1 4135 121 MECHANISMS OF LUNG DAMAGE AND DEVELOPMENT OF COPD DUE TO HOUSEHOLD BIOMASS-SMOKE EXPOSURE: INFLAMMATION, OXIDATIVE STRESS, MICRORNAS, AND GENE POLYMORPHISMS. CHRONIC EXPOSURE TO INDOOR BIOMASS SMOKE FROM THE COMBUSTION OF SOLID ORGANIC FUELS IS A MAJOR CAUSE OF DISEASE BURDEN WORLDWIDE. ALMOST 3 BILLION PEOPLE USE SOLID FUELS SUCH AS WOOD, CHARCOAL, AND CROP RESIDUES FOR INDOOR COOKING AND HEATING, ACCOUNTING FOR APPROXIMATELY 50% OF ALL HOUSEHOLDS AND 90% OF RURAL HOUSEHOLDS GLOBALLY. BIOMASS SMOKE CONTAINS MANY HAZARDOUS POLLUTANTS, RESULTING IN HOUSEHOLD AIR POLLUTION (HAP) EXPOSURE THAT OFTEN EXCEEDS INTERNATIONAL STANDARDS. LONG-TERM BIOMASS-SMOKE EXPOSURE IS ASSOCIATED WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IN ADULTS, A LEADING CAUSE OF MORBIDITY AND MORTALITY WORLDWIDE, CHRONIC BRONCHITIS, AND OTHER LUNG CONDITIONS. BIOMASS SMOKE-ASSOCIATED COPD DIFFERS FROM THE BEST-KNOWN CIGARETTE SMOKE-INDUCED COPD IN SEVERAL ASPECTS, SUCH AS A SLOWER DECLINE IN LUNG FUNCTION, GREATER AIRWAY INVOLVEMENT, AND LESS EMPHYSEMA, WHICH SUGGESTS A DIFFERENT PHENOTYPE AND PATHOPHYSIOLOGY. DESPITE THE HIGH BURDEN OF BIOMASS-ASSOCIATED COPD, THE MOLECULAR, GENETIC, AND EPIGENETIC MECHANISMS UNDERLYING ITS PATHOGENESIS ARE POORLY UNDERSTOOD. THIS REVIEW DESCRIBES THE PATHOGENIC MECHANISMS POTENTIALLY INVOLVED IN LUNG DAMAGE, THE DEVELOPMENT OF COPD ASSOCIATED WITH WOOD-DERIVED SMOKE EXPOSURE, AND THE INFLUENCE OF GENETIC AND EPIGENETIC FACTORS ON THE DEVELOPMENT OF THIS DISEASE. 2022 2 300 45 AIR POLLUTION AND INDOOR SETTINGS. INDOOR ENVIRONMENTS CONTRIBUTE SIGNIFICANTLY TO TOTAL HUMAN EXPOSURE TO AIR POLLUTANTS, AS PEOPLE SPEND MOST OF THEIR TIME INDOORS. HOUSEHOLD AIR POLLUTION (HAP) RESULTING FROM COOKING WITH POLLUTING ("DIRTY") FUELS, WHICH INCLUDE COAL, KEROSENE, AND BIOMASS (WOOD, CHARCOAL, CROP RESIDUES, AND ANIMAL MANURE) IS A GLOBAL ENVIRONMENTAL HEALTH PROBLEM. INDOOR POLLUTANTS ARE GASES, PARTICULATES, TOXINS, AND MICROORGANISMS AMONG OTHERS, THAT CAN HAVE AN IMPACT ESPECIALLY ON THE HEALTH OF CHILDREN AND ADULTS THROUGH A COMBINATION OF DIFFERENT MECHANISMS ON OXIDATIVE STRESS AND GENE ACTIVATION, EPIGENETIC, CELLULAR, AND IMMUNOLOGICAL SYSTEMS. AIR POLLUTION IS A MAJOR RISK FACTOR AND CONTRIBUTOR TO MORBIDITY AND MORTALITY FROM MAJOR CHRONIC DISEASES. CHILDREN ARE SIGNIFICANTLY AFFECTED BY THE IMPACT OF THE ENVIRONMENT DUE TO BIOLOGICAL IMMATURITY, PRENATAL AND POSTNATAL LUNG DEVELOPMENT. POOR AIR QUALITY HAS BEEN RELATED TO AN INCREASED PREVALENCE OF CLINICAL MANIFESTATIONS OF ALLERGIC ASTHMA AND RHINITIS. HEALTH PROFESSIONALS SHOULD INCREASE THEIR ROLE IN MANAGING THE EXPOSURE OF CHILDREN AND ADULTS TO AIR POLLUTION WITH BETTER METHODS OF CARE, PREVENTION, AND COLLECTIVE ACTION. INTERVENTIONS TO REDUCE HOUSEHOLD POLLUTANTS MAY PROMOTE HEALTH AND CAN BE ACHIEVED WITH EDUCATION, COMMUNITY, AND HEALTH PROFESSIONAL INVOLVEMENT. 2021 3 3712 42 INHALED POLLUTANTS: THE MOLECULAR SCENE BEHIND RESPIRATORY AND SYSTEMIC DISEASES ASSOCIATED WITH ULTRAFINE PARTICULATE MATTER. AIR POLLUTION OF ANTHROPOGENIC ORIGIN IS LARGELY FROM THE COMBUSTION OF BIOMASS (E.G., WOOD), FOSSIL FUELS (E.G., CARS AND TRUCKS), INCINERATORS, LANDFILLS, AGRICULTURAL ACTIVITIES AND TOBACCO SMOKE. AIR POLLUTION IS A COMPLEX MIXTURE THAT VARIES IN SPACE AND TIME, AND CONTAINS HUNDREDS OF COMPOUNDS INCLUDING VOLATILE ORGANIC COMPOUNDS (E.G., BENZENE), METALS, SULPHUR AND NITROGEN OXIDES, OZONE AND PARTICULATE MATTER (PM). PM(0.1) (ULTRAFINE PARTICLES (UFP)), THOSE PARTICLES WITH A DIAMETER LESS THAN 100 NM (INCLUDES NANOPARTICLES (NP)) ARE CONSIDERED ESPECIALLY DANGEROUS TO HUMAN HEALTH AND MAY CONTRIBUTE SIGNIFICANTLY TO THE DEVELOPMENT OF NUMEROUS RESPIRATORY AND CARDIOVASCULAR DISEASES SUCH AS CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AND ATHEROSCLEROSIS. SOME OF THE PATHOGENIC MECHANISMS THROUGH WHICH PM(0.1) MAY CONTRIBUTE TO CHRONIC DISEASE IS THEIR ABILITY TO INDUCE INFLAMMATION, OXIDATIVE STRESS AND CELL DEATH BY MOLECULAR MECHANISMS THAT INCLUDE TRANSCRIPTION FACTORS SUCH AS NUCLEAR FACTOR KAPPAB (NF-KAPPAB) AND NUCLEAR FACTOR (ERYTHROID-DERIVED 2)-LIKE 2 (NRF2). EPIGENETIC MECHANISMS INCLUDING NON-CODING RNA (NCRNA) MAY ALSO CONTRIBUTE TOWARDS THE DEVELOPMENT OF CHRONIC DISEASE ASSOCIATED WITH EXPOSURE TO PM(0.1). THIS PAPER HIGHLIGHTS EMERGING MOLECULAR CONCEPTS ASSOCIATED WITH INHALATIONAL EXPOSURE TO PM(0.1) AND THEIR ABILITY TO CONTRIBUTE TO CHRONIC RESPIRATORY AND SYSTEMIC DISEASE. 