1 1460 147 DISORDERS OF CONSCIOUSNESS AND PHARMACEUTICALS THAT ACT ON OXYGEN BASED AMINO ACID AND MONOAMINE NEUROTRANSMITTER PATHWAYS OF THE BRAIN. OXYGEN BASED NEUROTRANSMITTERS IN THE SYNAPSES OF THE BRAIN ARE PROPOSED TO PLAY AN IMPORTANT ROLE IN THE GENERATION OF CONSCIOUSNESS. THEY INCLUDE THE AMINO ACIDS GLUTAMATE AND GABA WHICH USE KREBS CYCLE PRECURSORS FOR THEIR SYNTHESIS, AND THE MONOAMINES DOPAMINE, NORADRENALIN, ADRENALIN AND SEROTONIN, WHICH ARE DERIVED FROM TYROSINE AND TRYPTOPHAN. DURING ISCHEMIA AFTER AN ACUTE BRAIN INJURY, A GABA SURGE OFTEN INITIATES BRAIN SUPPRESSION. IT HAS BEEN PROPOSED THAT WITH CHRONIC ISCHEMIA, A SECONDARY, POSSIBLY EPIGENETIC RESPONSE OCCURS WHEN NEUROTRANSMITTERS DEPLETE, A GLUCOSE AND OXYGEN SAVING MECHANISM TERMED NEURODORMANCY THAT MAY INVOKE ALTERNATIVE LONG TERM LOW ENERGY METABOLIC PATHWAYS IN THE BRAIN, ENCOUNTERED IN DISORDERS OF CONSCIOUSNESS. SOME MEDICATIONS CAN REVERSE DISORDERS OF CONSCIOUSNESS IN SOME PATIENTS. VIRTUALLY ALL OF THEM ACT ON NEUROTRANSMITTER SYSTEMS THAT USE OXYGEN AS A BUILDING BLOCK OR AS AN ENERGY SOURCE WITHIN THE BRAIN. PHARMACEUTICALS THAT ACT IN THE OXYGEN BASED AMINO ACID SYSTEMS OF THE BRAIN INCLUDE THE GABAERGIC MEDICATIONS ZOLPIDEM AND BACLOFEN, WHILE THOSE THAT ACT IN THE MONOAMINE AXES INCLUDE THE DOPAMINERGIC MEDICATIONS L DOPA, AMANTADINE, BROMOCRIPTINE, APOMORPHINE AND METHYLPHENIDATE, AND THE NORADRENERGIC AND SEROTONERGIC MEDICATIONS DESIPRAMINE, AMITRIPTYLINE, PROTRIPTYLINE AND FLUOXETINE. ANOTHER GROUP ARE THE CHOLINESTERASE INHIBITORS, RESPONSIBLE FOR INCREASING ACETYLCHOLINE, WHICH IS SYNTHESIZED FROM THE KREBS CYCLE INITIATOR, ACETYL COA. IT APPEARS THAT PHARMACEUTICALS THAT ARE ACTIVE IN THE OXYGEN BASED NEUROTRANSMITTER PATHWAYS OF THE BRAIN ARE SUCCESSFUL TO AROUSE TO CONSCIOUSNESS PATIENTS THAT SUFFER FROM ITS DISORDERS. RESEARCH NEEDS TO BE SUPPORTED AS FOUNDATION TO UNDERSTAND THE BIOCHEMICAL MECHANISMS THAT ARE INVOLVED IN CONSCIOUSNESS DISORDERS AND TO EXPLORE FURTHER THE PHARMACOLOGICAL TREATMENT POSSIBILITIES FOR THESE DEVASTATING NEUROLOGICAL CONDITIONS. 2014 2 4927 35 PARKINSON'S DISEASE: FROM PATHOGENESIS TO PHARMACOGENOMICS. PARKINSON'S DISEASE (PD) IS THE SECOND MOST IMPORTANT AGE-RELATED NEURODEGENERATIVE DISORDER IN DEVELOPED SOCIETIES, AFTER ALZHEIMER'S DISEASE, WITH A PREVALENCE RANGING FROM 41 PER 100,000 IN THE FOURTH DECADE OF LIFE TO OVER 1900 PER 100,000 IN PEOPLE OVER 80 YEARS OF AGE. AS A MOVEMENT DISORDER, THE PD PHENOTYPE IS CHARACTERIZED BY RIGIDITY, RESTING TREMOR, AND BRADYKINESIA. PARKINSON'S DISEASE -RELATED NEURODEGENERATION IS LIKELY TO OCCUR SEVERAL DECADES BEFORE THE ONSET OF THE MOTOR SYMPTOMS. POTENTIAL RISK FACTORS INCLUDE ENVIRONMENTAL TOXINS, DRUGS, PESTICIDES, BRAIN MICROTRAUMA, FOCAL CEREBROVASCULAR DAMAGE, AND GENOMIC DEFECTS. PARKINSON'S DISEASE NEUROPATHOLOGY IS CHARACTERIZED BY A SELECTIVE LOSS OF DOPAMINERGIC NEURONS IN THE SUBSTANTIA NIGRA PARS COMPACTA, WITH WIDESPREAD INVOLVEMENT OF OTHER CENTRAL NERVOUS SYSTEM (CNS) STRUCTURES AND PERIPHERAL TISSUES. PATHOGENIC MECHANISMS ASSOCIATED WITH GENOMIC, EPIGENETIC AND ENVIRONMENTAL FACTORS LEAD TO CONFORMATIONAL CHANGES AND DEPOSITS OF KEY PROTEINS DUE TO ABNORMALITIES IN THE UBIQUITIN-PROTEASOME SYSTEM TOGETHER WITH DYSREGULATION OF MITOCHONDRIAL FUNCTION AND OXIDATIVE