1 3040 116 GENOME HYPERMETHYLATION IN PINUS SILVESTRIS OF CHERNOBYL--A MECHANISM FOR RADIATION ADAPTATION? ADAPTATION IS A COMPLEX PROCESS BY WHICH POPULATIONS OF ORGANISMS RESPOND TO LONG-TERM ENVIRONMENTAL STRESSES BY PERMANENT GENETIC CHANGE. HERE WE PRESENT DATA FROM THE NATURAL "OPEN-FIELD" RADIATION ADAPTATION EXPERIMENT AFTER THE CHERNOBYL ACCIDENT AND PROVIDE THE FIRST EVIDENCE OF THE INVOLVEMENT OF EPIGENETIC CHANGES IN ADAPTATION OF A EUKARYOTE-SCOTS PINE (PINUS SILVESTRIS), TO CHRONIC RADIATION EXPOSURE. WE HAVE EVALUATED GLOBAL GENOME METHYLATION OF CONTROL AND RADIATION-EXPOSED PINE TREES USING A METHOD BASED ON CLEAVAGE BY A METHYLATION-SENSITIVE HPAII RESTRICTION ENDONUCLEASE THAT LEAVES A 5' GUANINE OVERHANG AND SUBSEQUENT SINGLE NUCLEOTIDE EXTENSION WITH LABELED [3H] DCTP. WE HAVE FOUND THAT GENOMIC DNA OF EXPOSED PINE TREES WAS CONSIDERABLY HYPERMETHYLATED. MOREOVER, HYPERMETHYLATION APPEARED TO BE DEPENDENT UPON THE RADIATION DOSE ABSORBED BY THE TREES. SUCH HYPERMETHYLATION MAY BE VIEWED AS A DEFENSE STRATEGY OF PLANTS THAT PREVENTS GENOME INSTABILITY AND RESHUFFLING OF THE HEREDITARY MATERIAL, ALLOWING SURVIVAL IN AN EXTREME ENVIRONMENT. FURTHER STUDIES ARE CLEARLY NEEDED TO ANALYZE IN DETAIL THE INVOLVEMENT OF DNA METHYLATION AND OTHER EPIGENETIC MECHANISMS IN THE COMPLEX PROCESS OF RADIATION STRESS AND ADAPTIVE RESPONSE. 2003 2 985 27 CHRONIC RADIATION EXPOSURE AS AN ECOLOGICAL FACTOR: HYPERMETHYLATION AND GENETIC DIFFERENTIATION IN IRRADIATED SCOTS PINE POPULATIONS. GENETIC AND EPIGENETIC CHANGES WERE INVESTIGATED IN CHRONICALLY IRRADIATED SCOTS PINE (PINUS SYLVESTRIS L.) POPULATIONS FROM TERRITORIES THAT WERE HEAVILY CONTAMINATED BY RADIONUCLIDES AS RESULT OF THE CHERNOBYL NUCLEAR POWER PLANT ACCIDENT. IN COMPARISON TO THE REFERENCE SITE, THE GENETIC DIVERSITY REVEALED BY ELECTROPHORETIC MOBILITY OF AFLPS WAS FOUND TO BE SIGNIFICANTLY HIGHER AT THE RADIOACTIVELY CONTAMINATED AREAS. IN ADDITION, THE GENOME OF PINE TREES WAS SIGNIFICANTLY HYPERMETHYLATED AT 4 OF THE 7 AFFECTED SITES. 2018 3 1325 32 DEPLETED URANIUM INDUCES SEX- AND TISSUE-SPECIFIC METHYLATION PATTERNS IN ADULT ZEBRAFISH. WE EXAMINED THE EFFECTS OF CHRONIC EXPOSURE TO DIFFERENT CONCENTRATIONS (2 AND 20 MUG L(-)(1)) OF ENVIRONMENTALLY RELEVANT WATERBORNE DEPLETED URANIUM (DU) ON THE DNA METHYLATION PATTERNS BOTH AT HPAII RESTRICTION SITES (5'-CCGG-3') AND ACROSS THE WHOLE GENOME IN THE ZEBRAFISH BRAIN, GONADS, AND EYES. WE FIRST IDENTIFIED SEX-DEPENDENT DIFFERENCES IN THE METHYLATION LEVEL OF HPAII SITES AFTER EXPOSURE. IN MALES, THESE EFFECTS WERE PRESENT AS EARLY AS 7 DAYS AFTER EXPOSURE TO 20 MUG L(-)(1) DU, AND WERE EVEN MORE PRONOUNCED IN THE BRAIN, GONADS, AND EYES AFTER 24 DAYS. HOWEVER, IN FEMALES, HYPOMETHYLATION WAS ONLY OBSERVED IN THE GONADS AFTER EXPOSURE TO 20 MUG L(-)(1) DU FOR 24 DAYS. SEX-SPECIFIC EFFECTS OF DU WERE ALSO APPARENT AT THE WHOLE-GENOME LEVEL, BECAUSE IN MALES, EXPOSURE TO 20 