL MODEL ARE RARELY TRANSLATED INTO CLINICAL TRIALS. AS FOR THE REDUCTION OF UNWANTED SIDE EFFECTS, THE DEVELOPMENT OF HDAC INHIBITORS WITH INCREASED ISOFORM SELECTIVITY OR SEEKING OTHER DIRECTIONS IS A KEY ISSUE THAT NEEDS TO BE ADDRESSED. THE REVIEW FOCUSED ON LITERATURES ON EPIGENETIC MECHANISMS IN RECENT YEARS, ESPECIALLY ON HISTONE ACETYLATION IN TERMS OF THE ENHANCEMENT OF SPECIFICITY, EFFICACY AND AVOIDING SIDE EFFECTS FOR TREATING AD. 2017 20 5950 28 TARGETING THE PROGRESSION OF CHRONIC KIDNEY DISEASE. CHRONIC KIDNEY DISEASE (CKD) IS A DEVASTATING CONDITION THAT IS REACHING EPIDEMIC LEVELS OWING TO THE INCREASING PREVALENCE OF DIABETES MELLITUS, HYPERTENSION AND OBESITY, AS WELL AS AGEING OF THE POPULATION. REGARDLESS OF THE UNDERLYING AETIOLOGY, CKD IS SLOWLY PROGRESSIVE AND LEADS TO IRREVERSIBLE NEPHRON LOSS, END-STAGE RENAL DISEASE AND/OR PREMATURE DEATH. FACTORS THAT CONTRIBUTE TO CKD PROGRESSION INCLUDE PARENCHYMAL CELL LOSS, CHRONIC INFLAMMATION, FIBROSIS AND REDUCED REGENERATIVE CAPACITY OF THE KIDNEY. CURRENT THERAPIES HAVE LIMITED EFFECTIVENESS AND ONLY DELAY DISEASE PROGRESSION, UNDERSCORING THE NEED TO DEVELOP NOVEL THERAPEUTIC APPROACHES TO EITHER STOP OR REVERSE PROGRESSION. PRECLINICAL STUDIES HAVE IDENTIFIED SEVERAL APPROACHES THAT REDUCE FIBROSIS IN EXPERIMENTAL MODELS, INCLUDING TARGETING CYTOKINES, TRANSCRIPTION FACTORS, DEVELOPMENTAL AND SIGNALLING PATHWAYS AND EPIGENETIC MODULATORS, PARTICULARLY MICRORNAS. SOME OF THESE NEPHROPROTECTIVE STRATEGIES ARE NOW BEING TESTED IN CLINICAL TRIALS. LESSONS LEARNED FROM THE FAILURE OF CLINICAL STUDIES OF TRANSFORMING GROWTH FACTOR BETA1 (TGFBETA1) BLOCKADE UNDERSCORE THE NEED FOR ALTERNATIVE APPROACHES TO CKD THERAPY, AS STRATEGIES THAT TARGET A SINGLE PATHOGENIC PROCESS MAY RESULT IN UNEXPECTED NEGATIVE EFFECTS ON SIMULTANEOUSLY OCCURRING PROCESSES. ADDITIONAL PROMISING AVENUES INCLUDE PREVENTING TUBULAR CELL INJURY AND ANTI-FIBROTIC THERAPIES THAT TARGET ACTIVATED MYOFIBROBLASTS, THE MAIN COLLAGEN-PRODUCING CELLS. 2020