1 5392 144 REDOXISOME AND DIABETIC RETINOPATHY: PATHOPHYSIOLOGY AND THERAPEUTIC INTERVENTIONS. DIABETIC RETINOPATHY (DR) IS A CHRONIC MICROVASCULAR COMPLICATION OF DIABETES MELLITUS (DM). IT IS A WORLDWIDE GROWING EPIDEMIC DISEASE CONSIDERED TO BE THE LEADING CAUSE OF VISION-LOSS AND BLINDNESS IN PEOPLE WITH DM. REDOX REACTIONS OCCURRING AT THE EXTRA- AND INTRACELLULAR LEVELS ARE ESSENTIAL FOR THE MAINTENANCE OF CELLULAR HOMEOSTASIS. DYSREGULATION OF REDOX HOMEOSTASIS ARE IMPLICATED IN THE ONSET AND DEVELOPMENT OF DR. THIOREDOXIN1 (TRX1) AND THIOREDOXIN2 (TRX2) ARE CYTOPLASMIC AND MITOCHONDRIALLY LOCALIZED ANTIOXIDANT PROTEINS UBIQUITOUSLY EXPRESSED IN VARIOUS CELLS AND CONTROL CELLULAR REACTIVE OXYGEN SPECIES (ROS) BY REDUCING THE DISULFIDES INTO THIOL GROUPS. THIOREDOXIN-INTERACTING PROTEIN (TXNIP) BINDS TO TRX SYSTEM AND INHIBITS THE ACTIVE REDUCED FORM OF TRX THROUGH DISULFIDE EXCHANGE REACTION. RECENT STUDIES INDICATE THE ASSOCIATION OF TRX/TXNIP WITH REDOX SIGNAL TRANSDUCTION PATHWAYS INCLUDING ACTIVATION OF NOD-LIKE RECEPTOR PYRIN DOMAIN CONTAINING PROTEIN-3 (NLRP3) INFLAMMASOME, APOPTOSIS, AUTOPHAGY/MITOPHAGY, EPIGENETIC MODIFICATIONS IN A REDOX-DEPENDENT MANNER. THUS, IT IS IMPORTANT TO GAIN A MORE IN-DEPTH UNDERSTANDING ABOUT THE CELLULAR AND MOLECULAR MECHANISMS THAT LINKS REDOXISOME AND ER/MITOCHONDRIAL DYSFUNCTION TO DRIVE THE PROGRESSION OF DR. THE PURPOSE OF THIS REVIEW IS TO PROVIDE A MECHANISTIC UNDERSTANDING OF THE COMPLEX MOLECULAR MECHANISMS AND PATHOPHYSIOLOGICAL ROLES ASSOCIATED WITH REDOXISOME, THE TRX/TXNIP REDOX SIGNALING COMPLEX UNDER OXIDATIVE STRESS IN THE DEVELOPMENT OF DR. ALSO, THE MOLECULAR TARGETS OF FDA APPROVED DRUGS AND CLINICAL TRIALS IN ADDITION TO EFFECTIVE ANTIOXIDANT STRATEGIES FOR THE TREATMENT OF DIABETIC RETINOPATHY ARE REVIEWED. 2022 2 4654 31 NEUROSTEROIDS (ALLOPREGNANOLONE) AND ALCOHOL USE DISORDER: FROM MECHANISMS TO POTENTIAL PHARMACOTHERAPY. ALCOHOL USE DISORDER (AUD) IS A MULTIFACETED RELAPSING DISORDER THAT IS COMMONLY COMORBID WITH PSYCHIATRIC DISORDERS, INCLUDING ANXIETY. ALCOHOL EXPOSURE PRODUCES A PLETHORA OF EFFECTS ON NEUROBIOLOGY. CURRENTLY, THERAPEUTIC STRATEGIES ARE LIMITED, AND ONLY A FEW TREATMENTS - DISULFIRAM, ACAMPROSATE, AND NALTREXONE - ARE AVAILABLE. GIVEN THE COMPLEXITY OF THIS DISORDER, THERE IS A GREAT NEED FOR THE IDENTIFICATION OF NOVEL TARGETS TO DEVELOP NEW PHARMACOTHERAPY. THE GABAERGIC SYSTEM, THE PRIMARY INHIBITORY SYSTEM IN THE BRAIN, IS ONE OF THE WELL-KNOWN TARGETS FOR ALCOHOL AND IS RESPONSIBLE FOR THE ANXIOLYTIC EFFECTS OF ALCOHOL. INTERESTINGLY, GABAERGIC NEUROTRANSMISSION IS FINE-TUNED BY NEUROACTIVE STEROIDS THAT EXERT A REGULATORY ROLE ON SEVERAL ENDOCRINE SYSTEMS INVOLVED IN NEUROPSYCHIATRIC DISORDERS INCLUDING AUD. MOUNTING EVIDENCE INDICATES THAT ALCOHOL ALTERS THE BIOSYNTHESIS OF NEUROSTEROIDS, WHEREAS ACUTE ALCOHOL INCREASES AND CHRONIC ALCOHOL DECREASES ALLOPREGNANOLONE LEVELS. OUR RECENT WORK HIGHLIGHTED THAT CHRONIC ALCOHOL-INDUCED CHANGES IN NEUROSTEROID LEVELS ARE MEDIATED BY EPIGENETIC MODIFICATIONS, E.G., DNA METHYLATION, AFFECTING KEY ENZYMES INVOLVED IN NEUROSTEROID BIOSYNTHESIS. THESE CHANGES WERE ASSOCIATED WITH CHANGES IN GABA(A) RECEPTOR SUBUNIT EXPRESSION, SUGGESTING AN IMBALANCE BETWEEN EXCITATORY AND INHIBITORY SIGNALING IN AUD. THIS REVIEW WILL RECAPITULATE THE ROLE OF NEUROSTEROIDS IN THE REGULATION OF THE NEUROENDOCRINE SYSTEM, HIGHLIGHT THEIR ROLE IN THE OBSERVED ALLOSTATIC LOAD IN AUD, AND DEVELOP A FRAMEWORK FROM MECHANISMS TO POTENTIAL PHARMACOTHERAPY. 2022 3 6352 27 THE ROLE OF GABA(A) RECEPTORS IN THE DEVELOPMENT OF ALCOHOLISM. ALCOHOLISM IS A COMMON, HERITABLE, CHRONIC RELAPSING DISORDER. GABA(A) RECEPTORS UNDERGO ALLOSTERIC MODULATION BY ETHANOL, ANESTHETICS, BENZODIAZEPINES AND NEUROSTEROIDS AND HAVE BEEN IMPLICATED IN THE ACUTE AS WELL AS THE CHRONIC EFFECTS OF ETHANOL INCLUDING TOLERANCE, DEPENDENCE AND WITHDRAWAL. MEDICATIONS TARGETING GABA(A) RECEPTORS AMELIORATE THE SYMPTOMS OF ACUTE WITHDRAWAL. ETHANOL INDUCES PLASTICITY IN GABA(A) RECEPTORS: TOLERANCE IS ASSOCIATED WITH GENERALLY DECREASED GABA(A) RECEPTOR ACTIVATION AND DIFFERENTIALLY ALTERED SUBUNIT