MUG L(-)(1) DU FOR 24 DAYS RESULTED IN CYTOSINE HYPERMETHYLATION IN THE BRAIN AND EYES AND HYPOMETHYLATION IN THE GONADS. IN CONTRAST, IN FEMALES, HYPERMETHYLATION WAS OBSERVED IN THE BRAIN AFTER EXPOSURE TO BOTH CONCENTRATIONS OF DU FOR 7 DAYS. BASED ON OUR CURRENT KNOWLEDGE OF URANIUM TOXICITY, SEVERAL HYPOTHESES ARE PROPOSED TO EXPLAIN THESE FINDINGS, INCLUDING THE INVOLVEMENT OF OXIDATIVE STRESS, ALTERATION OF DEMETHYLATION ENZYMES AND THE CALCIUM SIGNALING PATHWAY. THIS STUDY REPORTS, FOR THE FIRST TIME, THE SEX- AND TISSUE-SPECIFIC EPIGENETIC CHANGES THAT OCCUR IN A NONHUMAN ORGANISM AFTER EXPOSURE TO ENVIRONMENTALLY RELEVANT CONCENTRATIONS OF URANIUM, WHICH COULD INDUCE TRANSGENERATIONAL EPIGENETIC EFFECTS. 2016 4 2947 38 GENETIC AND EPIGENETIC CHANGES INDUCED BY CHRONIC LOW DOSE EXPOSURE TO ARSENIC OF MOUSE TESTICULAR LEYDIG CELLS. ARSENIC IS AN IMPORTANT ENVIRONMENTAL CARCINOGEN THAT AFFECTS MILLIONS OF PEOPLE WORLDWIDE THROUGH CONTAMINATED WATER SUPPLIES. GENOTOXICITY OF ARSENIC HAS BEEN A TOPIC OF CONTROVERSY. BOTH GENETIC ALTERATIONS (MUTATIONS) AND EPIGENETIC CHANGES (METHYLATION) HAVE BEEN SHOWN TO PLAY A CRUCIAL ROLE IN ENVIRONMENTAL CARCINOGENESIS. CHRONIC EXPOSURE TO ARSENIC HAS BEEN SHOWN TO INDUCE MALIGNANT TRANSFORMATION OF MAMMALIAN CELLS. HOWEVER, THE GENETIC ABERRATIONS INDUCED BY ARSENIC IN THIS PROCESS ARE UNCLEAR. THE PURPOSE OF THIS STUDY WAS TO DETERMINE IF BOTH LOWER (1 PG/ML) AND HIGHER CONCENTRATIONS (100 NG/ML) OF ARSENIC INDUCES EITHER MUTATIONS OR METHYLATION CHANGES THAT COULD LEAD TO THE DEVELOPMENT OF GENOMIC INSTABILITY IN TM3 CELLS, IMMORTALIZED LEYDIG CELLS DERIVED FROM NORMAL MOUSE TESTIS. TWO INDEPENDENT EXPOSURE TIMES WERE USED IN THIS STUDY WHICH RESULTED IN CELLS OF 33 AND 100 GENERATIONS IN AGE. ARSENIC-INDUCED GENETIC AND EPIGENETIC CHANGES WERE SCREENED AT A GENOME-WIDE LEVEL BY RANDOM AMPLIFIED POLYMORPHIC DNA (RAPD), ALSO KNOWN AS AP-PCR METHOD WITH UNDIGESTED DNA AS WELL AS DNA DIGESTED BY THE METHYLATION SENSITIVE ISOSIZOMERIC RESTRICTION ENZYMES MSPI AND HPAII AND UNTREATED CONTROLS. CHANGES IN THE DNA FINGERPRINT OF BOTH, THE RESTRICTION ENZYME DIGESTED DNA (INDICATING METHYLATION CHANGES) AS WELL AS UNDIGESTED DNA (INDICATING MUTATIONS) FROM ARSENIC-TREATED (LOW AS WELL AS HIGH DOSE) SAMPLES WERE OBSERVED AS COMPARED TO THEIR CONTROLS. THUS, THIS STUDY PROVIDES THE FIRST EVIDENCE AT DNA SEQUENCE LEVEL FOR MUTAGENIC POTENTIAL OF ARSENIC. FURTHER CHARACTERIZATION OF THESE ALTERED GENOMIC REGIONS IS UNDERWAY. THE UNDERSTANDING OF THESE GENETIC AND EPIGENETIC CHANGES IN ARSENIC-INDUCED CARCINOGENESIS WILL PROVIDE A BASIS FOR BETTER INTERVENTIONAL APPROACHES IN BOTH THE TREATMENT AND PREVENTION OF ARSENIC-INDUCED CANCER. 