STRESS. CONVENTIONAL PHARMACOLOGICAL TREATMENTS FOR PD ARE DOPAMINE PRECURSORS (LEVODOPA, L-DOPA, L-3,4 DIHIDROXIFENILALANINA), AND OTHER SYMPTOMATIC TREATMENTS INCLUDING DOPAMINE AGONISTS (AMANTADINE, APOMORPHINE, BROMOCRIPTINE, CABERGOLINE, LISURIDE, PERGOLIDE, PRAMIPEXOLE, ROPINIROLE, ROTIGOTINE), MONOAMINE OXIDASE (MAO) INHIBITORS (SELEGILINE, RASAGILINE), AND CATECHOL-O-METHYLTRANSFERASE (COMT) INHIBITORS (ENTACAPONE, TOLCAPONE). THE CHRONIC ADMINISTRATION OF ANTIPARKINSONIAN DRUGS CURRENTLY INDUCES THE "WEARING-OFF PHENOMENON", WITH ADDITIONAL PSYCHOMOTOR AND AUTONOMIC COMPLICATIONS. IN ORDER TO MINIMIZE THESE CLINICAL COMPLICATIONS, NOVEL COMPOUNDS HAVE BEEN DEVELOPED. NOVEL DRUGS AND BIOPRODUCTS FOR THE TREATMENT OF PD SHOULD ADDRESS DOPAMINERGIC NEUROPROTECTION TO REDUCE PREMATURE NEURODEGENERATION IN ADDITION TO ENHANCING DOPAMINERGIC NEUROTRANSMISSION. SINCE BIOCHEMICAL CHANGES AND THERAPEUTIC OUTCOMES ARE HIGHLY DEPENDENT UPON THE GENOMIC PROFILES OF PD PATIENTS, PERSONALIZED TREATMENTS SHOULD RELY ON PHARMACOGENETIC PROCEDURES TO OPTIMIZE THERAPEUTICS. 2017 3 5889 22 SYSTEMS APPROACHES TO MODELING CHRONIC MUCOSAL INFLAMMATION. THE RESPIRATORY MUCOSA IS A MAJOR COORDINATOR OF THE INFLAMMATORY RESPONSE IN CHRONIC AIRWAY DISEASES, INCLUDING ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). SIGNALS PRODUCED BY THE CHRONIC INFLAMMATORY PROCESS INDUCE EPITHELIAL MESENCHYMAL TRANSITION (EMT) THAT DRAMATICALLY ALTERS THE EPITHELIAL CELL PHENOTYPE. THE EFFECTS OF EMT ON EPIGENETIC REPROGRAMMING AND THE ACTIVATION OF TRANSCRIPTIONAL NETWORKS ARE KNOWN, ITS EFFECTS ON THE INNATE INFLAMMATORY RESPONSE ARE UNDEREXPLORED. WE USED A MULTIPLEX GENE EXPRESSION PROFILING PLATFORM TO INVESTIGATE THE PERTURBATIONS OF THE INNATE PATHWAYS INDUCED BY TGF BETA IN A PRIMARY AIRWAY EPITHELIAL CELL MODEL OF EMT. EMT HAD DRAMATIC EFFECTS ON THE INDUCTION OF THE INNATE PATHWAY AND THE COUPLING INTERVAL OF THE CANONICAL AND NONCANONICAL NF- KAPPA B PATHWAYS. SIMULATION EXPERIMENTS DEMONSTRATE THAT RAPID, COORDINATED CAP-INDEPENDENT TRANSLATION OF TRAF-1 AND NF- KAPPA B2 IS REQUIRED TO REDUCE THE NONCANONICAL PATHWAY COUPLING INTERVAL. EXPERIMENTS USING AMANTADINE CONFIRMED THE PREDICTION THAT TRAF-1 AND NF- KAPPA B2/P100 PRODUCTION IS MEDIATED BY AN IRES-DEPENDENT MECHANISM. THESE DATA INDICATE THAT THE EPIGENETIC CHANGES PRODUCED BY EMT INDUCE DYNAMIC STATE CHANGES OF THE INNATE SIGNALING PATHWAY. FURTHER APPLICATIONS OF SYSTEMS APPROACHES WILL PROVIDE UNDERSTANDING OF THIS COMPLEX PHENOTYPE THROUGH DETERMINISTIC MODELING AND MULTIDIMENSIONAL (GENOMIC AND PROTEOMIC) PROFILING. 2013 4 6432 30 THE VICIOUS CIRCLE BETWEEN HOMOCYSTEINE, METHYL GROUP-DONATING VITAMINS AND CHRONIC LEVODOPA INTAKE IN PARKINSON'S DISEASE. A BIOMARKER FOR DECLINED METHYLATION CAPACITY IS ELEVATION OF HOMOCYSTEINE LEVELS. THEY INCREASE THE RISK FOR ONSET OF VASCULAR DISEASE AND CONTRIBUTE TO PROGRESSION OF CHRONIC NEURODEGENERATION AND AGING. THIS NARRATIVE REVIEW DISCUSSES ASSOCIATIONS BETWEEN HOMOCYSTEINE, CONSUMPTION OF METHYL GROUP-DONATING VITAMINS AND IMPACT ON DISEASE-GENERATING MECHANISMS IN LEVODOPA-TREATED PATIENTS WITH PARKINSON'S DISEASE. WE CONCLUDE TO RECOMMEND LEVODOPA-TREATED PATIENTS TO SUBSTITUTE THEMSELVES WITH METHYL GROUP-DONATING VITAMINS. THIS IS HARMLESS IN TERMS OF