2017 4 298 42 AIR POLLUTION AND AIRWAY DISEASE. EPIDEMIOLOGICAL AND TOXICOLOGICAL RESEARCH CONTINUES TO SUPPORT A LINK BETWEEN URBAN AIR POLLUTION AND AN INCREASED INCIDENCE AND/OR SEVERITY OF AIRWAY DISEASE. DETRIMENTAL EFFECTS OF OZONE (O(3)), NITROGEN DIOXIDE (NO(2)) AND PARTICULATE MATTER (PM), AS WELL AS TRAFFIC-RELATED POLLUTION AS A WHOLE, ON RESPIRATORY SYMPTOMS AND FUNCTION ARE WELL DOCUMENTED. NOT ONLY DO WE HAVE STRONG EPIDEMIOLOGICAL EVIDENCE OF A RELATIONSHIP BETWEEN AIR POLLUTION AND EXACERBATION OF ASTHMA AND RESPIRATORY MORBIDITY AND MORTALITY IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), BUT RECENT STUDIES, PARTICULARLY IN URBAN AREAS, HAVE SUGGESTED A ROLE FOR POLLUTANTS IN THE DEVELOPMENT OF BOTH ASTHMA AND COPD. SIMILARLY, WHILE PREVALENCE AND SEVERITY OF ATOPIC CONDITIONS APPEAR TO BE MORE COMMON IN URBAN COMPARED WITH RURAL COMMUNITIES, EVIDENCE IS EMERGING THAT TRAFFIC-RELATED POLLUTANTS MAY CONTRIBUTE TO THE DEVELOPMENT OF ALLERGY. FURTHERMORE, NUMEROUS EPIDEMIOLOGICAL AND EXPERIMENTAL STUDIES SUGGEST AN ASSOCIATION BETWEEN EXPOSURE TO NO(2) , O(3) , PM AND COMBUSTION PRODUCTS OF BIOMASS FUELS AND AN INCREASED SUSCEPTIBILITY TO AND MORBIDITY FROM RESPIRATORY INFECTION. GIVEN THE CONSIDERABLE CONTRIBUTION THAT TRAFFIC EMISSIONS MAKE TO URBAN AIR POLLUTION RESEARCHERS HAVE SOUGHT TO CHARACTERIZE THE RELATIVE TOXICITY OF TRAFFIC-RELATED PM POLLUTANTS. RECENT ADVANCES IN MECHANISMS IMPLICATED IN THE ASSOCIATION OF AIR POLLUTANTS AND AIRWAY DISEASE INCLUDE EPIGENETIC ALTERATION OF GENES BY COMBUSTION-RELATED POLLUTANTS AND HOW POLYMORPHISMS IN GENES INVOLVED IN ANTIOXIDANT PATHWAYS AND AIRWAY INFLAMMATION CAN MODIFY RESPONSES TO AIR POLLUTION EXPOSURES. OTHER INTERESTING EPIDEMIOLOGICAL OBSERVATIONS RELATED TO INCREASED HOST SUSCEPTIBILITY INCLUDE A POSSIBLE LINK BETWEEN CHRONIC PM EXPOSURE DURING CHILDHOOD AND VULNERABILITY TO COPD IN ADULTHOOD, AND THAT INFANTS SUBJECTED TO HIGHER PRENATAL LEVELS OF AIR POLLUTION MAY BE AT GREATER RISK OF DEVELOPING RESPIRATORY CONDITIONS. WHILE THE CHARACTERIZATION OF POLLUTANT COMPONENTS AND SOURCES PROMISE TO GUIDE POLLUTION CONTROL STRATEGIES, THE IDENTIFICATION OF SUSCEPTIBLE SUBPOPULATIONS WILL BE NECESSARY IF TARGETED THERAPY/PREVENTION OF POLLUTION-INDUCED RESPIRATORY DISEASES IS TO BE DEVELOPED. 2011 5 2737 38 EXPOSING A DEADLY ALLIANCE: NOVEL INSIGHTS INTO THE BIOLOGICAL LINKS BETWEEN COPD AND LUNG CANCER. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) AFFECTS MORE THAN 200 MILLION PEOPLE WORLDWIDE AND IS EXPECTED TO BECOME THE THIRD LEADING CAUSE OF DEATH IN 2020. COPD IS CHARACTERIZED BY PROGRESSIVE AIRFLOW LIMITATION, DUE TO A COMBINATION OF CHRONIC INFLAMMATION AND REMODELING OF THE SMALL AIRWAYS (BRONCHIOLITIS) AND LOSS OF ELASTIC RECOIL CAUSED BY DESTRUCTION OF THE ALVEOLAR WALLS (EMPHYSEMA). LUNG CANCER IS THE MOST IMPORTANT CAUSE OF CANCER-RELATED DEATH IN THE WORLD. (CIGARETTE) SMOKING IS THE PRINCIPAL CULPRIT CAUSING BOTH COPD AND LUNG CANCER; IN ADDITION, EXPOSURE TO ENVIRONMENTAL TOBACCO SMOKE, BIOMASS FUEL SMOKE, COAL SMOKE AND OUTDOOR AIR POLLUTION HAVE ALSO BEEN ASSOCIATED WITH AN INCREASED INCIDENCE OF BOTH DISEASES. IMPORTANTLY, SMOKERS WITH COPD--DEFINED AS EITHER NOT FULLY REVERSIBLE AIRFLOW LIMITATION OR EMPHYSEMA--HAVE A TWO- TO FOUR-FOLD INCREASED RISK TO DEVELOP LUNG CANCER. IN THIS REVIEW, WE HIGHLIGHT SEVERAL OF THE GENETIC, EPIGENETIC AND INFLAMMATORY MECHANISMS, WHICH LINK COPD AND CARCINOGENESIS IN THE LUNGS. ELUCIDATING THE BIOLOGICAL PATHWAYS AND NETWORKS, WHICH UNDERLIE THE INCREASED SUSCEPTIBILITY OF LUNG CANCER IN PATIENTS WITH COPD, HAS IMPORTANT IMPLICATIONS FOR SCREENING, PREVENTION, DIAGNOSIS AND TREATMENT OF THESE TWO DEVASTATING PULMONARY DISEASES. 