1 4824 166 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 2 4823 35 OCHRATOXIN A: POTENTIAL EPIGENETIC MECHANISMS OF TOXICITY AND CARCINOGENICITY. ASSESSMENT OF THE SIGNIFICANCE TO HUMAN HEALTH OF OCHRATOXIN A (OTA) IN FOOD IS LIMITED BY A LACK OF HUMAN TOXICITY DATA. THEREFORE, OTA RISK EVALUATION RELIES MAINLY ON THE USE OF ANIMAL DATA, WITH RENAL CARCINOGENICITY IN RAT BEING CONSIDERED AS THE PIVOTAL EFFECT. THE ELUCIDATION OF THE MECHANISM OF ACTION WOULD IMPROVE THE USE OF THE CARCINOGENICITY DATA FOR RISK ASSESSMENT. DIRECT GENOTOXICITY VERSUS EPIGENETIC MECHANISMS APPEARS TO BE A KEY QUESTION. IN THIS PRESENTATION, NEW BIOCHEMICAL AND TOXICOGENOMIC RESULTS OBTAINED IN A RECENT EUROPEAN PROJECT (EU-GRANT # QLK1-CT-2001-011614) WILL BE SUMMARIZED IN THE CONTEXT OF PREVIOUSLY REPORTED MECHANISMS OF ACTION INCLUDING INHIBITION OF PROTEIN SYNTHESIS, PRODUCTION OF OXIDATIVE STRESS AND ALTERATION OF CELL SIGNALLING. AMONGST OTHERS, THE NEW DATA INDICATE THAT CHRONIC ADMINISTRATION OF A CARCINOGENIC DOSE OF OTA AFFECTED CELL-SIGNALLING PATHWAYS RESULTING IN A SIGNIFICANTLY REDUCED RENAL ANTIOXIDANT DEFENCE AND INCREASED OXIDATIVE DNA DAMAGE. THESE DATA CONFIRM PREVIOUS HYPOTHESES INVOLVING OXIDATIVE STRESS AS A POSSIBLE KEY EPIGENETIC MECHANISM OF OTA TOXICITY AND CARCINOGENICITY. 2005 3 4820 48 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 4 4822 41 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 5 1340 34 DESIGNING SAFER DRUGS: (Q)SAR-BASED IDENTIFICATION OF MUTAGENS AND CARCINOGENS. MUTAGENICITY AND CARCINOGENICITY ARE CHRONIC EFFECTS OF PRIMARY CONCERN FOR HUMAN HEALTH. A UNIFYING APPROACH TO THEIR MECHANISTIC UNDERSTANDING IS THE RECOGNITION THAT MANY CHEMICALS PROVOKE BOTH EFFECTS BY ELECTROPHILIC ATTACK TO THE BIOLOGICAL MACROMOLECULES, AS SUCH OR AFTER METABOLISM (GENOTOXIC CARCINOGENICITY). QSARS OF INDIVIDUAL CLASSES OF GENOTOXIC CARCINOGENS HAVE CONTRIBUTED TO THE ELUCIDATION OF THE CHEMICAL DETERMINANTS OF THIS ACTIVITY. LITTLE WORK HAS BEEN DONE ON THE EPIGENETIC CARCINOGENS, ACTING THROUGH NON-GENOTOXIC, VERY SPECIFIC MECHANISMS. HOWEVER, THE EXISTING QSARS FOR INDIVIDUAL CHEMICAL CLASSES ARE TOO FEW TO BE OF REAL USEFULNESS IN THE SCREENING OF MASSES OF CANDIDATE DRUGS. MODELS FOR PREDICTING THE CARCINOGENICITY OF "ANY TYPE" OF CHEMICALS HAVE BEEN PROPOSED: PROSPECTIVE PREDICTION EXERCISES POINTED TO THE SERIOUS LIMITATIONS OF MOST OF THESE APPROACHES. THE BEST ALTERNATIVE IS PROVIDED BY PANELS OF HUMAN EXPERTS. THE ABOVE PREDICTION EXERCISES CONSIDERED SAMPLES OF GENERAL CHEMICALS, THUS WE SPECIFICALLY ADDRESSED IN THIS PAPER THE ISSUE OF PHARMACEUTICAL DRUGS. WE APPLIED OUR EXPERT KNOWLEDGE TO A DATABASE OF DRUGS WHOSE CARCINOGENICITY/NONCARCINOGENICITY STATUS WAS KNOWN. WHEREAS MOST OF THE NONCARCINOGENS WERE CORRECTLY IDENTIFIED, OUR PREDICTION OF CARCINOGENS WAS LESS SUCCESSFUL THAN WITH THE GENERAL CHEMICALS. SEVERAL CARCINOGENIC DRUGS DID NOT SHOW RECOGNIZED STRUCTURAL ALERTS, AND SUPPOSEDLY ACTED BY EPIGENETIC MECHANISMS. WHEREAS THE CONTRIBUTION OF HUMAN EXPERTS IS HIGHLY VALUABLE IN THIS PHASE (E.G. PRIORITY SETTING), MORE WORK IS NECESSARY ON: A) EPIGENETIC CARCINOGENS; B) EFFICIENT COMPUTERIZED MODELS. 2003 6 1049 50 CLINICAL EPIGENOMIC EXPLANATION OF THE EPIDEMIOLOGY OF CANNABINOID GENOTOXICITY MANIFESTING AS TRANSGENERATIONAL TERATOGENESIS, CANCEROGENESIS AND AGING ACCELERATION. AS GLOBAL INTEREST IN THE THERAPEUTIC POTENTIAL OF CANNABIS AND ITS' DERIVATIVES FOR THE MANAGEMENT OF SELECTED DISEASES INCREASES, IT IS INCREASINGLY IMPERATIVE THAT THE TOXIC PROFILE OF CANNABINOIDS BE THOROUGHLY UNDERSTOOD IN ORDER TO CORRECTLY ASSESS THE BALANCE BETWEEN THE THERAPEUTIC RISKS AND BENEFITS. MODERN STUDIES ACROSS A NUMBER OF JURISDICTIONS, INCLUDING CANADA, AUSTRALIA, THE US AND EUROPE HAVE CONFIRMED THAT SOME OF THE MOST WORRYING AND SEVERE HISTORICAL REPORTS OF BOTH CONGENITAL ANOMALIES