1 6166 166 THE GLUTATHIONE SYSTEM: A NEW DRUG TARGET IN NEUROIMMUNE DISORDERS. GLUTATHIONE (GSH) HAS A CRUCIAL ROLE IN CELLULAR SIGNALING AND ANTIOXIDANT DEFENSES EITHER BY REACTING DIRECTLY WITH REACTIVE OXYGEN OR NITROGEN SPECIES OR BY ACTING AS AN ESSENTIAL COFACTOR FOR GSH S-TRANSFERASES AND GLUTATHIONE PEROXIDASES. GSH ACTING IN CONCERT WITH ITS DEPENDENT ENZYMES, KNOWN AS THE GLUTATHIONE SYSTEM, IS RESPONSIBLE FOR THE DETOXIFICATION OF REACTIVE OXYGEN AND NITROGEN SPECIES (ROS/RNS) AND ELECTROPHILES PRODUCED BY XENOBIOTICS. ADEQUATE LEVELS OF GSH ARE ESSENTIAL FOR THE OPTIMAL FUNCTIONING OF THE IMMUNE SYSTEM IN GENERAL AND T CELL ACTIVATION AND DIFFERENTIATION IN PARTICULAR. GSH IS A UBIQUITOUS REGULATOR OF THE CELL CYCLE PER SE. GSH ALSO HAS CRUCIAL FUNCTIONS IN THE BRAIN AS AN ANTIOXIDANT, NEUROMODULATOR, NEUROTRANSMITTER, AND ENABLER OF NEURON SURVIVAL. DEPLETION OF GSH LEADS TO EXACERBATION OF DAMAGE BY OXIDATIVE AND NITROSATIVE STRESS; HYPERNITROSYLATION; INCREASED LEVELS OF PROINFLAMMATORY MEDIATORS AND INFLAMMATORY POTENTIAL; DYSFUNCTIONS OF INTRACELLULAR SIGNALING NETWORKS, E.G., P53, NUCLEAR FACTOR-KAPPAB, AND JANUS KINASES; DECREASED CELL PROLIFERATION AND DNA SYNTHESIS; INACTIVATION OF COMPLEX I OF THE ELECTRON TRANSPORT CHAIN; ACTIVATION OF CYTOCHROME C AND THE APOPTOTIC MACHINERY; BLOCKADE OF THE METHIONINE CYCLE; AND COMPROMISED EPIGENETIC REGULATION OF GENE EXPRESSION. AS SUCH, GSH DEPLETION HAS MARKED CONSEQUENCES FOR THE HOMEOSTATIC CONTROL OF THE IMMUNE SYSTEM, OXIDATIVE AND NITROSATIVE STRESS (O&NS) PATHWAYS, REGULATION OF ENERGY PRODUCTION, AND MITOCHONDRIAL SURVIVAL AS WELL. GSH DEPLETION AND CONCOMITANT INCREASE IN O&NS AND MITOCHONDRIAL DYSFUNCTIONS PLAY A ROLE IN THE PATHOPHYSIOLOGY OF DIVERSE NEUROIMMUNE DISORDERS, INCLUDING DEPRESSION, MYALGIC ENCEPHALOMYELITIS/CHRONIC FATIGUE SYNDROME AND PARKINSON'S DISEASE, SUGGESTING THAT DEPLETED GSH IS AN INTEGRAL PART OF THESE DISEASES. THERAPEUTICAL INTERVENTIONS THAT AIM TO INCREASE GSH CONCENTRATIONS IN VIVO INCLUDE N-ACETYL CYSTEINE; NRF-2 ACTIVATION VIA HYPERBARIC OXYGEN THERAPY; DIMETHYL FUMARATE; PHYTOCHEMICALS, INCLUDING CURCUMIN, RESVERATROL, AND CINNAMON; AND FOLATE SUPPLEMENTATION. 2014 2 2976 39 GENETIC AND MOLECULAR BASIS OF DIABETIC FOOT ULCERS: CLINICAL REVIEW. DIABETIC FOOT ULCERS (DFUS) ARE MAJOR COMPLICATIONS ASSOCIATED WITH DIABETES AND OFTEN CORRELATE WITH PERIPHERAL NEUROPATHY, TRAUMA AND PERIPHERAL VASCULAR DISEASE. IT IS NECESSARY TO UNDERSTAND THE MOLECULAR AND GENETIC BASIS OF DIABETIC FOOT ULCERS IN ORDER TO TAILOR PATIENT CENTRED CARE TOWARDS PARTICULAR PATIENT GROUPS. THIS REVIEW AIMED TO EVALUATE WHETHER CURRENT LITERATURE WAS INDICATIVE OF AN UNDERLYING MOLECULAR AND GENETIC BASIS FOR DFUS AND TO DISCUSS CLINICAL APPLICATIONS. FROM A MOLECULAR PERSPECTIVE, WOUND HEALING IS A PROCESS THAT TRANSPIRES FOLLOWING BREACH OF THE SKIN BARRIER AND IS USUALLY MEDIATED BY GROWTH FACTORS AND CYTOKINES RELEASED BY SPECIALISED CELLS ACTIVATED BY THE IMMUNE RESPONSE, INCLUDING FIBROBLASTS, ENDOTHELIAL CELLS, PHAGOCYTES, PLATELETS AND KERATINOCYTES. GROWTH FACTORS AND CYTOKINES ARE FUNDAMENTAL IN THE ORGANISATION OF THE MOLECULAR PROCESSES INVOLVED IN MAKING CUTANEOUS WOUND HEALING POSSIBLE. THERE IS A SIGNIFICANT ROLE FOR SINGLE NUCLEOTIDE POLYMORPHISM (SNPS) IN THE FLUCTUATION OF THESE GROWTH FACTORS AND