2007 5 1115 37 COMPARATIVE ANALYSIS OF EPIGENETIC VARIABILITY IN TWO PINE SPECIES EXPOSED TO CHRONIC RADIATION IN THE CHERNOBYL AND FUKUSHIMA AFFECTED ZONES. COMPARATIVE ANALYSIS OF EPIGENETIC VARIABILITY IN TWO PINE SPECIES AFFECTED AS A RESULT OF THE CHERNOBYL AND FUKUSHIMA ACCIDENTS IS PRESENTED. THE ABSORBED DOSE RATE WITHIN THE AFFECTED CHERNOBYL SITES VARIES OVER A WIDER RANGE (1.5-24.6 MUGY/H) THAN WITHIN THE FUKUSHIMA SITES (3.5-6.5 MUGY/H). IT WAS SHOWN THAT CHRONIC IRRADIATION CAN CHANGE THE LEVEL OF WHOLE GENOME METHYLATION IN PINE POPULATIONS, BUT IN DIFFERENT WAYS. THE GENOMES OF JAPANESE RED PINES ARE HYPOMETHYLATED, AND THE DEGREE OF METHYLATION AND HYDROXYMETHYLATION DECREASES WITH AN INCREASE IN THE LEVEL OF RADIATION EXPOSURE. IN CONTRAST, THE PERCENTAGES OF GENOME METHYLATION AND HYDROXYMETHYLATION IN SCOTS PINE POPULATIONS EXCEED THE REFERENCE LEVELS. THE OBSERVED DISCREPANCY IN THE PATTERNS OF GENOME-WIDE DNA METHYLATION CAN BE ATTRIBUTED PARTLY TO THE DESIGN OF THE STUDY (DIFFERENCES IN THE CLIMATE, RADIATION DOSE, AGE AND SPECIES OF THE PINES) WHICH COULD AFFECT THE RESULTS. IN THE FRAME OF IRAP ANALYSIS, A LARGER NUMBER OF DIFFERENT BANDS WAS OBSERVED IN THE CHERNOBYL POPULATIONS COMPARED TO THE JAPANESE POPULATIONS. BOTH THE JAPANESE AND CHERNOBYL POPULATIONS ARE CHARACTERIZED BY SIGNIFICANT GENETIC VARIABILITY. HOWEVER, THE MAIN PART OF THIS VARIABILITY IS OBSERVED WITHIN POPULATIONS. THE DENDROGRAMS, BASED ON PRESENCE/ABSENCE OF IRAP FRAGMENTS AND NEI'S GENETIC DISTANCES, REVEALED SUBDIVISIONS OF THE CHERNOBYL AND JAPANESE POPULATIONS ACCORDING TO THE LEVEL OF RADIOACTIVE CONTAMINATION. ANALYSIS OF THE RESULTS PRESENTED WILL IMPROVE OUR UNDERSTANDING OF THE MECHANISMS UNDERLYING THE RESPONSES OF PINE TREES TO CHRONIC RADIATION EXPOSURE. 2023 6 6249 24 THE METHYLATION STATUS OF THE MAJOR BREAKPOINT CLUSTER REGION IN HUMAN LEUKEMIA CELLS, INCLUDING PHILADELPHIA CHROMOSOME-POSITIVE CELLS, IS LINKED TO THE LINEAGE OF HEMATOPOIETIC CELLS. THE PHILADELPHIA (PH) TRANSLOCATION [T(9;22)(Q34;Q11)] IS THE MOST COMMON GENETIC ABNORMALITY IN HUMAN LEUKEMIA; A TRANSPOSITION OF THE ABL GENE TO THE MAJOR-BREAKPOINT CLUSTER REGION (M-BCR) IS ASSOCIATED WITH THE PATHOGENESIS IN PH+ CHRONIC MYELOGENOUS LEUKEMIA (PH+ CML) AND IN SOME CASES OF PH+ ACUTE LEUKEMIA (PH+ AL). OUR CURRENT UNDERSTANDING OF THE METHYLATION OF HUMAN GENOMES ALLOWS US TO CONSIDER THE ASSOCIATION BETWEEN THE EPIGENETIC PHENOMENON AND THE CONTROL OF DIFFERENTIATION AND PROLIFERATION IN MAMMALIAN CELLS. IN ORDER TO DETERMINE WHETHER THE METHYLATION STATUS OF THE M-BCR IS ASSOCIATED WITH BREAKPOINT-LOCALIZATION IN THIS REGION AND WITH THE LINEAGE OF HEMATOPOIETIC CELLS, WE HAVE EXAMINED 28 PATIENTS WITH PH+ LEUKEMIAS, INCLUDING NINE WITH PH+ AL, SIX PATIENTS WITH ACUTE MYELOBLASTIC LEUKEMIA WITHOUT PH (PH- AML), AND FIVE PATIENTS WITH PH- ACUTE LYMPHOBLASTIC LEUKEMIA (PH- ALL); USING THE RESTRICTION ENDONUCLEASE ISOCHIZOMERS, MSPI AND HPAII. IN CML PATIENTS IN THE CHRONIC PHASE, THE HYPOMETHYLATED STATUS WITHIN THE NORMAL M-BCR ALLELE IS HETEROGENEOUS. IN CONTRAST, PATIENTS WITH PH+ CML IN THE LYMPHOID BLAST CRISIS PHASE EXHIBITED A 2.5/2.7 