AND CANCER INDUCTION FOLLOWING CANNABIS EXPOSURE ACTUALLY UNDERESTIMATE THE MULTISYSTEM THOUSAND MEGABASE-SCALE TRANSGENERATIONAL GENETIC DAMAGE. THESE FINDINGS FROM TERATOGENIC AND CARCINOGENIC LITERATURE ARE SUPPORTED BY RECENT DATA SHOWING THE ACCELERATED PATTERNS OF CHRONIC DISEASE AND THE ADVANCED DNA METHYLATION EPIGENOMIC CLOCK AGE IN CANNABIS EXPOSED PATIENTS. TOGETHER, THE INCREASED MULTISYSTEM CARCINOGENESIS, TERATOGENESIS AND ACCELERATED AGING POINT STRONGLY TO CANNABINOID-RELATED GENOTOXICITY BEING MUCH MORE CLINICALLY SIGNIFICANT THAN IT IS WIDELY SUPPOSED AND, THUS, OF VERY CONSIDERABLE PUBLIC HEALTH AND MULTIGENERATIONAL IMPACT. RECENTLY REPORTED LONGITUDINAL EPIGENOME-WIDE ASSOCIATION STUDIES ELEGANTLY EXPLAIN MANY OF THESE OBSERVED EFFECTS WITH CONSIDERABLE METHODOLOGICAL SOPHISTICATION, INCLUDING MULTIPLE PATHWAYS FOR THE INHIBITION OF THE NORMAL CHROMOSOMAL SEGREGATION AND DNA REPAIR, THE INHIBITION OF THE BASIC EPIGENETIC MACHINERY FOR DNA METHYLATION AND THE DEMETHYLATION AND TELOMERASE ACCELERATION OF THE EPIGENOMIC PROMOTER HYPERMETHYLATION CHARACTERIZING AGING. FOR CANCER, 810 HITS WERE ALSO NOTED. THE TYPES OF MALIGNANCY WHICH WERE OBSERVED HAVE ALL BEEN DOCUMENTED EPIDEMIOLOGICALLY. DETAILED EPIGENOMIC EXPLICATIONS OF THE BRAIN, HEART, FACE, URONEPHROLOGICAL, GASTROINTESTINAL AND LIMB DEVELOPMENT WERE PROVIDED, WHICH AMPLY EXPLAINED THE OBSERVED TERATOLOGICAL PATTERNS, INCLUDING THE INHIBITION OF THE KEY MORPHOGENIC GRADIENTS. HENCE, THESE MAJOR EPIGENOMIC INSIGHTS CONSTITUTED A POWERFUL NEW SERIES OF ARGUMENTS WHICH ADVANCED BOTH OUR UNDERSTANDING OF THE DOWNSTREAM SEQUALAE OF MULTISYSTEM MULTIGENERATIONAL CANNABINOID GENOTOXICITY AND ALSO, SINCE MECHANISMS ARE KEY TO THE CAUSAL ARGUMENT, INVEIGHED STRONGLY IN FAVOR OF THE CAUSAL NATURE OF THE RELATIONSHIP. IN THIS INTRODUCTORY CONCEPTUAL OVERVIEW, WE PRESENT THE VARIOUS ASPECTS OF THIS NOVEL SYNTHETIC PARADIGMATIC FRAMEWORK. SUCH CONCEPTS SUGGEST AND, INDEED, INDICATE NUMEROUS FIELDS FOR FURTHER INVESTIGATION AND BASIC SCIENCE RESEARCH TO ADVANCE THE EXPLORATION OF MANY IMPORTANT ISSUES IN BIOLOGY, CLINICAL MEDICINE AND POPULATION HEALTH. GIVEN THIS, IT IS IMPERATIVE WE CORRECTLY APPRAISE THE RISK-BENEFIT RATIO FOR EACH POTENTIAL CANNABIS APPLICATION, CONSIDERING THE POTENCY, SEVERITY OF DISEASE, STAGE OF HUMAN DEVELOPMENT AND DURATION OF USE. 2023 7 4121 37 MECHANISMS OF CHEMICALLY INDUCED RENAL CARCINOGENESIS IN THE LABORATORY RODENT. LABORATORY STUDIES WITH CLASSICAL RENAL CARCINOGENS IN THE RAT AND MOUSE, AS WELL AS RESEARCH INVESTIGATION WITH SOME OF THE CHEMICALS PROVING POSITIVE FOR THE KIDNEY IN NATIONAL TOXICOLOGY PROGRAM CARCINOGENICITY BIOASSAYS, HAVE DEMONSTRATED THE EXISTENCE OF A RANGE OF DIVERSE MECHANISMS UNDERLYING RODENT KIDNEY CARCINOGENESIS. THE CLASSICAL CARCINOGENS USED AS EXPERIMENTAL MODELS FOR STUDYING RENAL TUMOR PATHOGENESIS, SUCH AS THE NITROSAMINES, ARE GENOTOXIC AND INTERACT DIRECTLY WITH DNA, FORMING DNA ADDUCTS WITH MUTAGENIC POTENTIAL. IN CONTRAST, POTASSIUM BROMATE AND FERRIC NITRILOTRIACETATE (FE-NTA), ALSO EFFECTIVE RENAL CARCINOGENS, APPEAR TO CAUSE INDIRECT DAMAGE TO DNA MEDIATED BY OXIDATIVE STRESS. A NUMBER OF NONGENOTOXIC CHEMICALS ARE ASSOCIATED WITH EPIGENETIC RENAL TUMOR INDUCTION IN RODENTS, AND THE ACTIVITY OF THESE TENDS TO INVOLVE PROLONGED STIMULATION OF CELL PROLIFERATION THROUGHOUT THE DURATION OF EXPOSURE. THIS MODE OF ACTION REFLECTS A SUSTAINED REGENERATIVE RESPONSE, EITHER DUE TO DIRECT CHEMICAL TOXICITY TO THE TUBULE CELLS, AS WITH CHLOROFORM, OR TO INDIRECT CYTOTOXICITY ASSOCIATED WITH LYSOSOMAL OVERLOAD, AS IN ALPHA2U-GLOBULIN ACCUMULATION IN MALE RATS RESULTING FROM THE ADMINISTRATION OF SUCH CHEMICALS AS D-LIMONENE AND TETRACHLOROETHYLENE. THE HISTOPATHOLOGIC NATURE OF HYDROQUINONE RENAL CARCINOGENESIS SUGGESTS THAT AN ADDITIONAL EPIGENETIC PATHWAY TO RENAL TUBULE TUMOR FORMATION IN RATS MAY BE THROUGH CHEMICAL-MEDIATED EXACERBATION OF, AND INTERACTION WITH, THE AGE-RELATED SPONTANEOUS RENAL DISEASE, CHRONIC PROGRESSIVE NEPHROPATHY. THESE VARIOUS MECHANISTIC PATHWAYS HAVE IMPLICATIONS FOR THE NATURE OF THE INDUCED CANCER PROCESS WITH RESPECT TO TUMOR INCIDENCE, LATENCY, MALIGNANCY, AND SEX PREDISPOSITION. 