EXPRESSION. THE DOPAMINE (DA) MESOLIMBIC REWARD PATHWAY ORIGINATING IN THE VENTRAL TEGMENTAL AREA (VTA), AND INTERACTING STRESS CIRCUITRY PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF ADDICTION. VTA GABAERGIC INTERNEURONS ARE THE PRIMARY INHIBITORY REGULATORS OF DA NEURONS AND A SUBSET OF VTA GABA(A) RECEPTORS MAY BE IMPLICATED IN THE SWITCH FROM HEAVY DRINKING TO DEPENDENCE. GABA(A) RECEPTORS MODULATE ANXIETY AND RESPONSE TO STRESS; IMPORTANT ELEMENTS OF SUSTAINED DRINKING AND RELAPSE. THE GABA(A) RECEPTOR SUBUNIT GENES CLUSTERED ON CHROMOSOME 4 ARE HIGHLY EXPRESSED IN THE REWARD PATHWAY. SEVERAL RECENT STUDIES HAVE PROVIDED STRONG EVIDENCE THAT ONE OF THESE GENES, GABRA2, IS IMPLICATED IN ALCOHOLISM IN HUMANS. THE INFLUENCE OF THE INTERACTION BETWEEN ETHANOL AND GABA(A) RECEPTORS IN THE REWARD PATHWAY ON THE DEVELOPMENT OF ALCOHOLISM TOGETHER WITH GENETIC AND EPIGENETIC VULNERABILITIES WILL BE EXPLORED IN THIS REVIEW. 2008 4 6453 40 THIOREDOXIN INTERACTING PROTEIN (TXNIP) INDUCES INFLAMMATION THROUGH CHROMATIN MODIFICATION IN RETINAL CAPILLARY ENDOTHELIAL CELLS UNDER DIABETIC CONDITIONS. CHRONIC HYPERGLYCEMIA AND ACTIVATION OF RECEPTOR FOR ADVANCED GLYCATION END PRODUCTS (RAGE) ARE KNOWN RISK FACTORS FOR MICROVASCULAR DISEASE DEVELOPMENT IN DIABETIC RETINOPATHY. THIOREDOXIN-INTERACTING PROTEIN (TXNIP), AN ENDOGENOUS INHIBITOR OF ANTIOXIDANT THIOREDOXIN (TRX), PLAYS A CAUSATIVE ROLE IN DIABETES AND ITS VASCULAR COMPLICATIONS. HEREIN WE INVESTIGATE WHETHER HG AND RAGE INDUCE INFLAMMATION IN RAT RETINAL ENDOTHELIAL CELLS (EC) UNDER DIABETIC CONDITIONS IN CULTURE THROUGH TXNIP ACTIVATION AND WHETHER EPIGENETIC MECHANISMS PLAY A ROLE IN INFLAMMATORY GENE EXPRESSION. WE SHOW THAT RAGE ACTIVATION BY ITS LIGAND S100B OR HG TREATMENT OF RETINAL EC INDUCES THE EXPRESSION OF TXNIP AND INFLAMMATORY GENES SUCH AS COX2, VEGF-A, AND ICAM1. TXNIP SILENCING BY SIRNA IMPEDES RAGE AND HG EFFECTS WHILE STABLE OVER-EXPRESSION OF A CDNA FOR HUMAN TXNIP IN EC ELEVATES INFLAMMATION. P38 MAPK-NF-KAPPAB SIGNALING PATHWAY AND HISTONE H3 LYSINE (K) NINE MODIFICATIONS ARE INVOLVED IN TXNIP-INDUCED INFLAMMATION. CHROMATIN IMMUNOPRECIPITATION (CHIP) ASSAYS REVEAL THAT TXNIP OVER-EXPRESSION IN EC ABOLISHES H3K9 TRI-METHYLATION, A MARKER FOR GENE INACTIVATION, AND INCREASES H3K9 ACETYLATION, AN INDICATOR OF GENE INDUCTION, AT PROXIMAL COX2 PROMOTER BEARING THE NF-KAPPAB-BINDING SITE. THESE FINDINGS HAVE IMPORTANT IMPLICATIONS TOWARD UNDERSTANDING THE MOLECULAR MECHANISMS OF OCULAR INFLAMMATION AND ENDOTHELIAL DYSFUNCTION IN DIABETIC RETINOPATHY. 2009 5 6403 33 THE ROLES OF INDUCIBLE CHROMATIN AND TRANSCRIPTIONAL MEMORY IN CELLULAR DEFENSE SYSTEM RESPONSES TO REDOX-ACTIVE POLLUTANTS. PEOPLE ARE EXPOSED TO WIDE RANGE OF REDOX-ACTIVE ENVIRONMENTAL POLLUTANTS. AIR POLLUTION, HEAVY METALS, PESTICIDES, AND ENDOCRINE DISRUPTING CHEMICALS CAN DISRUPT CELLULAR REDOX STATUS. REDOX-ACTIVE POLLUTANTS IN OUR ENVIRONMENT ALL TRIGGER THEIR OWN SETS OF SPECIFIC CELLULAR RESPONSES, BUT THEY ALSO ACTIVATE A COMMON SET OF GENERAL STRESS RESPONSES THAT BUFFER THE CELL AGAINST HOMEOSTATIC INSULTS. THESE CELLULAR DEFENSE SYSTEM (CDS) PATHWAYS INCLUDE THE HEAT SHOCK RESPONSE, THE OXIDATIVE STRESS RESPONSE, THE HYPOXIA RESPONSE, THE UNFOLDED PROTEIN RESPONSE, THE DNA DAMAGE RESPONSE, AND THE GENERAL STRESS RESPONSE MEDIATED BY THE STRESS-ACTIVATED P38 MITOGEN-ACTIVATED PROTEIN KINASE. OVER THE PAST TWO DECADES, THE FIELD OF ENVIRONMENTAL EPIGENETICS HAS INVESTIGATED EPIGENETIC RESPONSES TO ENVIRONMENTAL POLLUTANTS, INCLUDING REDOX-ACTIVE POLLUTANTS. STUDIES OF THESE RESPONSES HIGHLIGHT THE ROLE OF CHROMATIN MODIFICATIONS IN CONTROLLING THE TRANSCRIPTIONAL RESPONSE TO POLLUTANTS AND THE ROLE OF TRANSCRIPTIONAL MEMORY, OFTEN REFERRED TO AS "EPIGENETIC REPROGRAMMING", IN PREDISPOSING PREVIOUSLY EXPOSED INDIVIDUALS TO MORE POTENT TRANSCRIPTIONAL RESPONSES ON SECONDARY CHALLENGE. MY CENTRAL THESIS IN THIS REVIEW IS THAT HIGH DOSE OR CHRONIC EXPOSURE TO REDOX-ACTIVE POLLUTANTS LEADS TO TRANSCRIPTIONAL MEMORIES AT CDS TARGET GENES THAT INFLUENCE THE CELL'S ABILITY TO MOUNT PROTECTIVE RESPONSES. TO SUPPORT THIS THESIS, I WILL: (1) SUMMARIZE THE KNOWN CHROMATIN FEATURES REQUIRED FOR INDUCIBLE GENE ACTIVATION; (2) REVIEW THE KNOWN FORMS OF TRANSCRIPTIONAL MEMORY; (3) DISCUSS THE ROLES OF INDUCIBLE CHROMATIN AND TRANSCRIPTIONAL MEMORY IN CDS RESPONSES THAT ARE ACTIVATED BY REDOX-ACTIVE ENVIRONMENTAL POLLUTANTS; AND (4) PROPOSE A CONCEPTUAL FRAMEWORK FOR CDS PATHWAY RESPONSIVENESS AS A READOUT OF TOTAL CELLULAR EXPOSURE TO REDOX-ACTIVE POLLUTANTS. 