1 3623 207 IN VIVO COMET ASSAY ON ISOLATED KIDNEY CELLS TO DISTINGUISH GENOTOXIC CARCINOGENS FROM EPIGENETIC CARCINOGENS OR CYTOTOXIC COMPOUNDS. THE OBJECTIVE OF THIS STUDY WAS TO DETERMINE THE ABILITY OF THE ALKALINE IN VIVO COMET ASSAY (PH>13) TO DISTINGUISH GENOTOXIC CARCINOGENS FROM EPIGENETIC CARCINOGENS WHEN PERFORMED ON FRESHLY ISOLATED KIDNEY CELLS AND TO DETERMINE THE POSSIBLE INTERFERENCE OF CYTOTOXICITY BY ASSESSING DNA DAMAGE INDUCED BY RENAL GENOTOXIC, EPIGENETIC OR TOXIC COMPOUNDS AFTER ENZYMATIC ISOLATION OF KIDNEY CELLS FROM OFA SPRAGUE-DAWLEY MALE RATS. THE ABILITY OF THE COMET ASSAY TO DISTINGUISH (1) GENOTOXICITY VERSUS CYTOTOXICITY AND (2) GENOTOXIC VERSUS NON-GENOTOXIC (EPIGENETIC) CARCINOGENS, WAS THUS INVESTIGATED BY STUDYING FIVE KNOWN GENOTOXIC RENAL CARCINOGENS ACTING THROUGH DIVERSE MECHANISMS OF ACTION, I.E. STREPTOZOTOCIN, ARISTOLOCHIC ACIDS, 2-NITROANISOLE, POTASSIUM BROMATE AND CISPLATIN, TWO RODENT RENAL EPIGENETIC CARCINOGENS: D-LIMONENE AND CICLOSPORINE AND TWO NEPHROTOXIC COMPOUNDS: STREPTOMYCIN AND INDOMETHACIN. ANIMALS WERE TREATED ONCE WITH THE TEST COMPOUND BY THE APPROPRIATE ROUTE OF ADMINISTRATION AND GENOTOXIC EFFECTS WERE MEASURED AT THE TWO SAMPLING TIMES OF 3-6 AND 22-26H AFTER TREATMENT. REGARDING THE TISSUE PROCESSING, THE LIMITED BACKGROUND LEVEL OF DNA MIGRATION OBSERVED IN THE NEGATIVE CONTROL GROUPS THROUGHOUT ALL EXPERIMENTS DEMONSTRATED THAT THE ENZYMATIC ISOLATION METHOD IMPLEMENTED IN THE CURRENT STUDY IS APPROPRIATE. ON THE OTHER HAND, STREPTOZOTOCIN, 20MG/KG, USED AS POSITIVE REFERENCE CONTROL CONCURRENTLY TO EACH ASSAY, CAUSED A CLEAR INCREASE IN THE MEAN OLIVE TAIL MOMENT MEDIAN VALUE, WHICH ALLOWS VALIDATING THE CURRENT METHODOLOGY. UNDER THESE EXPERIMENTAL CONDITIONS, THE IN VIVO RODENT COMET ASSAY DEMONSTRATED GOOD SENSITIVITY AND GOOD SPECIFICITY: ALL THE FIVE RENAL GENOTOXIC CARCINOGENS WERE CLEARLY DETECTED IN AT LEAST ONE EXPRESSION PERIOD EITHER DIRECTLY OR INDIRECTLY, AS IN THE CASE OF CISPLATIN: FOR THIS CROSS-LINKING AGENT, THE SIGNIFICANT DECREASE IN DNA MIGRATION OBSERVED UNDER STANDARD ELECTROPHORESIS CONDITIONS WAS CLEARLY AMPLIFIED WHEN THE DURATION OF ELECTROPHORESIS WAS INCREASED UP TO 40MIN. IN CONTRAST, EPIGENETIC AND NEPHROTOXIC COMPOUNDS FAILED TO INDUCE ANY SIGNIFCANT INCREASE IN DNA MIGRATION. IN CONCLUSION, THE IN VIVO RODENT COMET ASSAY PERFORMED ON ISOLATED KIDNEY CELLS COULD BE USED AS A TOOL TO INVESTIGATE THE GENOTOXIC POTENTIAL OF A TEST COMPOUND IF NEOPLASIC/PRENEOPLASIC CHANGES OCCUR AFTER SUBCHRONIC OR CHRONIC TREATMENTS, IN ORDER TO DETERMINE THE ROLE OF GENOTOXICITY IN TUMOR INDUCTION. MOREOVER, THE EPIGENETIC CARCINOGENS AND CYTOTOXIC COMPOUNDS DISPLAYED CLEARLY NEGATIVE RESPONSES IN THIS STUDY. THESE RESULTS ALLOW EXCLUDING A DNA DIRECT-ACTING MECHANISM OF ACTION AND CAN THUS SUGGEST THAT A THRESHOLD EXISTS. THEREFORE, THE CURRENT IN VIVO RODENT COMET ASSAY COULD CONTRIBUTE TO ELUCIDATE AN EPIGENETIC MECHANISM AND THUS, TO UNDERTAKE A RISK ASSESSMENT ASSOCIATED WITH HUMAN USE, DEPENDING ON THE EXPOSURE LEVEL. 2007 2 837 65 CHEMICALLY INDUCED RENAL TUBULE TUMORS IN THE LABORATORY RAT AND MOUSE: REVIEW OF THE NCI/NTP DATABASE AND CATEGORIZATION OF RENAL CARCINOGENS BASED ON MECHANISTIC INFORMATION. THE INCIDENCE OF RENAL TUBULE CARCINOGENESIS IN MALE AND FEMALE RATS OR MICE WITH 69 CHEMICALS FROM THE 513 BIOASSAYS CONDUCTED TO DATE BY THE NCI/NTP HAS BEEN COLLATED, THE CHEMICALS CATEGORIZED, AND THE RELATIONSHIP BETWEEN CARCINOGENESIS AND RENAL TUBULE HYPERPLASIA AND EXACERBATION OF THE SPONTANEOUS, AGE-RELATED RODENT DISEASE CHRONIC PROGRESSIVE NEPHROPATHY (CPN) EXAMINED. WHERE INFORMATION ON MECHANISM OR MODE OF ACTION EXISTS, THE CHEMICALS HAVE BEEN CATEGORIZED BASED ON THEIR ABILITY TO DIRECTLY OR INDIRECTLY INTERACT WITH RENAL DNA, OR ON THEIR ACTIVITY VIA EPIGENETIC PATHWAYS INVOLVING EITHER DIRECT OR INDIRECT CYTOTOXICITY WITH REGENERATIVE HYPERPLASIA, OR EXACERBATION OF CPN. NINE CHEMICALS WERE IDENTIFIED AS DIRECTLY INTERACTING WITH DNA, WITH SIX OF THESE PRODUCING RENAL TUBULE TUMORS AT HIGH INCIDENCE IN RATS OF BOTH SEXES, AND IN SOME CASES ALSO IN MICE. OCHRATOXIN A