1998 8 126 47 A TOXICOGENOMICS APPROACH TO IDENTIFY NEW PLAUSIBLE EPIGENETIC MECHANISMS OF OCHRATOXIN A CARCINOGENICITY IN RAT. OCHRATOXIN A (OTA) IS A MYCOTOXIN OCCURRING NATURALLY IN A WIDE RANGE OF FOOD COMMODITIES. IN ANIMALS, IT HAS BEEN SHOWN TO CAUSE A VARIETY OF ADVERSE EFFECTS, NEPHROCARCINOGENICITY BEING THE MOST PROMINENT. BECAUSE OF ITS HIGH TOXIC POTENCY AND THE CONTINUOUS EXPOSURE OF THE HUMAN POPULATION, OTA HAS RAISED PUBLIC HEALTH CONCERNS. THERE IS SIGNIFICANT DEBATE ON HOW TO USE THE RAT CARCINOGENICITY DATA TO ASSESS THE POTENTIAL RISK TO HUMANS. IN THIS CONTEXT, THE QUESTION OF THE MECHANISM OF ACTION OF OTA APPEARS OF KEY IMPORTANCE AND WAS STUDIED THROUGH THE APPLICATION OF A TOXICOGENOMICS APPROACH. MALE FISCHER RATS WERE FED OTA FOR UP TO 2 YEARS. RENAL TUMORS WERE DISCOVERED DURING THE LAST 6 MONTHS OF THE STUDY. THE TOTAL TUMOR INCIDENCE REACHED 25% AT THE END OF THE STUDY. GENE EXPRESSION PROFILE WAS ANALYZED IN GROUPS OF ANIMALS TAKEN IN INTERVALS FROM 7 DAYS TO 12 MONTHS. TISSUE-SPECIFIC RESPONSES WERE OBSERVED IN KIDNEY VERSUS LIVER. FOR SELECTED GENES, MICROARRAY DATA WERE CONFIRMED AT BOTH MRNA AND PROTEIN LEVELS. IN KIDNEY, SEVERAL GENES KNOWN AS MARKERS OF KIDNEY INJURY AND CELL REGENERATION WERE SIGNIFICANTLY MODULATED BY OTA. THE EXPRESSION OF GENES KNOWN TO BE INVOLVED IN DNA SYNTHESIS AND REPAIR, OR GENES INDUCED AS A RESULT OF DNA DAMAGE, WAS ONLY MARGINALLY MODULATED. VERY LITTLE OR NO EFFECT WAS FOUND AMONGST GENES ASSOCIATED WITH APOPTOSIS. ALTERATIONS OF GENE EXPRESSION INDICATING EFFECTS ON CALCIUM HOMEOSTASIS AND A DISRUPTION OF PATHWAYS REGULATED BY THE TRANSCRIPTION FACTORS HEPATOCYTE NUCLEAR FACTOR 4 ALPHA (HNF4ALPHA) AND NUCLEAR FACTOR-ERYTHROID 2-RELATED FACTOR 2 (NRF2) WERE OBSERVED IN THE KIDNEY BUT NOT IN THE LIVER. PREVIOUS DATA HAVE SUGGESTED THAT A REDUCTION IN HNF4ALPHA MAY BE ASSOCIATED WITH NEPHROCARCINOGENICITY. MANY NRF2-REGULATED GENES ARE INVOLVED IN CHEMICAL DETOXICATION AND ANTIOXIDANT DEFENSE. THE DEPLETION OF THESE GENES IS LIKELY TO IMPAIR THE DEFENSE POTENTIAL OF THE CELLS, RESULTING IN CHRONIC ELEVATION OF OXIDATIVE STRESS IN THE KIDNEY. THE INHIBITION OF DEFENSE MECHANISM APPEARS AS A HIGHLY PLAUSIBLE NEW MECHANISM, WHICH COULD CONTRIBUTE TO OTA CARCINOGENICITY. 2006 9 1970 31 EPIGENETIC ALTERATIONS AND OCCUPATIONAL EXPOSURE TO BENZENE, FIBERS, AND HEAVY METALS ASSOCIATED WITH TUMOR DEVELOPMENT (REVIEW). THE CHRONIC OCCUPATIONAL EXPOSURE TO CONTAMINANTS AND CARCINOGENS LEADS TO THE DEVELOPMENT OF CANCER. OVER THE PAST DECADES, MANY CARCINOGENS HAVE BEEN FOUND IN THE OCCUPATIONAL ENVIRONMENT AND THEIR PRESENCE IS OFTEN ASSOCIATED WITH AN INCREASED INCIDENCE OF CANCER. ACCORDING TO THE INTERNATIONAL AGENCY FOR RESEARCH ON CANCER (IARC), THE MAJORITY OF CARCINOGENS ARE CLASSIFIED AS 'PROBABLE' AND 'POSSIBLE' HUMAN CARCINOGENS, WHILE, DIRECT EVIDENCE OF CARCINOGENICITY IS PROVIDED IN EPIDEMIOLOGICAL AND EXPERIMENTAL STUDIES. ADDITIONALLY, ACCUMULATING EVIDENCE SUGGESTS THAT EPIGENETIC ALTERATIONS MAY BE EARLY INDICATORS OF GENOTOXIC AND NON-GENOTOXIC CARCINOGEN EXPOSURE. IN THE PRESENT REVIEW, THE RELATIONSHIP BETWEEN EXPOSURES TO BENZENE, MINERAL FIBERS, METALS AND EPIGENETIC ALTERATIONS ARE DISCUSSED AS THE MOST IMPORTANT CANCER RISK FACTORS DURING WORK ACTIVITIES. 