1 4486 112 MOLECULAR, GENETIC AND EPIGENETIC PATHWAYS OF PEROXYNITRITE-INDUCED CELLULAR TOXICITY. OXIDATIVE STRESS PLAYS A KEY ROLE IN THE PATHOGENESIS OF CANCER AND MANY METABOLIC DISEASES; THEREFORE, AN EFFECTIVE ANTIOXIDANT THERAPY WOULD BE OF GREAT IMPORTANCE IN THESE CIRCUMSTANCES. NEVERTHELESS, CONVINCING RANDOMIZED CLINICAL TRIALS REVEALED THAT ANTIOXIDANT SUPPLEMENTATIONS WERE NOT ASSOCIATED WITH SIGNIFICANT REDUCTION IN INCIDENCE OF CANCER, CHRONIC DISEASES AND ALL-CAUSE MORTALITY. AS OXIDATION OF ESSENTIAL MOLECULES CONTINUES, IT TURNS TO NITRO-OXIDATIVE STRESS BECAUSE OF THE INVOLVEMENT OF NITRIC OXIDE IN PATHOGENESIS PROCESSES. PEROXYNITRITE DAMAGES VIA SEVERAL DISTINCTIVE MECHANISMS; FIRST, IT HAS DIRECT TOXIC EFFECTS ON ALL BIOMOLECULES AND CAUSES LIPID PEROXIDATION, PROTEIN OXIDATION AND DNA DAMAGE. THE SECOND MECHANISM INVOLVES THE INDUCTION OF SEVERAL TRANSCRIPTION FACTORS LEADING TO CYTOKINE-INDUCED CHRONIC INFLAMMATION. FINALLY, IT CAUSES EPIGENETIC PERTURBATIONS THAT EXAGGERATE NUCLEAR FACTOR KAPPA-B MEDIATED INFLAMMATORY GENE EXPRESSION. LESSONS-LEARNED FROM THE TREATMENT OF SEVERAL CHRONIC DISORDERS INCLUDING PULMONARY DISEASES SUGGEST THAT, CHRONIC INFLAMMATION AND GLUCOCORTICOID RESISTANCE ARE REGULATED BY PROLONGED PEROXYNITRITE PRODUCTION. 2009 2 4704 29 NITRATION OF DISTINCT TYROSINE RESIDUES CAUSES INACTIVATION OF HISTONE DEACETYLASE 2. HISTONE DEACETYLASES (HDACS) ARE KEY MOLECULES INVOLVED IN EPIGENETIC REGULATION OF GENE EXPRESSION. WE HAVE PREVIOUSLY DEMONSTRATED THAT OXIDATIVE STRESS CAUSED A REDUCTION IN HDAC2, RESULTING IN AMPLIFIED INFLAMMATION AND REDUCED CORTICOSTEROID RESPONSIVENESS. HERE WE SHOWED NITRATIVE/OXIDATIVE STRESS REDUCED HDAC2 EXPRESSION VIA NITRATION OF DISTINCT TYROSINE RESIDUES. PEROXYNITRITE, HYDROGEN PEROXIDE AND CIGARETTE SMOKE-CONDITIONED MEDIUM REDUCED HDAC2 EXPRESSION IN A549 EPITHELIAL CELLS IN VITRO. THIS REDUCTION WAS DUE TO INCREASED PROTEASOMAL DEGRADATION FOLLOWING UBIQUITINATION RATHER THAN REDUCTION OF MRNA EXPRESSION OR STABILITY. HDAC2 WAS NITRATED UNDER NITRATIVE/OXIDATIVE STRESS AND IN THE PERIPHERAL LUNG TISSUES OF SMOKERS AND PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE. MUTAGENESIS STUDIES REPLACING TYROSINE (Y) RESIDUES WITH ALANINE REVEALED THAT Y253 IS AT LEAST PARTLY RESPONSIBLE FOR THE PROTEASOMAL DEGRADATION OF HDAC2 UNDER NITRATIVE STRESS. THUS, NITRATION OF DISTINCT TYROSINE RESIDUES MODIFIES BOTH THE EXPRESSION AND ACTIVITY OF HDAC2, HAVING AN IMPACT ON EPIGENETIC REGULATION. 2009 3 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 4 5046 40 PHARMACOLOGICAL AND DIETARY ANTIOXIDANT THERAPIES FOR CHRONIC OBSTRUCTIVE PULMONARY DISEASE. THE PROGRESSION AND EXACERBATIONS OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) ARE INTIMATELY ASSOCIATED WITH TOBACCO SMOKE/BIOMASS FUEL-INDUCED OXIDATIVE AND ALDEHYDE/CARBONYL STRESS. ALTERATIONS IN REDOX SIGNALING PROINFLAMMATORY KINASES AND TRANSCRIPTION FACTORS, STEROID RESISTANCE, UNFOLDED PROTEIN RESPONSE, MUCUS HYPERSECRETION, EXTRACELLULAR MATRIX REMODELING, AUTOPHAGY/APOPTOSIS, EPIGENETIC CHANGES, CELLULAR SENESCENCE/AGING, ENDOTHELIAL DYSFUNCTION, AUTOIMMUNITY, AND SKELETAL MUSCLE DYSFUNCTION ARE SOME OF THE PATHOLOGICAL HALLMARKS OF COPD. IN LIGHT OF THE ABOVE IT WOULD BE PRUDENT TO TARGET SYSTEMIC AND LOCAL OXIDATIVE STRESS WITH AGENTS THAT CAN MODULATE THE ANTIOXIDANTS/ REDOX SYSTEM OR BY BOOSTING THE ENDOGENOUS LEVELS OF ANTIOXIDANTS FOR THE TREATMENT AND MANAGEMENT OF COPD. IDENTIFICATION OF VARIOUS ANTIOXIDANT AGENTS, SUCH AS THIOL MOLECULES (GLUTATHIONE AND MUCOLYTIC DRUGS, SUCH AS N-ACETYL-L-CYSTEINE, N-ACYSTELYN, ERDOSTEINE, FUDOSTEINE, ERGOTHIONEINE, AND CARBOCYSTEINE LYSINE SALT), DIETARY NATURAL PRODUCT-DERIVED POLYPHENOLS AND OTHER COMPOUNDS (CURCUMIN, RESVERATROL, GREEN TEA CATECHINS, QUERCETIN SULFORAPHANE, LYCOPENE, ACAI, ALPHA-LIPOIC ACID, TOCOTRIENOLS, AND APOCYNIN) HAVE MADE IT POSSIBLE TO MODULATE