1 108 121 A REVIEW OF THE PROTECTIVE EFFECT OF MELATONIN IN PESTICIDE-INDUCED TOXICITY. PESTICIDES ARE AMONG THE MOST IMPORTANT CHEMICALS USED IN AGRICULTURE SECTOR. HOWEVER, THEIR EXTENSIVE USE HAS POLLUTED THE ENVIRONMENT AND INCREASED HUMAN VULNERABILITY TO VARIOUS CHRONIC DISEASES. PESTICIDE EXPOSURE CAUSES GENETIC AND EPIGENETIC MODIFICATIONS, ENDOCRINE DISRUPTION, MITOCHONDRIAL DYSFUNCTION AND OXIDATIVE STRESS. AREAS COVERED: THIS REVIEW IS BASED ON THE LITERATURE STUDIES CURRENTLY REPORTED ON PESTICIDE-INDUCED TOXICITY AND THE PROTECTIVE ROLE OF MELATONIN. SCIENTIFIC DATABASES SUCH AS PUBMED, SCOPUS AND WEB OF SCIENCE WERE SEARCHED USING KEYWORDS 'PESTICIDE' AND 'MELATONIN' UP TO JANUARY 2016. FULL LENGTH ARTICLES RELATED TO ANIMAL AND HUMAN EXPOSURE WERE RETRIEVED. A TOTAL NUMBER OF 181 RECORDS WERE OBTAINED, AND AFTER EXCLUDING THE DUPLICATES, 97 PAPERS WERE FURTHER SCREENED ON THE BASIS OF RELEVANCE TO THE TOPIC. EXPERT OPINION: MELATONIN AS A BROAD-SPECTRUM ANTIOXIDANT IS ABLE TO PENETRATE CELLULAR COMPARTMENTS SPECIFICALLY THE MITOCHONDRIA. IT IS A POTENT FREE RADICAL SCAVENGER WITH LOW TOXICITY AND DESIRABLE SOLUBILITY IN ORGANIC AND AQUEOUS PHASES. WE ARE OF THE OPINION THAT MELATONIN IS A PROMISING AGENT IN MINIMIZING ORGAN INJURIES INDUCED BY PESTICIDES. 2017 2 3393 28 HOST DETERMINANTS OF PRION STRAIN DIVERSITY INDEPENDENT OF PRION PROTEIN GENOTYPE. PHENOTYPIC DIVERSITY IN PRION DISEASES CAN BE SPECIFIED BY PRION STRAINS IN WHICH BIOLOGICAL TRAITS ARE PROPAGATED THROUGH AN EPIGENETIC MECHANISM MEDIATED BY DISTINCT PRP(SC) CONFORMATIONS. WE INVESTIGATED THE ROLE OF HOST-DEPENDENT FACTORS ON PHENOTYPIC DIVERSITY OF CHRONIC WASTING DISEASE (CWD) IN DIFFERENT HOST SPECIES THAT EXPRESS THE SAME PRION PROTEIN GENE (PRNP). TWO CWD STRAINS THAT HAVE DISTINCT BIOLOGICAL, BIOCHEMICAL, AND PATHOLOGICAL FEATURES WERE IDENTIFIED IN TRANSGENIC MICE THAT EXPRESS THE SYRIAN GOLDEN HAMSTER (SGH) PRNP. THE CKY STRAIN OF CWD HAD A SHORTER INCUBATION PERIOD THAN THE WST STRAIN OF CWD, BUT AFTER TRANSMISSION TO SGH, THE INCUBATION PERIOD OF CKY CWD WAS APPROXIMATELY 150 DAYS LONGER THAN WST CWD. LIMITED PROTEINASE K DIGESTION REVEALED STRAIN-SPECIFIC PRP(SC) POLYPEPTIDE PATTERNS THAT WERE MAINTAINED IN BOTH HOSTS, BUT THE SOLUBILITY AND CONFORMATIONAL STABILITY OF PRP(SC) DIFFERED FOR THE CWD STRAINS IN A HOST-DEPENDENT MANNER. WST CWD PRODUCED PRP(SC) AMYLOID PLAQUES IN THE BRAIN OF THE SGH THAT WERE PARTIALLY INSOLUBLE AND STABLE AT A HIGH CONCENTRATION OF PROTEIN DENATURANT. HOWEVER, IN TRANSGENIC MICE, PRP(SC) FROM WST CWD DID NOT ASSEMBLE INTO PLAQUES, WAS HIGHLY SOLUBLE, AND HAD LOW CONFORMATIONAL STABILITY. SIMILAR STUDIES USING THE HY AND DY STRAINS OF TRANSMISSIBLE MINK ENCEPHALOPATHY RESULTED IN MINOR DIFFERENCES IN PRION BIOLOGICAL AND PRP(SC) PROPERTIES BETWEEN TRANSGENIC MICE AND SGH. THESE FINDINGS INDICATE THAT HOST-SPECIFIC PATHWAYS THAT ARE INDEPENDENT OF PRNP CAN ALTER THE PRP(SC) CONFORMATION OF CERTAIN PRION STRAINS, LEADING TO CHANGES IN THE BIOPHYSICAL PROPERTIES OF PRP(SC), NEUROPATHOLOGY, AND CLINICAL PRION DISEASE. IMPORTANCE: PRIONS ARE MISFOLDED PATHOGENIC PROTEINS THAT CAUSE NEURODEGENERATION IN HUMANS AND ANIMALS. TRANSMISSIBLE PRION DISEASES EXHIBIT A SPECTRUM OF DISEASE PHENOTYPES AND THE BASIS OF THIS DIVERSITY IS ENCODED IN THE STRUCTURE OF THE PATHOGENIC PRION PROTEIN AND PROPAGATED BY AN EPIGENETIC MECHANISM. IN THE PRESENT STUDY, WE INVESTIGATED PRION DIVERSITY IN TWO HOSTS SPECIES THAT EXPRESS THE SAME PRION PROTEIN GENE. WHILE PRIOR REPORTS HAVE DEMONSTRATED THAT PRION STRAIN PROPERTIES ARE STABLE UPON INFECTION OF THE SAME HOST SPECIES AND PRION PROTEIN GENOTYPE, OUR FINDINGS INDICATE THAT CERTAIN PRION STRAINS CAN UNDERGO DRAMATIC CHANGES IN BIOLOGICAL PROPERTIES THAT ARE NOT DEPENDENT ON THE PRION PROTEIN. THEREFORE, HOST FACTORS INDEPENDENT OF THE PRION PROTEIN CAN AFFECT PRION DIVERSITY. UNDERSTANDING HOW HOST PATHWAYS CAN MODIFY PRION DISEASE PHENOTYPES MAY PROVIDE CLUES ON HOW TO ALTER PRION FORMATION AND LEAD TO TREATMENTS FOR PRION, AND OTHER, HUMAN NEURODEGENERATIVE DISEASES OF PROTEIN MISFOLDING. 