KB BAND WITH A COMPLETE DISAPPEARANCE OF THE GERMLINE M-BCR FRAGMENT (TYPE L). THIS PATTERN IS CONSISTENTLY NOTED IN PH- ALL CELLS, AND THE PATTERN IS QUITE DIFFERENT FROM THAT FOUND IN MYELOID BLAST CRISIS OR PH- AML (TYPE M). IN PATIENTS WITH M-BCR-NONREARRANGED PH+ ALL, IT IS SUGGESTED THAT THE M-BCR METHYLATION PATTERNS ARE CELL-LINEAGE SPECIFIC BUT SOME PH+ ALL CELLS HAD A HYPOMETHYLATION PATTERN THAT WAS IDENTICAL TO THAT OBSERVED IN PH- AML, SUGGESTING A DISTINCTION OF GENETIC DIVERSITY OF LEUKEMIA CELLS WITH THE PH CHROMOSOME, ESPECIALLY PH+ AL. 1993 7 1531 18 DNA METHYLATION DURING DEPLETED URANIUM-INDUCED LEUKEMIA. OBJECTIVES: THE RADIOACTIVE HEAVY METAL DEPLETED URANIUM (DU) IS USED IN KINETIC-ENERGY PENETRATORS IN MILITARY APPLICATIONS. THE OBJECTIVE OF THIS STUDY WAS TO DETERMINE INVOLVEMENT OF DNA METHYLATION IN DU-INDUCED LEUKEMIA. METHODS: METHYLATION WAS MEASURED BY DIRECT ANALYSIS OF 5-METHYLCYTOSINE CONTENT OF SPLEEN DNA IN DU LEUKEMIC MICE. RESULTS: SPLEEN HYPOMETHYLATION OCCURRED DURING DU-INDUCED LEUKEMOGENESIS (CHRONIC INTERNAL DU EXPOSURE). ABERRANT GENE TRANSCRIPTION WAS ALSO DETECTED. CONCLUSIONS: EPIGENETIC MECHANISMS ARE IMPLICATED IN DU-INDUCED LEUKEMIA. THESE DATA ARE EVIDENCE OF ABERRANT DNA HYPOMETHYLATION BEING ASSOCIATED WITH DU LEUKEMOGENESIS. 2009 8 1835 41 EFFECTS OF NON-HUMAN SPECIES IRRADIATION AFTER THE CHERNOBYL NPP ACCIDENT. THE AREA AFFECTED BY THE CHERNOBYL NUCLEAR POWER PLANT ACCIDENT IN 1986 HAS BECOME A UNIQUE TEST SITE WHERE LONG-TERM ECOLOGICAL AND BIOLOGICAL CONSEQUENCES OF A DRASTIC CHANGE IN A RANGE OF ENVIRONMENTAL FACTORS AS WELL AS TRENDS AND INTENSITY OF SELECTION ARE STUDIED IN NATURAL SETTINGS. THE CONSEQUENCES OF THE CHERNOBYL ACCIDENT FOR BIOTA VARIED FROM AN ENHANCED RATE OF MUTAGENESIS TO DAMAGE AT THE ECOSYSTEM LEVEL. THE REVIEW COMPREHENSIVELY BRINGS TOGETHER KEY DATA OF THE LONG-TERM STUDIES OF BIOLOGICAL EFFECTS IN PLANTS AND ANIMALS INHABITING OVER 20 YEARS THE CHERNOBYL NPP ZONE. THE SEVERITY OF RADIATION EFFECTS WAS STRONGLY DEPENDENT ON THE DOSE RECEIVED IN THE EARLY PERIOD AFTER THE ACCIDENT. THE MOST EXPOSED PHYTOCENOSES AND SOIL ANIMALS' COMMUNITIES EXHIBITED DOSE DEPENDENT ALTERATIONS IN THE SPECIES COMPOSITION AND REDUCTION IN BIOLOGICAL DIVERSITY. ON THE OTHER HAND, NO DECREASE IN NUMBERS OR TAXONOMIC DIVERSITY OF SMALL MAMMALS EVEN IN THE MOST RADIOACTIVE HABITAT WAS SHOWN. IN A MAJORITY OF THE STUDIES, IN BOTH PLANT AND ANIMAL POPULATIONS FROM THE CHERNOBYL ZONE, IN THE FIRST YEARS AFTER THE ACCIDENT HIGH INCREASES IN MUTATION RATES WERE DOCUMENTED. IN MOST CASES THE DOSE-EFFECT RELATIONSHIPS WERE NONLINEAR AND THE MUTATION RATES PER UNIT DOSE WERE HIGHER AT LOW DOSES AND DOSE RATES. IN SUBSEQUENT YEARS A DECLINE IN THE RADIATION BACKGROUND RATE OCCURRED FASTER THAN REDUCTION IN THE MUTATION RATE. PLANT AND ANIMAL POPULATIONS HAVE SHOWN SIGNS OF ADAPTATION TO CHRONIC EXPOSURE. IN ADAPTATION TO THE ENHANCED LEVEL OF EXPOSURE AN ESSENTIAL ROLE OF EPIGENETIC MECHANISMS OF GENE EXPRESSION REGULATION WAS SHOWN. BASED ON THE CHERNOBYL NPP ACCIDENT STUDIES, IN THE PRESENT REVIEW ATTEMPTS WERE MADE TO ASSESS MINIMUM DOSES AT WHICH ECOLOGICAL AND BIOLOGICAL EFFECTS WERE OBSERVED. 