VARIOUS BIOCHEMICAL ASPECTS OF COPD. VARIOUS RESEARCHES AND CLINICAL TRIALS HAVE REVEALED THAT THESE ANTIOXIDANTS CAN DETOXIFY FREE RADICALS AND OXIDANTS, CONTROL EXPRESSION OF REDOX AND GLUTATHIONE BIOSYNTHESIS GENES, CHROMATIN REMODELING, AND ULTIMATELY INFLAMMATORY GENE EXPRESSION. IN ADDITION, MODULATION OF CIGARETTE SMOKE-INDUCED OXIDATIVE STRESS AND RELATED CELLULAR CHANGES HAVE ALSO BEEN REPORTED TO BE EFFECTED BY SYNTHETIC MOLECULES. THIS INCLUDES SPECIFIC SPIN TRAPS LIKE ALPHA-PHENYL-N-TERT-BUTYL NITRONE, A CATALYTIC ANTIOXIDANT (ECSOD MIMETIC), PORPHYRINS (AEOL 10150 AND AEOL 10113), AND A SUPEROXIDE DISMUTASE MIMETIC M40419, LIPID PEROXIDATION AND PROTEIN CARBONYLATION BLOCKERS/INHIBITORS, SUCH AS EDARAVONE AND LAZAROIDS/TIRILAZAD, MYELOPEROXIDASE INHIBITORS, AS WELL AS SPECIALIZED PRO-RESOLVING MEDIATORS/INFLAMMATORY RESOLVING LIPID MEDIATORS, OMEGA-3 FATTY ACIDS, VITAMIN D, AND HYDROGEN SULFIDE. ACCORDING TO VARIOUS STUDIES IT APPEARS THAT THE ADMINISTRATION OF MULTIPLE ANTIOXIDANTS COULD BE A MORE EFFECTIVE MODE USED IN THE TREATMENT OF COPD. IN THIS REVIEW, VARIOUS PHARMACOLOGICAL AND DIETARY APPROACHES TO ENHANCE LUNG ANTIOXIDANT LEVELS AND BENEFICIAL EFFECTS OF ANTIOXIDANT THERAPEUTICS IN TREATING OR INTERVENING THE PROGRESSION OF COPD HAVE BEEN DISCUSSED. 2013 5 4761 30 NRF2 SENSITIZES FERROPTOSIS THROUGH L-2-HYDROXYGLUTARATE-MEDIATED CHROMATIN MODIFICATIONS IN SICKLE CELL DISEASE. SICKLE CELL DISEASE (SCD) IS A CHRONIC HEMOLYTIC AND SYSTEMIC HYPOXIA CONDITION WITH CONSTANT OXIDATIVE STRESS AND SIGNIFICANT METABOLIC ALTERATIONS. HOWEVER, LITTLE IS KNOWN ABOUT THE CORRELATION BETWEEN METABOLIC ALTERATIONS AND THE PATHOPHYSIOLOGICAL SYMPTOMS. HERE, WE REPORT THAT NRF2, A MASTER REGULATOR OF CELLULAR ANTIOXIDANT RESPONSES, REGULATES THE PRODUCTION OF THE METABOLITE L-2-HYDROXYGLUTARATE (L2HG) TO MEDIATE EPIGENETIC HISTONE HYPERMETHYLATION FOR GENE EXPRESSION INVOLVED IN METABOLIC, OXIDATIVE, AND FERROPTOTIC STRESS RESPONSES IN SCD. MECHANISTICALLY, NRF2 WAS FOUND TO REGULATE THE EXPRESSION OF L2HG DEHYDROGENASE (L2HGDH) TO MEDIATE L2HG PRODUCTION UNDER HYPOXIA. GENE EXPRESSION PROFILE ANALYSIS INDICATED THAT REACTIVE OXYGEN SPECIES (ROS) AND FERROPTOSIS RESPONSES WERE THE MOST SIGNIFICANTLY AFFECTED SIGNALING PATHWAYS AFTER NRF2 ABLATION IN SCD. NRF2 SILENCING AND L2HG SUPPLEMENTATION SENSITIZE HUMAN SICKLE ERYTHROID CELLS TO ROS AND FERROPTOSIS STRESS. THE ABSENCE OF NRF2 AND ACCUMULATION OF L2HG SIGNIFICANTLY AFFECT HISTONE METHYLATION FOR CHROMATIN STRUCTURE MODIFICATION AND REDUCE THE ASSEMBLY OF TRANSCRIPTION COMPLEXES ON DOWNSTREAM TARGET GENES TO REGULATE ROS AND FERROPTOSIS RESPONSES. FURTHERMORE, PHARMACOLOGICAL ACTIVATION OF NRF2 WAS FOUND TO HAVE PROTECTIVE EFFECTS AGAINST ROS AND FERROPTOSIS STRESS IN SCD MICE. OUR DATA SUGGEST A NOVEL MECHANISM BY WHICH NRF2 REGULATES L2HG LEVELS TO MEDIATE SCD SEVERITY THROUGH ROS AND FERROPTOSIS STRESS RESPONSES, SUGGESTING THAT TARGETING NRF2 IS A VIABLE THERAPEUTIC STRATEGY FOR AMELIORATING SCD SYMPTOMS. 2023 6 6285 32 THE POTENTIAL OF LIPID-POLYMER NANOPARTICLES AS EPIGENETIC AND ROS CONTROL APPROACHES FOR COPD. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A LUNG DISEASE CAUSED BY AN INFLAMMATORY RESPONSE TO VARIOUS INHALED TOXINS, ESPECIALLY CIGARETTE SMOKE. REACTIVE OXYGEN SPECIES (ROS) AND EPIGENETIC ABNORMALITY ARE INTIMATELY RELATED TO THE PATHOLOGY OF COPD, AND THE OVERPRODUCTION OF ROS RESULTS IN A DECREASE OF HISTONE DEACETYLASE 2 (HDAC2), LEADING TO GLUCOCORTICOID RESISTANCE. THEREFORE, A NOVEL TREATMENT THAT SIMULTANEOUSLY REDUCES ROS LEVEL AND GLUCOCORTICOID RESISTANCE IS URGENTLY NEEDED. IN THIS STUDY, WE DEVELOPED A CODELIVERY SYSTEM USING CORE-SHELL TYPE LIPID-POLYMER NANOPARTICLES (LPNS) COMPOSED OF A POLY(LACTIC ACID) (PLA) CORE ENCAPSULATING A POTENT ANTIOXIDANT MN-PORPHYRIN DIMER (MNPD) AND A CATIONIC LIPID (DOTAP) SHELL THAT BINDS HDAC2-ENCODING PLASMID DNA (PHDAC2), AS A NEW