CYTOKINES IN DFUS. FURTHERMORE, RECENT EVIDENCE SUGGESTS A KEY ROLE FOR EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION FROM LONG STANDING HYPERGLYCEMIA AND NON-CODING RNAS IN THE COMPLEX INTERPLAY BETWEEN GENES AND THE ENVIRONMENT. GENETIC FACTORS AND ETHNICITY CAN ALSO PLAY A SIGNIFICANT ROLE IN THE DEVELOPMENT OF DIABETIC NEUROPATHY LEADING TO DFUS. CLINICALLY, INTERVENTIONS WHICH HAVE IMPROVED OUTCOMES FOR PEOPLE WITH DFUS OR THOSE AT RISK OF DFUS INCLUDE SOME SYSTEMIC THERAPEUTIC DRUG INTERVENTIONS WHICH IMPROVE MICROVASCULAR BLOOD FLOW, SURGICAL INTERVENTIONS, HUMAN GROWTH FACTORS, AND HYPERBARIC OXYGEN THERAPY, NEGATIVE PRESSURE WOUND THERAPY, SKIN REPLACEMENT OR SHOCKWAVE THERAPY AND THE USE OF TOPICAL TREATMENTS. FUTURE TREATMENT MODALITIES INCLUDING STEM CELL AND GENE THERAPIES ARE PROMISING IN THE THERAPEUTIC APPROACH TO PREVENT THE PROGRESSION OF CHRONIC DIABETIC COMPLICATIONS. 2016 3 4136 33 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 4 1460 31 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 5 4044 32 MACROPHAGES IN OXIDATIVE STRESS AND MODELS TO EVALUATE THE ANTIOXIDANT FUNCTION OF DIETARY NATURAL COMPOUNDS. ANTIOXIDANT TESTING OF NATURAL PRODUCTS HAS ATTRACTED INCREASING INTEREST IN RECENT YEARS, MAINLY DUE TO THE FACT THAT AN ANTIOXIDANT-RICH DIET MIGHT PROVIDE HEALTH BENEFITS. ACTIVATED MACROPHAGES ARE A MAJOR SOURCE OF REACTIVE OXYGEN SPECIES, REACTIVE NITROGEN SPECIES, AND PEROXYNITRITE GENERATED THROUGH THE SO-CALLED RESPIRATORY BURST. CONSTITUTIVELY RELEASED PROINFLAMMATORY CYTOKINE, ESPECIALLY TUMOR NECROSIS FACTOR-ALPHA, TRIGGERS NUCLEAR FACTOR-KAPPAB, AND ACTIVATOR PROTEIN-1 TRANSLOCATION LEADING TO THE OVER PRODUCTION OF REACTIVE OXYGEN SPECIES AND REACTIVE NITROGEN SPECIES IN MACROPHAGES. ACTIVATION OF TRANSCRIPTION FACTORS IN THE LONG-LIVED TISSUE-RESIDENT MACROPHAGES AND/OR MONOCYTE-DERIVED MACROPHAGES, TRIGGER EPIGENETIC MODIFICATIONS LEADING TO THE PATHOGENESIS OF CHRONIC DISEASES. NUTRACEUTICALS INCLUDING LIPID RAFT STRUCTURE DISRUPTION AGENT, CHOLESTEROL DEPLETION AGENT, FARNESYLTRANSFERASE INHIBITOR, NUCLEAR FACTOR-KAPPAB BLOCKER (ALPHA,BETA-UNSATURATED CARBONYL COMPOUNDS), GLUCOCORTICOID RECEPTOR AGONIST, AND PEROXISOME PROLIFERATOR-ACTIVATED RECEPTOR-GAMMA AGONIST HAVE LONG BEEN USED TO INACTIVE MACROPHAGE. THE INHIBITION EFFECTS ON THE FORMATION OF NITRIC OXIDE, SUPEROXIDE, AND NITRITE PEROXIDE MAY BE RESPONSIBLE FOR THE ANTI-INFLAMMATORY FUNCTIONALITIES. ACTIVATED MACROPHAGE MODELS COULD BE USED TO IDENTIFY THE ACTIVE COMPONENTS FOR FUNCTIONAL DIETS DEVELOPMENT THROUGH A MULTIPLE TARGETS STRATEGY. 2017 6 6205 41 THE INFLUENCE OF PLANT EXTRACTS AND PHYTOCONSTITUENTS ON ANTIOXIDANT ENZYMES ACTIVITY AND GENE EXPRESSION IN THE PREVENTION AND TREATMENT OF IMPAIRED GLUCOSE HOMEOSTASIS AND DIABETES COMPLICATIONS. DIABETES IS A COMPLEX METABOLIC DISORDER RESULTING EITHER FROM INSULIN RESISTANCE OR AN IMPAIRED INSULIN SECRETION. PROLONGED ELEVATED BLOOD GLUCOSE CONCENTRATION, THE KEY CLINICAL SIGN OF DIABETES, INITIATES AN ENHANCEMENT OF REACTIVE OXYGEN SPECIES DERIVED FROM GLUCOSE AUTOXIDATION AND GLYCOSYLATION OF PROTEINS. CONSEQUENTLY, CHRONIC OXIDATIVE STRESS OVERWHELMS CELLULAR ENDOGENOUS ANTIOXIDANT DEFENSES AND LEADS TO THE ACUTE AND LONG-STANDING STRUCTURAL AND FUNCTIONAL CHANGES OF MACROMOLECULES RESULTING IN IMPAIRED CELLULAR