2013 6 363 35 AMBIENT AIR POLLUTION: HEALTH HAZARDS TO CHILDREN. AMBIENT AIR POLLUTION IS PRODUCED BY SOURCES INCLUDING VEHICULAR TRAFFIC, COAL-FIRED POWER PLANTS, HYDRAULIC FRACTURING, AGRICULTURAL PRODUCTION, AND FOREST FIRES. IT CONSISTS OF PRIMARY POLLUTANTS GENERATED BY COMBUSTION AND SECONDARY POLLUTANTS FORMED IN THE ATMOSPHERE FROM PRECURSOR GASES. AIR POLLUTION CAUSES AND EXACERBATES CLIMATE CHANGE, AND CLIMATE CHANGE WORSENS HEALTH EFFECTS OF AIR POLLUTION. INFANTS AND CHILDREN ARE UNIQUELY SENSITIVE TO AIR POLLUTION, BECAUSE THEIR ORGANS ARE DEVELOPING AND THEY HAVE HIGHER AIR PER BODY WEIGHT INTAKE. HEALTH EFFECTS LINKED TO AIR POLLUTION INCLUDE NOT ONLY EXACERBATIONS OF RESPIRATORY DISEASES BUT ALSO REDUCED LUNG FUNCTION DEVELOPMENT AND INCREASED ASTHMA INCIDENCE. ADDITIONAL OUTCOMES OF CONCERN INCLUDE PRETERM BIRTH, LOW BIRTH WEIGHT, NEURODEVELOPMENTAL DISORDERS, IQ LOSS, PEDIATRIC CANCERS, AND INCREASED RISKS FOR ADULT CHRONIC DISEASES. THESE EFFECTS ARE MEDIATED BY OXIDATIVE STRESS, CHRONIC INFLAMMATION, ENDOCRINE DISRUPTION, AND GENETIC AND EPIGENETIC MECHANISMS ACROSS THE LIFE SPAN. NATURAL EXPERIMENTS DEMONSTRATE THAT WITH INITIATIVES SUCH AS INCREASED USE OF PUBLIC TRANSPORTATION, BOTH AIR QUALITY AND COMMUNITY HEALTH IMPROVE. SIMILARLY, THE CLEAN AIR ACT HAS IMPROVED AIR QUALITY, ALTHOUGH EXPOSURE INEQUITIES PERSIST. OTHER EFFECTIVE STRATEGIES FOR REDUCING AIR POLLUTION INCLUDE ENDING RELIANCE ON COAL, OIL, AND GAS; REGULATING INDUSTRIAL EMISSIONS; REDUCING EXPOSURE WITH ATTENTION TO PROXIMITY OF RESIDENCES, SCHOOLS, AND CHILD CARE FACILITIES TO TRAFFIC; AND A GREATER AWARENESS OF THE AIR QUALITY INDEX. THIS POLICY REVIEWS BOTH SHORT- AND LONG-TERM HEALTH CONSEQUENCES OF AMBIENT AIR POLLUTION, ESPECIALLY IN RELATION TO DEVELOPMENTAL EXPOSURES. IT EXAMINES INDIVIDUAL, COMMUNITY, AND LEGISLATIVE STRATEGIES TO MITIGATE AIR POLLUTION. 2021 7 529 32 ASTHMA IN URBAN CHILDREN: EPIDEMIOLOGY, ENVIRONMENTAL RISK FACTORS, AND THE PUBLIC HEALTH DOMAIN. ASTHMA IS THE MOST COMMONLY REPORTED CHRONIC CONDITION OF CHILDHOOD IN DEVELOPED COUNTRIES, WITH 6.5 MILLION CHILDREN AFFECTED IN THE USA. A DISPARATE BURDEN OF CHILDHOOD ASTHMA IS SEEN AMONG SOCIOECONOMICALLY DISADVANTAGED YOUTH, OFTEN CONCENTRATED IN URBAN AREAS WITH HIGH POVERTY RATES. HOST FACTORS THAT PREDISPOSE A CHILD TO ASTHMA INCLUDE ATOPY, MALE GENDER, PARENTAL HISTORY OF ASTHMA, AND ALSO RACE, ETHNICITY, AND GENETIC AND EPIGENETIC SUSCEPTIBILITIES. ENVIRONMENTAL FACTORS, SUCH AS IMPROVED HYGIENE, AMBIENT AIR POLLUTION, AND EARLY LIFE EXPOSURES TO MICROBES AND AEROALLERGENS, ALSO INFLUENCE THE DEVELOPMENT OF ASTHMA. WITH GREATER THAN 90% OF TIME SPENT INDOORS, HOME EXPOSURES (SUCH AS COCKROACH, RODENT, AND INDOOR AIR POLLUTION) ARE HIGHLY RELEVANT FOR URBAN ASTHMA. MORBIDITY REDUCTION MAY REQUIRE FOCUSED PUBLIC HEALTH INITIATIVES FOR ENVIRONMENTAL INTERVENTION IN HIGH PRIORITY RISK GROUPS AND THE ADDITION OF IMMUNE MODULATORY AGENTS IN CHILDREN WITH POORLY CONTROLLED DISEASE. 2016 8 360 30 AMBIENT AIR POLLUTION AND BIOMARKERS OF HEALTH EFFECT. RECENTLY, THE AIR POLLUTION SITUATION OF OUR COUNTRY IS VERY SERIOUS ALONG WITH THE DEVELOPMENT OF URBANIZATION AND INDUSTRIALIZATION. STUDIES INDICATE THAT THE EXPOSURE OF AIR POLLUTION CAN CAUSE A RISE OF INCIDENCE AND MORTALITY OF MANY DISEASES, SUCH AS CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD), ASTHMA, MYOCARDIAL INFARCTION, AND SO ON. HOWEVER, THERE IS NOW GROWING EVIDENCE SHOWING THAT SIGNIFICANT AIR POLLUTION EXPOSURES ARE ASSOCIATED WITH EARLY BIOMARKERS IN VARIOUS SYSTEMS OF THE BODY. IN ORDER TO BETTER PREVENT AND CONTROL THE DAMAGE EFFECT OF AIR POLLUTION, THIS ARTICLE SUMMARIZES COMPREHENSIVELY EPIDEMIOLOGICAL STUDIES ABOUT THE BAD EFFECTS ON THE BIOMARKERS OF RESPIRATORY SYSTEM, CARDIOVASCULAR SYSTEM, AND GENETIC AND EPIGENETIC SYSTEM EXPOSURE TO AMBIENT AIR POLLUTION. 