THERAPEUTIC APPROACH TOWARD COPD. THE TRANSFECTION OF PHDAC2 COMBINED WITH THE ELIMINATION OF ROS BY MNPD EXHIBITED A SIGNIFICANT ENHANCEMENT OF INTRACELLULAR HDAC2 EXPRESSION LEVELS, SUGGESTING THAT THE MULTI-ANTIOXIDATIVE ACTIVITY OF MNPD PLAYS A CRUCIAL ROLE IN THE EXPRESSION OF HDAC2. MOREOVER, TREATMENT WITH LPNS EFFICIENTLY AMELIORATED THE STEROID RESISTANCE IN COPD MODELS IN VITRO AS EVIDENCED BY THE LOWERED EXPRESSION LEVELS OF IL-8. RECOVERY FROM MITOCHONDRIAL DYSFUNCTION MAY BE THE MECHANISM UNDERLYING THE ACTION OF LPNS. THE PLA-MNPD/DOTAP/PHDAC2 SYSTEM PROPOSED OFFERS A NEW THERAPEUTIC APPROACH FOR COPD BASED ON THE SYNERGISM OF ROS ELIMINATION AND HDAC2 EXPRESSION. 2020 7 2959 25 GENETIC AND EPIGENETIC INSTABILITY INDUCED BY BETEL QUID ASSOCIATED CHEMICALS. OVER THE YEARS, BETEL QUID CHEWING AND TOBACCO USE HAVE ATTRACTED CONSIDERABLE INTEREST AS THEY ARE IMPLICATED AS THE MOST LIKELY CAUSATIVE RISK FACTORS OF ORAL AND ESOPHAGEAL CANCERS. ALTHOUGH ARECA NUT USE AND BETEL QUID CHEWING MAY LEAD TO APOPTOSIS, CHRONIC EXPOSURE TO ARECA NUT AND SLAKED LIME MAY PROMOTE PRE-MALIGNANT AND MALIGNANT TRANSFORMATION OF ORAL CELLS. THE PUTATIVE MUTAGENIC AND CARCINOGENIC MECHANISMS MAY INVOLVE ENDOGENOUS NITROSATION OF ARECA AND TOBACCO ALKALOIDS AS WELL AS THE PRESENCE OF DIRECT ALKYLATING AGENTS IN BETEL QUID AND SMOKELESS TOBACCO. METABOLIC ACTIVATION OF CARCINOGENIC N-NITROSAMINES BY PHASE-I ENZYMES IS REQUIRED NOT ONLY TO ELICIT THE GENOTOXICITY VIA THE REACTIVE INTERMEDIATES BUT ALSO TO POTENTIATE THE MUTAGENICITY WITH THE SPORADIC ALKYLATIONS OF NUCLEOTIDE BASES, RESULTING IN THE FORMATION OF DIVERSE DNA ADDUCTS. PERSISTENT DNA ADDUCTS PROVIDES THE IMPETUS FOR GENETIC AND EPIGENETIC LESIONS. THE GENETIC AND EPIGENETIC FACTORS CUMULATIVELY INFLUENCE THE DEVELOPMENT AND PROGRESSION OF DISORDERS SUCH AS CANCER. ACCUMULATION OF NUMEROUS GENETIC AND EPIGENETIC ABERRATIONS DUE TO LONG-TERM BETEL QUID (WITH OR WITHOUT TOBACCO) CHEWING AND TOBACCO USE CULMINATES INTO THE DEVELOPMENT OF HEAD AND NECK CANCERS. WE REVIEW RECENT EVIDENCE THAT SUPPORTS PUTATIVE MECHANISMS FOR MUTAGENICITY AND CARCINOGENICITY OF BETEL QUID CHEWING ALONG WITH TOBACCO (SMOKING AND SMOKELESS) USE. THE DETAILED MOLECULAR MECHANISMS OF THE EXTENT OF ACCUMULATION AND PATTERNS OF GENETIC ALTERATIONS, INDICATIVE OF THE PRIOR EXPOSURE TO CARCINOGENS AND ALKYLATING AGENTS BECAUSE OF BQ CHEWING AND TOBACCO USE, HAVE NOT YET BEEN ELUCIDATED. 2023 8 5449 24 REPRESSION OF THE ANTIOXIDANT NRF2 PATHWAY IN PREMATURE AGING. HUTCHINSON-GILFORD PROGERIA SYNDROME (HGPS) IS A RARE, INVARIABLY FATAL PREMATURE AGING DISORDER. THE DISEASE IS CAUSED BY CONSTITUTIVE PRODUCTION OF PROGERIN, A MUTANT FORM OF THE NUCLEAR ARCHITECTURAL PROTEIN LAMIN A, LEADING, THROUGH UNKNOWN MECHANISMS, TO DIVERSE MORPHOLOGICAL, EPIGENETIC, AND GENOMIC DAMAGE AND TO MESENCHYMAL STEM CELL (MSC) ATTRITION IN VIVO. USING A HIGH-THROUGHPUT SIRNA SCREEN, WE IDENTIFY THE NRF2 ANTIOXIDANT PATHWAY AS A DRIVER MECHANISM IN HGPS. PROGERIN SEQUESTERS NRF2 AND THEREBY CAUSES ITS SUBNUCLEAR MISLOCALIZATION, RESULTING IN IMPAIRED NRF2 TRANSCRIPTIONAL ACTIVITY AND CONSEQUENTLY INCREASED CHRONIC OXIDATIVE STRESS. SUPPRESSED NRF2 ACTIVITY OR INCREASED OXIDATIVE STRESS IS SUFFICIENT TO RECAPITULATE HGPS AGING DEFECTS, WHEREAS REACTIVATION OF NRF2 ACTIVITY IN HGPS PATIENT CELLS REVERSES PROGERIN-ASSOCIATED NUCLEAR AGING DEFECTS AND RESTORES IN VIVO VIABILITY OF MSCS IN AN ANIMAL MODEL. THESE FINDINGS IDENTIFY REPRESSION OF THE NRF2-MEDIATED ANTIOXIDATIVE RESPONSE AS A KEY CONTRIBUTOR TO THE PREMATURE AGING PHENOTYPE. 