FUNCTIONING, CELL DEATH AND ORGAN DYSFUNCTION. THE OXIDATIVE STRESS PROVOKED CHAIN OF PATHOLOGICAL EVENTS OVER TIME CAUSE DIABETIC COMPLICATIONS SUCH AS NEPHROPATHY, PERIPHERAL NEUROPATHY, CARDIOMYOPATHY, RETINOPATHY, HYPERTENSION, AND LIVER DISEASE. UNDER DIABETIC CONDITIONS, ACCOMPANYING GENOME/EPIGENOME AND METABOLITE MARKERS ALTERATIONS MAY ALSO AFFECT GLUCOSE HOMEOSTASIS, PANCREATIC BETA-CELLS, MUSCLE, LIVER, AND ADIPOSE TISSUE. BY PROVIDING DEEPER GENETIC/EPIGENETIC INSIGHT OF DIRECT OR INDIRECT DIETARY EFFECTS, NUTRIGENOMICS OFFERS A PROMISING OPPORTUNITY TO IMPROVE THE QUALITY OF LIFE OF DIABETIC PATIENTS. NATURAL PLANT EXTRACTS, OR THEIR NATURALLY OCCURRING COMPOUNDS, WERE SHOWN TO BE VERY PROFICIENT IN THE PREVENTION AND TREATMENT OF DIFFERENT PATHOLOGIES ASSOCIATED WITH OXIDATIVE STRESS INCLUDING DIABETES AND ITS COMPLICATIONS. CONSIDERING THAT FOOD INTAKE IS ONE OF THE CRUCIAL COMPONENTS IN DIABETES' PREVALENCE, PROGRESSION AND COMPLICATIONS, THIS REVIEW SUMMARIZES THE EFFECT OF THE MAJOR PLANT SECONDARY METABOLITE AND PHYTOCONSTITUENTS ON THE ANTIOXIDANT ENZYMES ACTIVITY AND GENE EXPRESSION UNDER DIABETIC CONDITIONS. 2021 7 4459 40 MOLECULAR MECHANISMS OF DIABETIC VASCULAR COMPLICATIONS. DIABETIC COMPLICATIONS ARE THE MAJOR CAUSES OF MORBIDITY AND MORTALITY IN PATIENTS WITH DIABETES. MICROVASCULAR COMPLICATIONS INCLUDE RETINOPATHY, NEPHROPATHY AND NEUROPATHY, WHICH ARE LEADING CAUSES OF BLINDNESS, END-STAGE RENAL DISEASE AND VARIOUS PAINFUL NEUROPATHIES; WHEREAS MACROVASCULAR COMPLICATIONS INVOLVE ATHEROSCLEROSIS RELATED DISEASES, SUCH AS CORONARY ARTERY DISEASE, PERIPHERAL VASCULAR DISEASE AND STROKE. DIABETIC COMPLICATIONS ARE THE RESULT OF INTERACTIONS AMONG SYSTEMIC METABOLIC CHANGES, SUCH AS HYPERGLYCEMIA, LOCAL TISSUE RESPONSES TO TOXIC METABOLITES FROM GLUCOSE METABOLISM, AND GENETIC AND EPIGENETIC MODULATORS. CHRONIC HYPERGLYCEMIA IS RECOGNIZED AS A MAJOR INITIATOR OF DIABETIC COMPLICATIONS. MULTIPLE MOLECULAR MECHANISMS HAVE BEEN PROPOSED TO MEDIATE HYPERGLYCEMIA'S ADVERSE EFFECTS ON VASCULAR TISSUES. THESE INCLUDE INCREASED POLYOL PATHWAY, ACTIVATION OF THE DIACYLGLYCEROL/PROTEIN KINASE C PATHWAY, INCREASED OXIDATIVE STRESS, OVERPRODUCTION AND ACTION OF ADVANCED GLYCATION END PRODUCTS, AND INCREASED HEXOSAMINE PATHWAY. IN ADDITION, THE ALTERATIONS OF SIGNAL TRANSDUCTION PATHWAYS INDUCED BY HYPERGLYCEMIA OR TOXIC METABOLITES CAN ALSO LEAD TO CELLULAR DYSFUNCTIONS AND DAMAGE VASCULAR TISSUES BY ALTERING GENE EXPRESSION AND PROTEIN FUNCTION. LESS STUDIED THAN THE TOXIC MECHANISMS, HYPERGLYCEMIA MIGHT ALSO INHIBIT THE ENDOGENOUS VASCULAR PROTECTIVE FACTORS SUCH AS INSULIN, VASCULAR ENDOTHELIAL GROWTH FACTOR, PLATELET-DERIVED GROWTH FACTOR AND ACTIVATED PROTEIN C, WHICH PLAY IMPORTANT ROLES IN MAINTAINING VASCULAR HOMEOSTASIS. THUS, EFFECTIVE THERAPIES FOR DIABETIC COMPLICATIONS NEED TO INHIBIT MECHANISMS INDUCED BY HYPERGLYCEMIA'S TOXIC EFFECTS AND ALSO ENHANCE THE ENDOGENOUS PROTECTIVE FACTORS. THE PRESENT REVIEW SUMMARIZES THESE MULTIPLE BIOCHEMICAL PATHWAYS ACTIVATED BY HYPERGLYCEMIA AND THE POTENTIAL THERAPEUTIC INTERVENTIONS THAT MIGHT PREVENT DIABETIC COMPLICATIONS. (J DIABETES INVEST, DOI: 10.1111/J.2040-1124.2010.00018.X, 2010). 