2017 9 973 34 CHRONIC OBSTRUCTIVE PULMONARY DISEASE: AN UPDATE ON NUCLEAR SIGNALING RELATED TO INFLAMMATION AND ANTI-INFLAMMATORY TREATMENT. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS ONE OF THE MOST FREQUENT DISEASES WORLDWIDE. CIGARETTE SMOKE IS CONSIDERED THE MAIN PATHOLOGICAL CAUSE OF THE DISORDER, ALTHOUGH EVIDENCE IS GROWING CONCERNING OTHER ETIOLOGICAL FACTORS, SUCH AS ENVIRONMENTAL POLLUTION, BIOMASS COMBUSTION, INFECTIONS, GENETIC PREDISPOSITION, WHICH MAY EXPLAIN WHY SOME INDIVIDUALS DEVELOP COPD WITH NO HISTORY OF SMOKING. CHRONIC INFLAMMATION AND REMODELING OF THE SMALL AIRWAYS CHARACTERIZE THE DISEASE AT THE CELLULAR LEVEL, AND OXIDATIVE STRESS IS CONSIDERED THE MAIN DRIVING FORCE THAT STANDS BEHIND COPD INFLAMMATION. RECENTLY, CHROMATIN REMODELING AND EPIGENETIC CHANGES HAVE BEEN FOUND TO UNDERLIE DISEASE PATHOLOGY AND PROGRESSION. IN THIS REVIEW, THE AUTHORS GAVE A SHORT UPDATE ON THE RECENT HYPOTHESIS AND FINDINGS THAT MAY IMPLY NOVEL APPROACH TO PHARMACOTHERAPY OF THE DISEASE, FOCUSING ON THE ROLE OF GLUCOCORTICOSTEROIDS, THEOPHYLLINE, AND ANTIOXIDANTS. 2008 10 299 36 AIR POLLUTION AND DNA METHYLATION: EFFECTS OF EXPOSURE IN HUMANS. AIR POLLUTION EXPOSURE IS ESTIMATED TO CONTRIBUTE TO APPROXIMATELY SEVEN MILLION EARLY DEATHS EVERY YEAR WORLDWIDE AND MORE THAN 3% OF DISABILITY-ADJUSTED LIFE YEARS LOST. AIR POLLUTION HAS NUMEROUS HARMFUL EFFECTS ON HEALTH AND CONTRIBUTES TO THE DEVELOPMENT AND MORBIDITY OF CARDIOVASCULAR DISEASE, METABOLIC DISORDERS, AND A NUMBER OF LUNG PATHOLOGIES, INCLUDING ASTHMA AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). EMERGING DATA INDICATE THAT AIR POLLUTION EXPOSURE MODULATES THE EPIGENETIC MARK, DNA METHYLATION (DNAM), AND THAT THESE CHANGES MIGHT IN TURN INFLUENCE INFLAMMATION, DISEASE DEVELOPMENT, AND EXACERBATION RISK. SEVERAL TRAFFIC-RELATED AIR POLLUTION (TRAP) COMPONENTS, INCLUDING PARTICULATE MATTER (PM), BLACK CARBON (BC), OZONE (O(3)), NITROGEN OXIDES (NO(X)), AND POLYAROMATIC HYDROCARBONS (PAHS), HAVE BEEN ASSOCIATED WITH CHANGES IN DNAM; TYPICALLY LOWERING DNAM AFTER EXPOSURE. EFFECTS OF AIR POLLUTION ON DNAM HAVE BEEN OBSERVED ACROSS THE HUMAN LIFESPAN, BUT IT IS NOT YET CLEAR WHETHER EARLY LIFE DEVELOPMENTAL SENSITIVITY OR THE ACCUMULATION OF EXPOSURES HAVE THE MOST SIGNIFICANT EFFECTS ON HEALTH. AIR POLLUTION EXPOSURE-ASSOCIATED DNAM PATTERNS ARE OFTEN CORRELATED WITH LONG-TERM NEGATIVE RESPIRATORY HEALTH OUTCOMES, INCLUDING THE DEVELOPMENT OF LUNG DISEASES, A FOCUS IN THIS REVIEW. RECENTLY, INTERVENTIONS SUCH AS EXERCISE AND B VITAMINS HAVE BEEN PROPOSED TO REDUCE THE IMPACT OF AIR POLLUTION ON DNAM AND HEALTH. ULTIMATELY, IMPROVED KNOWLEDGE OF HOW EXPOSURE-INDUCED CHANGE IN DNAM IMPACTS HEALTH, BOTH ACUTELY AND CHRONICALLY, MAY ENABLE PREVENTATIVE AND REMEDIAL STRATEGIES TO REDUCE MORBIDITY IN POLLUTED ENVIRONMENTS. 2019 11 2273 30 EPIGENETIC REGULATION ALTERS BIOFILM ARCHITECTURE AND COMPOSITION IN MULTIPLE CLINICAL ISOLATES OF NONTYPEABLE HAEMOPHILUS INFLUENZAE. BIOFILMS PLAY A CRITICAL ROLE IN THE COLONIZATION, PERSISTENCE, AND PATHOGENESIS OF MANY HUMAN PATHOGENS. MULTIPLE MUCOSA-ASSOCIATED PATHOGENS HAVE EVOLVED A MECHANISM OF RAPID ADAPTATION, TERMED THE PHASEVARION, WHICH FACILITATES A COORDINATED REGULATION OF NUMEROUS GENES THROUGHOUT THE BACTERIAL GENOME. THIS EPIGENETIC REGULATION OCCURS VIA PHASE VARIATION OF A DNA METHYLTRANSFERASE, MOD. THE PHASEVARION OF NONTYPEABLE HAEMOPHILUS INFLUENZAE (NTHI) SIGNIFICANTLY AFFECTS THE SEVERITY OF EXPERIMENTAL OTITIS MEDIA AND REGULATES SEVERAL DISEASE-RELATED