WAS THE MOST POTENT COMPOUND IN THIS GROUP, PRODUCING A HIGH TUMOR INCIDENCE AT VERY LOW DOSES, OFTEN WITH METASTASIS. THREE CHEMICALS WERE DISCUSSED IN THE CONTEXT OF INDIRECT DNA DAMAGE MEDIATED BY AN OXIDATIVE FREE RADICAL MECHANISM, ONE OF THESE BEING FROM THE NTP DATABASE. A THIRD CATEGORY INCLUDED FOUR CHEMICALS THAT HAD THE POTENTIAL TO CAUSE DNA DAMAGE FOLLOWING CONJUGATION WITH GLUTATHIONE AND SUBSEQUENT ENZYMATIC ACTIVATION TO A REACTIVE SPECIES, USUALLY A THIOL-CONTAINING ENTITY. TWO CHEMICALS WERE ALLOCATED INTO THE CATEGORY INVOLVING A DIRECT CYTOTOXIC ACTION ON THE RENAL TUBULE FOLLOWED BY SUSTAINED COMPENSATORY CELL PROLIFERATION, WHILE NINE WERE INCLUDED IN A GROUP WHERE THE CELL LOSS AND SUSTAINED INCREASE IN RENAL TUBULE CELL TURNOVER WERE DEPENDENT ON LYSOSOMAL ACCUMULATION OF THE MALE RAT-SPECIFIC PROTEIN, ALPHA2MU-GLOBULIN. IN A SIXTH CATEGORY, MORPHOLOGIC EVIDENCE ON TWO CHEMICALS INDICATED THAT THE RENAL TUMORS WERE A CONSEQUENCE OF EXACERBATED CPN. FOR THE REMAINING CHEMICALS, THERE WERE NO PERTINENT DATA ENABLING ASSIGNMENT TO A MECHANISTIC CATEGORY. ACCORDINGLY, THESE CHEMICALS, ACTING THROUGH AN AS YET UNKNOWN MECHANISM, WERE GROUPED AS EITHER BEING ASSOCIATED WITH AN ENHANCEMENT OF CPN (CATEGORY 7, 16 CHEMICALS), OR NOT ASSOCIATED WITH ENHANCED CPN (CATEGORY 8, 4 CHEMICALS). A NINTH CATEGORY DEALT WITH 11 CHEMICALS THAT WERE REGARDED AS PRODUCING INCREASES IN RENAL TUBULE TUMORS THAT DID NOT REACH STATISTICAL SIGNIFICANCE. A 10TH CATEGORY DISCUSSED 6 CHEMICALS THAT INDUCED RENAL TUMORS IN MICE BUT NOT IN RATS, PLUS 8 CHEMICALS THAT PRODUCED A LOW INCIDENCE OF RENAL TUBULE TUMORS IN MICE THAT DID NOT REACH STATISTICAL SIGNIFICANCE. AS MORE MECHANISTIC DATA ARE GENERATED, SOME CHEMICALS WILL INEVITABLY BE PLACED IN DIFFERENT GROUPS, PARTICULARLY THOSE FROM CATEGORIES 7 AND 8. A LARGE NUMBER OF CHEMICALS IN THE SERIES EXACERBATED CPN, BUT THOSE IN CATEGORY 7 ESPECIALLY MAY BE CANDIDATES FOR INCLUSION IN CATEGORY 6 WHEN FURTHER INFORMATION IS GLEANED FROM THE RELEVANT NTP STUDIES. ALSO, NEW DATA ON SPECIFIC CHEMICALS WILL PROBABLY EXPAND CATEGORY 5 AS CYTOTOXICITY AND CELL REGENERATION ARE IDENTIFIED AS OBLIGATORY STEPS IN RENAL CARCINOGENESIS IN MORE CASES. ADDITIONAL CONFIRMATORY OUTCOMES ARISING FROM THIS REVIEW ARE THAT METASTASES FROM RENAL TUBULE TUMORS, WHILE ENCOUNTERED WITH CHEMICALS CAUSING DNA DAMAGE, ARE RARE WITH THOSE ACTING THROUGH AN EPIGENETIC PATHWAY, WITH THE EXCEPTION BEING FUMONISIN B1; THAT MALE RATS AND MICE ARE GENERALLY MORE SUSCEPTIBLE THAN FEMALE RATS AND MICE TO CHEMICAL INDUCTION OF RENAL TUBULE TUMORS; AND THAT A BACKGROUND OF ATYPICAL TUBULE HYPERPLASIA IS A USEFUL INDICATOR REFLECTING A CHEMICALLY ASSOCIATED RENAL TUBULE TUMOR RESPONSE. WITH RESPECT TO RENAL TUBULE TUMORS AND HUMAN RISK ASSESSMENT, CHEMICALS IN CATEGORIES 1 AND 2, AND POSSIBLY 3, WOULD CURRENTLY BE JUDGED BY LINEAR DEFAULT METHODS; CHEMICALS IN CATEGORY 4 (AND PROBABLY SOME IN CATEGORY 3) AS EXHIBITING A THRESHOLD OF ACTIVITY WARRANTING THE BENCHMARK APPROACH; AND THOSE IN CATEGORIES 5 AND 6 AS REPRESENTING MECHANISMS THAT HAVE NO RELEVANCE FOR EXTRAPOLATION TO HUMANS. 2004 3 126 58 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 4 6296 58 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 5 457 42 APPLYING A MULTISCALE SYSTEMS BIOLOGY APPROACH TO STUDY THE EFFECT OF CHRONIC LOW-DOSE EXPOSURE TO URANIUM IN RAT KIDNEYS. PURPOSE: TO EXAMINE THE EFFECTS OF LOW-DOSE EXPOSURE TO URANIUM WITH A SYSTEMS BIOLOGY APPROACH, A MULTISCALE HIGH-THROUGHPUT MULTI-OMICS ANALYSIS WAS APPLIED WITH A PROTOCOL FOR CHRONIC EXPOSURE TO THE RAT KIDNEY. METHODS: MALE AND FEMALE RATS WERE CONTAMINATED FOR NINE MONTHS THROUGH THEIR DRINKING WATER WITH A NONTOXIC SOLUTION OF URANYL NITRATE. A MULTISCALE APPROACH ENABLED CLINICAL MONITORING ASSOCIATED WITH METABOLOMIC AND TRANSCRIPTOMIC (MRNA AND MICRORNA) ANALYSES. RESULTS: A SEX-INTERACTION EFFECT WAS OBSERVED IN THE KIDNEY, URINE, AND PLASMA METABOLOMES OF CONTAMINATED RATS. MOREOVER, URINE AND KIDNEY METABOLIC PROFILES CORRELATED AND CONFIRMED THAT THE PRIMARY DYSREGULATED METABOLISMS ARE THOSE OF NICOTINATE-NICOTINAMIDE