2021 6 6441 34 THERAPEUTIC APPROACHES FOR NONALCOHOLIC FATTY LIVER DISEASE: ESTABLISHED TARGETS AND DRUGS. NONALCOHOLIC FATTY LIVER DISEASE (NAFLD), AS A MULTISYSTEMIC DISEASE, IS THE MOST PREVALENT CHRONIC LIVER DISEASE CHARACTERIZED BY EXTREMELY COMPLEX PATHOGENIC MECHANISMS AND MULTIFACTORIAL ETIOLOGY, WHICH OFTEN DEVELOPS AS A CONSEQUENCE OF OBESITY, METABOLIC SYNDROME. PATHOPHYSIOLOGICAL MECHANISMS INVOLVED IN THE DEVELOPMENT OF NAFLD INCLUDE DIET, OBESITY, INSULIN RESISTANCE (IR), GENETIC AND EPIGENETIC DETERMINANTS, INTESTINAL DYSBIOSIS, OXIDATIVE/NITROSATIVE STRESS, AUTOPHAGY DYSREGULATION, HEPATIC INFLAMMATION, GUT-LIVER AXIS, GUT MICROBES, IMPAIRED MITOCHONDRIAL METABOLISM AND REGULATION OF HEPATIC LIPID METABOLISM. SOME OF THE NEW DRUGS FOR THE TREATMENT OF NAFLD ARE INTRODUCED HERE. ALL OF THEM ACHIEVE THERAPEUTIC OBJECTIVES BY INTERFERING WITH CERTAIN PATHOPHYSIOLOGICAL PATHWAYS OF NAFLD, INCLUDING FIBROBLAST GROWTH FACTORS (FGF) ANALOGUES, PEROXISOME PROLIFERATOR-ACTIVATED RECEPTORS (PPARS) AGONISTS, GLUCAGON-LIKE PEPTIDE-1 (GLP-1) AGONISTS, G PROTEIN-COUPLED RECEPTORS (GPCRS), SODIUM-GLUCOSE COTRANSPORTER-2 INHIBITORS (SGLT-2I), FARNESOID X RECEPTOR (FXR), FATTY ACID SYNTHASE INHIBITOR (FASNI), ANTIOXIDANTS, ETC. THIS REVIEW DESCRIBES SOME PATHOPHYSIOLOGICAL MECHANISMS OF NAFLD AND ESTABLISHED TARGETS AND DRUGS. 2023 7 5580 41 ROLE OF NEUROTOXICANTS IN THE PATHOGENESIS OF ALZHEIMER'S DISEASE: A MECHANISTIC INSIGHT. ALZHEIMER'S DISEASE (AD) IS THE MOST CONSPICUOUS CHRONIC NEURODEGENERATIVE SYNDROME, WHICH HAS BECOME A SIGNIFICANT CHALLENGE FOR THE GLOBAL HEALTHCARE SYSTEM. MULTIPLE STUDIES HAVE CORROBORATED A CLEAR ASSOCIATION OF NEUROTOXICANTS WITH AD PATHOGENICITY, SUCH AS AMYLOID BETA (ABETA) PROTEINS AND NEUROFIBRILLARY TANGLES (NFTS), SIGNALLING PATHWAY MODIFICATIONS, CELLULAR STRESS, COGNITIVE DYSFUNCTIONS, NEURONAL APOPTOSIS, NEUROINFLAMMATION, EPIGENETIC MODIFICATION, AND SO ON. THIS REVIEW, THEREFORE, AIMED TO ADDRESS SEVERAL ESSENTIAL MECHANISMS AND SIGNALLING CASCADES, INCLUDING WNT (WINGLESS AND INT.) SIGNALLING PATHWAY, AUTOPHAGY, MAMMALIAN TARGET OF RAPAMYCIN (MTOR), PROTEIN KINASE C (PKC) SIGNALLING CASCADES, CELLULAR REDOX STATUS, ENERGY METABOLISM, GLUTAMATERGIC NEUROTRANSMISSIONS, IMMUNE CELL STIMULATIONS (E.G. MICROGLIA, ASTROCYTES) AS WELL AS AN AMYLOID PRECURSOR PROTEIN (APP), PRESENILIN-1 (PSEN1), PRESENILIN-2 (PSEN2) AND OTHER AD-RELATED GENE EXPRESSIONS THAT HAVE BEEN PRETENTIOUS AND MODULATED BY THE VARIOUS NEUROTOXICANTS. THIS REVIEW CONCLUDED THAT NEUROTOXICANTS PLAY A MOMENTOUS ROLE IN DEVELOPING AD THROUGH MODULATING VARIOUS SIGNALLING CASCADES. NEVERTHELESS, COMPREHENSION OF THIS RISK AGENT-INDUCED NEUROTOXICITY IS FAR TOO LITTLE. MORE IN-DEPTH EPIDEMIOLOGICAL AND SYSTEMATIC INVESTIGATIONS ARE NEEDED TO UNDERSTAND THE POTENTIAL MECHANISMS BETTER TO ADDRESS THESE NEUROTOXICANTS AND IMPROVE APPROACHES TO THEIR RISK EXPOSURE THAT AID IN AD PATHOGENESIS.KEY MESSAGESINEVITABLE CASCADE MECHANISMS OF HOW ALZHEIMER'S DISEASE-RELATED (AD-RELATED) GENE EXPRESSIONS ARE MODULATED BY NEUROTOXICANTS HAVE BEEN DISCUSSED.INVOLVEMENT OF THE NEUROTOXICANTS-INDUCED PATHWAYS CAUSED AN EXTENDED RISK OF AD IS EXPLICITED.INTEGRATION OF CELL CULTURE, ANIMALS AND POPULATION-BASED ANALYSIS ON THE CLINICAL SEVERITY OF AD IS ADDRESSED. 