PROCESSES. HOWEVER, THE ROLE OF THE NTHI PHASEVARION IN BIOFILM FORMATION IS UNCLEAR. THE PRESENT STUDY SHOWS THAT THE PHASEVARIONS OF MULTIPLE NTHI CLINICAL ISOLATES REGULATE IN VITRO BIOFILM FORMATION UNDER DISEASE-SPECIFIC MICROENVIRONMENTAL CONDITIONS. THE IMPACT OF PHASEVARION REGULATION WAS GREATEST UNDER ALKALINE CONDITIONS THAT MIMIC THOSE KNOWN TO OCCUR IN THE MIDDLE EAR DURING DISEASE. UNDER ALKALINE CONDITIONS, NTHI STRAINS THAT EXPRESS THE MODA2 METHYLTRANSFERASE FORMED BIOFILMS WITH SIGNIFICANTLY GREATER BIOMASS AND LESS DISTINCT ARCHITECTURE THAN THOSE FORMED BY A MODA2-DEFICIENT POPULATION. THE BIOFILMS FORMED BY NTHI STRAINS THAT EXPRESS MODA2 ALSO CONTAINED LESS EXTRACELLULAR DNA (EDNA) AND SIGNIFICANTLY LESS EXTRACELLULAR HU, A DNABII DNA-BINDING PROTEIN CRITICAL FOR BIOFILM STRUCTURAL STABILITY. STABLE BIOFILM STRUCTURE IS CRITICAL FOR BACTERIAL PATHOGENESIS AND PERSISTENCE IN MULTIPLE EXPERIMENTAL MODELS OF DISEASE. THESE RESULTS IDENTIFY A ROLE FOR THE PHASEVARION IN REGULATION OF BIOFILM FORMATION, A PROCESS INTEGRAL TO THE CHRONIC NATURE OF MANY INFECTIONS. UNDERSTANDING THE ROLE OF THE PHASEVARION IN BIOFILM FORMATION IS CRITICAL TO THE DEVELOPMENT OF PREVENTION AND TREATMENT STRATEGIES FOR THESE CHRONIC DISEASES.IMPORTANCE UPPER RESPIRATORY TRACT INFECTIONS ARE THE NUMBER ONE REASON FOR A CHILD TO VISIT THE EMERGENCY DEPARTMENT, AND OTITIS MEDIA (MIDDLE EAR INFECTION) RANKS THIRD OVERALL. BIOFILMS CONTRIBUTE SIGNIFICANTLY TO THE CHRONIC NATURE OF BACTERIAL RESPIRATORY TRACT INFECTIONS, INCLUDING OTITIS MEDIA, AND MAKE THESE DISEASES PARTICULARLY DIFFICULT TO TREAT. SEVERAL MUCOSA-ASSOCIATED HUMAN PATHOGENS UTILIZE A MECHANISM OF RAPID ADAPTATION TERMED THE PHASEVARION, OR PHASEVARIABLE REGULON, TO RESIST ENVIRONMENTAL AND HOST IMMUNE PRESSURES. IN THIS STUDY, WE ASSESSED THE ROLE OF THE PHASEVARION IN REGULATION OF BIOFILM FORMATION BY NONTYPEABLE HAEMOPHILUS INFLUENZAE (NTHI), WHICH CAUSES NUMEROUS RESPIRATORY TRACT DISEASES. WE FOUND THAT THE NTHI PHASEVARION REGULATES BIOFILM STRUCTURE AND CRITICAL BIOFILM MATRIX COMPONENTS UNDER DISEASE-SPECIFIC CONDITIONS. THE FINDINGS OF THIS WORK COULD BE SIGNIFICANT IN THE DESIGN OF IMPROVED STRATEGIES AGAINST NTHI INFECTIONS, AS WELL AS DISEASES DUE TO OTHER PATHOGENS THAT UTILIZE A PHASEVARION. 2018 12 5174 35 PREDICTIVE AND PROGNOSTIC BIOMARKERS OF RESPIRATORY DISEASES DUE TO PARTICULATE MATTER EXPOSURE. AIR POLLUTION IS GETTING SEVERE AND CONCERNS ABOUT ITS TOXICITY EFFECTS ON AIRWAY AND LUNG DISEASE ARE ALSO INCREASING. PARTICULATE MATTER (PM) IS MAJOR COMPONENT OF AIR POLLUTANT. IT CAUSES RESPIRATORY DISEASES, SUCH AS ASTHMA, CHRONIC OBSTRUCTIVE PULMONARY DISEASE, LUNG CANCER, AND SO ON. PM PARTICLES ENTER THE AIRWAY AND LUNG BY INHALATION, CAUSING DAMAGES TO THEM. ESPECIALLY, PM(2.5) CAN PENETRATE INTO THE ALVEOLUS AND PASS TO THE SYSTEMIC CIRCULATION. IT CAN AFFECT THE CARDIOPULMONARY SYSTEM AND CAUSE CARDIOPULMONARY DISORDERS. IN THIS REVIEW, WE FOCUSED ON PM-INDUCING TOXICITY MECHANISMS IN THE FRAMEWORK OF OXIDATIVE STRESS, INFLAMMATION, AND EPIGENETIC CHANGES. WE ALSO REVIEWED ITS CORRELATION WITH RESPIRATORY DISEASES. IN ADDITION, WE REVIEWED BIOMARKERS RELATED TO PM-INDUCED RESPIRATORY DISEASES. THESE BIOMARKERS MIGHT BE USED FOR DISEASE PREDICTION AND EARLY DIAGNOSIS. WITH RECENT TREND OF USING GENOMIC ANALYSIS TOOLS IN THE FIELD OF TOXICOGENOMICS, RESPIRATORY DISEASE BIOMARKERS ASSOCIATED WITH PM WILL BE CONTINUOUSLY INVESTIGATED. EFFECTIVE BIOMARKERS DERIVED FROM EARLIER STUDIES AND FURTHER STUDIES MIGHT BE UTILIZED TO REDUCE RESPIRATORY DISEASES. 