APPLICATION OF FOLIC ACID, METHYLCOBALAMIN OR HYDROXOCOBALAMIN. MOREOVER, WE SUGGEST A CRUCIAL DISCUSSION ON THE VALUE OF THE VARIOUS POPULAR HYPOTHESES ON PARKINSON'S DISEASE-GENERATING MECHANISMS. FINDINGS FROM STUDIES WITH ACUTE LEVODOPA EXPOSURE DESCRIBE OXIDATIVE STRESS GENERATION AND IMPAIRED METHYLATION CAPACITY, WHICH CAUSES GENE DYSFUNCTION. THEIR REPEATED OCCURRENCES CONTRIBUTE TO ONSET OF MITOCHONDRIAL DYSFUNCTION, IRON ENRICHMENT AND PATHOLOGIC PROTEIN ACCUMULATION IN THE LONG TERM. CURRENT RESEARCH UNDERESTIMATES THESE EPIGENETIC, METABOLIC CONSEQUENCES OF CHRONIC LEVODOPA APPLICATION. SUPPLEMENTARY TREATMENT STRATEGIES ARE RECOMMENDED TO AVOID LEVODOPA-RELATED SIDE EFFECTS. 2023 5 4909 32 PAIN AND STRESS IN A SYSTEMS PERSPECTIVE: RECIPROCAL NEURAL, ENDOCRINE, AND IMMUNE INTERACTIONS. THIS PAPER ADVANCES A PSYCHOPHYSIOLOGICAL SYSTEMS VIEW OF PAIN IN WHICH PHYSICAL INJURY, OR WOUNDING, GENERATES A COMPLEX STRESS RESPONSE THAT EXTENDS BEYOND THE NERVOUS SYSTEM AND CONTRIBUTES TO THE EXPERIENCE OF PAIN. THROUGH A COMMON CHEMICAL LANGUAGE COMPRISING NEUROTRANSMITTERS, PEPTIDES, ENDOCANNABINOIDS, CYTOKINES, AND HORMONES, AN ENSEMBLE OF INTERDEPENDENT NERVOUS, ENDOCRINE, AND IMMUNE PROCESSES OPERATES IN CONCERT TO COPE WITH THE INJURY. THESE PROCESSES ACT AS A SINGLE AGENT AND COMPRISE A SUPERSYSTEM. ACUTE PAIN IN ITS MULTIPLE DIMENSIONS, AND THE RELATED SYMPTOMS THAT COMMONLY OCCUR WITH IT, ARE PRODUCTS OF THE SUPERSYSTEM. CHRONIC PAIN CAN DEVELOP AS A RESULT OF UNUSUAL STRESS. SOCIAL STRESSORS CAN COMPOUND THE STRESS RESULTING FROM A WOUND OR ACT ALONE TO DYSREGULATE THE SUPERSYSTEM. WHEN THE SUPERSYSTEM SUFFERS DYSREGULATION, HEALTH, FUNCTION, AND SENSE OF WELL-BEING SUFFER. SOME CHRONIC PAIN CONDITIONS ARE THE PRODUCT OF SUPERSYSTEM DYSREGULATION. INDIVIDUALS VARY AND ARE VULNERABLE TO DYSREGULATION AND DYSFUNCTION IN PARTICULAR ORGAN SYSTEMS DUE TO THE UNIQUE INTERACTIONS OF GENETIC, EPIGENETIC AND ENVIRONMENTAL FACTORS, AS WELL AS THE PAST EXPERIENCES THAT CHARACTERIZE EACH PERSON. PERSPECTIVE: ACUTE TISSUE INJURY ACTIVATES AN ENSEMBLE OF INTERDEPENDENT NERVOUS, ENDOCRINE, AND IMMUNE PROCESSES THAT OPERATE IN CONCERT AND COMPRISE A SUPERSYSTEM. SOME CHRONIC PAIN CONDITIONS RESULT FROM SUPERSYSTEM DYSREGULATION. INDIVIDUALS VARY AND ARE VULNERABLE TO DYSREGULATION DUE TO THE UNIQUE INTERACTIONS OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS AND PAST EXPERIENCES THAT CHARACTERIZE EACH PERSON. THIS PERSPECTIVE CAN POTENTIALLY ASSIST CLINICIANS IN ASSESSING AND MANAGING CHRONIC PAIN PATIENTS. 2008 6 5515 24 RILUZOLE ADMINISTRATION TO RATS WITH LEVODOPA-INDUCED DYSKINESIA LEADS TO LOSS OF DNA METHYLATION IN NEURONAL GENES. DYSKINESIAS ARE CHARACTERIZED BY ABNORMAL REPETITIVE INVOLUNTARY MOVEMENTS DUE TO DYSFUNCTIONAL NEURONAL ACTIVITY. ALTHOUGH LEVODOPA-INDUCED DYSKINESIA, CHARACTERIZED BY TIC-LIKE ABNORMAL INVOLUNTARY MOVEMENTS, HAS NO CLINICAL TREATMENT FOR PARKINSON'S DISEASE PATIENTS, ANIMAL STUDIES INDICATE THAT RILUZOLE, WHICH INTERFERES WITH GLUTAMATERGIC NEUROTRANSMISSION, CAN IMPROVE THE PHENOTYPE. THE RAT MODEL OF LEVODOPA-INDUCED DYSKINESIA IS A UNILATERAL LESION WITH 6-HYDROXYDOPAMINE IN THE MEDIAL FOREBRAIN BUNDLE, FOLLOWED BY THE REPEATED ADMINISTRATION OF LEVODOPA. THE MOLECULAR PATHOMECHANISM OF LEVODOPA-INDUCED DYSKINESIA IS STILL