2010 8 4433 34 MOLECULAR COMPLEXITIES UNDERLYING THE VASCULAR COMPLICATIONS OF DIABETES MELLITUS - A COMPREHENSIVE REVIEW. DIABETES IS A CHRONIC DISEASE, CHARACTERIZED BY HYPERGLYCEMIA, WHICH REFERS TO THE ELEVATED LEVELS OF GLUCOSE IN THE BLOOD, DUE TO THE INABILITY OF THE BODY TO PRODUCE OR USE INSULIN EFFECTIVELY. CHRONIC HYPERGLYCEMIA LEVELS LEAD TO MACROVASCULAR AND MICROVASCULAR COMPLICATIONS. THE MACROVASCULAR COMPLICATIONS CONSIST OF PERIPHERAL ARTERY DISEASE (PAD), CARDIOVASCULAR DISEASES (CVD) AND CEREBROVASCULAR DISEASES, WHILE THE MICROVASCULAR COMPLICATIONS COMPRISE OF DIABETIC MICROANGIOPATHY, DIABETIC NEPHROPATHY, DIABETIC RETINOPATHY AND DIABETIC NEUROPATHY. VASCULAR ENDOTHELIAL DYSFUNCTION PLAYS A CRUCIAL ROLE IN MEDIATING BOTH MACROVASCULAR AND MICROVASCULAR COMPLICATIONS UNDER HYPERGLYCEMIC CONDITIONS. IN DIABETIC MICROVASCULATURE, THE INTRACELLULAR HYPERGLYCEMIA CAUSES DAMAGE TO THE VASCULAR ENDOTHELIUM THROUGH - (I) ACTIVATION OF FOUR BIOCHEMICAL PATHWAYS, NAMELY THE POLYOL PATHWAY, PROTEIN KINASE C (PKC) PATHWAY, ADVANCED GLYCATION END PRODUCTS (AGE) PATHWAY AND HEXOSAMINE PATHWAY, ALL OF WHICH COMMUTES GLUCOSE AND ITS INTERMEDIATES LEADING TO OVERPRODUCTION OF REACTIVE OXYGEN SPECIES, (II) DYSREGULATION OF GROWTH FACTORS AND CYTOKINES, (III) EPIGENETIC CHANGES WHICH CONCERN THE CHANGES IN DNA AS A RESPONSE TO INTRACELLULAR CHANGES, AND (IV) ABNORMALITIES IN NON-CODING RNAS, SPECIFICALLY MICRORNAS. THIS REVIEW WILL FOCUS ON GAINING AN UNDERSTANDING OF THE MOLECULAR COMPLEXITIES UNDERLYING THE VASCULAR COMPLICATIONS IN DIABETES MELLITUS, TO INCREASE OUR UNDERSTANDING TOWARDS THE DEVELOPMENT OF NEW MECHANISTIC THERAPEUTIC STRATEGIES TO PREVENT OR TREAT DIABETES-INDUCED VASCULAR COMPLICATIONS. 2020 9 2772 37 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 10 2694 30 EVOLVING SPECTRUM OF DIABETIC WOUND: MECHANISTIC INSIGHTS AND THERAPEUTIC TARGETS. DIABETES MELLITUS IS A CHRONIC METABOLIC DISORDER RESULTING IN AN INCREASED BLOOD GLUCOSE LEVEL AND PROLONGED HYPERGLYCEMIA, CAUSES LONG TERM HEALTH CONSE-QUENCES. CHRONIC WOUND IS FREQUENTLY OCCURRING IN DIABETES PATIENTS DUE TO COMPROMISED WOUND HEALING CAPABILITY. MANAGEMENT OF WOUNDS IN DIABETIC PATIENTS REMAINS A CLINICAL CHALLENGE DESPITE MANY ADVANCEMENTS IN THE FIELD OF SCIENCE AND TECHNOLOGY. INCREASING EVIDENCE INDICATES THAT ALTERATION OF THE BIOCHEMICAL MILIEU RESULTING FROM ALTERATION IN INFLAMMATORY CYTOKINES AND MATRIX METALLOPROTEINASE, DECREASE IN FIBROBLAST AND KERATINOCYTE FUNCTIONING, NEUROPATHY, ALTERED LEUKOCYTE FUNCTIONING, INFECTION, ETC., PLAYS A SIGNIFICANT ROLE IN IMPAIRED WOUND HEALING IN DIABETIC PEOPLE. APART FROM THE CURRENT PHARMACOTHERAPY, DIFFERENT OTHER APPROACHES LIKE THE USE OF CONVENTIONAL DRUGS, ANTIDIABETIC MEDICATION, ANTIBIOTICS, DEBRIDEMENT, OFFLOADING, PLATELET-RICH PLASMA, GROWTH FACTOR, OXYGEN THERAPY, NEGATIVE PRESSURE WOUND THERAPY, LOW-LEVEL LASER, EXTRACORPOREAL SHOCK WAVE BIOENGINEERED SUBSTITUTE CAN BE CONSIDERED IN THE MANAGEMENT OF DIABETIC WOUNDS. DRUGS/THERAPEUTIC STRATEGY THAT INDUCE ANGIOGENESIS AND COLLAGEN SYNTHESIS, INHIBITION OF MMPS, REDUCTION OF OXIDATIVE STRESS, CONTROLLING HYPERGLYCEMIA, INCREASE GROWTH FACTORS, REGULATE INFLAMMATORY CYTOKINES, CAUSE NO INDUCTION, INDUCE FIBROBLAST AND KERATINOCYTE PROLIFERATION, CONTROL MICROBIAL INFECTIONS ARE CONSIDERED IMPORTANT IN CONTROLLING DIABETIC WOUND. FURTHER, MEDICINAL PLANTS AND/OR PHYTOCONSTITUENTS ALSO OFFER A VIABLE ALTERNATIVE IN THE TREATMENT OF DIABETIC WOUND. THE FOCUS OF THE PRESENT REVIEW IS TO HIGHLIGHT THE MOLECULAR AND CELLULAR MECHANISMS, AND DISCUSS THE DRUG TARGETS AND TREATMENT STRATEGIES INVOLVED IN THE DIABETIC WOUND. 