2015 3 4155 25 MECHANISTIC UNDERSTANDING OF THE TOXIC EFFECTS OF ARSENIC AND WARFARE ARSENICALS ON HUMAN HEALTH AND ENVIRONMENT. WORLDWIDE, MORE THAN 200 MILLION PEOPLE ARE ESTIMATED TO BE EXPOSED TO UNSAFE LEVELS OF ARSENIC. CHRONIC EXPOSURE TO UNSAFE LEVELS OF GROUNDWATER ARSENIC IS RESPONSIBLE FOR MULTIPLE HUMAN DISORDERS, INCLUDING DERMAL, CARDIOVASCULAR, NEUROLOGICAL, PULMONARY, RENAL, AND METABOLIC CONDITIONS. CONSUMPTION OF RICE AND SEAFOOD (WHERE HIGH LEVELS OF ARSENIC ARE ACCUMULATED) IS ALSO RESPONSIBLE FOR HUMAN EXPOSURE TO ARSENIC. THE TOXICITY OF ARSENIC COMPOUNDS VARIES GREATLY AND MAY DEPEND ON THEIR CHEMICAL FORM, SOLUBILITY, AND CONCENTRATION. SURPRISINGLY, SYNTHETIC ORGANOARSENICALS ARE EXTREMELY TOXIC MOLECULES WHICH CREATED INTEREST IN THEIR DEVELOPMENT AS CHEMICAL WARFARE AGENTS (CWAS) DURING WORLD WAR I (WWI). AMONG THESE CWAS, ADAMSITE, CLARK I, CLARK II, AND LEWISITE ARE OF CRITICAL IMPORTANCE, AS STOCKPILES OF THESE AGENTS STILL EXIST WORLDWIDE. IN ADDITION, UNUSED WWII WEAPONIZED ARSENICALS DISCARDED IN WATER BODIES OR BURIED IN MANY PARTS OF THE WORLD CONTINUE TO POSE A SERIOUS THREAT TO THE ENVIRONMENT AND HUMAN HEALTH. METABOLIC INHIBITION, OXIDATIVE STRESS, GENOTOXICITY, AND EPIGENETIC ALTERATIONS INCLUDING MICRO-RNA-DEPENDENT REGULATION ARE SOME OF THE UNDERLYING MECHANISMS OF ARSENIC TOXICITY. MECHANISTIC UNDERSTANDING OF THE TOXICITY OF ORGANOARSENICALS IS ALSO CRITICAL FOR THE DEVELOPMENT OF EFFECTIVE THERAPEUTIC INTERVENTIONS. THIS REVIEW PROVIDES COMPREHENSIVE DETAILS AND A CRITICAL ASSESSMENT OF RECENTLY PUBLISHED DATA ON VARIOUS CHEMICAL FORMS OF ARSENIC, THEIR EXPOSURE, AND IMPLICATIONS ON HUMAN AND ENVIRONMENTAL HEALTH. 2023 4 836 25 CHEMICAL TOXICITY AND RADIOACTIVITY OF DEPLETED URANIUM: THE EVIDENCE FROM IN VIVO AND IN VITRO STUDIES. THE MAIN AIM OF THIS REVIEW IS TO SUMMARIZE AND DISCUSS THE CURRENT STATE OF KNOWLEDGE ON CHEMICAL TOXICITY AND RADIOACTIVITY OF DEPLETED URANIUM (DU) AND THEIR EFFECT ON LIVING SYSTEMS AND CELL LINES. THIS WAS DONE BY PRESENTING A SUMMARY OF PREVIOUS INVESTIGATIONS CONDUCTED ON DIFFERENT MAMMALIAN BODY SYSTEMS AND CELL CULTURES IN TERMS OF POTENTIAL CHANGES CAUSED BY EITHER CHEMICAL TOXICITY OR RADIOACTIVITY OF DU. IN ADDITION, THE AUTHORS AIMED TO POINT OUT THE LIMITATIONS OF THOSE STUDIES AND POSSIBLE FUTURE DIRECTIONS. THE MAJORITY OF BOTH IN VITRO AND IN VIVO STUDIES PERFORMED USING ANIMAL MODELS REGARDING POSSIBLE EFFECTS CAUSED BY ACUTE OR CHRONIC DU EXPOSURE HAS BEEN REVIEWED. FURTHERMORE, EXPOSURE TIME AND DOSE, DU PARTICLE SOLUBILITY, AND URANIUM ISOTOPES AS FACTORS AFFECTING THE EXTENT OF DU EFFECTS HAVE BEEN DISCUSSED. SPECIAL ATTENTION HAS BEEN DEDICATED TO CHROMOSOMAL ABERRATIONS, DNA DAMAGE AND DNA BREAKS, AS WELL AS MICRONUCLEI FORMATION AND EPIGENETIC CHANGES, AS DU HAS RECENTLY BEEN CONSIDERED A POSSIBLE CAUSATIVE FACTOR OF ALL THESE PROCESSES. THEREFORE, THIS APPROACH MIGHT REPRESENT A NOVEL AREA OF STUDY OF DU-RELATED IRRADIATION EFFECTS ON HEALTH. SINCE DIFFERENT STUDIES OFFER CONTRADICTORY RESULTS, THE MAIN AIM OF THIS REVIEW IS TO SUMMARIZE AND BRIEFLY DISCUSS PREVIOUSLY OBTAINED RESULTS IN ORDER TO IDENTIFY THE CURRENT OPINION ON DU TOXICITY AND RADIOACTIVITY EFFECTS IN RELATION TO EXPOSURE TYPE AND DURATION, AS WELL AS DU PROPERTIES. 2017 5 1156 24 CONSIDERING THE USE OF THE TERMS STRAIN AND ADAPTATION IN PRION RESEARCH. EVOLUTIONARY BIOLOGISTS AND DISEASE BIOLOGISTS USE THE TERMS STRAIN AND ADAPTATION IN CHRONIC WASTING DISEASE (CWD) RESEARCH IN DIFFERENT WAYS. IN EVOLUTIONARY BIOLOGY, A STRAIN IS A NASCENT GENETIC LINEAGE THAT CAN BE DESCRIBED BY A GENEALOGY, AND A PHYLOGENETIC NOMENCLATURE CONSTRUCTED TO REFLECT THAT GENEALOGY. PRION STRAINS ARE DESCRIBED AS SHOWING DISTINCT HOST RANGE, CLINICAL PRESENTATION, DISEASE PROGRESSION, AND NEUROPATHOLOGICAL AND PRP BIOCHEMICAL PROFILES, AND LACK INFORMATION THAT WOULD PERMIT PHYLOGENETIC RECONSTRUCTION OF THEIR HISTORY. PRION STRAINS ARE ALTERNATIVE PROTEIN CONFORMATIONS, SOMETIMES DERIVED FROM THE SAME GENOTYPE. I SUGGEST REFERRING TO PRION STRAINS AS ECOTYPES, BECAUSE THE VARIANT PHENOTYPIC CONFORMATIONS ("STRAINS") ARE A FUNCTION OF THE INTERACTION BETWEEN PRNP AMINO ACID GENOTYPE AND THE HOST ENVIRONMENT. IN THE CASE OF CWD, A PRION ECOTYPE IN WHITE-TAILED DEER WOULD BE DESCRIBED BY ITS GENOTYPE AND THE HOST IN WHICH IT OCCURS, SUCH AS THE H95 + ECOTYPE. HOWEVER, AN EVOLUTIONARY NOMENCLATURE IS DIFFICULT BECAUSE NOT ALL INDIVIDUALS WITH THE SAME