NOT DECIPHERED; HOWEVER, THE IMPLICATION OF EPIGENETIC MECHANISMS WAS SUGGESTED. IN THIS STUDY, WE INVESTIGATED THE STRIATUM FOR DNA METHYLATION ALTERATIONS UNDER CHRONIC LEVODOPA TREATMENT WITH OR WITHOUT CO-TREATMENT WITH RILUZOLE. OUR DATA SHOW THAT THE LESIONED AND CONTRALATERAL STRIATA HAVE NEARLY IDENTICAL DNA METHYLATION PROFILES. CHRONIC LEVODOPA AND LEVODOPA + RILUZOLE TREATMENTS LED TO DNA METHYLATION LOSS, PARTICULARLY OUTSIDE OF PROMOTERS, IN GENE BODIES AND CPG POOR REGIONS. WE OBSERVED THAT SEVERAL GENES INVOLVED IN THE LEVODOPA-INDUCED DYSKINESIA UNDERWENT METHYLATION CHANGES. FURTHERMORE, THE RILUZOLE CO-TREATMENT, WHICH IMPROVED THE PHENOTYPE, PINPOINTED SPECIFIC METHYLATION TARGETS, WITH A MORE THAN 20% METHYLATION DIFFERENCE RELATIVE TO LEVODOPA TREATMENT ALONE. THESE FINDINGS INDICATE POTENTIAL NEW DRUGGABLE TARGETS FOR LEVODOPA-INDUCED DYSKINESIA. 2021 7 4207 27 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 8 4006 30 LOST AMONG THE TREES? THE AUTONOMIC NERVOUS SYSTEM AND PAEDIATRICS. THE AUTONOMIC NERVOUS SYSTEM (ANS) HAS BEEN STRIKINGLY NEGLECTED IN WESTERN MEDICINE. DESPITE ITS PROFOUND IMPORTANCE FOR REGULATION, ADJUSTMENT AND COORDINATION OF BODY SYSTEMS, IT LACKS PRIORITY IN TRAINING AND PRACTICE AND RECEIVES SCANT ATTENTION IN NUMEROUS MAJOR TEXTBOOKS. THE ANS IS INTEGRAL TO MANIFESTATIONS OF ILLNESS, UNDERLYING FAMILIAR PHYSICAL AND PSYCHOLOGICAL SYMPTOMS. WHEN ANS ACTIVITY IS ITSELF DYSFUNCTIONAL, USUAL INDICATORS OF ACUTE ILLNESS MAY PROVE DECEPTIVE. RECOGNISING THE RELEVANCE OF THE ANS CAN INVOLVE SEEING THE FAMILIAR THROUGH FRESH EYES, CHALLENGING ASSUMPTIONS IN CLINICAL ASSESSMENT AND IN APPROACHES TO PRACTICE. ITS IMPORTANCE EXTENDS FROM PHYSICAL AND PSYCHOLOGICAL WELL-BEING TO PARENTING AND SAFEGUARDING, PUBLIC SERVICES AND THE FUNCTIONING OF SOCIETY. EXPLORATION OF ITS ROLE IN CONDITIONS RANGING FROM NEUROLOGICAL, GASTROINTESTINAL AND CONNECTIVE TISSUE DISORDERS, DIABETES AND CHRONIC FATIGUE SYNDROME, TO AUTISM, BEHAVIOURAL AND MENTAL HEALTH DIFFICULTIES MAY OPEN THERAPEUTIC AVENUES. THE ANS OFFERS A MECHANISM FOR SO-CALLED FUNCTIONAL ILLNESSES AND ILLUSTRATES THE IMPORTANCE OF RECOGNISING THAT 'STRESS' TAKES MANY FORMS, PHYSICAL, PSYCHOLOGICAL AND ENVIRONMENTAL, DESIRABLE AND OTHERWISE. EVIDENCE OF INTRAUTERINE AND POST-NATAL PROGRAMMING OF ANS REACTIVITY SUGGESTS THAT NEONATAL CARE AND SAFEGUARDING PRACTICE MAY OFFER PREVENTIVE OPPORTUNITY, AS MAY GREATER UNDERSTANDING OF EPIGENETIC CHANGE OF ANS ACTIVITY THROUGH, FOR EXAMPLE, ACCIDENTAL OR PSYCHOLOGICAL TRAUMA OR INFECTION. THE AIM OF THIS ARTICLE IS TO ACCELERATE RECOGNITION OF THE IMPORTANCE OF THE ANS THROUGHOUT PAEDIATRICS, AND OF THE POTENTIAL PHYSICAL AND PSYCHOLOGICAL COST OF NEGLECTING IT. 2014 9 5580 32 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 10 103 29 A REHABILOMICS FRAMEWORK FOR PERSONALIZED AND TRANSLATIONAL REHABILITATION RESEARCH AND CARE FOR INDIVIDUALS WITH DISABILITIES: PERSPECTIVES AND CONSIDERATIONS FOR SPINAL CORD INJURY. DESPITE MANY PEOPLE HAVING SIMILAR CLINICAL PRESENTATION, DEMOGRAPHIC FACTORS, AND CLINICAL CARE, OUTCOME CAN DIFFER FOR THOSE SUSTAINING SIGNIFICANT INJURY SUCH AS SPINAL CORD INJURY (SCI) AND TRAUMATIC BRAIN INJURY (TBI). IN ADDITION TO TRADITIONAL DEMOGRAPHIC, SOCIAL, AND CLINICAL FACTORS, VARIABILITY ALSO