2016 9 3723 28 INHIBITION OF DNA METHYLTRANSFERASE OR HISTONE DEACETYLASE PROTECTS RETINAL PIGMENT EPITHELIAL CELLS FROM DNA DAMAGE INDUCED BY OXIDATIVE STRESS BY THE STIMULATION OF ANTIOXIDANT ENZYMES. EPIGENETIC MODIFICATIONS INFLUENCE DNA DAMAGE RESPONSE (DDR). IN THIS STUDY WE EXPLORED THE ROLE OF DNA METHYLATION AND HISTONE ACETYLATION IN DDR IN CELLS CHALLENGED WITH ACUTE OR CHRONIC OXIDATIVE STRESS. WE USED RETINAL PIGMENT EPITHELIAL CELLS (ARPE-19), WHICH NATIVELY ARE EXPOSED TO OXIDATIVE STRESS DUE TO PERMANENT EXPOSURE TO LIGHT AND HIGH BLOOD FLOW. WE EMPLOYED A DNA METHYLTRANSFERASE INHIBITOR - RG108 (RG), OR A HISTONE DEACETYLASE INHIBITOR - VALPROIC ACID (VA). ARPE-19 CELLS WERE EXPOSED TO TERT-BUTYL HYDROPEROXIDE, AN ACUTE OXIDATIVE STRESS INDUCER, OR GLUCOSE OXIDASE, WHICH SLOWLY LIBERATES LOW-DOSES OF HYDROGEN PEROXIDE IN THE PRESENCE OF GLUCOSE, CREATING CHRONIC CONDITIONS. VA AND RG REDUCED LEVEL OF INTRACELLULAR REACTIVE OXYGEN SPECIES AND DNA DAMAGE IN ARPE-19 CELLS IN NORMAL CONDITION AND IN OXIDATIVE STRESS. THIS PROTECTIVE EFFECT OF VA AND RG WAS ASSOCIATED WITH THE UP-REGULATED EXPRESSION OF ANTIOXIDANT ENZYME GENES: CAT, GPX1, GPX4, SOD1 AND SOD2. RG DECREASED THE NUMBER OF CELLS IN G2/M CHECKPOINT IN RESPONSE TO CHRONIC OXIDATIVE STRESS. NEITHER RG NOR VA CHANGED THE DNA REPAIR OR APOPTOSIS INDUCED BY OXIDATIVE STRESS. THEREFORE, CERTAIN EPIGENETIC MANIPULATIONS MAY PROTECT ARPE-19 CELLS FROM DETRIMENTAL EFFECTS OF OXIDATIVE STRESS BY MODULATION OF ANTIOXIDATIVE ENZYME GENE EXPRESSION, WHICH MAY BE FURTHER EXPLORED IN PHARMACOLOGICAL STUDIES ON OXIDATIVE STRESS-RELATED EYE DISEASES. 2016 10 1777 31 EDIBLE BLUE-GREEN ALGAE REDUCE THE PRODUCTION OF PRO-INFLAMMATORY CYTOKINES BY INHIBITING NF-KAPPAB PATHWAY IN MACROPHAGES AND SPLENOCYTES. BACKGROUND: CHRONIC INFLAMMATION CONTRIBUTES TO THE DEVELOPMENT OF PATHOLOGICAL DISORDERS INCLUDING INSULIN RESISTANCE AND ATHEROSCLEROSIS. IDENTIFICATION OF ANTI-INFLAMMATORY NATURAL PRODUCTS CAN PREVENT THE INFLAMMATORY DISEASES. METHODS: ANTI-INFLAMMATORY EFFECTS OF BLUE-GREEN ALGAE (BGA), I.E., NOSTOC COMMUNE VAR. SPHAEROIDES KUTZING (NO) AND SPIRULINA PLATENSIS (SP), WERE COMPARED IN RAW 264.7 AND MOUSE BONE MARROW-DERIVED MACROPHAGES (BMM) AS WELL AS SPLENOCYTES FROM APOLIPOPROTEIN E KNOCKOUT (APOE(-/-)) MICE FED BGA. RESULTS: WHEN MACROPHAGES PRETREATED WITH 100MUG/ML NO LIPID EXTRACT (NOE) OR SP LIPID EXTRACT (SPE) WERE ACTIVATED BY LIPOPOLYSACCHARIDE (LPS), EXPRESSION AND SECRETION OF PRO-INFLAMMATORY CYTOKINES, SUCH AS TUMOR NECROSIS FACTOR ALPHA (TNFALPHA), INTERLEUKIN 1BETA (IL-1BETA), AND IL-6, WERE SIGNIFICANTLY REPRESSED. NOE AND SPE ALSO SIGNIFICANTLY REPRESSED THE EXPRESSION OF TNFALPHA AND IL-1BETA IN BMM. LPS-INDUCED SECRETION OF IL-6 WAS LOWER IN SPLENOCYTES FROM APOE(-/-) FED AN ATHEROGENIC DIET CONTAINING 5% NO OR SP FOR 12WEEKS. IN RAW 264.7 MACROPHAGES, NOE AND SPE MARKEDLY DECREASED NUCLEAR TRANSLOCATION OF NF-KAPPAB. THE DEGREE OF REPRESSION OF PRO-INFLAMMATORY GENE EXPRESSION BY ALGAL EXTRACTS WAS MUCH STRONGER THAN THAT OF SN50, AN INHIBITOR OF NF-KAPPAB NUCLEAR TRANSLOCATION. TRICHOSTATIN A, A PAN HISTONE DEACETYLASE INHIBITOR, INCREASED BASAL EXPRESSION OF IL-1BETA AND ATTENUATED THE REPRESSION OF THE GENE EXPRESSION BY SPE. SPE SIGNIFICANTLY DOWN-REGULATED MRNA ABUNDANCE OF 11 HDAC ISOFORMS, CONSEQUENTLY INCREASING ACETYLATED HISTONE 3 LEVELS. CONCLUSION: NOE AND SPE REPRESS PRO-INFLAMMATORY CYTOKINE EXPRESSION AND SECRETION IN MACROPHAGES AND SPLENOCYTES VIA INHIBITION OF NF-KAPPAB PATHWAY. HISTONE ACETYLATION STATE IS LIKELY INVOLVED IN THE INHIBITION. GENERAL SIGNIFICANCE: THIS STUDY UNDERSCORES NATURAL PRODUCTS CAN EXERT ANTI-INFLAMMATORY EFFECTS BY EPIGENETIC MODIFICATIONS SUCH AS HISTONE ACETYLATION. 