PRNP GENOTYPE SHOW SIGNS OF CWD, THEREFORE CREATING A NOMENCLATURE REFLECTING AND ONE-TO-ONE RELATIONSHIP BETWEEN PRNP GENEALOGY AND CWD PRESENCE IS DIFFICULT. FURTHERMORE, VERY LITTLE INFORMATION EXISTS ON THE PHYLOGENETIC DISTRIBUTION OF CWD ECOTYPES IN WILD DEER POPULATIONS. ADAPTATION HAS A CLEAR MEANING IN EVOLUTIONARY BIOLOGY, THE DIFFERENTIAL SURVIVAL AND REPRODUCTION OF INDIVIDUAL GENOTYPES. IF A NEW PRION ECOTYPE ARISES IN A PARTICULAR HOST AND KILLS MORE HOSTS OR KILLS AT AN EARLIER AGE, IT IS THE ANTITHESIS OF THE EVOLUTIONARY DEFINITION OF ADAPTATION. HOWEVER, PRION STRAINS MIGHT BE TRANSMITTED ACROSS GENERATIONS EPIGENETICALLY, BUT WHETHER THIS REPRESENTS ADAPTATION DEPENDS ON THE FITNESS CONSEQUENCES OF THE STRAIN. PROTEIN PHENOTYPES OF PRNP THAT CAUSE TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHIES (TSES), AND CWD, ARE MALADAPTIVE AND WOULD NOT BE PROPAGATED GENETICALLY OR EPIGENETICALLY VIA A PROCESS CONSISTENT WITH AN EVOLUTIONARY VIEW OF ADAPTATION. I SUGGEST TERMING THE PROCESS OF PRION STRAIN ORIGINATION "PHENOTYPIC TRANSFORMATION", AND ONLY ADAPTATION IF EVIDENCE SHOWS THEY ARE NOT MALADAPTIVE AND PERSIST OVER EVOLUTIONARY TIME PERIODS (E.G., THOUSANDS OF GENERATIONS) AND ACROSS DISTINCT SPECIES BOUNDARIES (VIA INHERITANCE). THUS, PRION BIOLOGISTS USE STRAIN AND ADAPTATION, HISTORICALLY EVOLUTIONARY TERMS, IN QUITE DIFFERENT WAYS. 2021 6 4822 23 OCHRATOXIN A: 50 YEARS OF RESEARCH. SINCE OCHRATOXIN A (OTA) WAS DISCOVERED, IT HAS BEEN UBIQUITOUS AS A NATURAL CONTAMINANT OF MOLDY FOOD AND FEED. THE MULTIPLE TOXIC EFFECTS OF OTA ARE A REAL THREAT FOR HUMAN BEINGS AND ANIMAL HEALTH. FOR EXAMPLE, OTA CAN CAUSE PORCINE NEPHROPATHY BUT CAN ALSO DAMAGE POULTRIES. HUMANS EXPOSED TO OTA CAN DEVELOP (NOTABLY BY INHALATION IN THE DEVELOPMENT OF ACUTE RENAL FAILURE WITHIN 24 H) A RANGE OF CHRONIC DISORDERS SUCH AS UPPER UROTHELIAL CARCINOMA. OTA PLAYS THE MAIN ROLE IN THE PATHOGENESIS OF SOME RENAL DISEASES INCLUDING BALKAN ENDEMIC NEPHROPATHY, KIDNEY TUMORS OCCURRING IN CERTAIN ENDEMIC REGIONS OF THE BALKAN PENINSULA, AND CHRONIC INTERSTITIAL NEPHROPATHY OCCURRING IN NORTHERN AFRICAN COUNTRIES AND LIKELY IN OTHER PARTS OF THE WORLD. OTA LEADS TO DNA ADDUCT FORMATION, WHICH IS KNOWN FOR ITS GENOTOXICITY AND CARCINOGENICITY. THE PRESENT ARTICLE DISCUSSES HOW RENAL CARCINOGENICITY AND NEPHROTOXICITY CAUSE BOTH OXIDATIVE STRESS AND DIRECT GENOTOXICITY. CAREFUL ANALYSES OF THE DATA SHOW THAT OTA CARCINOGENIC EFFECTS ARE DUE TO COMBINED DIRECT AND INDIRECT MECHANISMS (E.G., GENOTOXICITY, OXIDATIVE STRESS, EPIGENETIC FACTORS). ALTOGETHER THIS PROVIDES STRONG EVIDENCE THAT OTA CARCINOGENICITY CAN ALSO OCCUR IN HUMANS. 2016 7 363 32 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 8 5450 40 REPRODUCTIVE TOXICITY OF COMBINED EFFECTS OF ENDOCRINE DISRUPTORS ON HUMAN REPRODUCTION. CONFLUENCE OF ENVIRONMENTAL, GENETIC, AND LIFESTYLE VARIABLES IS RESPONSIBLE FOR DETERIORATION OF HUMAN FECUNDITY. ENDOCRINE DISRUPTORS OR ENDOCRINE DISRUPTING CHEMICALS (EDCS) MAY BE FOUND IN A VARIETY OF FOODS, WATER, AIR, BEVERAGES, AND TOBACCO SMOKE. IT HAS BEEN DEMONSTRATED IN EXPERIMENTAL INVESTIGATIONS THAT A WIDE RANGE OF ENDOCRINE DISRUPTING CHEMICALS HAVE NEGATIVE EFFECTS ON HUMAN REPRODUCTIVE FUNCTION. HOWEVER, EVIDENCE ON THE REPRODUCTIVE CONSEQUENCES OF HUMAN EXPOSURE TO ENDOCRINE DISRUPTING CHEMICALS IS SPARSE AND/OR CONFLICTING IN THE SCIENTIFIC LITERATURE. THE COMBINED TOXICOLOGICAL ASSESSMENT IS A PRACTICAL METHOD FOR ASSESSING THE HAZARDS OF COCKTAILS OF CHEMICALS, CO-EXISTING IN THE ENVIRONMENT. THE CURRENT REVIEW PROVIDES A COMPREHENSIVE OVERVIEW OF STUDIES EMPHASIZING THE COMBINED TOXICITY OF ENDOCRINE DISRUPTING CHEMICALS ON HUMAN REPRODUCTION. ENDOCRINE DISRUPTING CHEMICALS INTERACT WITH EACH OTHER TO DISRUPT THE DIFFERENT ENDOCRINE AXES, RESULTING IN SEVERE GONADAL DYSFUNCTIONS. TRANSGENERATIONAL EPIGENETIC EFFECTS HAVE ALSO BEEN INDUCED IN GERM CELLS, MOSTLY THROUGH DNA METHYLATION AND EPIMUTATIONS. SIMILARLY, AFTER ACUTE OR CHRONIC EXPOSURE TO ENDOCRINE DISRUPTING CHEMICALS COMBINATIONS, INCREASED OXIDATIVE STRESS (OS), ELEVATED ANTIOXIDANT ENZYMATIC ACTIVITY, DISRUPTED REPRODUCTIVE CYCLE, AND REDUCED STEROIDOGENESIS ARE OFTEN REPORTED CONSEQUENCES. THE ARTICLE ALSO DISCUSSES THE CONCENTRATION ADDITION (CA) AND INDEPENDENT ACTION (IA) PREDICTION MODELS, WHICH REVEAL THE IMPORTANCE OF VARIOUS SYNERGISTIC ACTIONS OF ENDOCRINE DISRUPTING CHEMICALS MIXTURES. MORE CRUCIALLY, THIS EVIDENCE-BASED STUDY ADDRESSES THE RESEARCH LIMITATIONS AND INFORMATION GAPS, AS WELL AS PARTICULARLY PRESENTS THE FUTURE RESEARCH VIEWS ON COMBINED ENDOCRINE DISRUPTING CHEMICALS TOXICITY ON HUMAN REPRODUCTION. 