MAY BE ATTRIBUTABLE TO INNATE (INCLUDING GENETIC, TRANSCRIPTOMIC PROTEOMIC, EPIGENETIC) BIOLOGICAL VARIATION THAT INDIVIDUALS BRING TO RECOVERY AND THEIR UNIQUE RESPONSE TO THEIR CARE AND ENVIRONMENT. TECHNOLOGIES COLLECTIVELY CALLED "-OMICS" ENABLE SIMULTANEOUS MEASUREMENT OF AN ENORMOUS NUMBER OF BIOMOLECULES THAT CAN CAPTURE MANY POTENTIAL BIOLOGICAL CONTRIBUTORS TO HETEROGENEITY OF INJURY/DISEASE COURSE AND OUTCOME. DUE TO THE NATURE OF INJURY AND COMPLEX DISEASE, AND ITS ASSOCIATIONS WITH IMPAIRMENT, DISABILITY, AND RECOVERY, REHABILITATION DOES NOT LEND ITSELF TO A SINGULAR "PROTOCOLIZED" PLAN OF THERAPY. YET, BY NATURE AND BY NECESSITY, REHABILITATION MEDICINE OPERATES AS A FUNCTIONAL MODEL OF "PERSONALIZED CARE". THUS, THE CHALLENGE FOR SUCCESSFUL PROGRAMS OF TRANSLATIONAL REHABILITATION CARE AND RESEARCH IS TO IDENTIFY VIABLE APPROACHES TO EXAMINE BROAD POPULATIONS, WITH VARIED IMPAIRMENTS AND FUNCTIONAL LIMITATIONS, AND TO IDENTIFY EFFECTIVE TREATMENT RESPONSES THAT INCORPORATE PERSONALIZED PROTOCOLS TO OPTIMIZE FUNCTIONAL RECOVERY. THE REHABILOMICS FRAMEWORK IS A TRANSLATIONAL MODEL THAT PROVIDES AN "-OMICS" OVERLAY TO THE SCIENTIFIC STUDY OF REHABILITATION PROCESSES AND MULTIDIMENSIONAL OUTCOMES. REHABILOMICS RESEARCH PROVIDES NOVEL OPPORTUNITIES TO EVALUATE THE NEUROBIOLOGY OF COMPLEX INJURY OR CHRONIC DISEASE AND CAN BE USED TO EXAMINE METHODS AND TREATMENTS FOR PERSON-CENTERED CARE AMONG POPULATIONS WITH DISABILITIES. EXEMPLARS FOR APPLICATION IN SCI AND OTHER NEUROREHABILITATION POPULATIONS ARE DISCUSSED. 2014 11 966 40 CHRONIC NEUROLOGICAL DISORDERS: GENETIC AND EPIGENETIC MARKERS FOR MONITORING OF PHARMACOTHERAPY. INTRODUCTION: CHRONIC NEUROLOGICAL DISEASES ARE A MAJOR CAUSE OF MORTALITY AND MORBIDITY IN THE WORLD. WITH INCREASING LIFE EXPECTANCY IN THE DEVELOPING WORLD, THE INCIDENCE AND PREVALENCE OF THESE DISEASES ARE PREDICTED TO RISE EVEN FURTHER. THIS HAS ALSO CONTRIBUTED TO AN INCREASE IN DISABILITY-ADJUSTED LIFE YEARS (DALYS) FOR NONCOMMUNICABLE DISEASES. TREATMENT FOR SUCH DISEASES ALSO POSES A CHALLENGE WITH MULTIPLE GENETIC AND EPIGENETIC FACTORS LEADING TO A VARIED OUTCOME. PERSONALIZATION OF TREATMENT IS ONE WAY THAT TREATMENT OUTCOME/PROGNOSIS OF DISEASE CAN BE IMPROVED, AND PHARMACOGENOMICS PLAYS A SIGNIFICANT ROLE IN THIS CONTEXT. METHODOLOGY: THIS ARTICLE REVIEWED THE EVIDENCE PERTAINING TO THE ASSOCIATION OF GENETIC AND EPIGENETIC MARKERS WITH MAJOR NEUROLOGICAL DISORDERS LIKE MULTIPLE SCLEROSIS (MS), ALZHEIMER'S DISEASE (AD), AND PARKINSON'S DISEASE (PD), WHICH ARE A MAJOR SOURCE OF BURDEN AMONG NEUROLOGICAL DISORDERS. TYPES OF STUDIES INCLUDED ARE PEER-REVIEWED ORIGINAL RESEARCH ARTICLES FROM THE PUBMED DATABASE (1999-2018). RESULTS: THIS STUDY COMPILED DATA REGARDING SPECIFIC GENETIC AND EPIGENETIC MARKERS WITH A SIGNIFICANT CORRELATION BETWEEN THE CLINICAL DIAGNOSIS OF THE DISEASE AND PROGNOSIS OF THERAPY FROM 65 STUDIES. IN A SINGLE PLATFORM, THIS REVIEW HIGHLIGHTS THE CLUES TO SOME VITAL QUESTIONS, SUCH AS WHY INTERFERON BETA (IFN-BETA) THERAPY FAILS TO IMPROVE SYMPTOMS IN ALL MS PATIENTS? WHY CHOLINESTERASE INHIBITORS FAIL TO IMPROVE COGNITIVE IMPAIRMENT IN A SUBSET OF PEOPLE SUFFERING FROM AD? OR WHY SOME INDIVIDUALS ON LEVODOPA (L-DOPA) FOR PD SUFFER FROM SIDE-EFFECTS RANGING FROM DYSKINESIA TO HALLUCINATION WHILE OTHERS DO NOT? CONCLUSION: THIS ARTICLE SUMMARIZES THE GENETIC AND EPIGENETIC FACTORS THAT MAY EITHER REQUIRE MONITORING OR HELP IN DECIDING FUTURE PHARMACOTHERAPY IN A PATIENT SUFFERING FROM MS, AD, AND PD. AS THE HEALTH CARE SYSTEM DEVELOPS AND REACHES NEWER HEIGHTS, WE EXPECT MORE AND MORE OF THESE BIOMARKERS TO BE USED AS PHARMACOTHERAPEUTIC OUTCOME INDICATORS. 