2022 11 6406 31 THE SEARCH FOR RELIABLE BIOMARKERS OF DISEASE IN MULTIPLE CHEMICAL SENSITIVITY AND OTHER ENVIRONMENTAL INTOLERANCES. WHILST FACING A WORLDWIDE FAST INCREASE OF FOOD AND ENVIRONMENTAL ALLERGIES, THE MEDICAL COMMUNITY IS ALSO CONFRONTED WITH ANOTHER INHOMOGENEOUS GROUP OF ENVIRONMENT-ASSOCIATED DISABLING CONDITIONS, INCLUDING MULTIPLE CHEMICAL SENSITIVITY (MCS), FIBROMYALGIA, CHRONIC FATIGUE SYNDROME, ELECTRIC HYPERSENSITIVITY, AMALGAM DISEASE AND OTHERS. THESE SHARE THE FEATURES OF POLY-SYMPTOMATIC MULTI-ORGAN CUTANEOUS AND SYSTEMIC MANIFESTATIONS, WITH POSTULATED INHERITED/ACQUIRED IMPAIRED METABOLISM OF CHEMICAL/PHYSICAL/NUTRITIONAL XENOBIOTICS, TRIGGERING ADVERSE REACTIONS AT EXPOSURE LEVELS FAR BELOW TOXICOLOGICALLY-RELEVANT VALUES, OFTEN IN THE ABSENCE OF CLEAR-CUT ALLERGOLOGIC AND/OR IMMUNOLOGIC INVOLVEMENT. DUE TO THE LACK OF PROVEN PATHOGENIC MECHANISMS GENERATING MEASURABLE DISEASE BIOMARKERS, THESE ENVIRONMENTAL HYPERSENSITIVITIES ARE GENERALLY IGNORED BY SANITARY AND SOCIAL SYSTEMS, AS PSYCHOGENIC OR "MEDICALLY UNEXPLAINED SYMPTOMS". THE UNCONTROLLED APPLICATION OF DIAGNOSTIC AND TREATMENT PROTOCOLS NOT CORRESPONDING TO ACCEPTABLE LEVELS OF VALIDATION, SAFETY, AND CLINICAL EFFICACY, TO A STEADILY INCREASING NUMBER OF PATIENTS DEMANDING ASSISTANCE, OCCURS IN MANY COUNTRIES IN THE ABSENCE OF EVIDENCE-BASED GUIDELINES. HERE WE REVISE AVAILABLE INFORMATION SUPPORTING THE ORGANIC NATURE OF THESE CLINICAL CONDITIONS. FOLLOWING INTENSE RESEARCH ON GENE POLYMORPHISMS OF PHASE I/II DETOXIFICATION ENZYME GENES, SO FAR STATISTICALLY INCONCLUSIVE, EPIGENETIC AND METABOLIC FACTORS ARE UNDER INVESTIGATION, IN PARTICULAR FREE RADICAL/ANTIOXIDANT HOMEOSTASIS DISTURBANCES. THE FINDING OF RELEVANT ALTERATIONS OF CATALASE, GLUTATHIONE-TRANSFERASE AND PEROXIDASE DETOXIFYING ACTIVITIES SIGNIFICANTLY CORRELATING WITH CLINICAL MANIFESTATIONS OF MCS, HAS RECENTLY REGISTERED SOME PROGRESS TOWARDS THE IDENTIFICATION OF RELIABLE BIOMARKERS OF DISEASE ONSET, PROGRESSION, AND TREATMENT OUTCOMES. 2011 12 6038 33 THE CHEMICAL DEFENSIVE SYSTEM IN THE PATHOBIOLOGY OF IDIOPATHIC ENVIRONMENT-ASSOCIATED DISEASES. CHEMICAL DEFENSIVE SYSTEM CONSISTING OF BIO-SENSORING, TRANSMITTING, AND RESPONSIVE ELEMENTS HAS BEEN EVOLVED TO PROTECT MULTI-CELLULAR ORGANISMS AGAINST ENVIRONMENTAL CHEMICAL INSULTS (XENOBIOTICS) AND TO MAINTAIN HOMEOSTASIS OF ENDOGENOUS LOW MOLECULAR WEIGHT METABOLITES (ENDOBIOTICS). BOTH GENETIC AND EPIGENETIC DEFECTS OF THE SYSTEM IN ASSOCIATION WITH CARCINOGENESIS AND INDIVIDUAL SENSITIVITY TO ANTI-TUMOR THERAPIES HAVE BEEN INTENSELY STUDIED. RECENTLY, SEVERAL NON-TUMOR HUMAN PATHOLOGIES WITH EVIDENT ENVIRONMENTAL COMPONENTS SUCH AS RATHER RARE FUNCTIONAL SYNDROMES (MULTIPLE CHEMICAL SENSITIVITY, CHRONIC FATIGUE, PERSIAN GULF, AND FIBROMYALGIA NOW COLLECTIVELY LABELED AS IDIOPATHIC ENVIRONMENTAL INTOLERANCES) AND COMMON DISEASES (VITILIGO AND SYSTEMIC LUPUS ERYTHEMATOSUS) HAVE BECOME SUBJECTS OF THE RESEARCH ON THE IMPAIRED METABOLISM AND DETOXIFICATION OF XENOBIOTICS AND ENDOGENOUS TOXINS. HERE, WE COLLECTED AND CRITICALLY REVIEWED EPIDEMIOLOGICAL, GENETIC, AND BIOCHEMICAL DATA ON THE INVOLVEMENT AND POSSIBLE