AND OF UNSATURATED FATTY ACID BIOSYNTHESIS. UPSTREAM OF THE METABOLIC PATHWAYS, TRANSCRIPTOMIC PROFILES OF THE KIDNEY REVEAL GENE ACTIVITY FOCUSED ON GENE REGULATION MECHANISMS, CELL SIGNALING, CELL STRUCTURE, DEVELOPMENTAL PROCESSES, AND CELL PROLIFERATION. EXAMINATION OF EPIGENETIC POST-TRANSCRIPTIONAL GENE REGULATION PROCESSES SHOWED SIGNIFICANT DYSREGULATION OF 70 MICRO-RNAS. THE MULTI-OMICS APPROACH HIGHLIGHTED THE ACTIVITIES OF THE CELLS' BIOLOGICAL PROCESSES ON MULTIPLE SCALES THROUGH ANALYSIS OF GENE EXPRESSION, CONFIRMED BY CHANGES OBSERVED IN THE METABOLOME. CONCLUSION: OUR RESULTS SHOWED CHANGES IN MULTI-OMIC PROFILES OF RATS EXPOSED TO LOW DOSES OF URANIUM CONTAMINATION, COMPARED WITH CONTROLS. THESE CHANGES INVOLVED GENE EXPRESSION AS WELL AS MODIFICATIONS IN THE TRANSCRIPTOME AND THE METABOLOME. THE METABOLOMIC PROFILE CONFIRMED THAT THE MAIN MOLECULAR TARGETS OF URANIUM IN KIDNEY CELLS ARE THE METABOLISM OF NICOTINATE-NICOTINAMIDE AND THE BIOSYNTHESIS OF UNSATURATED FATTY ACIDS. ADDITIONALLY, GENE EXPRESSION ANALYSIS SHOWED THAT THE METABOLISM OF FATTY ACIDS IS TARGETED BY PROCESSES ASSOCIATED WITH CELL FUNCTION. THESE RESULTS DEMONSTRATE THAT MULTISCALE SYSTEMS BIOLOGY IS USEFUL IN ELUCIDATING THE MOST DISCRIMINATIVE PATHWAYS FROM GENOMIC TO METABOLOMIC LEVELS FOR ASSESSING THE BIOLOGICAL IMPACT OF THIS LOW-LEVEL ENVIRONMENTAL EXPOSURE, I.E. THE EXPOSOME. 2019 6 1655 29 DOSE-DEPENDENCE, SEX- AND TISSUE-SPECIFICITY, AND PERSISTENCE OF RADIATION-INDUCED GENOMIC DNA METHYLATION CHANGES. RADIATION IS A WELL-KNOWN GENOTOXIC AGENT AND HUMAN CARCINOGEN THAT GIVES RISE TO A VARIETY OF LONG-TERM EFFECTS. ITS DETRIMENTAL INFLUENCE ON CELLULAR FUNCTION IS ACTIVELY STUDIED NOWADAYS. ONE OF THE MOST ANALYZED, YET LEAST UNDERSTOOD LONG-TERM EFFECTS OF IONIZING RADIATION IS TRANSGENERATIONAL GENOMIC INSTABILITY. THE INHERITANCE OF GENOMIC INSTABILITY SUGGESTS THE POSSIBLE INVOLVEMENT OF EPIGENETIC MECHANISMS, SUCH AS CHANGES OF THE METHYLATION OF CYTOSINE RESIDUES LOCATED WITHIN CPG DINUCLEOTIDES. IN THE CURRENT STUDY WE EVALUATED THE DOSE-DEPENDENCE OF THE RADIATION-INDUCED GLOBAL GENOME DNA METHYLATION CHANGES. WE ALSO ANALYZED THE EFFECTS OF ACUTE AND CHRONIC HIGH DOSE (5GY) EXPOSURE ON DNA METHYLATION IN LIVER, SPLEEN, AND LUNG TISSUES OF MALE AND FEMALE MICE AND EVALUATED THE POSSIBLE PERSISTENCE OF THE RADIATION-INDUCED DNA METHYLATION CHANGES. HERE WE REPORT THAT RADIATION-INDUCED DNA METHYLATION CHANGES WERE SEX- AND TISSUE-SPECIFIC, DOSE-DEPENDENT, AND PERSISTENT. IN PARALLEL WE HAVE STUDIED THE LEVELS OF DNA DAMAGE IN THE EXPOSED TISSUES. BASED ON THE CORRELATION BETWEEN THE LEVELS OF DNA METHYLATION AND DNA DAMAGE WE PROPOSE THAT RADIATION-INDUCED GLOBAL GENOME DNA HYPOMETHYLATION IS DNA REPAIR-RELATED. 2004 7 3981 37 LONG-TERM EPIGENETIC THERAPY WITH ORAL ZEBULARINE HAS MINIMAL SIDE EFFECTS AND PREVENTS INTESTINAL TUMORS IN MICE. RECENT SUCCESSES IN THE APPLICATION OF EPIGENETIC DRUGS FOR THE TREATMENT OF MYELODYSPLASTIC SYNDROME HAVE RAISED QUESTIONS ON THE SAFETY OF LONG-TERM ADMINISTRATION OF DNA METHYLATION INHIBITORS. WE TREATED PREWEANED CANCER PRONE APC(MIN/+) (MIN) MICE CONTINUOUSLY WITH THE DNA METHYLATION INHIBITOR ZEBULARINE IN THEIR DRINKING WATER TO DETERMINE THE EFFECTS OF THE DRUG ON NORMAL MOUSE DEVELOPMENT AS WELL AS CANCER PREVENTION. ZEBULARINE CAUSED A TISSUE-SPECIFIC REDUCTION IN DNA METHYLATION AT B1 SHORT INTERSPERSED NUCLEOTIDE ELEMENTS IN THE SMALL AND LARGE INTESTINES OF FEMALE MIN MICE BUT NOT IN OTHER ORGANS EXAMINED AFTER CHRONIC ORAL TREATMENT. NO SIGNIFICANT DIFFERENCE IN THE AVERAGE WEIGHTS OF MICE WAS OBSERVED DURING THE TREATMENT. IN ADDITION, ANALYSIS OF GLOBAL GENE EXPRESSION OF COLONIC EPITHELIAL CELLS FROM THE FEMALES INDICATED THAT ONLY 3% TO 6% OF THE GENES WERE AFFECTED IN THEIR EXPRESSION. WE DID NOT DETECT TOXICITY AND ABNORMALITIES FROM THE HISTOPATHOLOGIC ANALYSIS OF LIVER AND INTESTINAL TISSUES. LASTLY, WE TESTED WHETHER PREVENTION OF TUMORIGENESIS CAN BE ACHIEVED WITH CHRONIC ORAL ADMINISTRATION OF ZEBULARINE IN MIN MICE. THE AVERAGE NUMBER OF POLYPS IN MIN FEMALES DECREASED FROM 58 TO 1, WHEREAS THE AVERAGE POLYP NUMBER REMAINED UNAFFECTED IN MIN MALES POSSIBLY DUE TO DIFFERENTIAL ACTIVITY OF ALDEHYDE OXIDASE. TAKEN TOGETHER, OUR RESULTS SHOW FOR THE FIRST TIME THAT LONG-TERM ORAL ADMINISTRATION OF ZEBULARINE CAUSES A GENDER-SPECIFIC ABROGATION OF INTESTINAL TUMORS WHILE CAUSING A TISSUE-SPECIFIC DNA DEMETHYLATION. IMPORTANTLY, PROLONGED TREATMENT OF MICE WITH EPIGENETIC DRUGS RESULTED IN ONLY MINOR DEVELOPMENTAL AND HISTOLOGIC CHANGES. 