2013 11 5009 25 PERK IS A CRITICAL METABOLIC HUB FOR IMMUNOSUPPRESSIVE FUNCTION IN MACROPHAGES. CHRONIC INFLAMMATION TRIGGERS COMPENSATORY IMMUNOSUPPRESSION TO STOP INFLAMMATION AND MINIMIZE TISSUE DAMAGE. STUDIES HAVE DEMONSTRATED THAT ENDOPLASMIC RETICULUM (ER) STRESS AUGMENTS THE SUPPRESSIVE PHENOTYPES OF IMMUNE CELLS; HOWEVER, THE MOLECULAR MECHANISMS UNDERPINNING THIS PROCESS AND HOW IT LINKS TO THE METABOLIC REPROGRAMMING OF IMMUNOSUPPRESSIVE MACROPHAGES REMAIN ELUSIVE. IN THE PRESENT STUDY, WE REPORT THAT THE HELPER T CELL 2 CYTOKINE INTERLEUKIN-4 AND THE TUMOR MICROENVIRONMENT INCREASE THE ACTIVITY OF A PROTEIN KINASE RNA-LIKE ER KINASE (PERK)-SIGNALING CASCADE IN MACROPHAGES AND PROMOTE IMMUNOSUPPRESSIVE M2 ACTIVATION AND PROLIFERATION. LOSS OF PERK SIGNALING IMPEDED MITOCHONDRIAL RESPIRATION AND LIPID OXIDATION CRITICAL FOR M2 MACROPHAGES. PERK ACTIVATION MEDIATED THE UPREGULATION OF PHOSPHOSERINE AMINOTRANSFERASE 1 (PSAT1) AND SERINE BIOSYNTHESIS VIA THE DOWNSTREAM TRANSCRIPTION FACTOR ATF-4. INCREASED SERINE BIOSYNTHESIS RESULTED IN ENHANCED MITOCHONDRIAL FUNCTION AND ALPHA-KETOGLUTARATE PRODUCTION REQUIRED FOR JMJD3-DEPENDENT EPIGENETIC MODIFICATION. INHIBITION OF PERK SUPPRESSED MACROPHAGE IMMUNOSUPPRESSIVE ACTIVITY AND COULD ENHANCE THE EFFICACY OF IMMUNE CHECKPOINT PROGRAMMED CELL DEATH PROTEIN 1 INHIBITION IN MELANOMA. OUR FINDINGS DELINEATE A PREVIOUSLY UNDESCRIBED CONNECTION BETWEEN PERK SIGNALING AND PSAT1-MEDIATED SERINE METABOLISM CRITICAL FOR PROMOTING IMMUNOSUPPRESSIVE FUNCTION IN M2 MACROPHAGES. 2022 12 5859 31 SULFORAPHANE PREVENTS AND REVERSES ALLERGIC AIRWAYS DISEASE IN MICE VIA ANTI-INFLAMMATORY, ANTIOXIDANT, AND EPIGENETIC MECHANISMS. SULFORAPHANE HAS BEEN INVESTIGATED IN HUMAN PATHOLOGIES AND PRECLINICAL MODELS OF AIRWAY DISEASES. TO PROVIDE FURTHER MECHANISTIC INSIGHTS, WE EXPLORED L-SULFORAPHANE (LSF) IN THE OVALBUMIN (OVA)-INDUCED CHRONIC ALLERGIC AIRWAYS MURINE MODEL, WITH KEY HALLMARKS OF ASTHMA. HISTOLOGICAL ANALYSIS INDICATED THAT LSF PREVENTED OR REVERSED OVA-INDUCED EPITHELIAL THICKENING, COLLAGEN DEPOSITION, GOBLET CELL METAPLASIA, AND INFLAMMATION. WELL-KNOWN ANTIOXIDANT AND ANTI-INFLAMMATORY MECHANISMS CONTRIBUTE TO THE BENEFICIAL EFFECTS OF LSF. FOURIER TRANSFORM INFRARED MICROSPECTROSCOPY REVEALED ALTERED COMPOSITION OF MACROMOLECULES, FOLLOWING OVA SENSITIZATION, WHICH WERE RESTORED BY LSF. RNA SEQUENCING IN HUMAN PERIPHERAL BLOOD MONONUCLEAR CELLS HIGHLIGHTED THE ANTI-INFLAMMATORY SIGNATURE OF LSF. FINDINGS INDICATED THAT LSF MAY ALTER GENE EXPRESSION VIA AN EPIGENETIC MECHANISM WHICH INVOLVES REGULATION OF PROTEIN ACETYLATION STATUS. LSF RESULTED IN HISTONE AND ALPHA-TUBULIN HYPERACETYLATION IN VIVO, AND CELLULAR AND ENZYMATIC ASSAYS INDICATED DECREASED EXPRESSION AND MODEST HISTONE DEACETYLASE (HDAC) INHIBITION ACTIVITY, IN COMPARISON WITH THE WELL-KNOWN PAN-HDAC INHIBITOR SUBEROYLANILIDE HYDROXAMIC ACID (SAHA). MOLECULAR MODELING CONFIRMED INTERACTION OF LSF AND LSF METABOLITES WITH THE CATALYTIC DOMAIN OF METAL-DEPENDENT HDAC ENZYMES. MORE GENERALLY, THIS STUDY CONFIRMED KNOWN MECHANISMS AND IDENTIFIED POTENTIAL EPIGENETIC PATHWAYS ACCOUNTING FOR THE PROTECTIVE EFFECTS AND PROVIDE SUPPORT FOR THE POTENTIAL CLINICAL UTILITY OF LSF IN ALLERGIC AIRWAYS DISEASE. 2022 13 460 35 ARACHIDONIC ACID 15-LIPOXYGENASE: EFFECTS OF ITS EXPRESSION, METABOLITES, AND GENETIC AND EPIGENETIC VARIATIONS ON AIRWAY INFLAMMATION. ARACHIDONIC ACID 15-LIPOXYGENASE (ALOX15) IS AN ENZYME THAT CAN OXIDIZE POLYUNSATURATED FATTY ACIDS. ALOX15 IS STRONGLY EXPRESSED IN AIRWAY EPITHELIAL CELLS, WHERE IT CATALYZES THE CONVERSION OF ARACHIDONIC ACID TO 15-HYDROXYEICOSATETRAENOIC ACID (15-HETE) INVOLVED IN VARIOUS AIRWAY INFLAMMATORY DISEASES. INTERLEUKIN (IL)-4 AND IL-13 INDUCE ALOX15 EXPRESSION BY ACTIVATING JAK2 AND TYK2 KINASES AS WELL AS SIGNAL TRANSDUCERS AND ACTIVATORS OF TRANSCRIPTION (STATS) 1/3/5/6. ALOX15 UP-REGULATION AND SUBSEQUENT ASSOCIATION WITH PHOSPHATIDYLETHANOLAMINE-BINDING PROTEIN 1 (PEBP1) ACTIVATE THE MITOGEN-ACTIVATED EXTRACELLULAR SIGNAL-REGULATED KINASE (MEK)-EXTRACELLULAR SIGNAL-REGULATED KINASE (ERK) PATHWAY, THUS INDUCING EOSINOPHIL-MEDIATED AIRWAY INFLAMMATION. IN ADDITION, ALOX15 PLAYS A SIGNIFICANT ROLE IN PROMOTING THE MIGRATION OF IMMUNE CELLS, SUCH AS IMMATURE DENDRITIC CELLS, ACTIVATED T CELLS, AND MAST CELLS, AND AIRWAY REMODELING, INCLUDING GOBLET CELL DIFFERENTIATION. GENOME-WIDE ASSOCIATION STUDIES HAVE REVEALED MULTIPLE ALOX15 VARIANTS AND THEIR SIGNIFICANT CORRELATION WITH THE RISK OF DEVELOPING AIRWAY DISEASES. THE EPIGENETIC MODIFICATIONS OF THE ALOX15 GENE, SUCH AS DNA METHYLATION AND HISTONE MODIFICATIONS, HAVE BEEN SHOWN TO CLOSELY RELATE WITH AIRWAY INFLAMMATION. THIS REVIEW SUMMARIZES THE ROLE OF ALOX15 IN DIFFERENT PHENOTYPES OF ASTHMA, CHRONIC OBSTRUCTIVE PULMONARY DISEASE, CHRONIC RHINOSINUSITIS, ASPIRIN-EXACERBATED RESPIRATORY DISEASE, AND NASAL POLYPS, SUGGESTING NEW TREATMENT STRATEGIES FOR THESE AIRWAY INFLAMMATORY DISEASES WITH COMPLEX ETIOLOGY AND POOR TREATMENT RESPONSE. 