2017 13 361 34 AMBIENT AIR POLLUTION AND THROMBOSIS. AIR POLLUTION IS A GROWING PUBLIC HEALTH CONCERN OF GLOBAL SIGNIFICANCE. ACUTE AND CHRONIC EXPOSURE IS KNOWN TO IMPAIR CARDIOVASCULAR FUNCTION, EXACERBATE DISEASE AND INCREASE CARDIOVASCULAR MORTALITY. SEVERAL PLAUSIBLE BIOLOGICAL MECHANISMS HAVE BEEN PROPOSED FOR THESE ASSOCIATIONS, HOWEVER, AT PRESENT, THE PATHWAYS ARE INCOMPLETE. A SEMINAL REVIEW BY THE AMERICAN HEART ASSOCIATION (2010) CONCLUDED THAT THE THROMBOTIC EFFECTS OF PARTICULATE AIR POLLUTION LIKELY CONTRIBUTED TO THEIR EFFECTS ON CARDIOVASCULAR MORTALITY AND MORBIDITY. THE AIM OF THE CURRENT REVIEW IS TO APPRAISE THE NEWLY ACCUMULATED SCIENTIFIC EVIDENCE (2009-2016) ON CONTRIBUTION OF HAEMOSTASIS AND THROMBOSIS TOWARDS CARDIOVASCULAR DISEASE INDUCED BY EXPOSURE TO BOTH PARTICULATE AND GASEOUS POLLUTANTS.SEVENTY FOUR PUBLICATIONS WERE REVIEWED IN-DEPTH. THE WEIGHT OF EVIDENCE SUGGESTS THAT ACUTE EXPOSURE TO FINE PARTICULATE MATTER (PM(2.5)) INDUCES A SHIFT IN THE HAEMOSTATIC BALANCE TOWARDS A PRO-THROMBOTIC/PRO-COAGULATIVE STATE. INSUFFICIENT DATA WAS AVAILABLE TO ASCERTAIN IF A SIMILAR RELATIONSHIP EXISTS FOR GASEOUS POLLUTANTS, AND VERY FEW STUDIES HAVE ADDRESSED LONG-TERM EXPOSURE TO AMBIENT AIR POLLUTION. PLATELET ACTIVATION, OXIDATIVE STRESS, INTERPLAY BETWEEN INTERLEUKIN-6 AND TISSUE FACTOR, ALL APPEAR TO BE POTENTIALLY IMPORTANT MECHANISMS IN POLLUTION-MEDIATED THROMBOSIS, TOGETHER WITH AN EMERGING ROLE FOR CIRCULATING MICROVESICLES AND EPIGENETIC CHANGES.OVERALL, THE RECENT LITERATURE SUPPORTS, AND ARGUABLY STRENGTHENS, THE CONTENTION THAT AIR POLLUTION CONTRIBUTES TO CARDIOVASCULAR MORBIDITY BY PROMOTING HAEMOSTASIS. THE VOLUME AND DIVERSITY OF THE EVIDENCE HIGHLIGHTS THE COMPLEXITY OF THE PATHOPHYSIOLOGIC MECHANISMS BY WHICH AIR POLLUTION PROMOTES THROMBOSIS; MULTIPLE PATHWAYS ARE PLAUSIBLE AND IT IS MOST LIKELY THEY ACT IN CONCERT. FUTURE RESEARCH SHOULD ADDRESS THE ROLE GASEOUS POLLUTANTS PLAY IN THE CARDIOVASCULAR EFFECTS OF AIR POLLUTION MIXTURE AND DIRECT COMPARISON OF POTENTIALLY SUSCEPTIBLE GROUPS TO HEALTHY INDIVIDUALS. 2018 14 5254 37 PROGRAMMING OF RESPIRATORY HEALTH IN CHILDHOOD: INFLUENCE OF OUTDOOR AIR POLLUTION. PURPOSE OF REVIEW: THIS OVERVIEW HIGHLIGHTS RECENT EXPERIMENTAL AND EPIDEMIOLOGICAL EVIDENCE FOR THE PROGRAMMING EFFECTS OF OUTDOOR AIR POLLUTION EXPOSURES DURING EARLY DEVELOPMENT ON LUNG FUNCTION AND CHRONIC RESPIRATORY DISORDERS, SUCH AS ASTHMA AND RELATED ALLERGIC DISORDERS. RECENT FINDINGS: AIR POLLUTANTS MAY IMPACT ANATOMY AND/OR PHYSIOLOGICAL FUNCTIONING OF THE LUNG AND INTERRELATED SYSTEMS. PROGRAMMING EFFECTS MAY RESULT FROM POLLUTANT-INDUCED SHIFTS IN A NUMBER OF MOLECULAR, CELLULAR, AND PHYSIOLOGICAL STATES AND THEIR INTERACTING SYSTEMS. SPECIFIC KEY REGULATORY SYSTEMS SUSCEPTIBLE TO PROGRAMMING MAY INFLUENCE LUNG DEVELOPMENT AND VULNERABILITY TO RESPIRATORY DISEASES, INCLUDING BOTH CENTRAL AND PERIPHERAL COMPONENTS OF NEUROENDOCRINE PATHWAYS AND AUTONOMIC NERVOUS SYSTEM (ANS) FUNCTIONING WHICH, IN TURN, INFLUENCE THE IMMUNE SYSTEM. STARTING IN UTERO, ENVIRONMENTAL FACTORS, INCLUDING AIR POLLUTANTS, MAY PERMANENTLY ORGANIZE THESE SYSTEMS TOWARD TRAJECTORIES OF ENHANCED PEDIATRIC (E.G., ASTHMA, ALLERGY) AS WELL AS ADULT DISEASE RISK (E.G., CHRONIC OBSTRUCTIVE PULMONARY DISEASE). EVIDENCE SUPPORTS A CENTRAL ROLE OF OXIDATIVE STRESS IN THE TOXIC EFFECTS OF AIR POLLUTION. ADDITIONAL RESEARCH SUGGESTS XENOBIOTIC METABOLISM AND SUBCELLULAR COMPONENTS, SUCH AS MITOCHONDRIA ARE TARGETS OF AMBIENT AIR POLLUTION AND PLAY A ROLE IN ASTHMA AND ALLERGY PROGRAMMING. MECHANISMS OPERATING AT THE LEVEL OF THE PLACENTA ARE BEING ELUCIDATED. EPIGENETIC MECHANISMS MAY BE AT THE ROOTS OF ADAPTIVE DEVELOPMENTAL PROGRAMMING. SUMMARY: OPTIMAL COORDINATED FUNCTIONING OF MANY COMPLEX PROCESSES AND THEIR NETWORKS OF INTERACTION ARE NECESSARY FOR NORMAL LUNG DEVELOPMENT AND THE MAINTENANCE OF RESPIRATORY HEALTH. OUTDOOR AIR POLLUTION MAY PLAY AN IMPORTANT ROLE IN EARLY PROGRAMMING OF RESPIRATORY HEALTH AND IS POTENTIALLY AMENABLE TO INTERVENTION. 