2008 8 4224 35 METHYLATION CHANGES IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE EXPOSED TO ACUTE AND CHRONIC LOW-DOSE X-RAY-IRRADIATION. THE BIOLOGICAL AND GENETIC EFFECTS OF CHRONIC LOW-DOSE RADIATION (LDR) EXPOSURE AND ITS RELATIONSHIP TO CARCINOGENESIS HAVE RECEIVED A LOT OF ATTENTION IN THE RECENT YEARS. FOR EXAMPLE, RADIATION-INDUCED GENOME INSTABILITY, WHICH IS THOUGHT TO BE A PRECURSOR OF TUMOROGENESIS, WAS SHOWN TO HAVE A TRANSGENERATIONAL NATURE. THIS INDICATES A POSSIBLE INVOLVEMENT OF EPIGENETIC MECHANISMS IN LDR-INDUCED GENOME INSTABILITY. GENOMIC DNA METHYLATION IS ONE OF THE MOST IMPORTANT EPIGENETIC MECHANISMS. EXISTING DATA ON RADIATION EFFECTS ON DNA METHYLATION PATTERNS IS LIMITED, AND NO ONE HAS SPECIFICALLY STUDIED THE EFFECTS OF THE LDR. WE REPORT THE FIRST STUDY OF THE EFFECTS OF WHOLE-BODY LDR EXPOSURE ON GLOBAL GENOME METHYLATION IN MUSCLE AND LIVER TISSUES OF MALE AND FEMALE MICE. IN PARALLEL, WE EVALUATED CHANGES IN PROMOTER METHYLATION AND EXPRESSION OF THE TUMOR SUPPRESSOR GENE P16(INKA) AND DNA REPAIR GENE O(6)-METHYLGUANINE-DNA METHYLTRANSFERASE (MGMT). WE OBSERVED DIFFERENT PATTERNS OF RADIATION-INDUCED GLOBAL GENOME DNA METHYLATION IN THE LIVER AND MUSCLE OF EXPOSED MALES AND FEMALES. WE ALSO FOUND SEX AND TISSUE-SPECIFIC DIFFERENCES IN P16(INKA) PROMOTER METHYLATION UPON LDR EXPOSURE. IN MALE LIVER TISSUE, P16(INKA) PROMOTER METHYLATION WAS MORE PRONOUNCED THAN IN FEMALE TISSUE. IN CONTRAST, NO SIGNIFICANT RADIATION-INDUCED CHANGES IN P16(INKA) PROMOTER METHYLATION WERE NOTED IN THE MUSCLE TISSUE OF EXPOSED MALES AND FEMALES. RADIATION ALSO DID NOT SIGNIFICANTLY AFFECT METHYLATION STATUS OF MGMT PROMOTER. WE ALSO OBSERVED SUBSTANTIAL SEX DIFFERENCES IN ACUTE AND CHRONIC RADIATION-INDUCED EXPRESSION OF P16(INKA) AND MGMT GENES. ANOTHER IMPORTANT OUTCOME OF OUR STUDY WAS THE FACT THAT CHRONIC LOW-DOSE RADIATION EXPOSURE PROVED TO BE A MORE POTENT INDUCER OF EPIGENETIC EFFECTS THAN THE ACUTE EXPOSURE. THIS SUPPORTS PREVIOUS FINDINGS THAT CHRONIC EXPOSURE LEADS TO GREATER GENOME DESTABILIZATION THAN ACUTE EXPOSURE. 2004 9 1503 37 DNA METHYLATION AND GENE EXPRESSION DIFFERENCES IN CHILDREN CONCEIVED IN VITRO OR IN VIVO. EPIDEMIOLOGICAL DATA INDICATE THAT CHILDREN CONCEIVED IN VITRO HAVE A GREATER RELATIVE RISK OF LOW BIRTH-WEIGHT, MAJOR AND MINOR BIRTH DEFECTS, AND RARE DISORDERS INVOLVING IMPRINTED GENES, SUGGESTING THAT EPIGENETIC CHANGES MAY BE ASSOCIATED WITH ASSISTED REPRODUCTION. WE EXAMINED DNA METHYLATION AT MORE THAN 700 GENES (1536 CPG SITES) IN PLACENTA AND CORD BLOOD AND MEASURED GENE EXPRESSION LEVELS OF A SUBSET OF GENES THAT DIFFERED IN METHYLATION LEVELS BETWEEN CHILDREN CONCEIVED IN VITRO VERSUS IN VIVO. OUR RESULTS SUGGEST THAT IN VITRO CONCEPTION IS ASSOCIATED WITH LOWER MEAN METHYLATION AT CPG SITES IN PLACENTA AND HIGHER MEAN METHYLATION AT CPG SITES IN CORD BLOOD. WE ALSO FIND THAT IN VITRO CONCEPTION-ASSOCIATED DNA METHYLATION DIFFERENCES ARE ASSOCIATED WITH GENE EXPRESSION DIFFERENCES AT BOTH IMPRINTED AND NON-IMPRINTED GENES. THE RANGE OF INTER-INDIVIDUAL VARIATION IN GENE EXPRESSION OF THE IN VITRO AND IN VIVO GROUPS OVERLAPS SUBSTANTIALLY BUT SOME INDIVIDUALS FROM THE IN VITRO GROUP DIFFER FROM THE IN VIVO GROUP MEAN BY MORE THAN TWO STANDARD DEVIATIONS. SEVERAL OF THE GENES WHOSE EXPRESSION DIFFERS BETWEEN THE TWO GROUPS HAVE BEEN IMPLICATED IN CHRONIC METABOLIC DISORDERS, SUCH AS OBESITY AND TYPE II DIABETES. THESE FINDINGS SUGGEST THAT THERE MAY BE EPIGENETIC DIFFERENCES IN THE GAMETES OR EARLY EMBRYOS DERIVED FROM COUPLES UNDERGOING TREATMENT FOR INFERTILITY. ALTERNATIVELY, ASSISTED REPRODUCTION TECHNOLOGY MAY HAVE AN EFFECT ON GLOBAL PATTERNS OF DNA METHYLATION AND GENE EXPRESSION. IN EITHER CASE, THESE DIFFERENCES OR CHANGES MAY AFFECT LONG-TERM PATTERNS OF GENE EXPRESSION. 