2021 14 440 28 ANTIOXIDATIVE EFFECTS OF RHODIOLA GENUS: PHYTOCHEMISTRY AND PHARMACOLOGICAL MECHANISMS AGAINST THE DISEASES. RHODIOLA AS ONE OF TRADITIONAL MEDICINES HAS BEEN USED FOR CLINICAL TREATMENTS DUE TO ITS STRONG ANTIOXIDANT PROPERTIES. PHYTOCHEMICAL ANALYSIS REVEALED THE PRESENCE OF FLAVONOIDS, PHENYLPROPANOIDS, PHENYLETHANOL/BENZYL ALCOHOL DERIVATIVES, CYANOGENIC GLYCOSIDES AND TERPENOIDS. THE BIOACTIVE COMPOUNDS HAD BEEN DEMONSTRATED TO BE EFFECTIVE AT SCAVENGING REACTIVE OXYGEN SPECIES (ROS). THE STRUCTURES CONTAIN PHENOLIC HYDROXYL GROUPS AND UNSATURATED BONDS. THIS ARTICLE REVIEWS ANTIOXIDANT CAPACITIES OF THE EXTRACTS AND BIOACTIVE COMPONENTS DERIVED FROM RHODIOLA PLANTS. AS THE MAJOR PHARMACOLOGICAL INGREDIENT, SALIDROSIDE IS RIGOROUSLY INVESTIGATED AND USED IN SCIENTIFIC RESEARCHES AND CLINICAL PRACTICES. ACCUMULATED EVIDENCES INDICATED THAT EXTRACTS OF RHODIOLA PLANTS OR SALIDROSIDE COULD BE ABLE TO REVERSE DNA DAMAGE AND ALTER EXPRESSION OF CYTOKINES AND ANTIOXIDATIVE ENZYMES INDUCED BY ROS. THE UNDERLYING MECHANISMS FOR THE ANTIOXIDATIVE EFFECTS OF THE HERB HAVE BEEN INVESTIGATED IN THE LAST TWO DECADES. WE SUMMARIZE THE POSSIBLE EFFECTS AND ACTING PATHWAYS FOR THE HERB INVOLVED IN SEVERAL CHRONIC DISEASES IN CARDIOVASCULAR, RESPIRATORY, AND NERVOUS SYSTEMS, AS WELL AS POTENTIAL EPIGENETIC INFLUENCES. THE INFORMATION GENERATED FROM EXPERIMENTAL AND CLINICAL STUDIES OFFERED VALUABLE INSIGHTS FOR FURTHER INVESTIGATIONS OF MEDICAL POTENTIALS OF RHODIOLA PLANTS. 2017 15 6888 15 [ROLE OF VASCULAR AGING IN THE PATHOGENESIS OF ABDOMINAL AORTIC ANEURYSM AND POTENTIAL THERAPEUTIC TARGETS]. ABDOMINAL AORTIC ANEURYSM(AAA)IS A COMMON AORTIC DEGENERATIVE DISEASE IN THE ELDERLY,AND ITS INCIDENCE IS GRADUALLY INCREASING WITH THE AGING OF THE POPULATION.THERE ARE NO SPECIFIC DRUGS AVAILABLE TO DELAY THE EXPANSION OF AAA.ONCE THE ANEURYSM RUPTURES,THE MORTALITY WILL EXCEED 90%,WHICH SERIOUSLY THREATENS THE LIFE OF PATIENTS.GIVEN THE HIGH INCIDENCE OF AAA IN THE ELDERLY,THIS REVIEW DISCUSSES THE ROLE OF VASCULAR AGING IN THE PATHOGENESIS OF AAA,INVOLVING CHRONIC INFLAMMATION,OXIDATIVE STRESS,MITOCHONDRIAL DYSFUNCTION,PROTEIN HOMEOSTASIS IMBALANCE,INCREASED APOPTOSIS AND NECROSIS,EXTRACELLULAR MATRIX REMODELING,NUTRITIONAL SENSING DISORDERS,EPIGENETIC CHANGES,AND INCREASED PRO-AGING FACTORS.MEANWHILE,SEVERAL POTENTIAL AGING-RELATED DRUG TARGETS OF AAA ARE LISTED.THIS REVIEW PROVIDES NEW IDEAS FOR BASIC AND TRANSLATIONAL MEDICAL RESEARCH OF AAA. 2021 16 5809 25 STRAWBERRY AND HUMAN HEALTH: EFFECTS BEYOND ANTIOXIDANT ACTIVITY. THE USEFULNESS OF A DIET RICH IN VEGETABLES AND FRUITS ON HUMAN HEALTH HAS BEEN WIDELY RECOGNIZED: A HIGH INTAKE OF ANTIOXIDANT AND BIOACTIVE COMPOUNDS MAY IN FACT PLAY A CRUCIAL ROLE IN THE PREVENTION OF SEVERAL DISEASES, SUCH AS CANCER, CARDIOVASCULAR, NEURODEGENERATIVE, AND OTHER CHRONIC PATHOLOGIES. THE STRAWBERRY (FRAGARIA X ANANASSA DUCH.) POSSESSES A REMARKABLE NUTRITIONAL COMPOSITION IN TERMS OF MICRONUTRIENTS, SUCH AS MINERALS, VITAMIN C, AND FOLATES, AND NON-NUTRIENT ELEMENTS, SUCH AS PHENOLIC COMPOUNDS, THAT ARE ESSENTIAL FOR HUMAN HEALTH. ALTHOUGH STRAWBERRY PHENOLICS ARE KNOWN MAINLY FOR THEIR ANTI-INFLAMMATORY AND ANTIOXIDANT ACTIONS, RECENT STUDIES HAVE DEMONSTRATED THAT THEIR BIOLOGICAL ACTIVITIES ALSO SPREAD TO OTHER PATHWAYS INVOLVED IN CELLULAR METABOLISM AND CELLULAR SURVIVAL. THIS PAPER HAS THE MAIN OBJECTIVE OF REVIEWING CURRENT INFORMATION ABOUT THE POTENTIAL MECHANISMS INVOLVED IN THE EFFECTS ELICITED BY STRAWBERRY POLYPHENOLS ON HUMAN HEALTH, DEVOTING SPECIAL ATTENTION TO THE LATEST FINDINGS. 