2017 10 6296 48 THE PROSPECTS FOR A SIMPLIFIED AND INTERNATIONALLY HARMONIZED APPROACH TO THE DETECTION OF POSSIBLE HUMAN CARCINOGENS AND MUTAGENS. IT IS PROPOSED THAT THE MANY SETS OF REGULATORY GUIDELINES FOR THE ASSESSMENT OF CHEMICAL CARCINOGENICITY AND MUTAGENICITY SHOULD BE SIMPLIFIED AND HARMONIZED IN LIGHT OF CURRENT EXPERIMENTAL DATA. DATA ARE DISCUSSED WHICH ILLUSTRATE THAT AN ABSOLUTE DISTINCTION WOULD BE DRAWN BETWEEN ASSAYS CONDUCTED IN VITRO FROM THOSE IN VIVO, AND THAT THE GENOTOXICITY OF A CHEMICAL CAN BE ADEQUATELY DEFINED USING A COMBINATION OF THE SALMONELLA MUTATION ASSAY AND ONE FOR THE ASSESSMENT OF CHROMOSOME ABERRATIONS IN VITRO. IT IS SPECIFICALLY RECOMMENDED THAT ONCE A CHEMICAL HAS SHOWN A CLEAR POSITIVE RESPONSE IN VITRO, FURTHER SHORT-TERM ASSAYS SHOULD BE CONDUCTED IN VIVO; THIS AVOIDS CONSIDERING THE 'WEIGHT OF EVIDENCE' OF IN VITRO DATA, THE DANGERS OF WHICH ARE ILLUSTRATED. IT HAS NOW BEEN UNEQUIVOCALLY ESTABLISHED THAT NOT ALL IN VITRO GENOTOXINS PROVE CARCINOGENIC TO MAMMALS. IT IS THEREFORE RECOMMENDED THAT ALL NEW IN VITRO GENOTOXINS SHOULD BE ASSESSED IN VIVO USING THE MOUSE BONE MARROW MICRONUCLEUS ASSAY, AND IF A NEGATIVE RESPONSE IS OBSERVED, A LIVER GENOTOXICITY TEST. AT PRESENT AN ASSAY FOR THE INDUCTION OF UNSCHEDULED DNA SYNTHESIS (UDS) IN THE LIVER IS THE MOST WELL DEVELOPED FOR THIS PURPOSE. CURRENT DATA INDICATE THAT AN IN VITRO GENOTOXIN FOUND TO BE INACTIVE IN THESE TWO IN VIVO ASSAYS WILL BE NEITHER CARCINOGENIC NOR MUTAGENIC TO THE GERM CELLS OF MAMMALS. EQUALLY, GENOTOXICITY PRODUCED IN MAMMALS INDICATES A CARCINOGENIC AND MUTAGENIC POTENTIAL WHICH CAN USUALLY ONLY BE COUNTERED BY APPROPRIATE CHRONIC BIOASSAYS. THE USE OF SHORT-TERM IN VIVO ASSAYS IN THIS CRITICAL ROLE REQUIRES ATTENTION TO THE SELECTION OF APPROPRIATE DOSE-LEVELS AND ROUTES OF EXPOSURE - THESE ISSUES ARE DISCUSSED. THE ABOVE TESTING STRATEGY WILL NOT DETECT CERTAIN ANIMAL CARCINOGENS, SOME OF WHICH ARE SPECIFICALLY DISCUSSED. THESE CARCINOGENS HAVE BEEN VARIOUSLY REFERRED TO IN THE LITERATURE AS EPIGENETIC/NON-GENOTOXIC/HORMONAL/TOXIC/AMBIGUOUS OR AMBIVALENT CARCINOGENS. IT IS SUGGESTED THAT THEY PRESENT A MINOR POTENTIAL HAZARD TO MAN WHEN COMPARED WITH THAT OF GENOTOXIC CARCINOGENS AND THAT THEIR SHORT-TERM DETECTION CAN ONLY BE ACHIEVED BY THE DEVELOPMENT OF NEW WHOLE MAMMAL ASSAYS EMPLOYING NON-GENETIC ENDPOINTS. THIS IS IN CONTRAST TO THE PRESENT TENDENCY TO EMPLOY ADDITIONAL GENOTOXICITY ASSAYS FOR THEIR DETECTION IN THE UNJUSTIFIED BELIEF THAT THEY POSSESS AN EXQUISITE SPECIFICITY OF GENOTOXIC ACTION. THIS ARTICLE REPRESENTS A PERSONAL VIEW, BUT THE TESTING STRATEGY PROPOSED IS BASED TO A LARGE EXTENT ON THE ORIGINAL THREE-TIER APPROACH OF BRIDGES.(ABSTRACT TRUNCATED AT 400 WORDS) 1986 11 838 43 CHEMISTRY MEETS BIOLOGY IN COLITIS-ASSOCIATED CARCINOGENESIS. THE INTESTINE COMPRISES AN EXCEPTIONAL VENUE FOR A DYNAMIC AND COMPLEX INTERPLAY OF NUMEROUS CHEMICAL AND BIOLOGICAL PROCESSES. HERE, MULTIPLE CHEMICAL AND BIOLOGICAL SYSTEMS, INCLUDING THE INTESTINAL TISSUE ITSELF, ITS ASSOCIATED IMMUNE SYSTEM, THE GUT MICROBIOTA, XENOBIOTICS, AND METABOLITES MEET AND INTERACT TO FORM A SOPHISTICATED AND TIGHTLY REGULATED STATE OF TISSUE HOMOEOSTASIS. DISTURBANCE OF THIS HOMEOSTASIS CAN CAUSE INFLAMMATORY BOWEL DISEASE (IBD)-A CHRONIC DISEASE OF MULTIFACTORIAL ETIOLOGY THAT IS STRONGLY ASSOCIATED WITH INCREASED RISK FOR CANCER DEVELOPMENT. THIS REVIEW ADDRESSES RECENT DEVELOPMENTS IN RESEARCH INTO CHEMICAL AND BIOLOGICAL MECHANISMS UNDERLYING THE ETIOLOGY OF INFLAMMATION-INDUCED COLON CANCER. BEGINNING WITH A GENERAL OVERVIEW OF REACTIVE CHEMICAL SPECIES GENERATED DURING COLONIC INFLAMMATION, THE MECHANISTIC INTERPLAY BETWEEN CHEMICAL AND BIOLOGICAL MEDIATORS OF INFLAMMATION, THE ROLE OF GENETIC TOXICOLOGY, AND MICROBIAL PATHOGENESIS IN DISEASE DEVELOPMENT ARE DISCUSSED. WHEN POSSIBLE, WE SYSTEMATICALLY COMPARE EVIDENCE FROM STUDIES UTILIZING HUMAN IBD PATIENTS WITH EXPERIMENTAL INVESTIGATIONS IN MICE. THE COMPARISON REVEALS THAT MANY STRONG PATHOLOGICAL AND MECHANISTIC CORRELATES EXIST BETWEEN MOUSE MODELS OF COLITIS-ASSOCIATED CANCER, AND THE CLINICALLY RELEVANT SITUATION IN HUMANS. WE ALSO SUMMARIZE SEVERAL EMERGING ISSUES IN THE FIELD, SUCH AS THE CARCINOGENIC POTENTIAL OF NOVEL INFLAMMATION-RELATED DNA ADDUCTS AND GENOTOXIC MICROBIAL FACTORS, THE SYSTEMIC DIMENSION OF INFLAMMATION-INDUCED GENOTOXICITY, AND THE COMPLEX ROLE OF GENOME MAINTENANCE MECHANISMS DURING THESE PROCESSES. TAKEN TOGETHER, CURRENT EVIDENCE POINTS TO THE INDUCTION OF GENETIC AND EPIGENETIC ALTERATIONS BY CHEMICAL AND BIOLOGICAL INFLAMMATORY STIMULI ULTIMATELY LEADING TO CANCER FORMATION. 