2021 8 4136 42 MECHANISMS OF MANGANESE-INDUCED NEUROTOXICITY AND THE PURSUIT OF NEUROTHERAPEUTIC STRATEGIES. CHRONIC EXPOSURE TO ELEVATED LEVELS OF MANGANESE VIA OCCUPATIONAL OR ENVIRONMENTAL SETTINGS CAUSES A NEUROLOGICAL DISORDER KNOWN AS MANGANISM, RESEMBLING THE SYMPTOMS OF PARKINSON'S DISEASE, SUCH AS MOTOR DEFICITS AND COGNITIVE IMPAIRMENT. NUMEROUS STUDIES HAVE BEEN CONDUCTED TO CHARACTERIZE MANGANESE'S NEUROTOXICITY MECHANISMS IN SEARCH OF EFFECTIVE THERAPEUTICS, INCLUDING NATURAL AND SYNTHETIC COMPOUNDS TO TREAT MANGANESE TOXICITY. SEVERAL POTENTIAL MOLECULAR TARGETS OF MANGANESE TOXICITY AT THE EPIGENETIC AND TRANSCRIPTIONAL LEVELS HAVE BEEN IDENTIFIED RECENTLY, WHICH MAY CONTRIBUTE TO DEVELOP MORE PRECISE AND EFFECTIVE GENE THERAPIES. THIS REVIEW UPDATES FINDINGS ON MANGANESE-INDUCED NEUROTOXICITY MECHANISMS ON INTRACELLULAR INSULTS SUCH AS OXIDATIVE STRESS, INFLAMMATION, EXCITOTOXICITY, AND MITOPHAGY, AS WELL AS TRANSCRIPTIONAL DYSREGULATIONS INVOLVING YIN YANG 1, RE1-SILENCING TRANSCRIPTION FACTOR, TRANSCRIPTION FACTOR EB, AND NUCLEAR FACTOR ERYTHROID 2-RELATED FACTOR 2 THAT COULD BE TARGETS OF MANGANESE NEUROTOXICITY THERAPIES. THIS REVIEW ALSO FEATURES INTRACELLULAR PROTEINS SUCH AS PTEN-INDUCIBLE KINASE 1, PARKIN, SIRTUINS, LEUCINE-RICH REPEAT KINASE 2, AND ALPHA-SYNUCLEIN, WHICH ARE ASSOCIATED WITH MANGANESE-INDUCED DYSREGULATION OF AUTOPHAGY/MITOPHAGY. IN ADDITION, NEWER THERAPEUTIC APPROACHES TO TREAT MANGANESE'S NEUROTOXICITY INCLUDING NATURAL AND SYNTHETIC COMPOUNDS MODULATING EXCITOTOXICITY, AUTOPHAGY, AND MITOPHAGY, WERE REVIEWED. TAKEN TOGETHER, IN-DEPTH MECHANISTIC KNOWLEDGE ACCOMPANIED BY ADVANCES IN GENE AND DRUG DELIVERY STRATEGIES WILL MAKE SIGNIFICANT PROGRESS IN THE DEVELOPMENT OF RELIABLE THERAPEUTIC INTERVENTIONS AGAINST MANGANESE-INDUCED NEUROTOXICITY. 2022 9 1032 41 CISPLATIN NEPHROTOXICITY: NEW INSIGHTS AND THERAPEUTIC IMPLICATIONS. CISPLATIN IS AN EFFECTIVE CHEMOTHERAPEUTIC AGENT FOR VARIOUS SOLID TUMOURS, BUT ITS USE IS LIMITED BY ADVERSE EFFECTS IN NORMAL TISSUES. IN PARTICULAR, CISPLATIN IS NEPHROTOXIC AND CAN CAUSE ACUTE KIDNEY INJURY AND CHRONIC KIDNEY DISEASE. PRECLINICAL STUDIES HAVE PROVIDED INSIGHTS INTO THE CELLULAR AND MOLECULAR MECHANISMS OF CISPLATIN NEPHROTOXICITY, WHICH INVOLVE INTRACELLULAR STRESSES INCLUDING DNA DAMAGE, MITOCHONDRIAL PATHOLOGY, OXIDATIVE STRESS AND ENDOPLASMIC RETICULUM STRESS. STRESS RESPONSES, INCLUDING AUTOPHAGY, CELL-CYCLE ARREST, SENESCENCE, APOPTOSIS, PROGRAMMED NECROSIS AND INFLAMMATION HAVE KEY ROLES IN THE PATHOGENESIS OF CISPLATIN NEPHROTOXICITY. IN ADDITION, EMERGING EVIDENCE SUGGESTS A CONTRIBUTION OF EPIGENETIC CHANGES TO CISPLATIN-INDUCED ACUTE KIDNEY INJURY AND CHRONIC KIDNEY DISEASE. FURTHER RESEARCH IS NEEDED TO DETERMINE HOW THESE PATHWAYS ARE INTEGRATED AND TO IDENTIFY THE CELL TYPE-SPECIFIC ROLES OF CRITICAL MOLECULES INVOLVED IN REGULATED NECROSIS, INFLAMMATION AND EPIGENETIC MODIFICATIONS IN CISPLATIN NEPHROTOXICITY. A NUMBER OF POTENTIAL THERAPEUTIC TARGETS FOR CISPLATIN NEPHROTOXICITY HAVE BEEN IDENTIFIED. HOWEVER, THE EFFECTS OF RENOPROTECTIVE STRATEGIES ON THE EFFICACY OF CISPLATIN CHEMOTHERAPY NEEDS TO BE THOROUGHLY EVALUATED. FURTHER RESEARCH USING TUMOUR-BEARING ANIMALS, MULTI-OMICS AND GENOME-WIDE ASSOCIATION STUDIES WILL ENABLE A COMPREHENSIVE UNDERSTANDING OF THE COMPLEX CELLULAR AND MOLECULAR MECHANISMS OF CISPLATIN NEPHROTOXICITY AND POTENTIALLY LEAD TO THE IDENTIFICATION OF SPECIFIC TARGETS TO PROTECT THE KIDNEY WITHOUT COMPROMISING THE CHEMOTHERAPEUTIC EFFICACY OF CISPLATIN. 2023 10 1091 31 COGNITIVE ENHANCERS AS A TREATMENT FOR HEROIN RELAPSE AND ADDICTION. HEROIN ADDICTION IS A DISORDER THAT STEMS FROM MALADAPTIVE PLASTICITY WITHIN NEURAL CIRCUITS AND PRODUCES BROAD COGNITIVE DEFICITS. DESPITE CONSIDERABLE ADVANCES IN PSYCHOTHERAPY AND PHARMACOTHERAPY FOR HEROIN RELAPSE AND ADDICTION, EFFECTIVE TREATMENTS FOR HEROIN USE DISORDER ARE STILL LACKING. INCREASING PRECLINICAL EVIDENCE INDICATES THAT HEROIN SEEKING BEHAVIOR IS PERSISTENT AFTER WITHDRAWAL, WHILE COGNITIVE DYSFUNCTIONS ASSOCIATED WITH CHRONIC HEROIN USE ARE AN IMPORTANT CONTRIBUTING FACTOR TO RISK OF HEROIN RELAPSE AND ADDICTION. COGNITIVE ENHANCERS MAY BE USED TO STIMULATE TREATMENT SUCCESS AND ENHANCE TREATMENT EFFICACY. THE PURPOSE OF THIS REVIEW IS TO OUTLINE THE LITERATURE THAT DEMONSTRATES THE COGNITIVE DEFICITS DURING THE DEVELOPMENT OF HEROIN ADDICTION AND WITHDRAWAL PROCESS, AND SEVERAL FACTORS THAT UNDERLINE THE EFFICACY OF COGNITIVE ENHANCERS FOR HEROIN USE DISORDERS. THE REVIEW, THEN, EXAMINES THE POTENTIAL USE AND