2013 15 1223 42 CRITICAL REVIEW ON EMERGING HEALTH EFFECTS ASSOCIATED WITH THE INDOOR AIR QUALITY AND ITS SUSTAINABLE MANAGEMENT. INDOOR AIR QUALITY (IAQ) IS ONE OF THE FUNDAMENTAL ELEMENTS AFFECTING PEOPLE'S HEALTH AND WELL-BEING. CURRENTLY, THERE IS A LACK OF AWARENESS AMONG PEOPLE ABOUT THE QUANTIFICATION, IDENTIFICATION, AND POSSIBLE HEALTH EFFECTS OF IAQ. AIRBORNE POLLUTANTS SUCH AS VOLATILE ORGANIC COMPOUNDS (VOCS), PARTICULATE MATTER (PM), SULFUR DIOXIDE (SO2), CARBON MONOXIDE (CO), NITROUS OXIDE (NO), POLYCYCLIC AROMATIC HYDROCARBONS (PAHS) MICROBIAL SPORES, POLLEN, ALLERGENS, ETC. PRIMARILY CONTRIBUTE TO IAQ DETERIORATION. THIS REVIEW DISCUSSES THE SOURCES OF MAJOR INDOOR AIR POLLUTANTS, MOLECULAR TOXICITY MECHANISMS, AND THEIR EFFECTS ON CARDIOVASCULAR, OCULAR, NEUROLOGICAL, WOMEN, AND FOETAL HEALTH. ADDITIONALLY, CONTEMPORARY STRATEGIES AND SUSTAINABLE METHODS FOR REGULATING AND REDUCING POLLUTANT CONCENTRATIONS ARE EMPHASIZED, AND CURRENT INITIATIVES TO ADDRESS AND ENHANCE IAQ ARE EXPLORED, ALONG WITH THEIR UNIQUE ADVANTAGES AND POTENTIALS. DUE TO THEIR LONGER EXPOSURE TIMES AND PARTICULAR PHYSICAL CHARACTERISTICS, WOMEN AND CHILDREN ARE MORE AT RISK FOR POOR INDOOR AIR QUALITY. BY TRIGGERING MANY TOXICITY MECHANISMS, INCLUDING OXIDATIVE STRESS, DNA METHYLATION, EPIGENETIC MODIFICATIONS, AND GENE ACTIVATION, INDOOR AIR POLLUTION CAN CAUSE A RANGE OF HEALTH ISSUES. LOW BIRTH WEIGHT, ACUTE LOWER RESPIRATORY TRACT INFECTIONS, SICK BUILDING SYNDROMES (SBS), AND EARLY DEATH ARE MORE PREVALENT IN EXPOSED RESIDENTS. ON THE OTHER HAND, THE MAIN CAUSES OF INCAPACITY AND EARLY MORTALITY ARE LUNG CANCER, CHRONIC OBSTRUCTIVE PULMONARY DISEASE, AND CARDIOVASCULAR DISORDERS. IT'S CRUCIAL TO ACKNOWLEDGE ANTICIPATED RESEARCH NEEDS AND IMPLEMENTED EFFICIENT INTERVENTIONS AND POLICIES TO LOWER HEALTH HAZARDS. 2023 16 4954 31 PATHOGENESIS OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE. THE PATHOGENESIS OF CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) ENCOMPASSES A NUMBER OF INJURIOUS PROCESSES, INCLUDING AN ABNORMAL INFLAMMATORY RESPONSE IN THE LUNGS TO INHALED PARTICLES AND GASES. OTHER PROCESSES, SUCH AS FAILURE TO RESOLVE INFLAMMATION, ABNORMAL CELL REPAIR, APOPTOSIS, ABNORMAL CELLULAR MAINTENANCE PROGRAMS, EXTRACELLULAR MATRIX DESTRUCTION (PROTEASE/ANTIPROTEASE IMBALANCE), AND OXIDATIVE STRESS (OXIDANT/ANTIOXIDANT IMBALANCE) ALSO HAVE A ROLE. THE INFLAMMATORY RESPONSES TO THE INHALATION OF ACTIVE AND PASSIVE TOBACCO SMOKE AND URBAN AND RURAL AIR POLLUTION ARE MODIFIED BY GENETIC AND EPIGENETIC FACTORS. THE SUBSEQUENT CHRONIC INFLAMMATORY RESPONSES LEAD TO MUCUS HYPERSECRETION, AIRWAY REMODELING, AND ALVEOLAR DESTRUCTION. THIS ARTICLE PROVIDES AN UPDATE ON THE CELLULAR AND MOLECULAR MECHANISMS OF THESE PROCESSES IN THE PATHOGENESIS OF COPD. 2007 17 4317 32 MICRORNAS AS REGULATORS OF AIRBORNE POLLUTION-INDUCED LUNG INFLAMMATION AND CARCINOGENESIS. THE INCREASING INCIDENCE OF PULMONARY INFLAMMATION AND LUNG CANCER, AS WELL AS EXACERBATION OF PRE-EXISTING CHRONIC LUNG DISEASES BY EXPOSURE TO AIRBORNE POLLUTANTS, E.G., PARTICULATE MATTER AND CIGARETTE SMOKE, IS BECOMING A MAJOR PUBLIC HEALTH CONCERN IN THE WORLD. HOWEVER, THE EXACT MECHANISMS OF PULMONARY INJURY FROM EXPOSURE TO THESE AIRBORNE INSULTS HAVE NOT BEEN FULLY ELUCIDATED. NEVERTHELESS, ACCUMULATING EVIDENCE SUGGESTS THAT MICRORNAS (MIRNAS) MAY PLAY A UNIQUE ROLE IN THE REGULATION OF AIRBORNE AGENT-INDUCED LUNG INFLAMMATION AND CARCINOGENESIS. SINCE EPIGENETIC MODIFICATIONS ARE HERITABLE AND REVERSIBLE, THIS MAY PROVIDE A NEW INSIGHT INTO THE RELATIONSHIP OF MIRNAS AND ENVIRONMENTAL POLLUTION-RELATED LUNG DISORDERS. THE AIM OF THIS REVIEW WAS TO UPDATE OUR EXISTING KNOWLEDGE REGARDING THE MECHANISMS BY WHICH AIRBORNE POLLUTANTS ALTERING MIRNA PROFILES IN THE LUNG, SPECIFICALLY FOR CIGARETTE SMOKE AND AIRBORNE PARTICULATE MATTER, AND THE POTENTIAL BIOLOGICAL ROLES OF MIRNAS IN THE INITIATION OF PULMONARY INFLAMMATION AND LUNG CANCER, AS WELL AS THE REGULATION OF UNDERLYING GENETIC SUSCEPTIBILITY TO THESE ENVIRONMENTAL STRESSORS. 