2013 12 2901 36 GENDER DIFFERENCES IN GERM-CELL MUTAGENESIS AND GENETIC RISK. CURRENT INTERNATIONAL CLASSIFICATION SYSTEMS FOR CHEMICAL MUTAGENS ARE HAZARD-BASED RATHER THAN AIMED AT ASSESSING RISKS QUANTITATIVELY. IN THE PAST, GERM-CELL TESTS HAVE BEEN MAINLY PERFORMED WITH A LIMITED NUMBER OF SOMATIC CELL MUTAGENS, AND RARELY UNDER CONDITIONS AIMED AT COMPARING GENDER-SPECIFIC DIFFERENCES IN SUSCEPTIBILITY TO MUTAGEN EXPOSURES. THERE ARE PROFOUND DIFFERENCES IN THE GENETIC CONSTITUTION, AND IN HORMONAL, STRUCTURAL, AND FUNCTIONAL ASPECTS OF DIFFERENTIATION AND CONTROL OF GAMETOGENESIS BETWEEN THE SEXES. A CRITICAL REVIEW OF THE LITERATURE SUGGESTS THAT THESE DIFFERENCES MAY HAVE A PROFOUND IMPACT ON THE RELATIVE SUSCEPTIBILITY, STAGE OF HIGHEST SENSITIVITY AND THE RELATIVE RISK FOR THE GENESIS OF GENE MUTATION, AS WELL AS STRUCTURAL AND NUMERICAL CHROMOSOMAL ABERRATIONS IN MALE AND FEMALE GERM CELLS. TRANSMISSION OF GERM-CELL MUTATIONS TO THE OFFSPRING MAY ALSO ENCOUNTER GENDER-SPECIFIC INFLUENCES. GENDER DIFFERENCES IN SUSCEPTIBILITY TO CHEMICALLY DERIVED ALTERATIONS IN IMPRINTING PATTERNS MAY POSE A THREAT FOR THE HEALTH OF THE OFFSPRING AND MAY ALSO BE TRANSMITTED TO FUTURE GENERATIONS. RECENT REPORTS ON DIFFERENT GENETIC EFFECTS FROM HIGH ACUTE AND FROM CHRONIC LOW-DOSE EXPOSURES CHALLENGE THE VALIDITY OF CONCLUSIONS DRAWN FROM STANDARD METHODS OF MUTAGENICITY TESTING. IN CONCLUSION, RESEARCH IS URGENTLY NEEDED TO IDENTIFY GENETIC HAZARDS FOR A LARGER RANGE OF CHEMICAL COMPOUNDS, INCLUDING THOSE SUSPECTED TO DISTURB PROPER CHROMOSOME SEGREGATION. ALTERATIONS IN EPIGENETIC PROGRAMMING AND THEIR HEALTH CONSEQUENCES WILL HAVE TO BE INVESTIGATED. MORE ATTENTION SHOULD BE PAID TO GENDER-SPECIFIC GENETIC EFFECTS. FINALLY, THE DATABASE FOR GERM-CELL MUTAGENS SHOULD BE ENLARGED USING MOLECULAR METHODOLOGIES, AND GENETIC EPIDEMIOLOGY STUDIES SHOULD BE PERFORMED WITH THESE TECHNIQUES TO VERIFY HUMAN GENETIC RISK. 2007 13 2790 46 FACTORS TO CONSIDER IN THE USE OF STEM CELLS FOR PHARMACEUTIC DRUG DEVELOPMENT AND FOR CHEMICAL SAFETY ASSESSMENT. GIVEN THE REALITY OF THE INADEQUACIES OF CURRENT CONCEPTS OF THE MECHANISMS OF CHEMICAL TOXICITIES, OF THE VARIOUS ASSAYS TO PREDICT TOXICITIES FROM CURRENT MOLECULAR, BIOCHEMICAL, IN VITRO AND ANIMAL BIOASSAYS, AND OF THE FAILURE TO GENERATE EFFICACIOUS AND SAFE CHEMICALS FOR MEDICINES, FOOD SUPPLEMENTS, INDUSTRIAL, CONSUMER AND AGRICULTURAL CHEMICALS, THE RECENT NAS REPORT, "TOXICITY TESTING IN THE 21ST CENTURY: A VISION AND A STRATEGY", HAS DRAWN ATTENTION TO A RENEWED EXAMINATION OF WHAT NEEDS TO BE DONE TO IMPROVE OUR CURRENT APPROACH FOR BETTER ASSESSMENT OF POTENTIAL RISK TO HUMAN HEALTH. THIS "COMMENTARY" PROVIDES A MAJOR PARADIGM CHALLENGE TO THE CURRENT CONCEPTS OF HOW CHEMICALS INDUCE TOXICITIES AND HOW THESE VARIOUS MECHANISMS OF TOXICITIES CAN CONTRIBUTE TO THE PATHOGENESIS OF SOME HUMAN DISEASES, SUCH AS BIRTH DEFECTS AND CANCER. IN CONCORDANCE WITH THE NAS REPORT TO TAKE "... ADVANTAGE OF THE ON-GOING REVOLUTION IN BIOLOGY AND BIOTECHNOLOGY", THIS "COMMENTARY" SUPPORTS THE USE OF HUMAN EMBRYONIC AND ADULT STEM CELLS, GROWN IN VITRO UNDER SIMULATED "IN VIVO NICHE CONDITIONS". THE HUMAN BEING SHOULD BE VIEWED "AS GREATER THAN THE SUM OF ITS PARTS". HOMEOSTATIC CONTROL OF THE "EMERGENT PROPERTIES" OF THE HUMAN HIERARCHY, NEEDED TO MAINTAIN HUMAN HEALTH, REQUIRES COMPLEX INTEGRATION OF ENDOGENOUS AND EXOGENOUS SIGNALING