PHARMACOLOGICAL MECHANISMS OF COGNITIVE ENHANCERS THAT ACT ON CHOLINERGIC, GLUTAMATERGIC, DOPAMINERGIC OR ADRENERGIC PATHWAYS. IT ALSO EXAMINES THE EFFECTS OF COMPOUNDS THAT ALTER CREB SIGNALING AND EPIGENETIC MECHANISMS IN ANIMAL MODEL OF HEROIN RELAPSE. THE CURRENT BODY OF RESEARCH REVEALS THE NEW INSIGHTS INTO THE PHARMACOLOGICAL MECHANISMS UNDERLYING HEROIN ADDICTION AND HOLDS A SIGNIFICANT PROMISE FOR COGNITIVE ENHANCERS AS AN IMPROVED APPROACH TO TREAT HEROIN USE DISORDER IN A MORE EFFICIENT AND PERSISTENT WAY. 2019 11 2210 35 EPIGENETIC MODIFICATIONS AND POTENTIAL NEW TREATMENT TARGETS IN DIABETIC RETINOPATHY. RETINOPATHY IS A DEBILITATING VASCULAR COMPLICATION OF DIABETES. AS WITH OTHER DIABETIC COMPLICATIONS, DIABETIC RETINOPATHY (DR) IS CHARACTERIZED BY THE METABOLIC MEMORY, WHICH HAS BEEN OBSERVED BOTH IN DR PATIENTS AND IN DR ANIMAL MODELS. EVIDENCES HAVE PROVIDED THAT AFTER A PERIOD OF POOR GLUCOSE CONTROL INSULIN OR DIABETES DRUG TREATMENT FAILS TO PREVENT THE DEVELOPMENT AND PROGRESSION OF DR EVEN WHEN GOOD GLYCEMIC CONTROL IS REINSTITUTED (GLUCOSE NORMALIZATION), SUGGESTING A METABOLIC MEMORY PHENOMENON. RECENT STUDIES ALSO UNDERLINE THE ROLE OF EPIGENETIC CHROMATIN MODIFICATIONS AS MEDIATORS OF THE METABOLIC MEMORY. INDEED, EPIGENETIC CHANGES MAY LEAD TO STABLE MODIFICATION OF GENE EXPRESSION, PARTICIPATING IN DR PATHOGENESIS. MOREOVER, INCREASING EVIDENCES SUGGEST THAT ENVIRONMENTAL FACTORS SUCH AS CHRONIC HYPERGLYCEMIA ARE IMPLICATED DR PROGRESSION AND MAY ALSO AFFECT THE EPIGENETIC STATE. HERE WE REVIEW RECENT FINDINGS DEMONSTRATING THE KEY ROLE OF EPIGENETICS IN THE PROGRESSION OF DR. FURTHER ELUCIDATION OF EPIGENETIC MECHANISMS, ACTING BOTH AT THE CIS- AND TRANS-CHROMATIN STRUCTURAL ELEMENTS, WILL YIELD NEW INSIGHTS INTO THE PATHOGENESIS OF DR AND WILL OPEN THE WAY FOR THE DISCOVERY OF NOVEL THERAPEUTIC TARGETS TO PREVENT DR PROGRESSION. 2014 12 799 39 CELLULAR SIGNALING AND POTENTIAL NEW TREATMENT TARGETS IN DIABETIC RETINOPATHY. DYSFUNCTION AND DEATH OF MICROVASCULAR CELLS AND IMBALANCE BETWEEN THE PRODUCTION AND THE DEGRADATION OF EXTRACELLULAR MATRIX (ECM) PROTEINS ARE A CHARACTERISTIC FEATURE OF DIABETIC RETINOPATHY (DR). GLUCOSE-INDUCED BIOCHEMICAL ALTERATIONS IN THE VASCULAR ENDOTHELIAL CELLS MAY ACTIVATE A CASCADE OF SIGNALING PATHWAYS LEADING TO INCREASED PRODUCTION OF ECM PROTEINS AND CELLULAR DYSFUNCTION/DEATH. CHRONIC DIABETES LEADS TO THE ACTIVATION OF A NUMBER OF SIGNALING PROTEINS INCLUDING PROTEIN KINASE C, PROTEIN KINASE B, AND MITOGEN-ACTIVATED PROTEIN KINASES. THESE SIGNALING CASCADES ARE ACTIVATED IN RESPONSE TO HYPERGLYCEMIA-INDUCED OXIDATIVE STRESS, POLYOL PATHWAY, AND ADVANCED GLYCATION END PRODUCT FORMATION AMONG OTHERS. THE ABERRANT SIGNALING PATHWAYS ULTIMATELY LEAD TO ACTIVATION OF TRANSCRIPTION FACTORS SUCH AS NUCLEAR FACTOR-KAPPAB AND ACTIVATING PROTEIN-1. THE ACTIVITY OF THESE TRANSCRIPTION FACTORS IS ALSO REGULATED BY EPIGENETIC MECHANISMS THROUGH TRANSCRIPTIONAL COACTIVATOR P300. THESE COMPLEX SIGNALING PATHWAYS MAY BE INVOLVED IN GLUCOSE-INDUCED ALTERATIONS OF ENDOTHELIAL CELL PHENOTYPE LEADING TO THE PRODUCTION OF INCREASED ECM PROTEINS AND VASOACTIVE EFFECTOR MOLECULES CAUSING FUNCTIONAL AND STRUCTURAL CHANGES IN THE MICROVASCULATURE. UNDERSTANDING OF SUCH MECHANISTIC PATHWAYS WILL HELP TO DEVELOP FUTURE ADJUVANT THERAPIES FOR DIABETIC RETINOPATHY. 2007 13 4714 33 NON-CODING RNA IN ALCOHOL USE DISORDER BY AFFECTING SYNAPTIC PLASTICITY. ALCOHOL USE DISORDER (AUD) IS ONE OF THE MOST SERIOUS PUBLIC HEALTH PROBLEMS WORLDWIDE. AUD IS A COMPLEX DISORDER, AND THERE IS AMPLE EVIDENCE THAT GENETIC PREDISPOSITION IS CRITICAL TO ITS DEVELOPMENT. RECENT STUDIES HAVE SHOWN THAT GENETIC PREDISPOSITION LEADS TO THE ONSET OF AUD, AND ALCOHOL METABOLISM CAN AFFECT EPIGENETIC INHERITANCE, WHICH IN TURN AFFECTS SYNAPTIC PLASTICITY, ALTERS BRAIN FUNCTION, AND LEADS TO MORE SEVERE ADDICTIVE BEHAVIORS. NON-CODING RNAS (NCRNAS), ESPECIALLY MICRORNAS (MIRNAS) AND LONG NON-CODING RNAS (LNCRNAS), PLAY AN IMPORTANT ROLE IN ALCOHOL ADDICTION. THIS PAPER REVIEWS THE REGULATORY ROLE OF NCRNAS. NCRNAS ARE INVOLVED IN ENZYME AND NEUROTRANSMITTER REACTION