ROLE OF CYTOCHROME P450 SUPER FAMILY ENZYMES, GLUTATHIONE-S-TRANSFERASE ISOZYMES, CATECHOL-O-METHYL-TRANSFERASE, UDP-GLUCURONOSYL TRANSFERASES, AND PROTEINS DETOXIFYING INORGANIC AND ORGANIC PEROXIDES (CATALASE, GLUTATHIONE PEROXIDASE, AND PEROXIREDOXIN) IN THE ABOVE PATHOLOGIES. GENETIC PREDISPOSITION ASSESSED MAINLY BY SINGLE NUCLEOTIDE POLYMORPHISM AND GENE EXPRESSION ANALYSES REVEALED CORRELATIONS BETWEEN DEFECTS IN GENES ENCODING XENOBIOTIC-METABOLIZING AND/OR DETOXIFYING ENZYMES AND RISK/SEVERITY OF THESE SYNDROMES/DISEASES. PROTEOME ANALYSIS IDENTIFIED ABNORMAL EXPRESSION OF THE ENZYMES. THEIR FUNCTIONS WERE AFFECTED EPIGENETICALLY LEADING TO METABOLIC IMPAIRMENT AND, AS A CONSEQUENCE, TO THE NEGATIVE HEALTH OUTCOMES SHARED BY SOME OF THESE PATHOLOGIES. DATA OBTAINED SO FAR SUGGEST THAT DISTINCT COMPONENTS OF THE CHEMICAL DEFENSIVE SYSTEM COULD BE SUITABLE MOLECULAR TARGETS FOR FUTURE PATHOGENIC THERAPIES. 2009 13 799 38 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 14 429 26 ANTI-INFLAMMATORY TOPICAL MEDICATION - NEW DEVELOPMENTS IN THE TREATMENT OF ATOPIC DERMATITIS. ATOPIC DERMATITIS IS A CHRONIC INFLAMMATORY DISEASE THAT ARISES FROM POLYGENIC DISPOSITION, A DYSFUNCTION OF THE PHYSICOCHEMICAL EPITHELIAL BARRIER, A CUTANEOUS DYSBIOSIS, AND A FAULTY NEUROSENSORY ACTIVITY AND SHOWS A HIGHLY INDIVIDUAL ACUITY DUE TO EPIGENETIC FACTORS. AN ESSENTIAL COMPONENT OF THERAPEUTIC MANAGEMENT IS THE APPLICATION OF ANTI-INFLAMMATORY TOPICAL MEDICATION. CURRENTLY, TOPICAL GLUCOCORTICOIDS AND TOPICAL CALCINEURIN INHIBITORS ARE ROUTINELY USED IN REACTIVE AND PROACTIVE THERAPY. IN RECENT YEARS, THE DEVELOPMENT OF MOLECULAR MEDICINE HAS IDENTIFIED SEVERAL NEW THERAPEUTIC TARGETS THAT HAVE ENABLED THE DEVELOPMENT OF INNOVATIVE THERAPEUTIC APPROACHES. IN ADDITION TO PHOSPHODIESTERASE-4 INHIBITORS AND ARYL HYDROCARBON RECEPTOR MODULATORS, IT IS MAINLY JANUS KINASE INHIBITORS WITH DIFFERENT SELECTIVITY THAT ARE EMERGING AS NEW EFFECTIVE AND SAFE OPTIONS FOR TOPICAL THERAPY. THE CURRENT DATA SUGGESTS THAT IN THE COMING MONTHS AND YEARS REPRESENTATIVES OF THE ABOVE-MENTIONED SUBSTANCE CLASSES WILL BE APPROVED FOR TOPICAL USE. 2021 15 1446 30 DIGESTED CINNAMON (CINNAMOMUM VERUM J. PRESL) BARK EXTRACT MODULATES CLAUDIN-2 GENE EXPRESSION AND PROTEIN LEVELS UNDER TNFALPHA/IL-1BETA INFLAMMATORY STIMULUS. EPIGENETIC CHANGES, HOST-GUT MICROBIOTA INTERACTIONS, AND ENVIRONMENTAL FACTORS CONTRIBUTE TO INFLAMMATORY BOWEL DISEASE (IBD) ONSET AND PROGRESSION. A HEALTHY LIFESTYLE MAY HELP TO SLOW DOWN THE CHRONIC OR REMITTING/RELAPSING INTESTINAL TRACT INFLAMMATION CHARACTERISTIC OF IBD. IN THIS SCENARIO, THE EMPLOYMENT OF A NUTRITIONAL STRATEGY TO PREVENT THE ONSET OR SUPPLEMENT DISEASE THERAPIES INCLUDED FUNCTIONAL FOOD CONSUMPTION. ITS FORMULATION CONSISTS OF THE ADDITION OF A PHYTOEXTRACT ENRICHED IN BIOACTIVE MOLECULES. A GOOD CANDIDATE AS AN INGREDIENT IS THE CINNAMON VERUM AQUEOUS EXTRACT. INDEED, THIS EXTRACT, SUBJECTED TO A PROCESS OF GASTROINTESTINAL DIGESTION SIMULATION (INFOGEST), EXHIBITS BENEFICIAL ANTIOXIDANT AND ANTI-INFLAMMATORY PROPERTIES IN AN IN VITRO MODEL OF THE INFLAMED INTESTINAL BARRIER. HERE, WE DEEPEN THE STUDY OF THE MECHANISMS RELATED TO THE EFFECT OF DIGESTED CINNAMON EXTRACT PRE-TREATMENT, SHOWING A CORRELATION BETWEEN TRANSEPITHELIAL ELECTRICAL RESISTANCE (TEER) DECREMENT AND