MOLECULES THAT CONTROL CELL PROLIFERATION, DIFFERENTIATION, APOPTOSIS AND SENESCENCE OF STEM, PROGENITOR AND DIFFERENTIATED CELLS. CURRENTLY, IN VITRO TOXICITY ASSAYS (MUTAGENESIS, CYTOTOXICITY, EPIGENETIC MODULATION), DONE ON 2-DIMENSIONAL PRIMARY RODENT OR HUMAN CELLS (WHICH ARE ALWAYS MIXTURES OF CELLS), ON IMMORTALIZED OR TUMORIGENIC RODENT OR HUMAN CELL LINES DO NOT REPRESENT NORMAL HUMAN CELLS IN VIVO [WHICH DO NOT GROW ON PLASTIC AND WHICH ARE IN MICRO-ENVIRONMENTS REPRESENTING 3 DIMENSIONS AND CONSTANTLY INTERACTING FACTORS]. IN ADDITION, WITH THE KNOWN GENETIC, GENDER, AND DEVELOPMENTAL STATE OF CELLS IN VIVO, ANY IN VITRO TOXICITY ASSAY WILL NEED TO MIMIC THESE CONDITIONS IN VITRO. MORE SPECIFICALLY, WHILE TISSUES CONTAIN A FEW STEM CELLS, MANY PROGENITOR/TRANSIT CELLS AND TERMINALLY DIFFERENTIATED CELLS, IT SHOULD BE OBVIOUS THAT BOTH EMBRYONIC AND ADULT STEM CELLS WOULD BE CRITICAL "TARGET" CELLS FOR TOXICITY TESTING. THE ULTIMATE POTENTIAL FOR IN VITRO TESTING OF HUMAN STEM CELLS WILL TO TRY TO MIMIC A 3-D IN VITRO MICRO-ENVIRONMENT ON MULTIPLE "ORGAN-SPECIFIC AND MULTIPLE GENOTYPIC/GENDER "ADULT STEM CELLS. THE ROLE OF STEM CELLS IN MANY CHRONIC DISEASES, SUCH AS CANCER, BIRTH DEFECTS, AND POSSIBLY ADULT DISEASES AFTER PRE-NATAL AND EARLY POST-NATAL EXPOSURES (BARKER HYPOTHESIS), DEMANDS TOXICITY STUDIES OF STEM CELLS. WHILE ALTERATION OF GENE EXPRESSION ("TOXICO-EPIGENOMICS") IS A LEGITIMATE ENDPOINT OF THESE TOXICITY STUDIES, ALTERATION OF THE QUANTITY OF STEM CELLS DURING DEVELOPMENT MUST BE SERIOUS CONSIDERED. IF THE FUTURE UTILITY OF HUMAN STEM CELLS PROVES TO BE VALID, THE ELIMINATION OF LESS RELEVANT, EXPENSIVE AND TIME-CONSUMING RODENT AND 2-D HUMAN IN VITRO ASSAYS WILL BE ELIMINATED. 2010 14 6459 24 TIME TO CHANGE FROM A SIMPLE LINEAR MODEL TO A COMPLEX SYSTEMS MODEL. A SIMPLE LINEAR MODEL TO TEST THE HYPOTHESIS BASED ON ONE-ON-ONE RELATIONSHIP HAS BEEN USED TO FIND THE CAUSATIVE FACTORS OF DISEASES. HOWEVER, WE NOW KNOW THAT NOT JUST ONE, BUT MANY FACTORS FROM DIFFERENT SYSTEMS SUCH AS CHEMICAL EXPOSURE, GENES, EPIGENETIC CHANGES, AND PROTEINS ARE INVOLVED IN THE PATHOGENESIS OF CHRONIC DISEASES SUCH AS DIABETES MELLITUS. SO, WITH AVAILABILITY OF MODERN TECHNOLOGIES TO UNDERSTAND THE INTRICATE NATURE OF RELATIONS AMONG COMPLEX SYSTEMS, WE NEED TO MOVE FORWARD TO THE FUTURE BY TAKING COMPLEX SYSTEMS MODEL. 2016 15 3418 33 HUMAN HEALTH CONSEQUENCES OF ENVIRONMENTALLY-MODULATED GENE EXPRESSION: POTENTIAL ROLES OF ELF-EMF INDUCED EPIGENETIC VERSUS MUTAGENIC MECHANISMS OF DISEASE. IN ORDER TO DETERMINE IF THERE MIGHT BE BIOLOGICAL AND HEALTH CONSEQUENCES AFTER EXPOSURES TO EXTREMELY-LOW FREQUENCY ELECTROMAGNETIC FIELDS (ELF-EMF), EITHER EXPERIMENTALLY OR EPIDEMIOLOGICALLY, MECHANISTIC UNDERSTANDING OF THE POTENTIAL MEANS BY WHICH ANY ENVIRONMENTAL AGENT CAN AFFECT CELLS IN A MULTICELLULAR ORGANISM HAS TO BE REVIEWED. THE GOAL OF THIS LIMITED REVIEW IS TO DEMONSTRATE THAT, WHILE THE PREVAILING PARADIGM OF THE ENVIRONMENTALLY-INDUCED ACUTE AND CHRONIC DISEASES INVOLVES EITHER CELL KILLING (CYTOTOXICITY) OR GENE/CHROMOSOME MUTATIONS (GENOTOXICITY), ALTERATION OF THE EXPRESSION OF GENETIC INFORMATION AT THE TRANSCRIPTIONAL (TURNING GENES "ON" OR "OFF"), TRANSLATIONAL (STABILIZING OR DE-STABILIZING THE GENETIC MESSAGE), OR POSTTRANSLATIONAL (ALTERING THE GENE PRODUCT OR PROTEIN) LEVELS HAS THE POTENTIAL TO CONTRIBUTE TO VARIOUS DISEASES. THIS LATTER MECHANISM, "EPIGENETIC" TOXICITY, UNLIKE THE FORMER TWO WHICH ARE IRREVERSIBLE, IS CHARACTERIZED BY THRESHOLD-LIKE ACTION, MULTIPLE BIOCHEMICAL PATHWAYS AND CHRONIC, REGULAR EXPOSURES TO BE EFFECTIVE. ULTIMATELY, EPIGENETIC TOXICANTS AFFECT ONE OF FOUR POTENTIAL CELL STATES, NAMELY ALTERATION OF CELL PROLIFERATION, CELL DIFFERENTIATION, PROGRAMMED CELL DEATH (APOPTOSIS) OR ADAPTIVE RESPONSES OF DIFFERENTIATED CELLS. 