2021 12 2350 27 EPIGENETIC REGULATION OF NEUROINFLAMMATION IN PARKINSON'S DISEASE. NEUROINFLAMMATION IS ONE OF THE MOST SIGNIFICANT FACTORS INVOLVED IN THE INITIATION AND PROGRESSION OF PARKINSON'S DISEASE. PD IS A NEURODEGENERATIVE DISORDER WITH A MOTOR DISABILITY LINKED WITH VARIOUS COMPLEX AND DIVERSIFIED RISK FACTORS. THESE FACTORS TRIGGER MYRIADS OF CELLULAR AND MOLECULAR PROCESSES, SUCH AS MISFOLDING DEFECTIVE PROTEINS, OXIDATIVE STRESS, MITOCHONDRIAL DYSFUNCTION, AND NEUROTOXIC SUBSTANCES THAT INDUCE SELECTIVE NEURODEGENERATION OF DOPAMINE NEURONS. THIS NEURONAL DAMAGE ACTIVATES THE NEURONAL IMMUNE SYSTEM, INCLUDING GLIAL CELLS AND INFLAMMATORY CYTOKINES, TO TRIGGER NEUROINFLAMMATION. THE TRANSITION OF ACUTE TO CHRONIC NEUROINFLAMMATION ENHANCES THE SUSCEPTIBILITY OF INFLAMMATION-INDUCED DOPAMINERGIC NEURON DAMAGE, FORMING A VICIOUS CYCLE AND PROMPTING AN INDIVIDUAL TO PD DEVELOPMENT. EPIGENETIC MECHANISMS RECENTLY HAVE BEEN AT THE FOREFRONT OF THE REGULATION OF NEUROINFLAMMATORY FACTORS IN PD, PROPOSING A NEW DAWN FOR BREAKING THIS VICIOUS CYCLE. THIS REVIEW EXAMINED THE CORE EPIGENETIC MECHANISMS INVOLVED IN THE ACTIVATION AND PHENOTYPIC TRANSFORMATION OF GLIAL CELLS MEDIATED NEUROINFLAMMATION IN PD. WE FOUND THAT EPIGENETIC MECHANISMS DO NOT WORK INDEPENDENTLY, DESPITE BEING COORDINATED WITH EACH OTHER TO ACTIVATE NEUROINFLAMMATORY PATHWAYS. IN THIS REGARD, WE ATTEMPTED TO FIND THE SYNERGIC CORRELATION AND CONTRIBUTION OF THESE EPIGENETIC MODIFICATIONS WITH VARIOUS NEUROINFLAMMATORY PATHWAYS TO BROADEN THE CANVAS OF UNDERLYING PATHOLOGICAL MECHANISMS INVOLVED IN PD DEVELOPMENT. MOREOVER, THIS STUDY HIGHLIGHTED THE DUAL CHARACTERISTICS (NEUROPROTECTIVE/NEUROTOXIC) OF THESE EPIGENETIC MARKS, WHICH MAY COUNTERACT PD PATHOGENESIS AND MAKE THEM POTENTIAL CANDIDATES FOR DEVISING FUTURE PD DIAGNOSIS AND TREATMENT. 2021 13 3606 35 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 14 2772 41 EXTRACELLULAR ATP AND NEURODEGENERATION. ATP IS A POTENT SIGNALING MOLECULE ABUNDANTLY PRESENT IN THE CNS. IT ELICITS A WIDE ARRAY OF PHYSIOLOGICAL EFFECTS AND IS REGARDED AS THE PHYLOGENETICALLY MOST ANCIENT EPIGENETIC FACTOR PLAYING CRUCIAL BIOLOGICAL ROLES IN SEVERAL DIFFERENT TISSUES. THESE CAN RANGE FROM NEUROTRANSMISSION, SMOOTH MUSCLE CONTRACTION, CHEMOSENSORY SIGNALING, SECRETION AND VASODILATATION, TO MORE COMPLEX PHENOMENA SUCH AS IMMUNE RESPONSES, PAIN, MALE REPRODUCTION, FERTILIZATION AND EMBRYONIC DEVELOPMENT. ATP IS RELEASED INTO THE EXTRACELLULAR SPACE EITHER EXOCYTOTICALLY OR FROM DAMAGED AND DYING CELLS. IT IS OFTEN CO-RELEASED WITH OTHER NEUROTRANSMITTERS AND IT CAN INTERACT WITH GROWTH FACTORS AT BOTH RECEPTOR- AND/OR SIGNAL TRANSDUCTION-LEVEL. ONCE IN THE EXTRACELLULAR ENVIRONMENT, ATP BINDS TO SPECIFIC RECEPTORS TERMED P2. BASED ON PHARMACOLOGICAL PROFILES, ON SELECTIVITY OF COUPLING TO SECOND-MESSENGER PATHWAYS AND ON MOLECULAR CLONING, TWO MAIN SUBCLASSES WITH MULTIPLE SUBTYPES HAVE