2015 18 3421 27 HUMAN MATTERS IN ASTHMA: CONSIDERING THE MICROBIOME IN PULMONARY HEALTH. MICROBIAL COMMUNITIES FORM AN IMPORTANT SYMBIOTIC ECOSYSTEM WITHIN HUMANS AND HAVE DIRECT EFFECTS ON HEALTH AND WELL-BEING. NUMEROUS EXOGENOUS FACTORS INCLUDING AIRBORNE TRIGGERS, DIET, AND DRUGS IMPACT THESE ESTABLISHED, BUT FRAGILE COMMUNITIES ACROSS THE HUMAN LIFESPAN. CROSSTALK BETWEEN THE MUCOSAL MICROBIOTA AND THE IMMUNE SYSTEM AS WELL AS THE GUT-LUNG AXIS HAVE DIRECT CORRELATIONS TO IMMUNE BIAS THAT MAY PROMOTE CHRONIC DISEASES LIKE ASTHMA. ASTHMA INITIATION AND PATHOGENESIS ARE MULTIFACETED AND COMPLEX WITH INPUT FROM GENETIC, EPIGENETIC, AND ENVIRONMENTAL COMPONENTS. IN THIS REVIEW, WE SUMMARIZE AND DISCUSS THE ROLE OF THE AIRWAY MICROBIOME IN ASTHMA, AND HOW THE ENVIRONMENT, DIET AND THERAPEUTICS IMPACT THIS LOW BIOMASS COMMUNITY OF MICROORGANISMS. WE ALSO FOCUS THIS REVIEW ON THE PEDIATRIC AND BLACK POPULATIONS AS HIGH-RISK GROUPS REQUIRING SPECIAL ATTENTION, EMPHASIZING THAT THE WHOLE PATIENT MUST BE CONSIDERED DURING TREATMENT. ALTHOUGH NEW CULTURE-INDEPENDENT TECHNIQUES HAVE BEEN DEVELOPED AND ARE MORE ACCESSIBLE TO RESEARCHERS, THE EXACT CONTRIBUTION THE AIRWAY MICROBIOME MAKES IN ASTHMA PATHOGENESIS IS NOT WELL UNDERSTOOD. UNDERSTANDING HOW THE AIRWAY MICROBIOME, AS A LIVING ENTITY IN THE RESPIRATORY TRACT, PARTICIPATES IN LUNG IMMUNITY DURING THE DEVELOPMENT AND PROGRESSION OF ASTHMA MAY LEAD TO CRITICAL NEW TREATMENTS FOR ASTHMA, INCLUDING POPULATION-TARGETED INTERVENTIONS, OR EVEN MORE EFFECTIVE ADMINISTRATION OF CURRENTLY AVAILABLE THERAPEUTICS. 2022 19 6915 23 [VULNERABILITY OF WOMEN TO TOBACCO: THE BRONCHO-PULMONARY CONSEQUENCES (ASTHMA, COPD)]. SMOKING REMAINS COMMON, WITH AN EXPOSURE THAT BEGINS EARLY DURING PREGNANCY. IT INDUCES EPIGENETIC CHANGES, WITH A TRANS-GENERATIONAL TRANSMISSION. SMOKING INCREASES THE RISK OF UNCONTROLLED ASTHMA DURING CHILDHOOD AND ADULT LIFE. ASTHMA IS ALSO ASSOCIATED WITH INCREASED RISK OF A DECLINE OF LUNG FUNCTION AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). WOMEN ARE MORE AT RISK OF DEVELOPING EARLY AND SEVERE COPD. THE MECHANISMS ARE CURRENTLY POORLY KNOWN. 2019 20 3106 34 GENOMICS AND THE RESPIRATORY EFFECTS OF AIR POLLUTION EXPOSURE. ADVERSE HEALTH EFFECTS FROM AIR POLLUTANTS REMAIN IMPORTANT, DESPITE IMPROVEMENT IN AIR QUALITY IN THE PAST FEW DECADES. THE EXACT MECHANISMS OF LUNG INJURY FROM EXPOSURE TO AIR POLLUTANTS ARE NOT YET FULLY UNDERSTOOD. STUDYING THE GENOME (E.G. SINGLE-NUCLEOTIDE POLYMORPHISMS (SNP) ), EPIGENOME (E.G. METHYLATION OF GENES), TRANSCRIPTOME (MRNA EXPRESSION) AND MICRORNAOME (MICRORNA EXPRESSION) HAS THE POTENTIAL TO IMPROVE OUR UNDERSTANDING OF THE ADVERSE EFFECTS OF AIR POLLUTANTS. GENOME-WIDE ASSOCIATION STUDIES OF SNP HAVE DETECTED SNP ASSOCIATED WITH RESPIRATORY PHENOTYPES; HOWEVER, TO DATE, ONLY CANDIDATE GENE STUDIES OF AIR POLLUTION EXPOSURE HAVE BEEN PERFORMED. CHANGES IN EPIGENETIC PROCESSES, SUCH DNA METHYLATION THAT LEADS TO GENE SILENCING WITHOUT ALTERING THE DNA SEQUENCE, OCCUR WITH AIR POLLUTANT EXPOSURE, ESPECIALLY GLOBAL AND GENE-SPECIFIC METHYLATION CHANGES. RESPIRATORY CELL LINE AND ANIMAL MODELS DEMONSTRATE DISTINCT GENE EXPRESSION SIGNATURES IN THE TRANSCRIPTOME, ARISING FROM EXPOSURE TO PARTICULATE MATTER OR OZONE. PARTICULATE MATTER AND OTHER ENVIRONMENTAL TOXINS ALTER EXPRESSION OF MICRORNA, WHICH ARE SHORT NON-CODING RNA THAT REGULATE GENE EXPRESSION. WHILE IT IS CLEARLY IMPORTANT TO CONTAIN RISING LEVELS OF AIR POLLUTION, STRATEGIES ALSO NEED TO BE DEVELOPED TO MINIMIZE THE DAMAGING EFFECTS OF AIR POLLUTANT EXPOSURE ON THE LUNG, ESPECIALLY FOR PATIENTS WITH CHRONIC LUNG DISEASE AND FOR PEOPLE AT RISK OF FUTURE LUNG DISEASE. CAREFUL STUDY OF GENOMIC RESPONSES WILL IMPROVE OUR UNDERSTANDING OF MECHANISMS OF LUNG INJURY FROM AIR POLLUTION AND ENABLE FUTURE CLINICAL TESTING OF INTERVENTIONS AGAINST THE TOXIC EFFECTS OF AIR POLLUTANTS. 2012