ALTERATIONS IN CLAUDIN-2 EXPRESSION UNDER TUMOR NECROSIS FACTOR-ALPHA/INTERLEUKIN-1BETA (TNF-ALPHA/IL-1) BETA CYTOKINE ADMINISTRATION. OUR RESULTS SHOW THAT PRE-TREATMENT WITH CINNAMON EXTRACT PREVENTS TEER LOSS BY CLAUDIN-2 PROTEIN LEVEL REGULATION, INFLUENCING BOTH GENE TRANSCRIPTION AND AUTOPHAGY-MEDIATED DEGRADATION. HENCE, CINNAMON POLYPHENOLS AND THEIR METABOLITES PROBABLY WORK AS MEDIATORS IN GENE REGULATION AND RECEPTOR/PATHWAY ACTIVATION, LEADING TO AN ADAPTIVE RESPONSE AGAINST RENEWED INSULTS. 2023 16 5387 30 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 17 6438 32 THERAPEUTIC AND PREVENTIVE INTERVENTIONS FOR POSTULATED VASOACTIVE NEUROPEPTIDE AUTOIMMUNE FATIGUE-RELATED DISORDERS. MAJOR ADVANCES HAVE BEEN MADE IN UNDERSTANDING THE RELATIVELY NOVEL GROUP OF VASOACTIVE (VASODILATORY) NEUROPEPTIDES (VNS) IN HUMANS. VNS COMPRISE A NOVEL BUT EXPANDING GROUP OF SUBSTANCES HAVING IMMUNOREGULATION, INFLAMMATION MODULATION, NEUROTRANSMITTER, NEUROTROPHIC, HORMONAL AND METABOLIC FUNCTIONS. THESE SUBSTANCES MAY CONTROL GENE EXPRESSION FOR MRNA FOR THEMSELVES AND THEIR RECEPTORS. THEY HAVE COMPLEX RELATIONSHIPS WITH GASEOUS AND OTHER NEUROTRANSMITTERS AND XENOBIOTIC SUBSTANCES. THEORETICAL ARGUMENTS HAVE IMPLICATED THESE SUBSTANCES IN AUTOIMMUNE PHENOMENA RESULTING IN FATIGUE-RELATED CONDITIONS SUCH AS CHRONIC FATIGUE SYNDROME (CFS), SUDDEN INFANT DEATH SYNDROME (SIDS), FIBROMYALGIA (FM) AND GULF WAR SYNDROME (GWS) BUT REMAIN UNPROVEN. AS WELL AS POSSIBLY SPONTANEOUS ONSET, THE PRECIPITATING CAUSES OF VN AUTOIMMUNE DYSFUNCTION ARE LIKELY TO BE A COMBINATION OF GENETIC PREDISPOSITION, INFECTION AND XENOBIOTIC SUBSTANCES. THERAPEUTIC AND PREVENTIVE POSSIBILITIES FOR POSTULATED VN AUTOIMMUNE CONDITIONS WILL BE INFLUENCED BY THE COMPLEX PATHOLOPHYSIOLOGY UNDERPINNING THEM. SOME SPECULATIVE POSSIBILITIES ARE VN SUBSTITUTION/REPLACEMENT, PRESERVATION OF BIOLOGICAL EFFECT, EPIGENETIC DNA MODIFICATIONS, PLASMA EXCHANGE, ANTI-CHOLINESTERASES, E.G., PYRIDOSTIGMINE, CORTICOSTEROIDS AND OTHER DRUG TREATMENTS, THYMECTOMY, INTRAVENOUS IMMUNOGLOBULIN AND ANTI-IDIOTYPE ANTIBODIES, AND CPG/DNA VACCINES. PREVENTION AND TREATMENT OF POSSIBLE VN AUTOIMMUNE FATIGUE-RELATED DISORDERS MAY PROVE TO BE IMPORTANT AREAS FOR FUTURE RESEARCH AND DEVELOPMENT. 2005 18 2950 28 GENETIC AND EPIGENETIC DAMAGE INDUCED BY REACTIVE NITROGEN SPECIES: IMPLICATIONS IN CARCINOGENESIS. CHRONIC INFECTION AND INFLAMMATION ARE RECOGNIZED RISK FACTORS FOR HUMAN CANCER AT VARIOUS SITES. INFECTION AND INFLAMMATION CAN ACTIVATE AND INDUCE A VARIETY OF OXIDANT-GENERATING ENZYMES, INCLUDING NADPH OXIDASE AND INDUCIBLE NITRIC OXIDE SYNTHASE. REACTIVE OXYGEN AND NITROGEN SPECIES PRODUCED BY SUCH ENZYMES REACT WITH EACH OTHER TO GENERATE NEW AND MORE POTENT REACTIVE SPECIES. THESE OXIDANTS NOT ONLY CAN DAMAGE DNA AND INDUCE MUTATIONS, BUT ALSO CAN ACTIVATE ONCOGENE PRODUCTS AND/OR INACTIVATE TUMOR-SUPPRESSOR PROTEINS, THUS CONTRIBUTING TO MOST PROCESSES OF CARCINOGENESIS. APPROPRIATE TREATMENT OF INFLAMMATION SHOULD BE FURTHER EXPLORED FOR CHEMOPREVENTION OF HUMAN CANCERS, ESPECIALLY THOSE ASSOCIATED WITH CHRONIC INFLAMMATION. 