BEEN DISTINGUISHED. THEY ARE P2X, I.E. FAST CATION-SELECTIVE RECEPTOR CHANNELS (NA+, K+, CA2+), POSSESSING LOW AFFINITY FOR ATP AND RESPONSIBLE FOR FAST EXCITATORY NEUROTRANSMISSION, AND P2Y, I.E. SLOW G PROTEIN-COUPLED METABOTROPIC RECEPTORS, POSSESSING HIGHER AFFINITY FOR THE LIGAND. IN THE NERVOUS SYSTEM, THEY ARE BROADLY EXPRESSED IN BOTH NEURONS AND GLIAL CELLS AND CAN MEDIATE DUAL EFFECTS: SHORT-TERM SUCH AS NEUROTRANSMISSION, AND LONG-TERM SUCH AS TROPHIC ACTIONS. SINCE MASSIVE EXTRACELLULAR RELEASE OF ATP OFTEN OCCURS AFTER METABOLIC STRESS, BRAIN ISCHEMIA AND TRAUMA, PURINERGIC MECHANISMS ARE ALSO CORRELATED TO AND INVOLVED IN THE ETIOPATHOLOGY OF MANY NEURODEGENERATIVE CONDITIONS. FURTHERMORE, EXTRACELLULAR ATP PER SE IS TOXIC FOR PRIMARY NEURONAL DISSOCIATED AND ORGANOTYPIC CNS CULTURES FROM CORTEX, STRIATUM AND CEREBELLUM AND P2 RECEPTORS CAN MEDIATE AND AGGRAVATE HYPOXIC SIGNALING IN MANY CNS NEURONS. CONVERSELY, SEVERAL P2 RECEPTOR ANTAGONISTS ABOLISH THE CELL DEATH FATE OF PRIMARY NEURONAL CULTURES EXPOSED TO EXCESSIVE GLUTAMATE, SERUM/POTASSIUM DEPRIVATION, HYPOGLYCEMIA AND CHEMICAL HYPOXIA. IN PARALLEL WITH THESE DETRIMENTAL EFFECTS, ALSO TROPHIC FUNCTIONS HAVE BEEN EXTENSIVELY DESCRIBED FOR EXTRACELLULAR PURINES (BOTH FOR NEURONAL AND NON-NEURONAL CELLS), BUT THESE MIGHT EITHER AGGRAVATE OR AMELIORATE THE NORMAL CELLULAR CONDITIONS. IN SUMMARY, EXTRACELLULAR ATP PLAYS A VERY COMPLEX ROLE NOT ONLY IN THE REPAIR, REMODELING AND SURVIVAL OCCURRING IN THE NERVOUS SYSTEM, BUT EVEN IN CELL DEATH AND THIS CAN OCCUR EITHER AFTER NORMAL DEVELOPMENTAL CONDITIONS, AFTER INJURY, OR ACUTE AND CHRONIC DISEASES. 2003 15 5387 34 REDOX MECHANISMS IN MIGRAINE: NOVEL THERAPEUTICS AND DIETARY INTERVENTIONS. SIGNIFICANCE: MIGRAINE REPRESENTS THE THIRD MOST PREVALENT AND THE SEVENTH MOST DISABLING HUMAN DISORDER. APPROXIMATELY 30% OF MIGRAINE PATIENTS EXPERIENCE TRANSIENT, FULLY REVERSIBLE, FOCAL NEUROLOGICAL SYMPTOMS (AURA) PRECEDING THE ATTACK. RECENT ADVANCES: AWARENESS OF THE HYPOTHESIS THAT MIGRAINE ACTUALLY EMBODIES A SPECTRUM OF ILLNESSES-RANGING FROM EPISODIC TO CHRONIC FORMS-IS PROGRESSIVELY INCREASING AND POSES NOVEL CHALLENGES FOR CLARIFYING THE UNDERLYING PATHOPHYSIOLOGICAL MECHANISMS OF MIGRAINE AS WELL AS FOR THE DEVELOPMENT OF NOVEL THERAPEUTIC INTERVENTIONS. SEVERAL THEORIES HAVE EVOLVED TO THE CURRENT CONCEPT THAT A COMBINATION OF GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS MAY PLAY A ROLE IN MIGRAINE PATHOGENESIS, ALTHOUGH THEIR RELATIVE IMPORTANCE IS STILL BEING DEBATED. CRITICAL ISSUES: ONE CRITICAL ISSUE THAT DESERVES A PARTICULAR ATTENTION IS THE ROLE OF OXIDATIVE STRESS IN MIGRAINE. INDEED, POTENTIALLY HARMFUL OXIDATIVE EVENTS OCCUR DURING THE MIGRAINE ATTACK AND LONG-LASTING OR FREQUENT MIGRAINE EPISODES MAY INCREASE BRAIN EXPOSURE TO OXIDATIVE EVENTS THAT CAN LEAD TO CHRONIC TRANSFORMATION. MOREOVER, A WIDE VARIETY OF DIETARY, ENVIRONMENTAL, PHYSIOLOGICAL, BEHAVIORAL, AND PHARMACOLOGICAL MIGRAINE TRIGGERS MAY ACT THROUGH OXIDATIVE STRESS, WITH CLEAR IMPLICATIONS FOR MIGRAINE TREATMENT AND PROPHYLAXIS. INTERESTINGLY, ALMOST ALL CURRENT PROPHYLACTIC MIGRAINE AGENTS EXERT ANTIOXIDANT EFFECTS. FUTURE DIRECTIONS: INCREASING AWARENESS OF THE ROLE OF OXIDATIVE STRESS AND/OR DECREASED ANTIOXIDANT DEFENSES IN MIGRAINE PATHOGENESIS AND PROGRESSION TO A CHRONIC CONDITION LAYS THE FOUNDATIONS FOR THE DESIGN OF NOVEL PROPHYLACTIC APPROACHES, WHICH, BY REDUCING BRAIN OXIDATIVE PHENOMENA, COULD FAVORABLY MODIFY THE CLINICAL COURSE OF MIGRAINE. ANTIOXID. REDOX SIGNAL. 