SYSTEMS DURING ALCOHOL USE DISORDER. ALCOHOL CONSUMPTION REGULATES THE EXPRESSION OF NCRNAS THAT MEDIATE EPIGENETIC MODIFICATION AND SYNAPTIC PLASTICITY, WHICH PLAY AN IMPORTANT ROLE IN THE DEVELOPMENT OF CHRONIC AUD. NCRNAS MAY BE USED NOT ONLY AS PREDICTORS OF THERAPEUTIC RESPONSES BUT ALSO AS THERAPEUTIC TARGETS OF AUD. CHRONIC ALCOHOLISM IS MORE LIKELY TO LEAD TO NEUROIMMUNE DISORDERS, INCLUDING PERMANENT BRAIN DYSFUNCTION. AUD INDUCED BY LONG-TERM ALCOHOLISM GREATLY ALTERS THE EXPRESSION OF GENES IN THE HUMAN GENOME, ESPECIALLY THE EXPRESSION OF NCRNAS. ALCOHOL CAN CAUSE A SERIES OF PATHOLOGICAL CHANGES BY INTERFERING WITH GENE EXPRESSION, SUCH AS THROUGH DISORDERED MIRNA-MRNA EXPRESSION NETWORKS, EPIGENETIC MODIFICATIONS, DISORDERED METABOLISM, AND EVEN SYNAPTIC REMODELING. NCRNAS ARE INVOLVED IN THE TRANSITION FROM MODERATE DRINKING TO ALCOHOL DEPENDENCE. 2022 14 5519 38 RISK FACTORS FOR ALZHEIMER'S DISEASE: ROLE OF MULTIPLE ANTIOXIDANTS, NON-STEROIDAL ANTI-INFLAMMATORY AND CHOLINERGIC AGENTS ALONE OR IN COMBINATION IN PREVENTION AND TREATMENT. THE ETIOLOGY OF ALZHEIMER'S DISEASE (AD) IS NOT WELL UNDERSTOOD. ETIOLOGIC FACTORS, CHRONIC INFLAMMATORY REACTIONS, OXIDATIVE AND NITROSYLATIVE STRESSES AND HIGH CHOLESTEROL LEVELS ARE THOUGHT TO BE IMPORTANT FOR INITIATING AND PROMOTING NEURODEGENERATIVE CHANGES COMMONLY FOUND IN AD BRAINS. EVEN IN FAMILIAL AD, OXIDATIVE STRESS PLAYS AN IMPORTANT ROLE IN THE EARLY ONSET OF THE DISEASE. MITOCHONDRIAL DAMAGE AND PROTEASOME INHIBITION REPRESENT EARLY EVENTS IN THE PATHOGENESIS OF AD, WHEREAS INCREASED PROCESSING OF AMYLOID PRECURSOR PROTEIN (APP) TO BETA-AMYLOID (ABETA) FRAGMENTS (ABETA(40) AND ABETA(42)) AND FORMATION OF SENILE PLAQUES AND NEUROFIBRILLARY TANGLES (NFTS) REPRESENT LATE EVENTS. WE PROPOSE A HYPOTHESIS THAT IN IDIOPATHIC AD, EPIGENETIC COMPONENTS OF NEURONS SUCH AS MITOCHONDRIA, PROTEASOMES AND POST-TRANSLATION PROTEIN MODIFICATIONS (PROCESSING OF AMYLOID PRECURSOR PROTEIN TO BETA-AMYLOID AND HYPERPHOSPHORYLATION OF TAU), RATHER THAN NUCLEAR GENES, ARE THE PRIMARY TARGETS FOR THE ACTION OF DIVERSE GROUPS OF NEUROTOXINS. BASED ON EPIDEMIOLOGIC, LABORATORY AND LIMITED CLINICAL STUDIES, WE PROPOSE THAT A COMBINATION OF NON STEROIDAL ANTI-INFLAMMATORY DRUGS (NSAIDS) AND APPROPRIATE LEVELS AND TYPES OF MULTIPLE MICRONUTRIENTS, INCLUDING ANTIOXIDANTS, MAY BE MORE EFFECTIVE THAN THE INDIVIDUAL AGENTS IN THE PREVENTION, AND THEY, IN COMBINATION WITH A CHOLINERGIC AGENT, MAY BE MORE EFFECTIVE IN THE TREATMENT OF AD THAN THE INDIVIDUAL AGENTS ALONE. IN ADDITION, AGENTS, WHICH CAN PREVENT FORMATION OF PLAQUES OR DISSOLVE THESE PLAQUES MAY FURTHER ENHANCE THE EFFICACY OF OUR PROPOSED TREATMENT STRATEGY. 2002 15 4207 34 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 16 4424 32 MOLECULAR AND NEUROLOGIC RESPONSES TO CHRONIC ALCOHOL USE. THIS CHAPTER PROVIDES AN OVERVIEW OF CURRENT KNOWLEDGE ON THE MOLECULAR AND CLINICAL ASPECTS OF CHRONIC ALCOHOL EFFECTS ON THE CENTRAL NERVOUS SYSTEM. THIS DRUG IS ALMOST UBIQUITOUS, WIDELY ENJOYED SOCIALLY, BUT PRODUCES A DIVERSE SPECTRUM OF NEUROLOGIC DISEASE WHEN ABUSED. ACUTELY, ALCOHOL INTERACTS PREDOMINANTLY WITH GAMMA-AMINOBUTYRIC ACID-A (GABA-A) AND N-METHYL-D-ASPARTATE (NMDA) RECEPTORS, BUT TRIGGERS DIVERSE SIGNALING EVENTS WITHIN WELL-DEFINED NEURAL PATHWAYS. THESE EVENTS RESULT IN ADAPTIVE CHANGES IN GENE EXPRESSION THAT ULTIMATELY PRODUCE TWO MAJOR STATES: ADDICTION AND TOXICITY. EPIGENETIC MODIFICATIONS OF CHROMATIN COULD LEAD TO LONG-LIVED OR EVEN TRANSGENERATIONAL CHANGES IN GENE EXPRESSION, THUS PRODUCING ASPECTS OF THE HERITABILITY OF ALCOHOL USE DISORDERS (AUD) AND LONG-TERM BEHAVIORS SUCH AS RECIDIVISM. THE DIVERSE CLINICAL SYNDROMES PRODUCED BY CHRONIC ALCOHOL ACTIONS IN THE CENTRAL NERVOUS SYSTEM REFLECT THE MOLECULAR PATHOLOGY AND PREDOMINANTLY INVOLVE ASPECTS OF TOLERANCE/WITHDRAWAL, SELECTIVE VULNERABILITY (MANIFEST AS CENTRAL PONTINE MYELINOLYSIS, MARCHIAFAVA-BIGNAMI DISEASE), AND ADDITIONAL ENVIRONMENTAL FACTORS (E.G., THIAMINE DEFICIENCY IN WERNICKE-KORSAKOFF'S SYNDROME). ADDITIONALLY, DELETERIOUS ASPECTS OF CHRONIC ALCOHOL ON SIGNALING, SYNAPTIC TRANSMISSION, AND CELL TOXICITY LEAD TO PRIMARY ALCOHOLIC DEMENTIA. GENETICALLY DETERMINED ASPECTS OF MYELIN STRUCTURE AND ALCOHOL ACTIONS ON MYELIN GENE EXPRESSION MAY BE A PROMINENT MOLECULAR MECHANISM RESULTING IN A PREDISPOSITION TO, OR CAUSATION OF, AUD AND MULTIPLE OTHER NEUROLOGIC COMPLICATIONS OF CHRONIC ALCOHOL. THE DRAMATIC PROGRESS MADE IN UNDERSTANDING MOLECULAR ACTIONS OF ALCOHOL HOLDS GREAT PROMISE FOR OUR EVENTUAL TREATMENT OR PREVENTION OF AUD AND NEUROLOGIC COMPLICATIONS RESULTING FROM CHRONIC ALCOHOL ABUSE. 