2008 9 5274 15 PROMOTER METHYLATION OF P16 AND EDNRB GENE IN LEUKEMIA PATIENTS IN TAIWAN. BOTH EPIGENETIC AND GENETIC ALTERNATIONS ARE INVOLVED IN CANCER FORMATION. IN THIS STUDY, WE HAVE IDENTIFIED THE METHYLATION FREQUENCY OF P16 AND ENDOTHELIN RECEPTOR TYPE B (EDNRB) OF 26 LEUKEMIA PATIENTS AND 8 RANDOMLY SELECTED NORMAL BLOOD DONORS IN TAIWAN. PROMOTER METHYLATION OF P16 WAS DETECTED IN 85% OF ACUTE LYMPHOCYTIC LEUKEMIA (ALL), 83% IN ACUTE MYELOID LEUKEMIA (AML) WHEREAS NO METHYLATION WAS DETECTED IN CHRONIC MYELOID LEUKEMIA (CML) IN BLAST CRISIS. HYPERMETHYLATION OF EDNRB WAS OBSERVED IN 92% OF ALL, 75% AML AND 100% IN CML IN BLAST CRISIS. NO ABERRANT METHYLATION OF P16 AND EDNRB WAS FOUND IN 8 NORMAL BLOOD DONORS. TAKEN TOGETHER, ABERRANT METHYLATION OF P16 AND EDNRB WAS HIGHLY PREVALENT IN LEUKEMIA PATIENTS IN TAIWAN. 2008 10 1154 29 CONSERVED DNA METHYLATION PATTERNS IN HEALTHY BLOOD CELLS AND EXTENSIVE CHANGES IN LEUKEMIA MEASURED BY A NEW QUANTITATIVE TECHNIQUE. GENOME WIDE ANALYSIS OF DNA METHYLATION PROVIDES IMPORTANT INFORMATION IN A VARIETY OF DISEASES, INCLUDING CANCER. HERE, WE DESCRIBE A SIMPLE METHOD, DIGITAL RESTRICTION ENZYME ANALYSIS OF METHYLATION (DREAM), BASED ON NEXT GENERATION SEQUENCING ANALYSIS OF METHYLATION-SPECIFIC SIGNATURES CREATED BY SEQUENTIAL DIGESTION OF GENOMIC DNA WITH SMAI AND XMAI ENZYMES. DREAM PROVIDES INFORMATION ON 150,000 UNIQUE CPG SITES, OF WHICH 39,000 ARE IN CPG ISLANDS AND 30,000 ARE AT TRANSCRIPTION START SITES OF 13,000 REFSEQ GENES. WE ANALYZED DNA METHYLATION IN HEALTHY WHITE BLOOD CELLS AND FOUND METHYLATION PATTERNS TO BE REMARKABLY UNIFORM. INTER INDIVIDUAL DIFFERENCES > 30% WERE OBSERVED ONLY AT 227 OF 28,331 (0.8%) OF AUTOSOMAL CPG SITES. SIMILARLY, > 30% DIFFERENCES WERE OBSERVED AT ONLY 59 SITES WHEN WE COMPARING THE CORD AND ADULT BLOOD. THESE CONSERVED METHYLATION PATTERNS CONTRASTED WITH EXTENSIVE CHANGES AFFECTING 18-40% OF CPG SITES IN A PATIENT WITH ACUTE MYELOID LEUKEMIA AND IN TWO LEUKEMIA CELL LINES. THE METHOD IS COST EFFECTIVE, QUANTITATIVE (R ( 2) = 0.93 WHEN COMPARED WITH BISULFITE PYROSEQUENCING) AND REPRODUCIBLE (R ( 2) = 0.997). USING 100-FOLD COVERAGE, DREAM CAN DETECT DIFFERENCES IN METHYLATION GREATER THAN 10% OR 30% WITH A FALSE POSITIVE RATE BELOW 0.05 OR 0.001, RESPECTIVELY. DREAM CAN BE USEFUL IN QUANTIFYING EPIGENETIC EFFECTS OF ENVIRONMENT AND NUTRITION, CORRELATING DEVELOPMENTAL EPIGENETIC VARIATION WITH PHENOTYPES, UNDERSTANDING EPIGENETICS OF CANCER AND CHRONIC DISEASES, MEASURING THE EFFECTS OF DRUGS ON DNA METHYLATION OR DERIVING NEW BIOLOGICAL INSIGHTS INTO MAMMALIAN GENOMES. 