28, 1144-1183. 2018 16 3888 33 KLOTHO PATHWAYS, MYELINATION DISORDERS, NEURODEGENERATIVE DISEASES, AND EPIGENETIC DRUGS. IN THIS REVIEW WE OUTLINE A RATIONALE FOR IDENTIFYING NEUROPROTECTANTS AIMED AT INDUCING ENDOGENOUS KLOTHO ACTIVITY AND EXPRESSION, WHICH IS EPIGENETIC ACTION, BY DEFINITION. SUCH AN APPROACH SHOULD PROMOTE REMYELINATION AND/OR STIMULATE MYELIN REPAIR BY ACTING ON MITOCHONDRIAL FUNCTION, THEREBY HERALDING A LIFE-SAVING PATH FORWARD FOR PATIENTS SUFFERING FROM NEUROINFLAMMATORY DISEASES. DISORDERS OF MYELIN IN THE NERVOUS SYSTEM DAMAGE THE TRANSMISSION OF SIGNALS, RESULTING IN LOSS OF VISION, MOTION, SENSATION, AND OTHER FUNCTIONS DEPENDING ON THE AFFECTED NERVES, CURRENTLY WITH NO EFFECTIVE TREATMENT. KLOTHO GENES AND THEIR SINGLE-PASS TRANSMEMBRANE KLOTHO PROTEINS ARE POWERFUL GOVERNORS OF THE THREADS OF LIFE AND DEATH, TRUE TO THE ORIGIN OF THEIR NAME, FATES, IN GREEK MYTHOLOGY. AMONG ITS MANY IMPORTANT FUNCTIONS, KLOTHO IS AN OBLIGATORY CO-RECEPTOR THAT BINDS, ACTIVATES, AND/OR POTENTIATES CRITICAL FIBROBLAST GROWTH FACTOR ACTIVITY. SINCE THE DISCOVERY OF KLOTHO A LITTLE OVER TWO DECADES AGO, IT HAS BECOME EVER MORE APPARENT THAT WHEN KLOTHO PATHWAYS GO AWRY, OXIDATIVE STRESS AND MITOCHONDRIAL DYSFUNCTION TAKE OVER, AND AGE-RELATED CHRONIC DISORDERS ARE LIKELY TO FOLLOW. THE PHYSIOLOGICAL CONSEQUENCES CAN BE WIDE RANGING, POTENTIALLY WREAKING HAVOC ON THE BRAIN, EYE, KIDNEY, MUSCLE, AND MORE. CENTRAL NERVOUS SYSTEM DISORDERS, NEURODEGENERATIVE IN NATURE, AND ESPECIALLY THOSE AFFECTING THE MYELIN SHEATH, REPRESENT WORTHY TARGETS FOR ADVANCING THERAPIES THAT ACT UPON KLOTHO PATHWAYS. CURRENT DRUGS FOR THESE DISEASES, EVEN THERAPEUTICS THAT ARE DISEASE MODIFYING RATHER THAN TREATING ONLY THE SYMPTOMS, LEAVE MUCH ROOM FOR IMPROVEMENT. IT IS THUS NO WONDER THAT THIS TOPIC HAS CAUGHT THE ATTENTION OF BIOMEDICAL RESEARCHERS AROUND THE WORLD. 2020 17 4136 20 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 18 5519 35 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 19 5837 28 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 20 3345 29 HISTONE DEACETYLASES AS EPIGENETIC TARGETS FOR TREATING PARKINSON'S DISEASE. PARKINSON'S DISEASE (PD) IS A CHRONIC PROGRESSIVE NEURODEGENERATIVE DISEASE THAT IS INCREASINGLY BECOMING A GLOBAL THREAT TO THE HEALTH AND LIFE OF THE ELDERLY WORLDWIDE. ALTHOUGH THERE ARE SOME DRUGS CLINICALLY AVAILABLE FOR TREATING PD, THESE TREATMENTS CAN ONLY ALLEVIATE THE SYMPTOMS OF PD PATIENTS BUT CANNOT COMPLETELY CURE THE DISEASE. THEREFORE, EXPLORING OTHER POTENTIAL MECHANISMS TO DEVELOP MORE EFFECTIVE TREATMENTS THAT CAN MODIFY THE COURSE OF PD IS STILL HIGHLY DESIRABLE. OVER THE LAST TWO DECADES, HISTONE DEACETYLASES, AS AN IMPORTANT GROUP OF EPIGENETIC TARGETS, HAVE ATTRACTED MUCH ATTENTION IN DRUG DISCOVERY. THIS REVIEW FOCUSED ON THE CURRENT KNOWLEDGE ABOUT HISTONE DEACETYLASES INVOLVED IN PD PATHOPHYSIOLOGY AND THEIR INHIBITORS USED IN PD STUDIES. FURTHER PERSPECTIVES RELATED TO SMALL MOLECULES THAT CAN INHIBIT OR DEGRADE HISTONE DEACETYLASES TO TREAT PD WERE ALSO DISCUSSED. 2022