2014 17 681 31 BRAIN LIPOTOXICITY OF PHYTANIC ACID AND VERY LONG-CHAIN FATTY ACIDS. HARMFUL CELLULAR/MITOCHONDRIAL ACTIVITIES IN REFSUM DISEASE AND X-LINKED ADRENOLEUKODYSTROPHY. IT IS INCREASINGLY UNDERSTOOD THAT IN THE AGING BRAIN, ESPECIALLY IN THE CASE OF PATIENTS SUFFERING FROM NEURODEGENERATIVE DISEASES, SOME FATTY ACIDS AT PATHOLOGICALLY HIGH CONCENTRATIONS EXERT DETRIMENTAL ACTIVITIES. TO STUDY SUCH ACTIVITIES, WE HERE ANALYZE GENETIC DISEASES, WHICH ARE DUE TO COMPROMISED METABOLISM OF SPECIFIC FATTY ACIDS, EITHER THE BRANCHED-CHAIN PHYTANIC ACID OR VERY LONG-CHAIN FATTY ACIDS (VLCFAS). MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID OR OF VLCFAS DISTURB THE INTEGRITY OF NEURAL CELLS BY IMPAIRING CA(2+) HOMEOSTASIS, ENHANCING OXIDATIVE STRESS OR DE-ENERGIZING MITOCHONDRIA. FINALLY, THESE COMBINED HARMFUL ACTIVITIES ACCELERATE CELL DEATH. MITOCHONDRIA ARE MORE SEVERELY TARGETED BY PHYTANIC ACID THAN BY VLCFAS. THE INSERTION OF VLCFAS INTO THE INNER MEMBRANE DISTORTS THE ARRANGEMENT OF MEMBRANE CONSTITUENTS AND THEIR FUNCTIONAL INTERACTIONS. PHYTANIC ACID EXERTS SPECIFIC PROTONOPHORIC ACTIVITY, INDUCES REACTIVE OXYGEN SPECIES (ROS) GENERATION, AND REDUCES ATP GENERATION. A CLEAR INHIBITION OF THE NA(+), K(+)-ATPASE ACTIVITY BY PHYTANIC ACID HAS ALSO BEEN REPORTED. IN ADDITION TO THE INSTANTANEOUS EFFECTS, A CHRONIC EXPOSURE OF BRAIN CELLS TO LOW MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID MAY PRODUCE NEURONAL DAMAGE IN REFSUM DISEASE BY ALTERING EPIGENETIC TRANSCRIPTIONAL REGULATION. MYELIN-PRODUCING OLIGODENDROCYTES RESPOND WITH PARTICULAR SENSITIVITY TO VLCFAS. DELETERIOUS ACTIVITY OF VLCFAS ON ENERGY-DEPENDENT MITOCHONDRIAL FUNCTIONS DECLINES WITH INCREASING THE HYDROCARBON CHAIN LENGTH (C22:0 > C24:0 > C26:0). IN CONTRAST, THE REVERSE SEQUENCE HOLDS TRUE FOR CELL DEATH INDUCTION BY VLCFAS (C22:0 < C24:0 < C26:0). IN ADRENOLEUKODYSTROPHY, THE UPTAKE OF VLCFAS BY PEROXISOMES IS IMPAIRED BY DEFECTS OF THE ABCD1 TRANSPORTER. STUDYING MITOCHONDRIA FROM ABCD1-DEFICIENT AND WILD-TYPE MICE PROVES THAT THE ENERGY-DEPENDENT FUNCTIONS ARE NOT ALTERED IN THE DISEASE MODEL. THUS, A DEFECTIVE ABCD1 APPARENTLY EXERTS NO OBVIOUS ADAPTIVE PRESSURE ON MITOCHONDRIA. FURTHER RESEARCH HAS TO ELUCIDATE THE DETAILED MECHANISTIC BASIS FOR THE FAILURES CAUSING FATTY ACID-MEDIATED NEURODEGENERATION AND SHOULD HELP TO PROVIDE POSSIBLE THERAPEUTIC INTERVENTIONS. 2016 18 1038 32 CLINACANTHUS NUTANS EXTRACTS MODULATE EPIGENETIC LINK TO CYTOSOLIC PHOSPHOLIPASE A2 EXPRESSION IN SH-SY5Y CELLS AND PRIMARY CORTICAL NEURONS. CLINACANTHUS NUTANS LINDAU (C. NUTANS), COMMONLY KNOWN AS SABAH SNAKE GRASS IN SOUTHEAST ASIA, IS WIDELY USED IN FOLK MEDICINE DUE TO ITS ANALGESIC, ANTIVIRAL, AND ANTI-INFLAMMATORY PROPERTIES. OUR RECENT STUDY PROVIDED EVIDENCE FOR THE REGULATION OF CYTOSOLIC PHOSPHOLIPASE A2 (CPLA2) MRNA EXPRESSION BY EPIGENETIC FACTORS (TAN ET AL. IN MOL NEUROBIOL. DOI: 10.1007/S12035-015-9314-Z , 2015). THIS ENZYME CATALYZES THE RELEASE OF ARACHIDONIC ACID FROM GLYCEROPHOSPHOLIPIDS, AND FORMATION OF PRO-INFLAMMATORY EICOSANOIDS OR TOXIC LIPID PEROXIDATION PRODUCTS SUCH AS 4-HYDROXYNONENAL. IN THIS STUDY, WE EXAMINED THE EFFECTS OF C. NUTANS ETHANOL LEAF EXTRACTS ON EPIGENETIC REGULATION OF CPLA2 MRNA EXPRESSION IN SH-SY5Y HUMAN NEUROBLASTOMA CELLS AND MOUSE PRIMARY CORTICAL NEURONS. C. NUTANS MODULATED INDUCTION OF CPLA2 EXPRESSION IN SH-SY5Y CELLS BY HISTONE DEACETYLASE (HDAC) INHIBITORS, MS-275, MC-1568, AND TSA. C. NUTANS EXTRACTS ALSO INHIBITED HISTONE ACETYLASE (HAT) ACTIVITY. LEVELS OF CPLA2 MRNA EXPRESSION WERE INCREASED IN PRIMARY CORTICAL NEURONS SUBJECTED TO 0.5-H OXYGEN-GLUCOSE DEPRIVATION INJURY (OGD). THIS INCREASE