2009 10 4121 58 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 11 904 40 CHRONIC EXPOSURE TO CADMIUM INDUCES DIFFERENTIAL METHYLATION IN MICE SPERMATOZOA. CADMIUM EXPOSURE IS UBIQUITOUS AND HAS BEEN LINKED TO DISEASES INCLUDING CANCERS AND REPRODUCTIVE DEFECTS. SINCE CADMIUM IS NONMUTAGENIC, IT IS THOUGHT TO EXERT ITS GENE DYSREGULATORY EFFECTS THROUGH EPIGENETIC REPROGRAMMING. SEVERAL STUDIES HAVE IMPLICATED GERMLINE EXPOSURE TO CADMIUM IN DEVELOPMENTAL REPROGRAMMING. HOWEVER, MOST OF THESE STUDIES HAVE FOCUSED ON MATERNAL EXPOSURE, WHILE THE IMPACT ON SPERM FERTILITY AND DISEASE SUSCEPTIBILITY HAS RECEIVED LESS ATTENTION. IN THIS STUDY, WE USED REDUCED REPRESENTATION BISULFITE SEQUENCING TO COMPREHENSIVELY INVESTIGATE THE IMPACT OF CHRONIC CADMIUM EXPOSURE ON MOUSE SPERMATOZOA DNA METHYLATION. ADULT MALE C57BL/J6 MICE WERE PROVIDED WATER WITH OR WITHOUT CADMIUM CHLORIDE FOR 9 WEEKS. SPERM, TESTES, LIVER, AND KIDNEY TISSUES WERE COLLECTED AT THE END OF THE TREATMENT PERIOD. CADMIUM EXPOSURE WAS CONFIRMED THROUGH GENE EXPRESSION ANALYSIS OF METALLOTHIONEIN-1 AND 2, 2 WELL-KNOWN CADMIUM-INDUCED GENES. ANALYSIS OF SPERM DNA METHYLATION CHANGES REVEALED 1788 DIFFERENTIALLY METHYLATED SITES PRESENT AT REGULATORY REGIONS IN SPERM OF MICE EXPOSED TO CADMIUM COMPARED WITH VEHICLE (CONTROL) MICE. FURTHERMORE, MOST OF THESE DIFFERENTIAL METHYLATION CHANGES POSITIVELY CORRELATED WITH CHANGES IN GENE EXPRESSION AT BOTH THE TRANSCRIPTION INITIATION STAGE AS WELL AS THE SPLICING LEVELS. INTERESTINGLY, THE GENES TARGETED BY CADMIUM EXPOSURE ARE INVOLVED IN SEVERAL CRITICAL DEVELOPMENTAL PROCESSES. OUR RESULTS PRESENT A COMPREHENSIVE ANALYSIS OF THE SPERM METHYLOME IN RESPONSE TO CHRONIC CADMIUM EXPOSURE. THESE DATA, THEREFORE, HIGHLIGHT A FOUNDATIONAL FRAMEWORK TO STUDY GENE EXPRESSION PATTERNS THAT MAY AFFECT FERTILITY IN THE EXPOSED INDIVIDUAL AS WELL AS THEIR OFFSPRING, THROUGH PATERNAL INHERITANCE. 2021 12 818 34 CHARACTERISTICS OF THE SPECTRUM OF PROLIFERATIVE LESIONS OBSERVED IN THE KIDNEY AND URINARY BLADDER OF FISCHER 344 RATS AND B6C3F1 MICE. MANY RODENT RENAL AND BLADDER CARCINOGENS RELY UPON EPIGENETIC MECHANISMS OF CARCINOGENESIS; SUCH MECHANISMS ARE LIKELY TO INFLUENCE THE SPECTRUM OF URINARY TRACT TUMORS OBSERVED IN CONTROL AND TREATED ANIMALS. THIS IS REFLECTED IN SEVERAL FEATURES OF CHEMICALLY INDUCED RODENT URINARY TRACT NEOPLASMS, INCLUDING A LOW OVERALL TUMOR INCIDENCE, AN INCREASED PREVALENCE OF URINARY TRACT TUMORS IN RATS COMPARED TO MICE AND MALES COMPARED TO FEMALES, THE TENDENCY FOR EPITHELIAL TUMORS TO PREDOMINATE OVER NONEPITHELIAL TYPES, AND DEMONSTRATED LINKS TO CHRONIC PROGRESSIVE NEPHROPATHY AND UROLITHIASIS. SUCH TENDENCIES ARE ALSO CHARACTERISTIC OF SPONTANEOUS URINARY TRACT TUMORS IN RODENTS. DATA TO SUPPORT THESE OBSERVATIONS CAN BE DERIVED FROM LARGE HISTORICAL DATABASES SUCH AS THE TOXICOLOGY DATA MANAGEMENT SYSTEM, MAINTAINED BY NATIONAL TOXICOLOGY PROGRAM. 2002 13 3652 37 INDIVIDUAL DNA METHYLATION PATTERN SHIFTS IN NANOPARTICLES-EXPOSED WORKERS ANALYZED IN FOUR CONSECUTIVE YEARS. A DNA METHYLATION PATTERN REPRESENTS AN ORIGINAL PLAN OF THE FUNCTION SETTINGS OF INDIVIDUAL CELLS AND TISSUES. THE BASIC STRATEGIES OF ITS DEVELOPMENT AND CHANGES DURING THE HUMAN LIFETIME ARE KNOWN, BUT THE DETAILS RELATED TO ITS MODIFICATION OVER THE YEARS ON AN INDIVIDUAL BASIS HAVE NOT YET BEEN STUDIED. MOREOVER, CURRENT EVIDENCE SHOWS THAT ENVIRONMENTAL EXPOSURE COULD GENERATE CHANGES IN DNA METHYLATION SETTINGS AND, SUBSEQUENTLY, THE FUNCTION OF GENES. IN THIS STUDY, WE ANALYZED THE EFFECT OF CHRONIC EXPOSURE TO NANOPARTICLES (NP) IN OCCUPATIONALLY EXPOSED WORKERS REPEATEDLY SAMPLED IN FOUR CONSECUTIVE YEARS (2016-2019). A DETAILED METHYLATION PATTERN ANALYSIS OF 14 PERSONS (10 EXPOSED AND 4 CONTROLS) WAS PERFORMED ON AN INDIVIDUAL BASIS. A MICROARRAY-BASED APPROACH USING CHIPS, ALLOWING THE ASSESSMENT OF MORE THAN 850 K CPG LOCI, WAS USED. INDIVIDUAL DNA METHYLATION PATTERNS WERE COMPARED BY PRINCIPAL COMPONENT ANALYSIS (PCA). THE RESULTS SHOW THE SHIFT