2023 9 4824 31 OCHRATOXIN A: THE CONTINUING ENIGMA. THE MYCOTOXIN OCHRATOXIN A (OTA) HAS BEEN LINKED TO THE GENESIS OF SEVERAL DISEASE STATES IN BOTH ANIMALS AND HUMANS. IT HAS BEEN DESCRIBED AS NEPHROTOXIC, CARCINOGENIC, TERATOGENIC, IMMUNOTOXIC, AND HEPATOTOXIC IN LABORATORY AND DOMESTIC ANIMALS, AS WELL AS BEING THOUGHT TO BE THE PROBABLE CAUSAL AGENT IN THE DEVELOPMENT OF NEPHROPATHIES (BALKAN ENDEMIC NEPHROPATHY, BEN AND CHRONIC INTERSTITIAL NEPHROPATHY, CIN) AND UROTHELIAL TUMORS IN HUMANS. AS A RESULT, SEVERAL INTERNATIONAL AGENCIES ARE CURRENTLY ATTEMPTING TO DEFINE SAFE LEGAL LIMITS FOR OTA CONCENTRATION IN FOODSTUFFS (E.G., GRAIN, MEAT, WINE, AND COFFEE), IN PROCESSED FOODS, AND IN ANIMAL FODDER. IN ORDER TO ACHIEVE THIS GOAL, AN ACCURATE RISK ASSESSMENT OF OTA TOXICITY INCLUDING MECHANISTIC AND EPIDEMIOLOGICAL STUDIES MUST BE CARRIED OUT. OCHRATOXIN HAS BEEN SUGGESTED BY VARIOUS RESEARCHERS TO MEDIATE ITS TOXIC EFFECTS VIA INDUCTION OF APOPTOSIS, DISRUPTION OF MITOCHONDRIAL RESPIRATION AND/OR THE CYTOSKELETON, OR, INDEED, VIA THE GENERATION OF DNA ADDUCTS. THUS, IT IS STILL UNCLEAR IF THE PREDOMINANT MECHANISM IS OF A GENOTOXIC OR AN EPIGENETIC NATURE. ONE ASPECT THAT IS CLEAR, HOWEVER, IS THAT THE TOXICITY OF OTA IS SUBJECT TO AND CHARACTERIZED BY LARGE SPECIES- AND SEX-SPECIFIC DIFFERENCES, AS WELL AS AN APPARENTLY STRICT STRUCTURE-ACTIVITY RELATIONSHIP. THESE CONSIDERATIONS COULD BE CRUCIAL IN THE INVESTIGATION OF OTA-MEDIATED TOXICITY. FURTHERMORE, THE USE OF APPROPRIATE IN VIVO AND IN VITRO MODEL SYSTEMS APPEARS TO BE VITAL IN THE GENERATION OF RELEVANT EXPERIMENTAL DATA. THE INTENTION OF THIS REVIEW IS TO COLLATE AND DISCUSS THE CURRENTLY AVAILABLE DATA ON OTA-MEDIATED TOXICITY WITH PARTICULAR FOCUS ON THEIR RELEVANCE FOR THE IN VIVO SITUATION, AND ALSO TO SUGGEST POSSIBLE FUTURE STRATEGIES FOR UNLOCKING THE SECRETS OF OCHRATOXIN A. 2005 10 5295 57 PROTECTIVE POTENTIAL OF THYMOQUINONE AGAINST CADMIUM, ARSENIC, AND LEAD TOXICITY: A SHORT REVIEW WITH EMPHASIS ON OXIDATIVE PATHWAYS. HEAVY METALS ARE AMONG THE MOST IMPORTANT ENVIRONMENTAL POLLUTIONS USED IN VARIOUS INDUSTRIES. THEIR EXTENSIVE USE HAS INCREASED HUMAN SUSCEPTIBILITY TO DIFFERENT CHRONIC DISEASES. TOXIC METAL EXPOSURE, ESPECIALLY CADMIUM, ARSENIC, AND LEAD, CAUSES OXIDATIVE DAMAGES, MITOCHONDRIAL DYSFUNCTION, AND GENETIC AND EPIGENETIC MODIFICATIONS. MEANWHILE, THYMOQUINONE (TQ) IS AN EFFECTIVE COMPONENT OF NIGELLA SATIVA OIL THAT PLAYS AN IMPORTANT ROLE IN PREVENTING THE DESTRUCTIVE EFFECTS OF HEAVY METALS. THE PRESENT REVIEW DISCUSSES HOW TQ CAN PROTECT VARIOUS TISSUES AGAINST OXIDATIVE DAMAGE OF HEAVY METALS. THIS REVIEW IS BASED ON THE RESEARCH REPORTED ABOUT THE PROTECTIVE EFFECTS OF TQ IN THE TOXICITY OF HEAVY METALS, APPROXIMATELY THE LAST 10 YEARS (2010-2021). SCIENTIFIC DATABASES, INCLUDING SCOPUS, WEB OF SCIENCE, AND PUBMED, WERE SEARCHED USING THE FOLLOWING KEYWORDS EITHER ALONE OR IN COMBINATION: CADMIUM, ARSENIC, LEAD, TQ, AND OXIDATIVE STRESS. TQ, AS A POTENT ANTIOXIDANT, CAN DISTRIBUTE TO CELLULAR COMPARTMENTS AND PREVENT OXIDATIVE DAMAGE OF TOXIC METALS. HOWEVER, DEPENDING ON THE TYPE OF TOXIC METAL AND THE CARRIER SYSTEM USED TO RELEASE TQ IN BIOLOGICAL SYSTEMS, ITS THERAPEUTIC DOSAGE RANGE MAY BE VARIED. 2023 11 5786 23 SPORT AND MALE SEXUALITY. THE RELATIONSHIPS BETWEEN SPORT AND SEXUALITY IN MALES ARE OF GREAT SOCIAL AND CLINICAL INTEREST, BECAUSE OF SPORTS AND MOTOR ACTIVITIES THAT HIGHLY PROMOTE SOCIAL AND SEXUAL RELATIONSHIPS. EVEN IF FEW LITERATURE EXIST, TWO MAIN QUESTIONS SHOULD BE TAKEN INTO ACCOUNT: WHETHER AND HOW PHYSICAL EXERCISE AND SPORT POSITIVELY OR NEGATIVELY INFLUENCE SEXUAL HEALTH AND BEHAVIOR AND/OR WHETHER AND HOW SEXUAL BEHAVIOR MAY AFFECT A SUB-SEQUENT SPORT PERFORMANCE. PHYSICAL EXERCISE AND SPORT PER SE CAN INFLUENCE, POSITIVELY OR NEGATIVELY, THE HYPOTHALAMIC-PITUITARY-TESTICULAR AXIS FUNCTION AND, CONSEQUENTLY, THE