2012 11 163 28 ABL1 METHYLATION IS A DISTINCT MOLECULAR EVENT ASSOCIATED WITH CLONAL EVOLUTION OF CHRONIC MYELOID LEUKEMIA. METHYLATION OF THE PROXIMAL PROMOTER OF THE ABL1 ONCOGENE IS A COMMON EPIGENETIC ALTERATION ASSOCIATED WITH CLINICAL PROGRESSION OF CHRONIC MYELOID LEUKEMIA (CML). IN THIS STUDY WE QUERIED WHETHER BOTH THE PH'-ASSOCIATED AND NORMAL ABL1 ALLELES UNDERGO METHYLATION; WHAT MAY BE THE PROPORTION OF HEMATOPOIETIC PROGENITORS BEARING METHYLATED ABL1 PROMOTERS IN CHRONIC VERSUS ACUTE PHASE DISEASE; WHETHER METHYLATION AFFECTS THE PROMOTER UNIFORMLY OR IN PATCHES WITH DISCRETE CLINICAL RELEVANCE; AND, FINALLY, WHETHER METHYLATION OF ABL1 REFLECTS A GENERALIZED PROCESS OR IS GENE-SPECIFIC. TO ADDRESS THESE ISSUES, WE ADAPTED THE TECHNIQUES OF METHYLATION-SPECIFIC PCR AND BISULFITE-SEQUENCING TO STUDY THE REGULATORY REGIONS OF ABL1 AND OTHER GENES WITH A ROLE IN DNA REPAIR OR GENOTOXIC STRESS RESPONSE. IN CELL LINES ESTABLISHED FROM CML BLAST CRISIS, WHICH ONLY CARRY A SINGLE ABL1 ALLELE NESTED WITHIN THE BCR-ABL FUSION GENE, ABL1 PROMOTERS WERE UNIVERSALLY METHYLATED. BY CONTRAST, IN CLINICAL SAMPLES FROM PATIENTS AT ADVANCED STAGES OF DISEASE, BOTH METHYLATED AND UNMETHYLATED PROMOTER ALLELES WERE DETECTABLE. TO DISTINGUISH BETWEEN ALLELE-SPECIFIC METHYLATION AND A MIXED CELL POPULATION PATTERN, WE STUDIED THE METHYLATION STATUS OF ABL1 IN COLONIES DERIVED FROM SINGLE HEMATOPOIETIC PROGENITORS. OUR RESULTS SHOWED THAT BOTH METHYLATED AND UNMETHYLATED PROMOTER ALLELES COEXISTED IN THE SAME COLONY. FURTHERMORE, ABL1 METHYLATION WAS NOTED IN THE VAST MAJORITY OF COLONIES FROM BLAST CRISIS, BUT NOT CHRONIC-PHASE CML. BOTH CELL LINES AND CLINICAL SAMPLES FROM ACUTE-PHASE CML SHOWED NEARLY UNIFORM HYPERMETHYLATION ALONG THE PROMOTER REGION. FINALLY, WE SHOWED THAT ABL1 METHYLATION DOES NOT REFLECT A GENERALIZED PROCESS AND MAY BE UNIQUE AMONG DNA REPAIR/GENOTOXIC STRESS RESPONSE GENES. OUR DATA SUGGEST THAT SPECIFIC METHYLATION OF THE PH'-ASSOCIATED ABL1 ALLELE ACCOMPANIES CLONAL EVOLUTION IN CML. 1999 12 6777 20 [ASSOCIATION OF P-MOBILE ELEMENT ACTIVITY AND DNA METHYLATION PATTERN CHANGES IN THE CONDITIONS OF DROSOPHILA MELANOGASTER PROLONGED IRRADIATION]. ASSOCIATION OF THE RADIOSENSITIVITY AND EPIGENETIC PATTERN DNA CHANGES AT THE CONDITIONS OF PROLONGED IRRADIATION WAS INVESTIGATED. TWO LABORATORY DROSOPHILA MELANOGASTER STRAINS (CANTON-S AND RI) IRRADIATED FOR 20 GENERATIONS TO LOW DOSES RATE (1.2 X 10(-1), 0.8 X 10(-8) AND 0.12 X 10(-8) GY/S) WERE USED AS EXPERIMENTAL OBJECTS. DNA FOR THE ANALYSIS WAS EXTRACTED SEPARATELY FOR THE FLIES OF MALES AND FEMALES. RESTRICTION ENDONUCLEASES GLUL, GLAL WERE USED. RESTRICTION ANALYSIS HAS SHOWN THAT THERE ARE DIFFERENT DNA METHYLATED PATTERNS FOR MALES AND FEMALES AS FOR CONTROL AND EXPOSED VARIANTS. AT THE CHRONIC IRRADIATION THERE WAS THE DECLINE OF METHYLATION LEVEL AT THE ENZYMES GLUL, GLAL SITES RECOGNITION. 