IN DNA METHYLATION PATTERNS IN INDIVIDUAL YEARS IN ALL THE EXPOSED AND CONTROL SUBJECTS. THE OVERALL RANGE OF DIFFERENCES VARIED BETWEEN THE YEARS IN INDIVIDUAL PERSONS. THE DIFFERENCES BETWEEN THE FIRST AND LAST YEAR OF EXAMINATION (A THREE-YEAR TIME PERIOD) SEEM TO BE CONSISTENTLY GREATER IN THE NP-EXPOSED SUBJECTS IN COMPARISON WITH THE CONTROLS. THE SELECTED 14 MOST DIFFERENTLY METHYLATED CG LOCI WERE RELATIVELY STABLE IN THE CHRONICALLY EXPOSED SUBJECTS. IN SUMMARY, THE SPECIFIC TYPE OF LONG-TERM EXPOSURE CAN CONTRIBUTE TO THE FIXING OF RELEVANT EPIGENETIC CHANGES RELATED TO A SPECIFIC ENVIRONMENT AS, E.G., NP INHALATION. 2021 14 6790 33 [DNA METHYLATION ANALYSIS IN ENVIRONMENTAL AND OCCUPATIONAL CANCER RESEARCH]. THE PRESENT PAPER REVIEWS RECENT LABORATORY METHODS AND EXPERIMENTAL EVIDENCE CONCERNING EPIGENETIC BIOMARKERS INVOLVED IN CARCINOGENESIS MECHANISMS. WE INTRODUCE DNA METHYLATION AND ITS ROLE IN GENE EXPRESSION CONTROL. DNA METHYLATION ANALYSIS MAY ALLOW TO IDENTIFY EARLY CHANGES LEADING TO CANCER AND OTHER CHRONIC DISEASES. WE DESCRIBE HERE STRATEGIES FOR LABORATORY ANALYSES AND THEIR POSSIBLE APPLICATIONS. WE EXAMINE RESULTS FROM RECENT EXPERIMENTAL STUDIES SUGGESTING THAT THE EFFECTS OF CERTAIN OCCUPATIONAL AGENTS ARE MEDIATED BY ALTERATIONS IN DNA METHYLATION. PLANNING AND CONDUCTING INVESTIGATIONS ON EXPOSED HUMAN SUBJECTS WILL ALLOW TO VERIFY WHETHER DNA METHYLATION CHANGES IDENTIFIED IN ANIMAL AND IN-VITRO STUDIES MAY BE USED AS EARLY-EFFECT AND SUSCEPTIBILITY BIOMARKERS. DNA METHYLATION ANALYSIS HAS THE POTENTIAL FOR FUTURE APPLICATIONS IN RISK ASSESSMENT AND PREVENTION PROGRAMS CONDUCTED ON SUBJECTS EXPOSED TO HUMAN CARCINOGENS. 2005 15 1815 40 EFFECTS OF CHRONIC EXPOSURE TO ARSENIC AND ESTROGEN ON EPIGENETIC REGULATORY GENES EXPRESSION AND EPIGENETIC CODE IN HUMAN PROSTATE EPITHELIAL CELLS. CHRONIC EXPOSURES TO ARSENIC AND ESTROGEN ARE KNOWN RISK FACTORS FOR PROSTATE CANCER. THOUGH THE EVIDENCE SUGGESTS THAT EXPOSURE TO ARSENIC OR ESTROGENS CAN DISRUPT NORMAL DNA METHYLATION PATTERNS AND HISTONE MODIFICATIONS, THE MECHANISMS BY WHICH THESE CHEMICALS INDUCE EPIGENETIC CHANGES ARE NOT FULLY UNDERSTOOD. MOREOVER, THE EPIGENETIC EFFECTS OF CO-EXPOSURE TO THESE TWO CHEMICALS ARE NOT KNOWN. THEREFORE, THE OBJECTIVE OF THIS STUDY WAS TO EVALUATE THE EFFECTS OF CHRONIC EXPOSURE TO ARSENIC AND ESTROGEN, BOTH ALONE AND IN COMBINATION, ON THE EXPRESSION OF EPIGENETIC REGULATORY GENES, THEIR CONSEQUENCES ON DNA METHYLATION, AND HISTONE MODIFICATIONS. HUMAN PROSTATE EPITHELIAL CELLS, RWPE-1, CHRONICALLY EXPOSED TO ARSENIC AND ESTROGEN ALONE AND IN COMBINATION WERE USED FOR ANALYSIS OF EPIGENETIC REGULATORY GENES EXPRESSION, GLOBAL DNA METHYLATION CHANGES, AND HISTONE MODIFICATIONS AT PROTEIN LEVEL. THE RESULT OF THIS STUDY REVEALED THAT EXPOSURE TO ARSENIC, ESTROGEN, AND THEIR COMBINATION ALTERS THE EXPRESSION OF EPIGENETIC REGULATORY GENES AND CHANGES GLOBAL DNA METHYLATION AND HISTONE MODIFICATION PATTERNS IN RWPE-1 CELLS. THESE CHANGES WERE SIGNIFICANTLY GREATER IN ARSENIC AND ESTROGEN COMBINATION TREATED GROUP THAN INDIVIDUALLY TREATED GROUP. THE FINDINGS OF THIS STUDY WILL HELP EXPLAIN THE EPIGENETIC MECHANISM OF ARSENIC- AND/OR ESTROGEN-INDUCED PROSTATE CARCINOGENESIS. 2012 16 708 45 BYSTANDER EFFECTS IN RADIATION-INDUCED GENOMIC INSTABILITY. EXPOSURE OF GM10115 HAMSTER-HUMAN HYBRID CELLS TO X-RAYS CAN RESULT IN THE INDUCTION OF CHROMOSOMAL INSTABILITY IN THE PROGENY OF SURVIVING CELLS. THIS INSTABILITY MANIFESTS AS THE DYNAMIC PRODUCTION OF NOVEL SUB-POPULATIONS OF CELLS WITH UNIQUE CYTOGENETIC REARRANGEMENTS INVOLVING THE "MARKER" HUMAN CHROMOSOME. WE HAVE USED THE COMET ASSAY TO INVESTIGATE WHETHER THERE WAS AN ELEVATED LEVEL OF ENDOGENOUS DNA BREAKS IN CHROMOSOMALLY UNSTABLE CLONES THAT COULD PROVIDE A SOURCE FOR THE CHROMOSOMAL REARRANGEMENTS AND THUS ACCOUNT FOR THE PERSISTENT INSTABILITY OBSERVED. OUR RESULTS INDICATE NO SIGNIFICANT DIFFERENCE IN COMET TAIL MEASUREMENT BETWEEN NON-IRRADIATED AND RADIATION-INDUCED CHROMOSOMALLY UNSTABLE CLONES. USING TWO-COLOR FLUORESCENCE IN SITU HYBRIDIZATION WE ALSO INVESTIGATED WHETHER RECOMBINATIONAL EVENTS