2003 19 4652 32 NEUROPROTECTION WITH NATURAL ANTIOXIDANTS AND NUTRACEUTICALS IN THE CONTEXT OF BRAIN CELL DEGENERATION: THE EPIGENETIC CONNECTION. BIOACTIVE ANTIOXIDANT AGENTS PRESENT IN SELECTED PLANTS ARE KNOWN TO PROVIDE THE FIRST LINE OF BIOLOGICAL DEFENSE AGAINST OXIDATIVE STRESS. IN PARTICULAR, SOLUBLE VITAMIN C, E, CAROTENOIDS AND PHENOLIC COMPOUNDS HAVE DEMONSTRATED CRUCIAL BIOLOGICAL EFFECTS IN CELLS AGAINST OXIDATIVE DAMAGE, PREVENTING PREVALENT CHRONIC DISEASES, SUCH AS DIABETES, CANCER AND CARDIOVASCULAR DISEASE. THE REPORTED WIDE RANGE OF EFFECTS THAT INCLUDED ANTI-AGING, ANTI-ATHEROSCLEROSIS, ANTI-INFLAMMATORY AND ANTICANCER ACTIVITY WERE STUDIED AGAINST DEGENERATIVE PATHOLOGIES OF THE BRAIN. VITAMINS AND DIFFERENT PHYTOCHEMICALS ARE IMPORTANT EPIGENETIC MODIFIERS THAT PREVENT NEURODEGENERATION. IN ORDER TO EXPLORE THE POTENTIAL ANTIOXIDANT SOURCES IN FUNCTIONAL FOODS AND NUTRACEUTICALS AGAINST NEURODEGENERATION, THE PRESENT PAPER AIMS TO SHOW A COMPREHENSIVE ASSESSMENT OF ANTIOXIDANT ACTIVITY AT CHEMICAL AND CELLULAR LEVELS. THE EFFECTS OF THE DIFFERENT BIOACTIVE COMPOUNDS AVAILABLE AND THEIR ANTIOXIDANT ACTIVITY THROUGH AN EPIGENETIC POINT OF VIEW ARE ALSO DISCUSSED. 2019 20 6374 43 THE ROLE OF MITOCHONDRIA IN MYOCARDIAL DAMAGE CAUSED BY ENERGY METABOLISM DISORDERS: FROM MECHANISMS TO THERAPEUTICS. MYOCARDIAL DAMAGE IS THE MOST SERIOUS PATHOLOGICAL CONSEQUENCE OF CARDIOVASCULAR DISEASES AND AN IMPORTANT REASON FOR THEIR HIGH MORTALITY. IN RECENT YEARS, BECAUSE OF THE HIGH PREVALENCE OF SYSTEMIC ENERGY METABOLISM DISORDERS (E.G., OBESITY, DIABETES MELLITUS, AND METABOLIC SYNDROME), COMPLICATIONS OF MYOCARDIAL DAMAGE CAUSED BY THESE DISORDERS HAVE ATTRACTED WIDESPREAD ATTENTION. ENERGY METABOLISM DISORDERS ARE INDEPENDENT OF TRADITIONAL INJURY-RELATED RISK FACTORS, SUCH AS ISCHEMIA, HYPOXIA, TRAUMA, AND INFECTION. AN IMBALANCE OF MYOCARDIAL METABOLIC FLEXIBILITY AND MYOCARDIAL ENERGY DEPLETION ARE USUALLY THE INITIAL CHANGES OF MYOCARDIAL INJURY CAUSED BY ENERGY METABOLISM DISORDERS, AND ABNORMAL MORPHOLOGY AND FUNCTIONAL DESTRUCTION OF THE MITOCHONDRIA ARE THEIR IMPORTANT FEATURES. SPECIFICALLY, MITOCHONDRIA ARE THE CENTERS OF ENERGY METABOLISM, AND RECENT EVIDENCE HAS SHOWN THAT DECREASED MITOCHONDRIAL FUNCTION, CAUSED BY AN IMBALANCE IN MITOCHONDRIAL QUALITY CONTROL, MAY PLAY A KEY ROLE IN MYOCARDIAL INJURY CAUSED BY ENERGY METABOLISM DISORDERS. UNDER CHRONIC ENERGY STRESS, MITOCHONDRIA UNDERGO PATHOLOGICAL FISSION, WHILE MITOPHAGY, MITOCHONDRIAL FUSION, AND BIOGENESIS ARE INHIBITED, AND MITOCHONDRIAL PROTEIN BALANCE AND TRANSFER ARE DISTURBED, RESULTING IN THE ACCUMULATION OF NONFUNCTIONAL AND DAMAGED MITOCHONDRIA. CONSEQUENTLY, DAMAGED MITOCHONDRIA LEAD TO MYOCARDIAL ENERGY DEPLETION AND THE ACCUMULATION OF LARGE AMOUNTS OF REACTIVE OXYGEN SPECIES, FURTHER AGGRAVATING THE IMBALANCE IN MITOCHONDRIAL QUALITY CONTROL AND FORMING A VICIOUS CYCLE. IN ADDITION, IMPAIRED MITOCHONDRIA COORDINATE CALCIUM HOMEOSTASIS IMBALANCE, AND EPIGENETIC ALTERATIONS PARTICIPATE IN THE PATHOGENESIS OF MYOCARDIAL DAMAGE. THESE PATHOLOGICAL CHANGES INDUCE RAPID PROGRESSION OF MYOCARDIAL DAMAGE, EVENTUALLY LEADING TO HEART FAILURE OR SUDDEN CARDIAC DEATH. TO INTERVENE MORE SPECIFICALLY IN THE MYOCARDIAL DAMAGE CAUSED BY METABOLIC DISORDERS, WE NEED TO UNDERSTAND THE SPECIFIC ROLE OF MITOCHONDRIA IN THIS CONTEXT IN DETAIL. ACCORDINGLY, PROMISING THERAPEUTIC STRATEGIES HAVE BEEN PROPOSED. WE ALSO SUMMARIZE THE EXISTING THERAPEUTIC STRATEGIES TO PROVIDE A REFERENCE FOR CLINICAL TREATMENT AND DEVELOPING NEW THERAPIES. 2023