2014 17 1677 26 DRUG ADDICTION: HYPERKATIFEIA/NEGATIVE REINFORCEMENT AS A FRAMEWORK FOR MEDICATIONS DEVELOPMENT. COMPULSIVE DRUG SEEKING THAT IS ASSOCIATED WITH ADDICTION IS HYPOTHESIZED TO FOLLOW A HEURISTIC FRAMEWORK THAT INVOLVES THREE STAGES (BINGE/INTOXICATION, WITHDRAWAL/NEGATIVE AFFECT, AND PREOCCUPATION/ANTICIPATION) AND THREE DOMAINS OF DYSFUNCTION (INCENTIVE SALIENCE/PATHOLOGIC HABITS, NEGATIVE EMOTIONAL STATES, AND EXECUTIVE FUNCTION, RESPECTIVELY) VIA CHANGES IN THE BASAL GANGLIA, EXTENDED AMYGDALA/HABENULA, AND FRONTAL CORTEX, RESPECTIVELY. THIS REVIEW FOCUSES ON NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS THAT CONTRIBUTE TO HYPERKATIFEIA, DEFINED AS A GREATER INTENSITY OF NEGATIVE EMOTIONAL/MOTIVATIONAL SIGNS AND SYMPTOMS DURING WITHDRAWAL FROM DRUGS OF ABUSE IN THE WITHDRAWAL/NEGATIVE AFFECT STAGE OF THE ADDICTION CYCLE. HYPERKATIFEIA PROVIDES AN ADDITIONAL SOURCE OF MOTIVATION FOR COMPULSIVE DRUG SEEKING VIA NEGATIVE REINFORCEMENT. NEGATIVE REINFORCEMENT REFLECTS AN INCREASE IN THE PROBABILITY OF A RESPONSE TO REMOVE AN AVERSIVE STIMULUS OR DRUG SEEKING TO REMOVE HYPERKATIFEIA THAT IS AUGMENTED BY GENETIC/EPIGENETIC VULNERABILITY, ENVIRONMENTAL TRAUMA, AND PSYCHIATRIC COMORBIDITY. NEUROBIOLOGICAL TARGETS FOR HYPERKATIFEIA IN ADDICTION INVOLVE NEUROCIRCUITRY OF THE EXTENDED AMYGDALA AND ITS CONNECTIONS VIA WITHIN-SYSTEM NEUROADAPTATIONS IN DOPAMINE, ENKEPHALIN/ENDORPHIN OPIOID PEPTIDE, AND GAMMA-AMINOBUTYRIC ACID/GLUTAMATE SYSTEMS AND BETWEEN-SYSTEM NEUROADAPTATIONS IN PROSTRESS CORTICOTROPIN-RELEASING FACTOR, NOREPINEPHRINE, GLUCOCORTICOID, DYNORPHIN, HYPOCRETIN, AND NEUROIMMUNE SYSTEMS AND ANTISTRESS NEUROPEPTIDE Y, NOCICEPTIN, ENDOCANNABINOID, AND OXYTOCIN SYSTEMS. SUCH NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS ARE HYPOTHESIZED TO MEDIATE A NEGATIVE HEDONIC SET POINT THAT GRADUALLY GAINS ALLOSTATIC LOAD AND SHIFTS FROM A HOMEOSTATIC HEDONIC STATE TO AN ALLOSTATIC HEDONIC STATE. BASED ON PRECLINICAL STUDIES AND TRANSLATIONAL STUDIES TO DATE, MEDICATIONS AND BEHAVIORAL THERAPIES THAT RESET BRAIN STRESS, ANTISTRESS, AND EMOTIONAL PAIN SYSTEMS AND RETURN THEM TO HOMEOSTASIS WOULD BE PROMISING NEW TARGETS FOR MEDICATION DEVELOPMENT. SIGNIFICANCE STATEMENT: THE FOCUS OF THIS REVIEW IS ON NEUROCHEMICAL/NEUROCIRCUITRY DYSREGULATIONS THAT CONTRIBUTE TO HYPERKATIFEIA, DEFINED AS A GREATER INTENSITY OF NEGATIVE EMOTIONAL/MOTIVATIONAL SIGNS AND SYMPTOMS DURING WITHDRAWAL FROM DRUGS OF ABUSE IN THE WITHDRAWAL/NEGATIVE AFFECT STAGE OF THE DRUG ADDICTION CYCLE AND A DRIVING FORCE FOR NEGATIVE REINFORCEMENT IN ADDICTION. MEDICATIONS AND BEHAVIORAL THERAPIES THAT REVERSE HYPERKATIFEIA BY RESETTING BRAIN STRESS, ANTISTRESS, AND EMOTIONAL PAIN SYSTEMS AND RETURNING THEM TO HOMEOSTASIS WOULD BE PROMISING NEW TARGETS FOR MEDICATION DEVELOPMENT. 2021 18 868 28 CHRONIC ADVANCED-GLYCATION END PRODUCTS TREATMENT INDUCES TXNIP EXPRESSION AND EPIGENETIC CHANGES IN GLOMERULAR PODOCYTES IN VIVO AND IN VITRO. ADVANCED GLYCATION END PRODUCTS (AGES) PLAY AN IMPORTANT ROLE IN OXIDATIVE STRESS AND INFLAMMATION, PROCESSES IMPLICATED IN THE DEVELOPMENT AND PROGRESSION OF KIDNEY DYSFUNCTION. IN THE PRESENT STUDY, WE INVESTIGATED THE PARTICIPATION OF THE PRO-OXIDANT PROTEIN THIOREDOXIN-INTERACTING PROTEIN (TXNIP) AND OF EPIGENETIC MECHANISMS ON KIDNEY TISSUE (IN VIVO, IN NON-DIABETIC RATS) AND ON TERMINALLY DIFFERENTIATED GLOMERULAR PODOCYTES (IN VITRO) CHRONICALLY EXPOSED TO AGES. AGES INDUCED TOTAL KIDNEY AND GLOMERULAR TXNIP EXPRESSION AND DECREASED H3K27ME3 CONTENT. CONCOMITANT TREATMENT WITH THE ANTIOXIDANT N-ACETYL-CYSTEINE (NAC) REVERSED ONLY THE INCREASED TXNIP