INVOLVING THE INTERSTITIAL TELOMERE REPEAT-LIKE SEQUENCES IN GM10115 CELLS WERE INVOLVED AT FREQUENCIES HIGHER THAN RANDOM PROCESSES WOULD OTHERWISE PREDICT. NINE OF 11 CLONES DEMONSTRATED A SIGNIFICANTLY HIGHER THAN EXPECTED INVOLVEMENT OF THESE INTERSTITIAL TELOMERE REPEAT-LIKE SEQUENCES AT THE RECOMBINATION JUNCTION BETWEEN THE HUMAN AND HAMSTER CHROMOSOMES. SINCE ELEVATED LEVELS OF ENDOGENOUS BREAKS WERE NOT DETECTED IN UNSTABLE CLONES WE PROPOSE THAT EPIGENETIC OR BYSTANDER EFFECTS (BSES) LEAD TO THE ACTIVATION OF RECOMBINATIONAL PATHWAYS THAT PERPETUATE THE UNSTABLE PHENOTYPE. SPECIFICALLY, WE EXPAND UPON THE HYPOTHESIS THAT RADIATION INDUCES CONDITIONS AND/OR FACTORS THAT STIMULATE THE PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS). THESE REACTIVE INTERMEDIATES THEN CONTRIBUTE TO A CHRONIC PRO-OXIDANT ENVIRONMENT THAT CYCLES OVER MULTIPLE GENERATIONS, PROMOTING CHROMOSOMAL RECOMBINATION AND OTHER PHENOTYPES ASSOCIATED WITH GENOMIC INSTABILITY. 2002 17 2683 39 EVALUATION OF THE IMPACT OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE INHIBITOR, 3-DEAZANEPLANOCIN A, ON TISSUE INJURY AND COGNITIVE FUNCTION IN MICE. CANCER PATIENTS DISPLAY COGNITIVE IMPAIRMENT DUE, AT LEAST PARTLY, TO THE TREATMENTS. ADDITIONALLY, CHEMOTHERAPEUTIC TREATMENTS CAN LEAD TO ORGAN INJURY, LIMITING THEIR USE, AND ARE LIKELY TO HAVE NEGATIVE IMPACTS ON PATIENTS' QUALITY OF LIFE. THE AIM OF THIS STUDY WAS TO INVESTIGATE THE TOXICITY OF 3-DEAZANEPLANOCIN A (DZNEP) ON SEVERAL TISSUES AND ORGANS, AS WELL AS ON COGNITIVE FUNCTIONS. DZNEP IS AN INHIBITOR OF S-ADENOSYLMETHIONINE-DEPENDENT METHYLTRANSFERASE (IN PARTICULAR OF THE HISTONE METHYLTRANSFERASE EZH2) WHICH SHOWED ANTITUMORAL FUNCTIONS IN PRECLINICAL TRIALS BUT WHOSE EFFECTS ON BEHAVIOR AND ON ORGANS (SIDE EFFECTS) ARE NOT KNOWN. CHRONIC INJECTIONS OF DZNEP WERE PERFORMED INTRAPERITONEALLY IN MALE NMRI MICE (2 MG/KG; I.P.; THREE TIMES PER WEEK) DURING 8 WEEKS. A FOLLOW-UP OF BODY WEIGHT WAS ASSESSED DURING ALL EXPERIMENTS. HISTOLOGICAL ANALYSIS WERE PERFORMED ON SEVERAL ORGANS. EZH2 EXPRESSION AND H3K27ME3 WERE ASSAYED BY WESTERN-BLOT. SEVERAL BEHAVIORAL TESTS WERE PERFORMED DURING TREATMENT AND 2 WEEKS AFTER. A PARTICULAR FOCUS WAS MADE ON SPONTANEOUS LOCOMOTOR ACTIVITY, COGNITIVE FUNCTIONS (SPONTANEOUS ALTERNATION AND RECOGNITION MEMORY), AND ANXIETY- AND DEPRESSION-RELATED BEHAVIOR. HEMATOLOGICAL MODIFICATIONS WERE ALSO ASSESSED. CHRONIC DZNEP TREATMENT TRANSIENTLY REDUCED ANIMAL GROWTH. IT HAD NO EFFECT ON MOST ORGANS BUT PROVOKED A REVERSIBLE SPLENOMEGALY, AND PERSISTENT TESTIS REDUCTION AND ERYTHROPOIESIS. DZNEP ADMINISTRATION DID NOT ALTER ANIMAL BEHAVIOR. IN CONCLUSION, THIS STUDY IS ENCOURAGING FOR THE USE OF DZNEP FOR CANCER TREATMENT. INDEED, IT HAS NO EFFECT ON ANIMAL BEHAVIOR, CONFERRING AN ADVANTAGEOUS SAFETY, AND INDUCES IRREVERSIBLE SIDE EFFECTS LIMITED ON TESTIS WHICH ARE UNFORTUNATELY FOUND IN MOST CHEMOTHERAPY TREATMENTS. 2018 18 2297 37 EPIGENETIC REGULATION OF ACUTE INFLAMMATORY PAIN. ACUTE PAIN IS ASSOCIATED WITH TISSUE DAMAGE, WHICH RESULTS IN THE RELEASE OF INFLAMMATORY MEDIATORS. RECENT STUDIES POINT TO THE INVOLVEMENT OF EPIGENETIC MECHANISMS (DNA METHYLATION) IN THE DEVELOPMENT OF PAIN. WE HAVE FOUND THAT DURING ACUTE INFLAMMATORY PAIN INDUCED BY THE APPLICATION OF 10% MUSTARD OIL ON THE TONGUES OF RATS, LEVELS OF DNMT3A AND 3B WERE ELEVATED MARKEDLY (36 AND 42 % RESPECTIVELY), WHEREAS THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY. PREVIOUS INJECTION OF XEFOCAM WITH 0,4 MG/KG DOSE DECREASED LEVELS OF DNMT3A AND 3B (25 AND 24% RESPECTIVELY). THE LEVEL OF DNMT1 WAS NOT CHANGED SIGNIFICANTLY COMPARED TO THE CONTROL GROUP. THE FINDINGS SUPPORT THE IDEA THAT INHIBITORS OF DNA-METHYLTRANSFERASES COULD BE USEFUL FOR PAIN MANAGEMENT. OUR DATA SUGGEST THAT NSAIDS (ALONE OR IN COMBINATION WITH DNMT INHIBITORS) MAY BE PROPOSED AS POSSIBLE EPIGENETIC REGULATORY AGENTS, WHICH MAY PLAY A ROLE IN EPIGENETIC MECHANISMS INDIRECTLY THROUGH ALTERING THE ACTIVITY OF INFLAMMATORY MEDIATORS INVOLVED IN PAIN DEVELOPMENT. 