INDIVIDUAL'S REPRODUCTIVE AND/OR SEXUAL HEALTH. THIS DEPENDS ON INDIVIDUAL FACTORS SUCH AS GENETIC AND EPIGENETIC ONES AND ON DIFFERENT VARIABLES INVOLVED IN THE PRACTICE OF SPORT ACTIVITIES (TYPE OF SPORT, INTENSITY AND DURATION OF TRAINING, DOPING AND DRUG USE AND ABUSE, NUTRITION, SUPPLEMENTS, PSYCHOLOGICAL STRESS, ALLOSTATIC LOAD, ETC.). IF WELL CONDUCTED, MOTOR AND SPORT ACTIVITIES COULD HAVE BENEFICIAL EFFECTS ON SEXUAL HEALTH IN MALES. AMONG DIFFERENT LIFESTYLE CHANGES, INFLUENCING SEXUAL HEALTH, REGULAR PHYSICAL ACTIVITY IS FUNDAMENTAL TO ANTAGONIZE THE ONSET OF ERECTILE DYSFUNCTION (ED). HOWEVER, COMPETITIVE SPORT CAN LEAD BOTH REPRODUCTIVE AND/OR SEXUAL TRACT DAMAGES AND DYSFUNCTIONS, TRANSIENT (GENITAL PAIN, HYPOESTHESIA OF THE GENITALIA, HYPOGONADISM, DE, ALTERED SEXUAL DRIVE, ETC.) OR PERMANENT (HYPOGONADISM, DE, ETC.), BY ACTING DIRECTLY (TRAUMAS OF THE EXTERNAL GENITALIA, SADDLE-RELATED DISORDERS IN CYCLISTS, ETC.) OR INDIRECTLY (EXERCISE-RELATED HYPOGONADISM, DRUG ABUSE, DOPING, STRESS, ETC.). SEXUAL ACTIVITIES SHORTLY PERFORMED BEFORE A SPORT COMPETITION COULD DIFFERENTLY INFLUENCE SPORT PERFORMANCE. DUE TO THE FEW EXISTING DATA, IT IS ADVISABLE TO AVOID AN ABSOLUTE PRE-COMPETITION SEXUAL ABSTINENCE. 2017 12 3630 26 INCLUSION OF SOCIAL AND STRUCTURAL DETERMINANTS OF HEALTH TO ADVANCE UNDERSTANDING OF THEIR INFLUENCE ON THE BIOLOGY OF CHRONIC DISEASE. SOCIAL DETERMINANTS OF HEALTH (SDOH) CONSIDER SOCIAL, POLITICAL, AND ECONOMIC FACTORS THAT CONTRIBUTE TO HEALTH DISPARITIES IN PATIENTS AND POPULATIONS. THE MOST COMMON HEALTH-RELATED SDOH EXPOSURES ARE FOOD AND HOUSING INSECURITY, FINANCIAL INSTABILITY, TRANSPORTATION NEEDS, LOW LEVELS OF EDUCATION, AND PSYCHOSOCIAL STRESS. THESE DOMAINS DESCRIBE RISKS THAT CAN IMPACT HEALTH OUTCOMES MORE THAN HEALTH CARE. EPIDEMIOLOGIC AND TRANSLATIONAL RESEARCH DEMONSTRATES THAT SDOH FACTORS REPRESENT EXPOSURES THAT PREDICT HARM AND IMPACT THE HEALTH OF INDIVIDUALS. INTERNATIONAL AND NATIONAL GUIDELINES URGE HEALTH PROFESSIONALS TO ADDRESS SDOH IN CLINICAL PRACTICE AND PUBLIC HEALTH. THE FURTHER IMPLEMENTATION OF THESE RECOMMENDATIONS INTO BASIC AND TRANSLATIONAL RESEARCH, HOWEVER, IS LAGGING. HEREIN, WE CONSIDER A PRECISION HEALTH FRAMEWORK TO DESCRIBE HOW SDOH CONTRIBUTES TO THE EXPOSOME AND EXACERBATES PHYSIOLOGIC PATHWAYS THAT LEAD TO CHRONIC DISEASE. SDOH FACTORS ARE ASSOCIATED WITH VARIOUS FORMS OF STRESSORS THAT IMPACT PHYSIOLOGICAL PROCESSES THROUGH EPIGENETIC, INFLAMMATORY, AND REDOX REGULATION. MANY SDOH EXPOSURES MAY ADD TO OR POTENTIATE THE PATHOLOGIC EFFECTS OF ADDITIONAL ENVIRONMENTAL EXPOSURES. THIS OVERVIEW AIMS TO INFORM BASIC LIFE SCIENCE AND TRANSLATIONAL RESEARCHERS ABOUT SDOH EXPOSURES THAT CAN CONFOUND ASSOCIATIONS BETWEEN CLASSIC BIOMEDICAL DETERMINANTS OF DISEASE AND HEALTH OUTCOMES. TO ADVANCE THE STUDY OF TOXICOLOGY THROUGH EITHER QUALITATIVE OR QUANTITATIVE ASSESSMENT OF EXPOSURES TO CHEMICAL AND BIOLOGICAL SUBSTANCES, A MORE COMPLETE ENVIRONMENTAL EVALUATION SHOULD INCLUDE SDOH EXPOSURES. WE DISCUSS COMMON APPROACHES TO MEASURE SDOH FACTORS AT INDIVIDUAL AND POPULATION LEVELS AND REVIEW THE ASSOCIATIONS BETWEEN SDOH RISK FACTORS AND PHYSIOLOGIC MECHANISMS THAT INFLUENCE CHRONIC DISEASE. WE PROVIDE CLINICAL AND POLICY-BASED MOTIVATION TO ENCOURAGE RESEARCHERS TO CONSIDER THE IMPACT OF SDOH EXPOSURES ON STUDY RESULTS AND DATA INTERPRETATION. WITH VALID MEASURES OF SDOH FACTORS INCORPORATED INTO STUDY DESIGN AND ANALYSES, FUTURE TOXICOLOGICAL RESEARCH MAY CONTRIBUTE TO AN EVIDENCE BASE THAT CAN BETTER INFORM PREVENTION AND TREATMENT OPTIONS, TO IMPROVE EQUITABLE CLINICAL CARE AND POPULATION HEALTH. (C) 2022 WILEY PERIODICALS LLC. 2022 13 5113 27 POPULATION-LEVEL IMPACTS OF PESTICIDE-INDUCED CHRONIC EFFECTS ON INDIVIDUALS DEPEND MORE ON ECOLOGY THAN TOXICOLOGY. THE CURRENT METHOD FOR ASSESSING LONG-TERM RISK OF PESTICIDES TO MAMMALS IN THE EU IS BASED ON THE INDIVIDUAL RATHER THAN THE POPULATION-LEVEL AND LACKS ECOLOGICAL REALISM. HENCE THERE IS LITTLE POSSIBILITY FOR REGULATORY AUTHORITIES TO INCREASE ECOLOGICAL REALISM AND UNDERSTANDING OF RISKS AT THE POPULATION-LEVEL. HERE WE DEMONSTRATE HOW, USING ABM MODELLING, ASSESSMENTS AT THE POPULATION-LEVEL CAN BE OBTAINED EVEN FOR A PESTICIDE WITH COMPLEX LONG-TERM EFFECTS SUCH AS EPIGENETIC TRANSMISSION OF REPRODUCTIVE DEPRESSION. BY OBJECTIVELY FITTING NONLINEAR MODELS TO THE SIMULATION OUTPUTS IT WAS POSSIBLE TO COMPARE POPULATION DEPRESSION AND RECOVERY RATES FOR A RANGE OF SCENARIOS IN WHICH TOXICITY AND EXPOSURE FACTORS WERE VARIED. THE SYSTEM WAS DIFFERENTIALLY SENSITIVE TO THE VARIOUS FACTORS, BUT VOLE ECOLOGY AND BEHAVIOUR WERE AT LEAST AS IMPORTANT PREDICTORS OF POPULATION-LEVEL EFFECTS AS TOXICOLOGY. THIS EMPHASISES THE NEED FOR GREATER FOCUS ON ANIMAL ECOLOGY IN RISK ASSESSMENTS. 