2010 13 6366 26 THE ROLE OF METHYLATION IN CML. METHYLATION OF THE PROXIMAL PROMOTER OF THE ABL1 ONCOGENE IS COMMON EPIGENETIC ALTERATION ASSOCIATED WITH CLINICAL PROGRESSION OF CHRONIC MYELOID LEUKEMIA (CML). IN PRESENTED STUDY WE QUERIED WHETHER BOTH THE PH'-ASSOCIATED AND NORMAL ABL1 ALLELES UNDERGO METHYLATION; WHAT MAY BE THE PROPORTION OF HEMATOPOIETIC PROGENITORS BEARING METHYLATED ABL1 PROMOTERS IN CHRONIC VERSUS ACUTE PHASE DISEASE; WHETHER METHYLATION AFFECTS THE PROMOTER UNIFORMLY OR IN PATCHES WITH DISCRETE CLINICAL RELEVANCE; AND, FINALLY WHETHER METHYLATION OF ABL1 REFLECTS A GENERALIZED PROCESS OR IS GENE-SPECIFIC. TO ADDRESS THESE ISSUES, THE TECHNIQUE OF METHYLATION-SPECIFIC PCR AND BISULFITE-SEQUENCING WAS ADAPTED TO STUDY THE REGULATORY REGIONS OF ABL1 AND OTHER GENES. IN CELL LINES ESTABLISHED FROM CML BLAST CRISIS, WHICH ONLY CARRY A SINGLE ABL1 ALLELE NESTED WITHIN THE BCR-ABL FUSION GENE, ABL1 PROMOTERS WERE UNIVERSALLY METHYLATED. IN CLINICAL SAMPLES FROM PATIENTS AT ADVANCED STAGES OF THE DISEASE, BOTH METHYLATED AND UNMETHYLATED PROMOTER ALLELES WERE DETECTABLE. IN COLONIES DERIVED FROM SINGLE HEMATOPOIETIC PROGENITORS METHYLATED AND UNMETHYLATED PROMOTER ALLELES WERE REVEALED AS WELL. ABL1 METHYLATION WAS WAS NOTED IN THE VAST MAJORITY OF COLONIES FROM BLAST CRISIS, BUT NOT CHRONIC-PHASE CML. IT WAS SHOWN FINALLY THAT ABL1 METHYLATION DOES NOT REFLECT A GENERALIZED PROCESS AND MAY BE UNIQUE AMONG DNA REPAIR/GENOTOXIC STRESS RESPONSE GENES. THESE DATA SUGGEST THAT SPECIFIC METHYLATION OF THE PH'-ASSOCIATED ABL1 ALLELE ACCOMPANIES CLONAL EVOLUTION IN CML. 2000 14 6550 29 TRANSGENERATIONAL ACCUMULATION OF RADIATION DAMAGE IN SMALL MAMMALS CHRONICALLY EXPOSED TO CHERNOBYL FALLOUT. THE PURPOSE OF THIS INVESTIGATION HAS BEEN THE ANALYSIS OF THE LONG-TERM DEVELOPMENT OF BIOLOGICAL DAMAGE IN NATURAL POPULATIONS OF A MODEL MAMMALIAN SPECIES, THE BANK VOLE (CLETHRIONOMYS GLAREOLUS, SCHREBER), WHICH WERE CHRONICALLY EXPOSED TO LOW DOSES OF IONIZING RADIATION OVER 22 ANIMAL GENERATIONS WITHIN 10 YEARS FOLLOWING THE CHERNOBYL ACCIDENT. THE TIME COURSE OF THE BIOLOGICAL END-POINTS (CHROMOSOME ABERRATIONS IN BONE MARROW CELLS AND EMBRYONIC LETHALITY) WAS COMPARED WITH THE TIME COURSE OF THE WHOLE-BODY ABSORBED DOSE RATE FROM EXTERNAL AND INTERNAL EXPOSURE IN THE STUDIED POPULATIONS INHABITING MONITORING SITES IN BELARUS WITH DIFFERENT GROUND DEPOSITION OF RADIONUCLIDES. THE YIELD OF CHROMOSOME ABERRATIONS AND, IN LESSER DEGREE, EMBRYONIC LETHALITY WAS ASSOCIATED WITH THE RADIONUCLIDE CONTAMINATION OF THE MONITORING AREAS IN A DOSE-DEPENDENT MANNER. AS A MAIN FEATURE OF THE LONG-TERM DEVELOPMENT OF BIOLOGICAL DAMAGE UNDER LOW DOSE RATE IRRADIATION, PERMANENTLY ELEVATED LEVELS OF CHROMOSOME ABERRATIONS AND AN INCREASING FREQUENCY OF EMBRYONIC LETHALITY HAVE DEVELOPED OVER 22 ANIMAL GENERATIONS. THIS CONTRASTS WITH THE ASSUMPTION THAT THE BIOLOGICAL DAMAGE WOULD GRADUALLY DISAPPEAR SINCE IN THE SAME PERIOD OF TIME THE WHOLE-BODY ABSORBED DOSE RATE DECREASED EXPONENTIALLY WITH A