EXPRESSION. TXNIP EXPRESSION POSITIVELY CORRELATED WITH PROTEINURIA AND NEGATIVELY CORRELATED WITH H3K27ME3 CONTENT. IN VITRO STUDIES IN PODOCYTES SHOWED THAT 72 H EXPOSURE TO AGES DECREASED NEPHRIN EXPRESSION AND INCREASED TXNIP, NOX4, COL4A1, AND EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT) MARKERS (ACTA2, SNAIL1, AND TGFB1). PODOCYTES TREATMENT WITH NAC REVERSED NOX4, COL4A1, ACTA2, AND TGFB1 INCREASED EXPRESSION BUT DID NOT ABROGATE THE REDUCED EXPRESSION OF NEPHRIN. MIR-29A EXPRESSION WAS DOWNREGULATED BY AGES IN VIVO, BUT NOT IN VITRO. IN CONCLUSION, TREATMENT OF NON-DIABETIC RATS WITH AGES INDUCED TXNIP EXPRESSION AND DECREASED THE CONTENTS OF THE REPRESSIVE EPIGENETIC MARK H3K27ME3 AND OF MIR-29A, POTENTIALLY DRIVING INJURY TO GLOMERULAR FILTRATION BARRIER AND PODOCYTES DYSFUNCTION. 2021 19 6538 26 TRANSCRIPTIONAL REGULATORS AS TARGETS FOR ALCOHOL PHARMACOTHERAPIES. ALCOHOL USE DISORDER (AUD) IS A CHRONIC RELAPSING BRAIN DISEASE THAT CURRENTLY AFFLICTS OVER 15 MILLION ADULTS IN THE UNITED STATES. DESPITE ITS PREVALENCE, THERE ARE ONLY THREE FDA-APPROVED MEDICATIONS FOR AUD TREATMENT, ALL OF WHICH SHOW LIMITED EFFICACY. BECAUSE OF THEIR ABILITY TO ALTER EXPRESSION OF A LARGE NUMBER OF GENES, OFTEN WITH GREAT CELL-TYPE AND BRAIN-REGION SPECIFICITY, TRANSCRIPTION FACTORS AND EPIGENETIC MODIFIERS SERVE AS PROMISING NEW TARGETS FOR THE DEVELOPMENT OF AUD TREATMENTS AIMED AT THE NEURAL CIRCUITRY THAT UNDERLIES CHRONIC ALCOHOL ABUSE. IN THIS CHAPTER, WE WILL DISCUSS TRANSCRIPTIONAL REGULATORS THAT CAN BE TARGETED PHARMACOLOGICALLY AND HAVE SHOWN SOME EFFICACY IN ATTENUATING ALCOHOL CONSUMPTION WHEN TARGETED. SPECIFICALLY, THE TRANSCRIPTION FACTORS CYCLIC AMP-RESPONSIVE ELEMENT BINDING PROTEIN (CREB), PEROXISOME PROLIFERATOR-ACTIVATED RECEPTORS (PPARS), NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB), AND GLUCOCORTICOID RECEPTOR (GR), AS WELL AS THE EPIGENETIC ENZYMES, THE DNA METHYLTRANSFERASES (DNMTS) AND HISTONE DEACETYLASES (HDACS), WILL BE DISCUSSED. 2018 20 5837 33 STRESSED MITOCHONDRIA: A TARGET TO INTRUDE ALZHEIMER'S DISEASE. ALZHEIMER'S DISEASE (AD) IS THE INOPERABLE, INCAPACITATING, NEUROPSYCHIATRIC, AND DEGENERATIVE MANIFESTATION THAT DRASTICALLY AFFECTS HUMAN LIFE QUALITY. THE CURRENT MEDICATIONS TARGET EXTRA-NEURONAL SENILE PLAQUES, OXIDATIVE STRESS, NEUROINFLAMMATION, INTRANEURONAL NEUROFIBRILLARY TANGLES, CHOLINERGIC DEFICITS, AND EXCITOTOXICITY. AMONG NOVEL PATHWAYS AND TARGETS, BIOENERGETIC AND RESULTANT MITOCHONDRIAL DYSFUNCTION HAS BEEN RECOGNIZED AS ESSENTIAL FACTORS THAT DECIDE THE NEURONAL FATE AND CONSEQUENT NEURODEGENERATION IN AD. THE CRUCIAL ATTRIBUTES OF MITOCHONDRIA, INCLUDING BIOENERGESIS, SIGNALING, SENSING, INTEGRATING, AND TRANSMITTING BIOLOGICAL SIGNALS CONTRIBUTE TO OPTIMUM NETWORKING OF NEURONAL DYNAMICS AND MAKE THEM INDISPENSABLE FOR CELL SURVIVAL. IN AD, MITOCHONDRIAL DYSFUNCTION AND MITOPHAGY ARE A PRELIMINARY AND CRITICAL EVENT THAT AGGRAVATES THE PATHOLOGICAL CASCADE. STRESS IS KNOWN TO PROMOTE AND EXAGGERATE THE NEUROPATHOLOGICAL ALTERATION DURING NEURODEGENERATION AND METABOLIC IMPAIRMENTS, ESPECIALLY IN THE CORTICO-LIMBIC SYSTEM, BESIDES ADVERSELY AFFECTING THE NORMAL PHYSIOLOGY AND MITOCHONDRIAL DYNAMICS. STRESS INVOLVES THE ALLOCATION OF ENERGY RESOURCES FOR NEURONAL SURVIVAL. CHRONIC AND AGGRAVATED STRESS RESPONSE LEADS TO EXCESSIVE RELEASE OF GLUCOCORTICOIDS BY ACTIVATION OF THE HYPOTHALAMIC-PITUITARYADRENAL (HPA) AXIS. BY ACTING THROUGH THEIR RECEPTORS, GLUCOCORTICOIDS INFLUENCE ADVERSE MITOCHONDRIAL CHANGES AND ALTER MTDNA TRANSCRIPTION, MTRNA EXPRESSION, HIPPOCAMPAL MITOCHONDRIAL NETWORK, AND ULTIMATELY MITOCHONDRIAL PHYSIOLOGY. CHRONIC STRESS ALSO AFFECTS MITOCHONDRIAL DYNAMICS BY CHANGING METABOLIC AND NEURO-ENDOCRINAL SIGNALLING, AGGRAVATING OXIDATIVE STRESS, PROVOKING INFLAMMATORY MEDIATORS, ALTERING TROPIC FACTORS, INFLUENCING GENE EXPRESSION, AND MODIFYING EPIGENETIC PATHWAYS. THUS, EXPLORING CHRONIC STRESS-INDUCED GLUCOCORTICOID DYSREGULATION AND RESULTANT BIO-BEHAVIORAL AND PSYCHOSOMATIC MITOCHONDRIAL ALTERATIONS MAY BE A FEASIBLE NARRATIVE TO INVESTIGATE AND UNRAVEL THE MYSTERIOUS PATHOBIOLOGY OF AD. 2021