WAS SIGNIFICANTLY INHIBITED BY C. NUTANS TREATMENT. TREATMENT OF PRIMARY NEURONS WITH THE HDAC INHIBITOR MS-275 AUGMENTED OGD-INDUCED CPLA2 MRNA EXPRESSION, AND THIS INCREASE WAS MODULATED BY C. NUTANS EXTRACTS. OGD-STIMULATED INCREASE IN CPLA2 MRNA EXPRESSION WAS ALSO REDUCED BY A TIP60 HAT INHIBITOR, NU9056. IN VIEW OF A KEY ROLE OF CPLA2 IN THE PRODUCTION OF PRO-INFLAMMATORY EICOSANOIDS AND FREE RADICAL DAMAGE, AND THE FACT THAT EPIGENETIC EFFECTS ON GENES ARE OFTEN LONG-LASTING, RESULTS SUGGEST A ROLE FOR C. NUTANS AND PHYTOCHEMICALS TO INHIBIT THE PRODUCTION OF ARACHIDONIC ACID-DERIVED PRO-INFLAMMATORY EICOSANOIDS AND CHRONIC INFLAMMATION, THROUGH EPIGENETIC REGULATION OF CPLA2 EXPRESSION. 2016 19 1679 31 DRUG RESISTANCE IN GIARDIA DUODENALIS. GIARDIA DUODENALIS IS A MICROAEROPHILIC PARASITE OF THE HUMAN GASTROINTESTINAL TRACT AND A MAJOR CONTRIBUTOR TO DIARRHEAL AND POST-INFECTIOUS CHRONIC GASTROINTESTINAL DISEASE WORLD-WIDE. TREATMENT OF G. DUODENALIS INFECTION CURRENTLY RELIES ON A SMALL NUMBER OF DRUG CLASSES. NITROHETEROCYCLICS, IN PARTICULAR METRONIDAZOLE, HAVE REPRESENTED THE FRONT LINE TREATMENT FOR THE LAST 40 YEARS. NITROHETEROCYCLIC-RESISTANT G. DUODENALIS HAVE BEEN ISOLATED FROM PATIENTS AND CREATED IN VITRO, PROMPTING CONSIDERABLE RESEARCH INTO THE BIOMOLECULAR MECHANISMS OF RESISTANCE. THESE COMPOUNDS ARE REDOX-ACTIVE AND ARE BELIEVED TO DAMAGE PROTEINS AND DNA AFTER BEING ACTIVATED BY OXIDOREDUCTASE ENZYMES IN METABOLICALLY ACTIVE CELLS. IN THIS REVIEW, WE EXPLORE THE MOLECULAR PHENOTYPES OF NITROHETEROCYCLIC-RESISTANT G. DUODENALIS DESCRIBED TO DATE IN THE CONTEXT OF THE PROTIST'S UNUSUAL GLYCOLYTIC AND ANTIOXIDANT SYSTEMS. WE PROPOSE THAT RESISTANCE MECHANISMS ARE LIKELY TO EXTEND WELL BEYOND CURRENTLY DESCRIBED RESISTANCE-ASSOCIATED ENZYMES (I.E., PYRUVATE FERREDOXIN OXIDOREDUCTASES AND NITROREDUCTASES), TO INCLUDE NAD(P)H- AND FLAVIN-GENERATING PATHWAYS, AND POSSIBLY REDOX-SENSITIVE EPIGENETIC REGULATION. MECHANISMS THAT ALLOW G. DUODENALIS TO TOLERATE OXIDATIVE STRESS MAY LEAD TO RESISTANCE AGAINST BOTH OXYGEN AND NITROHETEROCYCLICS, WITH IMPLICATIONS FOR CLINICAL CONTROL. THE PRESENT REVIEW HIGHLIGHTS THE POTENTIAL FOR SYSTEMS BIOLOGY TOOLS AND ADVANCED BIOINFORMATICS TO FURTHER INVESTIGATE THE MULTIFACETED MECHANISMS OF NITROHETEROCYCLIC RESISTANCE IN THIS IMPORTANT PATHOGEN. 2015 20 428 27 ANTI-INFLAMMATORY ACTIVITY OF MIODESIN: MODULATION OF INFLAMMATORY MARKERS AND EPIGENETIC EVIDENCE. PURPOSE: TO INVESTIGATE THE EFFECTS OF A COMBINED HERBAL MEDICINE MIODESIN ON THE INFLAMMATORY RESPONSE OF KEY CELLS INVOLVED IN THE ACUTE AND CHRONIC INFLAMMATORY PROCESSES AS WELL AS THE POSSIBLE EPIGENETIC INVOLVEMENT. METHODS: AFTER THE ESTABLISHMENT OF THE IC(50) DOSE, THE CHONDROCYTE, KERATINOCYTE, AND MACROPHAGE CELL LINES WERE PRETREATED FOR 2 HOURS WITH MIODESIN (200 MUG/ML) AND STIMULATED WITH LPS (1 MUG/ML) FOR 24 HOURS. THE SUPERNATANT WAS USED TO MEASURE THE LEVELS OF CYTOKINES (IL-1BETA, IL-6, IL-8, AND TNF-ALPHA) AND CHEMOKINES (CCL2, CCL3, AND CCL5), AND THE CELLS WERE USED TO EXTRACT THE MRNA FOR THE TRANSCRIPTION FACTOR (NF-KAPPABETA), INFLAMMATORY ENZYMES (COX-1, COX-2, PLA2, AND INOS), AND CHEMOKINES (CCL2, CCL3, AND CCL5). RESULTS: MIODESIN INHIBITED THE RELEASE OF LPS-INDUCED CYTOKINES (IL-1BETA, IL-6, IL-8, AND TNF-ALPHA; P < 0.01) AND CHEMOKINES (CCL2, CCL3, AND CCL5; P < 0.01) AND THE EXPRESSION OF THE TRANSCRIPTION FACTOR (NF-KAPPABETA; P < 0.01), INFLAMMATORY ENZYMES (COX-1, COX-2, PLA2, INOS; P < 0.01), AND CHEMOKINES (CCL2, CCL3, AND CCL5; P < 0.01). IN ADDITION, THE EVALUATION OF EPIGENETIC MECHANISM REVEALED THAT MIODESIN DID NOT INDUCE CHANGES IN DNA METHYLATION, ASSURING THE GENETIC SAFENESS OF THE COMPOUND IN TERMS OF THE INFLAMMATORY RESPONSE. CONCLUSIONS: MIODESIN PRESENTS ANTI-INFLAMMATORY PROPERTIES, INHIBITING HYPERACTIVATION OF CHONDROCYTES, KERATINOCYTES, AND MACROPHAGES, INVOLVING EPIGENETICS IN SUCH EFFECTS. 2020