2009 14 6483 25 TOXIC STRESS, EPIGENETICS AND CHILD DEVELOPMENT. OBJECTIVES: TO DESCRIBE THE CONCEPT OF TOXIC STRESS, PRESENT THE BASICS OF EPIGENETICS AND DISCUSS THEIR RELATIONSHIP WITH CHILD DEVELOPMENT. DATA SOURCE: NARRATIVE LITERATURE REVIEW THROUGH A SEARCH IN THE SCIELO, LILACS, MEDLINE DATABASES USING THE TERMS ADVERSE CHILDHOOD EXPERIENCE OR EARLY LIFE STRESS, EPIGENOMIC OR EPIGENETIC, CHILD DEVELOPMENT OR INFANT DEVELOPMENT. DATA SYNTHESIS: CONTINUING STRESS RESPONSE, KNOWN AS TOXIC STRESS, CAN OCCUR WHEN A CHILD EXPERIENCES INTENSE, FREQUENT, AND/OR PROLONGED ADVERSITY-SUCH AS PHYSICAL OR EMOTIONAL ABUSE, CHRONIC NEGLECT, FOR EXAMPLE-WITHOUT ADEQUATE ADULT SUPPORT. THIS TOXIC STRESS CAN HAVE HARMFUL EFFECTS ON LEARNING, BEHAVIOR, AND HEALTH THROUGHOUT LIFE. EPIGENETICS, AN EMERGING SCIENTIFIC RESEARCH AREA?, SHOWS HOW ENVIRONMENTAL INFLUENCES AFFECT GENE EXPRESSIONS AND EXPLAINS HOW EARLY EXPERIENCES CAN IMPACT THROUGHOUT LIFE. CONCLUSIONS: TOXIC STRESS CAUSES CHANGES IN THE HUMAN BODY RESPONSE SYSTEMS THAT CAN BE EXPLAINED IN PART BY EPIGENETIC CHANGES, WHICH CAN BE TEMPORARY OR LONG-LASTING. PEDIATRICIANS MUST BE AWARE OF THESE MECHANISMS AND THEIR CONSEQUENCES, SEEKING TO PREVENT THEM AND THUS PROMOTE THE HEALTH, WELL-BEING, AND QUALITY OF LIFE OF CHILDREN, CONTRIBUTING TO THEIR FULL DEVELOPMENT. 2022 15 3566 32 IMPACT OF HEAVY METALS ON THE FEMALE REPRODUCTIVE SYSTEM. INTRODUCTION: IT HAS BEEN RECOGNIZED THAT ENVIRONMENTAL POLLUTION CAN AFFECT THE QUALITY OF HEALTH OF THE HUMAN POPULATION. HEAVY METALS ARE AMONG THE GROUP OF HIGHLY EMITTED CONTAMINANTS AND THEIR ADVERSE EFFECT OF LIVING ORGANISMS HAS BEEN WIDELY STUDIED IN RECENT DECADES. LIFESTYLE AND QUALITY OF THE AMBIENT ENVIRONMENT ARE AMONG THESE FACTORS WHICH CAN MAINLY CONTRIBUTE TO THE HEAVY METALS EXPOSURE IN HUMANS. OBJECTIVE: A REVIEW OF LITERATURE LINKING HEAVY METALS AND THE FEMALE REPRODUCTIVE SYSTEM AND DESCRIPTION OF THE POSSIBLE ASSOCIATIONS WITH EMISSION AND EXPOSURE OF HEAVY METALS AND IMPAIRMENTS OF FEMALE REPRODUCTIVE SYSTEM ACCORDING TO CURRENT KNOWLEDGE. RESULTS: THE POTENTIAL HEALTH DISORDERS CAUSED BY CHRONIC OR ACUTE HEAVY METALS TOXICITY INCLUDE IMMUNODEFICIENCY, OSTEOPOROSIS, NEURODEGENERATION AND ORGAN FAILURES. POTENTIAL LINKAGES OF HEAVY METALS CONCENTRATION FOUND IN DIFFERENT HUMAN ORGANS AND BLOOD WITH OESTROGEN-DEPENDENT DISEASES SUCH AS BREAST CANCER, ENDOMETRIAL CANCER, ENDOMETRIOSIS AND SPONTANEOUS ABORTIONS, AS WELL AS PRE-TERM DELIVERIES, STILLBIRTHS AND HYPOTROPHY, HAVE ALSO BEEN REPORTED. CONCLUSIONS: ENVIRONMENTAL DETERIORATION CAN LEAD TO THE ELEVATED RISK OF HUMAN EXPOSURE TO HEAVY METALS, AND CONSEQUENTLY, HEALTH IMPLICATIONS INCLUDING DISTURBANCES IN REPRODUCTION. IT IS THEREFORE IMPORTANT TO CONTINUE THE INVESTIGATIONS ON METAL-INDUCED MECHANISMS OF FERTILITY IMPAIRMENT ON THE GENETIC, EPIGENETIC AND BIOCHEMICAL LEVEL. 2015 16 4820 29 OCHRATOXIN A AS A POTENTIAL ETIOLOGIC FACTOR IN ENDEMIC NEPHROPATHY: LESSONS FROM TOXICITY STUDIES IN RATS. VARIOUS REPORTS SUGGEST THAT CHRONIC DIETARY EXPOSURE TO OCHRATOXIN A (OTA), A MYCOTOXIN FREQUENTLY DETECTED IN VARIOUS FOOD ITEMS MAY BE LINKED TO THE PATHOGENESIS OF ENDEMIC NEPHROPATHY, A CHRONIC TUBULOINTERSTITIAL KIDNEY DISEASE WHICH OCCURS IN GEOGRAPHICALLY LIMITED AREAS OF THE BALKAN REGION. OTA IS A POTENT NEPHROTOXIN AND RENAL CARCINOGEN. HOWEVER, THE PATHOLOGICAL LESIONS OBSERVED IN KIDNEYS OF RATS TREATED WITH OTA APPEAR BE RATHER DIFFERENT FROM THE CLINICAL AND PATHOLOGICAL CHARACTERISTICS OF ENDEMIC NEPHROPATHY. MOREOVER, INCREASING EVIDENCE SUGGESTS THAT OTA DOES NOT BIND TO DNA BUT INDUCES TUMORS BY AN EPIGENETIC, THRESHOLDED MECHANISM. THIS IMPLIES THAT THERE IS A DOSE BELOW WHICH NO ADVERSE HEALTH EFFECTS ARE EXPECTED TO OCCUR. BASED ON FOOD CONSUMPTION DATA AND OTA SERUM CONCENTRATIONS, IT APPEARS THAT HUMAN EXPOSURE - EVEN IN AREAS WITH RELATIVELY HIGH DIETARY EXPOSURE TO OTA SUCH AS ENDEMIC VILLAGES - IS SEVERAL ORDERS OF MAGNITUDE BELOW DOSES KNOWN TO CAUSE NEPHROTOXICITY AND TUMOR FORMATION IN LABORATORY ANIMALS. WHILE IT IS UNDOUBTEDLY IMPORTANT TO ENCOURAGE PREVENTION OF FOOD CONTAMINATION BY OTA AND OTHER MYCOTOXINS, THESE OBSERVATIONS SUGGEST THAT OTA IS NOT LIKELY TO BE AN ETIOLOGICAL FACTOR INVOLVED IN BEN AND INDICATE A NEED TO SEARCH FOR NEW CLUES FOR THE ETIOLOGY OF THIS ENDEMIC KIDNEY DISEASE. 