2014 19 266 53 ADVERSE OUTCOME PATHWAYS FOR IONIZING RADIATION AND BREAST CANCER INVOLVE DIRECT AND INDIRECT DNA DAMAGE, OXIDATIVE STRESS, INFLAMMATION, GENOMIC INSTABILITY, AND INTERACTION WITH HORMONAL REGULATION OF THE BREAST. KNOWLEDGE ABOUT ESTABLISHED BREAST CARCINOGENS CAN SUPPORT IMPROVED AND MODERNIZED TOXICOLOGICAL TESTING METHODS BY IDENTIFYING KEY MECHANISTIC EVENTS. IONIZING RADIATION (IR) INCREASES THE RISK OF BREAST CANCER, ESPECIALLY FOR WOMEN AND FOR EXPOSURE AT YOUNGER AGES, AND EVIDENCE OVERALL SUPPORTS A LINEAR DOSE-RESPONSE RELATIONSHIP. WE USED THE ADVERSE OUTCOME PATHWAY (AOP) FRAMEWORK TO OUTLINE AND EVALUATE THE EVIDENCE LINKING IONIZING RADIATION WITH BREAST CANCER FROM MOLECULAR INITIATING EVENTS TO THE ADVERSE OUTCOME THROUGH INTERMEDIATE KEY EVENTS, CREATING A QUALITATIVE AOP. WE IDENTIFIED KEY EVENTS BASED ON REVIEW ARTICLES, SEARCHED PUBMED FOR RECENT LITERATURE ON KEY EVENTS AND IR, AND IDENTIFIED ADDITIONAL PAPERS USING REFERENCES. WE MANUALLY CURATED PUBLICATIONS AND EVALUATED DATA QUALITY. IONIZING RADIATION DIRECTLY AND INDIRECTLY CAUSES DNA DAMAGE AND INCREASES PRODUCTION OF REACTIVE OXYGEN AND NITROGEN SPECIES (RONS). RONS LEAD TO DNA DAMAGE AND EPIGENETIC CHANGES LEADING TO MUTATIONS AND GENOMIC INSTABILITY (GI). PROLIFERATION AMPLIFIES THE EFFECTS OF DNA DAMAGE AND MUTATIONS LEADING TO THE AO OF BREAST CANCER. SEPARATELY, RONS AND DNA DAMAGE ALSO INCREASE INFLAMMATION. INFLAMMATION CONTRIBUTES TO DIRECT AND INDIRECT EFFECTS (EFFECTS IN CELLS NOT DIRECTLY REACHED BY IR) VIA POSITIVE FEEDBACK TO RONS AND DNA DAMAGE, AND SEPARATELY INCREASES PROLIFERATION AND BREAST CANCER THROUGH PRO-CARCINOGENIC EFFECTS ON CELLS AND TISSUE. FOR EXAMPLE, GENE EXPRESSION CHANGES ALTER INFLAMMATORY MEDIATORS, RESULTING IN IMPROVED SURVIVAL AND GROWTH OF CANCER CELLS AND A MORE HOSPITABLE TISSUE ENVIRONMENT. ALL OF THESE EVENTS OVERLAP AT MULTIPLE POINTS WITH EVENTS CHARACTERISTIC OF "BACKGROUND" INDUCTION OF BREAST CARCINOGENESIS, INCLUDING HORMONE-RESPONSIVE PROLIFERATION, OXIDATIVE ACTIVITY, AND DNA DAMAGE. THESE OVERLAPS MAKE THE BREAST PARTICULARLY SUSCEPTIBLE TO IONIZING RADIATION AND REINFORCE THAT THESE BIOLOGICAL ACTIVITIES ARE IMPORTANT CHARACTERISTICS OF CARCINOGENS. AGENTS THAT INCREASE THESE BIOLOGICAL PROCESSES SHOULD BE CONSIDERED POTENTIAL BREAST CARCINOGENS, AND PREDICTIVE METHODS ARE NEEDED TO IDENTIFY CHEMICALS THAT INCREASE THESE PROCESSES. TECHNIQUES ARE AVAILABLE TO MEASURE RONS, DNA DAMAGE AND MUTATION, CELL PROLIFERATION, AND SOME INFLAMMATORY PROTEINS OR PROCESSES. IMPROVED ASSAYS ARE NEEDED TO MEASURE GI AND CHRONIC INFLAMMATION, AS WELL AS THE INTERACTION WITH HORMONALLY DRIVEN DEVELOPMENT AND PROLIFERATION. SEVERAL METHODS MEASURE DIVERSE EPIGENETIC CHANGES, BUT IT IS NOT CLEAR WHICH CHANGES ARE RELEVANT TO BREAST CANCER. IN ADDITION, MOST TOXICOLOGICAL ASSAYS ARE NOT CONDUCTED IN MAMMARY TISSUE, AND SO IT IS A PRIORITY TO EVALUATE IF RESULTS FROM OTHER TISSUES ARE GENERALIZABLE TO BREAST, OR TO CONDUCT ASSAYS IN BREAST TISSUE. DEVELOPING AND APPLYING THESE ASSAYS TO IDENTIFY EXPOSURES OF CONCERN WILL FACILITATE EFFORTS TO REDUCE SUBSEQUENT BREAST CANCER RISK. 2020 20 287 35 AGING AND CHRONIC SUN EXPOSURE CAUSE DISTINCT EPIGENETIC CHANGES IN HUMAN SKIN. EPIGENETIC CHANGES ARE WIDELY CONSIDERED TO PLAY AN IMPORTANT ROLE IN AGING, BUT EXPERIMENTAL EVIDENCE TO SUPPORT THIS HYPOTHESIS HAS BEEN SCARCE. WE HAVE USED ARRAY-BASED ANALYSIS TO DETERMINE GENOME-SCALE DNA METHYLATION PATTERNS FROM HUMAN SKIN SAMPLES AND TO INVESTIGATE THE EFFECTS OF AGING, CHRONIC SUN EXPOSURE, AND TISSUE VARIATION. OUR RESULTS REVEAL A HIGH DEGREE OF TISSUE SPECIFICITY IN THE METHYLATION PATTERNS AND ALSO SHOWED VERY LITTLE INTERINDIVIDUAL VARIATION WITHIN TISSUES. DATA STRATIFICATION BY AGE REVEALED THAT DNA FROM OLDER INDIVIDUALS WAS CHARACTERIZED BY A SPECIFIC HYPERMETHYLATION PATTERN AFFECTING LESS THAN 1% OF THE MARKERS ANALYZED. INTERESTINGLY, STRATIFICATION BY SUN EXPOSURE PRODUCED A FUNDAMENTALLY DIFFERENT PATTERN WITH A SIGNIFICANT TREND TOWARDS HYPOMETHYLATION. OUR RESULTS THUS IDENTIFY DEFINED AGE-RELATED DNA METHYLATION CHANGES AND SUGGEST THAT THESE ALTERATIONS MIGHT CONTRIBUTE TO THE PHENOTYPIC CHANGES ASSOCIATED WITH SKIN AGING. 2010