2000 16 3210 30 HEALTH EFFECTS ASSOCIATED WITH PRE- AND PERINATAL EXPOSURE TO ARSENIC. INORGANIC ARSENIC IS A WELL-ESTABLISHED HUMAN CARCINOGEN, ABLE TO INDUCE GENETIC AND EPIGENETIC ALTERATIONS. MORE THAN 200 MILLION PEOPLE WORLDWIDE ARE EXPOSED TO ARSENIC CONCENTRATIONS IN DRINKING WATER EXCEEDING THE RECOMMENDED WHO THRESHOLD (10MUG/L). ADDITIONALLY, CHRONIC EXPOSURE TO LEVELS BELOW THIS THRESHOLD IS KNOWN TO RESULT IN LONG-TERM HEALTH EFFECTS IN HUMANS. THE ARSENIC-RELATED HEALTH EFFECTS IN HUMANS ARE ASSOCIATED WITH ITS BIOTRANSFORMATION PROCESS, WHEREBY THE RESULTING METABOLITES CAN INDUCE MOLECULAR DAMAGE THAT ACCUMULATES OVER TIME. THE EFFECTS DERIVED FROM THESE ALTERATIONS INCLUDE GENOMIC INSTABILITY ASSOCIATED WITH OXIDATIVE DAMAGE, ALTERATION OF GENE EXPRESSION (INCLUDING CODING AND NON-CODING RNAS), GLOBAL AND LOCALIZED EPIGENETIC REPROGRAMMING, AND HISTONE POSTTRANSLATIONAL MODIFICATIONS. THESE ALTERATIONS DIRECTLY AFFECT MOLECULAR PATHWAYS INVOLVED IN THE ONSET AND PROGRESSION OF MANY CONDITIONS THAT CAN ARISE EVEN DECADES AFTER THE EXPOSURE OCCURS. IMPORTANTLY, ARSENIC METABOLITES GENERATED DURING ITS BIOTRANSFORMATION CAN ALSO PASS THROUGH THE PLACENTAL BARRIER, RESULTING IN FETAL EXPOSURE TO THIS CARCINOGEN AT SIMILAR LEVELS TO THOSE OF THE MOTHER. AS SUCH, MORE IMMEDIATE EFFECTS OF THE ARSENIC-INDUCED MOLECULAR DAMAGE CAN BE OBSERVED AS DETRIMENTAL EFFECTS ON FETAL DEVELOPMENT, PREGNANCY, AND BIRTH OUTCOMES. IN THIS REVIEW, WE FOCUS ON THE GENETIC AND EPIGENETIC DAMAGE ASSOCIATED WITH EXPOSURE TO LOW LEVELS OF ARSENIC, PARTICULARLY THOSE AFFECTING EARLY DEVELOPMENTAL STAGES. WE ALSO PRESENT HOW THESE ALTERATIONS OCCURRING DURING EARLY LIFE CAN IMPACT THE DEVELOPMENT OF CERTAIN DISEASES IN ADULT LIFE. 2021 17 6905 30 [THE ROLE OF EPIGENETIC REGULATIONS IN EARLY CHILDHOOD DISEASES]. WITH THE ACCEPTANCE OF "THE DEVELOPMENTAL ORIGINS OF HEALTH AND DISEASE" CONCEPT IN THE 1990S, IT BECAME CLEAR THAT EPIGENETIC INHERITANCE, WHICH DO NOT INVOLVE CHANGES IN THE DNA SEQUENCE HAS IMPORTANT ROLE IN THE PATHOGENESIS OF DISEASES. EPIGENETIC REGULATION SERVES THE ADAPTATION TO THE CHANGING ENVIRONMENT AND MAINTAINS THE REPRODUCTIVE FITNESS EVEN ON THE DRAWBACK OF INCREASED RISK OF DISEASES IN LATER LIFE. THE ROLE OF EPIGENETIC MECHANISMS IN CHRONIC NON-COMMUNICABLE DISEASES HAS BEEN WELL ESTABLISHED. RECENT STUDIES HAVE REVEALED THAT EPIGENETIC CHANGES HAVE ALSO CAUSAL ROLE IN CERTAIN PEDIATRIC DISEASES. THE REVIEW EVALUATES THE RECENT EPIGENETIC FINDINGS IN THE PATHOMECHANISM OF COMMON PEDIATRIC DISEASES. THE WIDE RANGE AND LONG-LASTING DURATION OF EPIGENETIC REGULATIONS GIVE IMPORTANCE TO THE SUBJECT. METHODS ARE ALREADY AVAILABLE TO EVALUATE A PART OF THE EPIGENETIC CHANGES IN THE CLINICAL PRACTICE, PRESENTLY AIMING PRIMARILY THE ESTIMATION OF THE DISEASE RISK OR DEFINITION OF DIAGNOSIS. FURTHERMORE, THERE ARE ALREADY AVAILABLE LIMITED MEANS TO INFLUENCE THE EPIGENETIC REGULATION. 2019 18 5361 32 RECENT ADVANCES IN ARSENIC RESEARCH: SIGNIFICANCE OF DIFFERENTIAL SUSCEPTIBILITY AND SUSTAINABLE STRATEGIES FOR MITIGATION. ARSENIC CONTAMINATION IN DRINKING WATER AND ASSOCIATED ADVERSE OUTCOMES ARE ONE OF THE MAJOR HEALTH ISSUES IN MORE THAN 50 COUNTRIES WORLDWIDE. THE SCENARIO IS GETTING EVEN MORE DETRIMENTAL WITH INCREASING NUMBER OF AFFECTED PEOPLE AND NEWER SITES REPORTED FROM ALL OVER THE WORLD. APART FROM DRINKING WATER, THE PRESENCE OF ARSENIC HAS BEEN FOUND IN VARIOUS OTHER DIETARY SOURCES. CHRONIC ARSENIC TOXICITY AFFECTS MULTIPLE PHYSIOLOGICAL SYSTEMS AND MAY CAUSE MALIGNANCIES LEADING TO DEATH. EXPOSED INDIVIDUALS, RESIDING IN THE SAME AREA, DEVELOPED DIFFERENTIAL DERMATOLOGICAL LESION PHENOTYPES AND VARIED SUSCEPTIBILITY TOWARD VARIOUS OTHER ARSENIC-INDUCED DISEASE RISK, EVEN AFTER CONSUMING EQUIVALENT AMOUNT OF ARSENIC FROM THE SIMILAR SOURCE, OVER THE SAME DURATION OF TIME. RESEARCHES SO FAR INDICATE THAT DIFFERENTIAL SUSCEPTIBILITY PLAYS AN IMPORTANT ROLE IN ARSENIC-INDUCED