2007 17 1106 35 COMBINED TOXICITY OF ENDOCRINE-DISRUPTING CHEMICALS: A REVIEW. THE COMBINED TOXICOLOGICAL ASSESSMENT PROVIDES A REALISTIC APPROACH FOR HAZARD EVALUATION OF CHEMICAL COCKTAILS THAT CO-EXISTED IN THE ENVIRONMENT. THIS REVIEW PROVIDES A HOLISTIC INSIGHT INTO THE STUDIES HIGHLIGHTING THE MIXTURE TOXICITY OF THE ENDOCRINE-DISRUPTING CHEMICALS (EDCS), ESPECIALLY FOCUSING ON THE SCREENING OF BIOCHEMICAL PATHWAYS AND OTHER TOXICOGENETIC ENDPOINTS. REVIEWED LITERATURE SHOWED THAT NUMEROUS MULTIPLEXED TOXICOGENOMIC TECHNIQUES WERE APPLIED TO DETERMINE REPRODUCTIVE EFFECTS IN VERTEBRATES, BUT LIMITED STUDIES WERE FOUND IN NON-MAMMALIAN SPECIES AFTER MIXTURE CHEMICAL EXPOSURE. FURTHER, WE FOUND THAT THE EXPERIMENTAL DESIGN AND CONCENTRATION SELECTION ARE THE TWO IMPORTANT PARAMETERS IN MIXTURE TOXICITY STUDIES THAT SHOULD BE TIME- AND COST-EFFECTIVE, HIGHLY PRECISE, AND ENVIRONMENTALLY RELEVANT. A SUMMARY OF EDC MIXTURES AFFECTING THE THYROID AXIS, ESTROGEN AXIS, ANDROGEN AXIS, GROWTH STRESS, AND IMMUNE SYSTEM VIA IN VIVO BIOASSAYS WAS ALSO PRESENTED. IT IS INTERESTING TO MENTION THAT MAJORITY OF ESTROGENIC EFFECTS OF THE MIXTURES WERE SEX-DEPENDENT, PARTICULARLY OBSERVED IN MALE FISH AS COMPARED TO FEMALE FISH. FURTHER, THE ANDROGEN AXIS WAS PERTURBED WITH SERIOUS MALFORMATIONS IN MALE RAT TESTIS (EPIDIDYMAL OR GUBERNACULAR LESIONS, AND DECIDUOUS SPERMATIDS). ALSO, TRANSGENERATIONAL EPIGENETIC EFFECTS WERE PROMOTED IN THE F(3) AND F(4) GENERATIONS IN THE FORM OF DNA METHYLATION EPIMUTATIONS IN SPERM, INCREASING POLYCYSTIC OVARIES AND REDUCING THE OFFSPRING. SIMILARLY, INCREASED OXIDATIVE STRESS, HIGH ANTIOXIDANT ENZYMATIC ACTIVITIES, DISTURBED ESTROUS CYCLE, AND DECREASED STEROIDOGENESIS WERE THE COMMONLY FOUND EFFECTS AFTER ACUTE OR CHRONIC EXPOSURE TO EDC MIXTURES. IMPORTANTLY, THE CONCENTRATION ADDITION (CA) AND INDEPENDENT ACTION (IA) MODELS BECAME MORE PREVALENT AND SUITABLE PREDICTIVE MODELS TO UNVEIL THE PROMINENCE OF SYNERGISTIC ESTROGENIC AND ANTI-ANDROGENIC EFFECTS OF CHEMICAL MIXTURES. MORE IMPORTANTLY, THIS REVIEW ENCOMPASSES THE RESEARCH CHALLENGES AND GAPS IN THE EXISTING KNOWLEDGE AND SPECIFIC FUTURE RESEARCH PERSPECTIVES ON COMBINED TOXICITY. 2021 18 1352 27 DEVELOPMENT AND APPLICATION OF THE ADVERSE OUTCOME PATHWAY FRAMEWORK FOR UNDERSTANDING AND PREDICTING CHRONIC TOXICITY: I. CHALLENGES AND RESEARCH NEEDS IN ECOTOXICOLOGY. TO ELUCIDATE THE EFFECTS OF CHEMICALS ON POPULATIONS OF DIFFERENT SPECIES IN THE ENVIRONMENT, EFFICIENT TESTING AND MODELING APPROACHES ARE NEEDED THAT CONSIDER MULTIPLE STRESSORS AND ALLOW RELIABLE EXTRAPOLATION OF RESPONSES ACROSS SPECIES. AN ADVERSE OUTCOME PATHWAY (AOP) IS A CONCEPT THAT PROVIDES A FRAMEWORK FOR ORGANIZING KNOWLEDGE ABOUT THE PROGRESSION OF TOXICITY EVENTS ACROSS SCALES OF BIOLOGICAL ORGANIZATION THAT LEAD TO ADVERSE OUTCOMES RELEVANT FOR RISK ASSESSMENT. IN THIS PAPER, WE FOCUS ON EXPLORING HOW THE AOP CONCEPT CAN BE USED TO GUIDE RESEARCH AIMED AT IMPROVING BOTH OUR UNDERSTANDING OF CHRONIC TOXICITY, INCLUDING DELAYED TOXICITY AS WELL AS EPIGENETIC AND TRANSGENERATIONAL EFFECTS OF CHEMICALS, AND OUR ABILITY TO PREDICT ADVERSE OUTCOMES. A BETTER UNDERSTANDING OF THE INFLUENCE OF SUBTLE TOXICITY ON INDIVIDUAL AND POPULATION FITNESS WOULD SUPPORT A BROADER INTEGRATION OF SUBLETHAL ENDPOINTS INTO RISK ASSESSMENT FRAMEWORKS. DETAILED MECHANISTIC KNOWLEDGE WOULD FACILITATE THE DEVELOPMENT OF ALTERNATIVE TESTING METHODS AS WELL AS HELP PRIORITIZE HIGHER TIER TOXICITY TESTING. WE ARGUE THAT TARGETED DEVELOPMENT OF AOPS SUPPORTS BOTH OF THESE ASPECTS BY PROMOTING THE ELUCIDATION OF MOLECULAR MECHANISMS AND THEIR CONTRIBUTION TO RELEVANT TOXICITY OUTCOMES ACROSS BIOLOGICAL SCALES. WE FURTHER DISCUSS INFORMATION