DISEASE MANIFESTATION. IN THIS COMPREHENSIVE REVIEW, WE HAVE IDENTIFIED MAJOR POPULATION-BASED STUDIES OF THE LAST 20 YEARS, INDICATING POSSIBLE CAUSES OF DIFFERENTIAL SUSCEPTIBILITY EMPHASIZING ARSENIC METHYLATION CAPACITY, VARIATION IN HOST GENOME (SINGLE NUCLEOTIDE POLYMORPHISM), AND INDIVIDUAL EPIGENETIC PATTERN (DNA METHYLATION, HISTONE MODIFICATION, AND MIRNA EXPRESSION). HOLISTIC MULTIDISCIPLINARY STRATEGIES NEED TO BE IMPLEMENTED WITH FEW SUSTAINABLE YET COST-EFFECTIVE SOLUTIONS LIKE ALTERNATIVE WATER SOURCE, TREATMENT OF ARSENIC-CONTAMINATED WATER, NEW ADAPTATIONS IN IRRIGATION SYSTEM, SIMPLE MODIFICATIONS IN COOKING STRATEGY, AND DIETARY SUPPLEMENTATIONS TO COMBAT THIS MENACE. OUR REVIEW FOCUSES ON THE PRESENT PERSPECTIVES OF ARSENIC RESEARCH WITH SPECIAL EMPHASIS ON THE PROBABLE CAUSES OF DIFFERENTIAL SUSCEPTIBILITY TOWARD CHRONIC ARSENIC TOXICITY AND SUSTAINABLE REMEDIATION STRATEGIES. 2020 19 4787 36 NUTRITION, AGING AND CANCER: LESSONS FROM DIETARY INTERVENTION STUDIES. THERE IS CONVINCING EPIDEMIOLOGICAL AND CLINICAL EVIDENCE THAT, INDEPENDENT OF AGING, LIFESTYLE AND, NOTABLY, NUTRITION ARE ASSOCIATED WITH DEVELOPMENT OR PROGRESSION OF MAJOR HUMAN CANCERS, INCLUDING BREAST, PROSTATE, COLORECTAL TUMORS, AND AN INCREASINGLY LARGE COLLECTION OF DIET-RELATED CANCERS. MECHANISMS UNDERLYING THIS ASSOCIATION ARE MOSTLY RELATED TO THE DISTINCT EPIGENETIC EFFECTS OF DIFFERENT DIETARY PATTERNS. IN THIS CONTEXT, MEDITERRANEAN DIET HAS BEEN REPORTED TO SIGNIFICANTLY REDUCE MORTALITY RATES FOR VARIOUS CHRONIC ILLNESSES, INCLUDING CARDIOVASCULAR DISEASES, NEURODEGENERATIVE DISEASES AND CANCER. ALTHOUGH MANY OBSERVATIONAL STUDIES HAVE SUPPORTED THIS EVIDENCE, DIETARY INTERVENTION STUDIES USING A MEDITERRANEAN DIETARY PATTERN OR ITS SELECTED FOOD COMPONENTS ARE STILL LIMITED AND AFFECTED BY A RATHER LARGE VARIABILITY IN CHARACTERISTICS OF STUDY SUBJECTS, TYPE AND LENGTH OF INTERVENTION, SELECTED END-POINTS AND STATISTICAL ANALYSIS. HERE WE REVIEW DATA OF TWO OF OUR INTERVENTION STUDIES, THE MEDIET STUDY AND THE DIMESA PROJECT, AIMED AT ASSESSING THE EFFECTS OF TRADITIONAL MEDITERRANEAN DIET AND/OR ITS COMPONENT(S) ON A LARGE PANEL OF BOTH PLASMA AND URINE BIOMARKERS. BOTH PUBLISHED AND UNPUBLISHED RESULTS ARE PRESENTED AND DISCUSSED. 2016 20 3404 29 HOW EPIGENETICS IMPACTS ON HUMAN DISEASES. EPIGENETICS IS A RAPIDLY GROWING FIELD OF BIOLOGY THAT STUDIES THE CHANGES IN GENE EXPRESSION THAT ARE NOT DUE TO ALTERATIONS IN THE DNA SEQUENCE BUT RATHER THE CHEMICAL MODIFICATIONS OF DNA AND ITS ASSOCIATED PROTEINS. EPIGENETIC MECHANISMS CAN PROFOUNDLY INFLUENCE GENE EXPRESSION, CELL DIFFERENTIATION, TISSUE DEVELOPMENT, AND DISEASE SUSCEPTIBILITY. UNDERSTANDING EPIGENETIC CHANGES IS ESSENTIAL TO ELUCIDATE THE MECHANISMS UNDERLYING THE INCREASINGLY RECOGNIZED ROLE OF ENVIRONMENTAL AND LIFESTYLE FACTORS IN HEALTH AND DISEASE AND THE INTERGENERATIONAL TRANSMISSION OF PHENOTYPES. RECENT STUDIES SUGGEST EPIGENETICS MAY BE CRITICAL IN VARIOUS DISEASES, FROM CARDIOVASCULAR DISEASE AND CANCER TO NEURODEVELOPMENTAL AND NEURODEGENERATIVE DISORDERS. EPIGENETIC MODIFICATIONS ARE POTENTIALLY REVERSIBLE AND COULD PROVIDE NEW THERAPEUTIC AVENUES FOR TREATING THESE DISEASES USING EPIGENETIC MODULATORS. MOREOVER, EPIGENETICS PROVIDE INSIGHT INTO DISEASE PATHOGENESIS AND BIOMARKERS FOR DISEASE DIAGNOSIS AND RISK STRATIFICATION. NEVERTHELESS, EPIGENETIC INTERVENTIONS HAVE THE POTENTIAL FOR UNINTENDED CONSEQUENCES AND MAY POTENTIALLY LEAD TO INCREASED RISKS OF UNEXPECTED OUTCOMES, SUCH AS ADVERSE DRUG REACTIONS, DEVELOPMENTAL ABNORMALITIES, AND CANCER. THEREFORE, RIGOROUS STUDIES ARE ESSENTIAL TO MINIMIZE THE RISKS ASSOCIATED WITH EPIGENETIC THERAPIES AND TO DEVELOP SAFE AND EFFECTIVE INTERVENTIONS FOR IMPROVING HUMAN HEALTH. THIS ARTICLE PROVIDES A SYNTHETIC AND HISTORICAL VIEW OF THE ORIGIN OF EPIGENETICS AND SOME OF THE MOST RELEVANT ACHIEVEMENTS. 2023