REQUIREMENTS AND CHALLENGES IN APPLICATION OF AOPS FOR CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AND FOR EXTRAPOLATION ACROSS SPECIES. WE PROVIDE RECOMMENDATIONS FOR POTENTIAL EXTENSION OF THE AOP FRAMEWORK TO INCORPORATE INFORMATION ON EXPOSURE, TOXICOKINETICS AND SITUATION-SPECIFIC ECOLOGICAL CONTEXTS, AND DISCUSS COMMON INTERFACES THAT CAN BE EMPLOYED TO COUPLE AOPS WITH COMPUTATIONAL MODELING APPROACHES AND WITH EVOLUTIONARY LIFE HISTORY THEORY. THE EXTENDED AOP FRAMEWORK CAN SERVE AS A VENUE FOR INTEGRATION OF KNOWLEDGE DERIVED FROM VARIOUS SOURCES, INCLUDING EMPIRICAL DATA AS WELL AS MOLECULAR, QUANTITATIVE AND EVOLUTIONARY-BASED MODELS DESCRIBING SPECIES RESPONSES TO TOXICANTS. THIS WILL ALLOW A MORE EFFICIENT APPLICATION OF AOP KNOWLEDGE FOR QUANTITATIVE CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AS WELL AS FOR EXTRAPOLATION ACROSS SPECIES IN THE FUTURE. 2015 19 1157 26 CONTAMINANT METALS AS CARDIOVASCULAR RISK FACTORS: A SCIENTIFIC STATEMENT FROM THE AMERICAN HEART ASSOCIATION. EXPOSURE TO ENVIRONMENTAL POLLUTANTS IS LINKED TO INCREASED RISK OF CARDIOVASCULAR DISEASE. BEYOND THE EXTENSIVE EVIDENCE FOR PARTICULATE AIR POLLUTION, ACCUMULATING EVIDENCE SUPPORTS THAT EXPOSURE TO NONESSENTIAL METALS SUCH AS LEAD, CADMIUM, AND ARSENIC IS A SIGNIFICANT CONTRIBUTOR TO CARDIOVASCULAR DISEASE WORLDWIDE. HUMANS ARE EXPOSED TO METALS THROUGH AIR, WATER, SOIL, AND FOOD AND EXTENSIVE INDUSTRIAL AND PUBLIC USE. CONTAMINANT METALS INTERFERE WITH CRITICAL INTRACELLULAR REACTIONS AND FUNCTIONS LEADING TO OXIDATIVE STRESS AND CHRONIC INFLAMMATION THAT RESULT IN ENDOTHELIAL DYSFUNCTION, HYPERTENSION, EPIGENETIC DYSREGULATION, DYSLIPIDEMIA, AND CHANGES IN MYOCARDIAL EXCITATION AND CONTRACTILE FUNCTION. LEAD, CADMIUM, AND ARSENIC HAVE BEEN LINKED TO SUBCLINICAL ATHEROSCLEROSIS, CORONARY ARTERY STENOSIS, AND CALCIFICATION AS WELL AS TO INCREASED RISK OF ISCHEMIC HEART DISEASE AND STROKE, LEFT VENTRICULAR HYPERTROPHY AND HEART FAILURE, AND PERIPHERAL ARTERY DISEASE. EPIDEMIOLOGICAL STUDIES SHOW THAT EXPOSURE TO LEAD, CADMIUM, OR ARSENIC IS ASSOCIATED WITH CARDIOVASCULAR DEATH MOSTLY ATTRIBUTABLE TO ISCHEMIC HEART DISEASE. PUBLIC HEALTH MEASURES REDUCING METAL EXPOSURE ARE ASSOCIATED WITH REDUCTIONS IN CARDIOVASCULAR DISEASE DEATH. POPULATIONS OF COLOR AND LOW SOCIOECONOMIC MEANS ARE MORE COMMONLY EXPOSED TO METALS AND THEREFORE AT GREATER RISK OF METAL-INDUCED CARDIOVASCULAR DISEASE. TOGETHER WITH STRENGTHENING PUBLIC HEALTH MEASURES TO PREVENT METAL EXPOSURES, DEVELOPMENT OF MORE SENSITIVE AND SELECTIVE MEASUREMENT MODALITIES, CLINICAL MONITORING OF METAL EXPOSURES, AND THE DEVELOPMENT OF METAL CHELATION THERAPIES COULD FURTHER DIMINISH THE BURDEN OF CARDIOVASCULAR DISEASE ATTRIBUTABLE TO METAL EXPOSURE. 2023 20 4805 35 OBESITY AND METABOLIC COMORBIDITIES: ENVIRONMENTAL DISEASES? OBESITY AND METABOLIC COMORBIDITIES REPRESENT INCREASING HEALTH PROBLEMS. ENDOCRINE DISRUPTING COMPOUNDS (EDCS) ARE EXOGENOUS AGENTS THAT CHANGE ENDOCRINE FUNCTION AND CAUSE ADVERSE HEALTH EFFECTS. MOST EDCS ARE SYNTHETIC CHEMICALS; SOME ARE NATURAL FOOD COMPONENTS AS PHYTOESTROGENS. PEOPLE ARE EXPOSED TO COMPLEX MIXTURES OF CHEMICALS THROUGHOUT THEIR LIVES. EDCS IMPACT HORMONE-DEPENDENT METABOLIC SYSTEMS AND BRAIN FUNCTION. LABORATORY AND HUMAN STUDIES PROVIDE COMPELLING EVIDENCE THAT HUMAN CHEMICAL CONTAMINATION CAN PLAY A ROLE IN OBESITY EPIDEMIC. CHEMICAL EXPOSURES MAY INCREASE THE RISK OF OBESITY BY ALTERING THE DIFFERENTIATION OF ADIPOCYTES. EDCS CAN ALTER METHYLATION PATTERNS AND NORMAL EPIGENETIC PROGRAMMING IN CELLS. OXIDATIVE STRESS MAY BE INDUCED BY MANY OF THESE CHEMICALS, AND ACCUMULATING EVIDENCE INDICATES THAT IT PLAYS IMPORTANT ROLES IN THE ETIOLOGY OF CHRONIC DISEASES. THE INDIVIDUAL SENSITIVITY TO CHEMICALS IS VARIABLE, DEPENDING ON ENVIRONMENT AND ABILITY TO METABOLIZE HAZARDOUS CHEMICALS. A NUMBER OF GENES, ESPECIALLY THOSE REPRESENTING ANTIOXIDANT AND DETOXIFICATION PATHWAYS, HAVE POTENTIAL APPLICATION AS BIOMARKERS OF RISK ASSESSMENT. THE POTENTIAL HEALTH EFFECTS OF COMBINED EXPOSURES MAKE THE RISK ASSESSMENT PROCESS MORE COMPLEX COMPARED TO THE ASSESSMENT OF SINGLE CHEMICALS. TECHNIQUES AND METHODS NEED TO BE FURTHER DEVELOPED TO FILL DATA GAPS AND INCREASE THE KNOWLEDGE ON HARMFUL EXPOSURE COMBINATIONS. 2013