HALF-VALUE TIME OF ABOUT 2.5-3 YEARS. FURTHERMORE, GRAVID FEMALES WERE CAPTURED, AND THEIR OFFSPRING, BORN AND GROWN UP UNDER CONTAMINATION-FREE LABORATORY CONDITIONS, SHOWED THE SAME ENHANCED LEVEL OF CHROMOSOME ABERRATIONS. THEREFORE THE AUTHORS SUGGEST THAT, ALONG WITH THE BIOLOGICAL DAMAGE ATTRIBUTABLE TO THE INDIVIDUAL EXPOSURE OF EACH ANIMAL, THE OBSERVED CELLULAR AND SYSTEMIC EFFECTS REFLECT THE TRANSGENERATIONAL TRANSMISSION AND ACCUMULATION, VIA GENETIC AND/OR EPIGENETIC PATHWAYS, OF DAMAGE ATTRIBUTABLE TO THE CHRONIC LOW-DOSE RATE EXPOSURE OF THE PRECEDING GENERATIONS OF ANIMALS. THEY ALSO SUGGEST THAT THE LEVEL OF THE ACCUMULATED TRANSMISSIBLE DAMAGE IN THE INVESTIGATED POPULATIONS WILL DECREASE IN FUTURE DUE TO THE FURTHER RECESSION OF THE CHRONIC EXPOSURE AND AS A CONSEQUENCE OF SELECTION PROCESSES. 2006 15 162 17 ABL1 METHYLATION IN PH-POSITIVE ALL IS EXCLUSIVELY ASSOCIATED WITH THE P210 FORM OF BCR-ABL. IN HUMAN PH-POSITIVE LEUKEMIA THERE IS A CLEAR ASSOCIATION OF DIFFERENT FORMS OF THE BCR-ABL ONCOGENE WITH DISTINCT TYPES OF LEUKEMIA. THE P190 FORM OF BCR-ABL IS RARELY OBSERVED IN CHRONIC MYELOID LEUKEMIA (CML) BUT IS PRESENT IN 50% OF PH-POSITIVE ACUTE LYMPHOBLASTIC LEUKEMIA (ALL). IN CONTRAST, THE P210 FORM IS OBSERVED BOTH IN CML AND 50% OF PH-POSITIVE ALL. METHYLATION OF THE PROXIMAL PROMOTER OF THE ABL1 GENE HAS BEEN SHOWN TO BE A NEARLY UNIVERSAL EVENT ASSOCIATED WITH CLINICAL PROGRESSION OF CML. THIS RAISES THE QUESTION OF WHETHER METHYLATION OF THE ABL1 PROMOTER IS AN EPIGENETIC MODIFICATION ALSO ASSOCIATED WITH PH-POSITIVE ALL. TO STUDY THIS ISSUE, WE USED METHYLATION-SPECIFIC PCR AND BISULFITE SEQUENCING TO DETERMINE THE METHYLATION STATUS OF THE ABL1 PROMOTER IN 18 PH-POSITIVE ALL SAMPLES. WE REPORT HERE THAT GENE-SPECIFIC ABL1 PROMOTER METHYLATION IS ASSOCIATED MAINLY WITH THE P210 FORM OF BCR-ABL AND NOT THE P190 FORM. WHILE SIX OUT OF THE SEVEN P210-POSITIVE ALL SAMPLES HAD ABL1 PROMOTER METHYLATION, NONE OF THE 11 P190-POSITIVE ALL SAMPLES DEMONSTRATED ABL1 PROMOTER METHYLATION. IN ADDITION, WE ESTIMATED THE EXTENT AND RELATIVE ABUNDANCE OF ABL1 PROMOTER METHYLATION IN SEVERAL PH-POSITIVE ALL SAMPLES AND COMPARED IT TO THE METHYLATION PATTERN IN CHRONIC, ACCELERATED AND BLASTIC CRISIS PHASES OF CML. WE PUT FORTH A MODEL THAT CORRELATES THE DIFFERENT TYPES OF LEUKEMIAS WITH THE DIFFERENT LEVELS OF ABL1 PROMOTER METHYLATION. 2001 16 166 28 ABNORMAL OVARIAN DNA METHYLATION PROGRAMMING DURING GONAD MATURATION IN WILD CONTAMINATED FISH. THERE IS INCREASING EVIDENCE THAT POLLUTANTS MAY CAUSE DISEASES VIA EPIGENETIC MODIFICATIONS. EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION PARTICIPATE IN THE REGULATION OF GENE TRANSCRIPTION. SURPRISINGLY, EPIGENETICS RESEARCH IS STILL LIMITED IN ECOTOXICOLOGY. IN THIS STUDY, WE INVESTIGATED WHETHER CHRONIC EXPOSURE TO CONTAMINANTS EXPERIENCED BY WILD FEMALE FISH (ANGUILLA ANGUILLA) THROUGHOUT THEIR JUVENILE PHASE CAN AFFECT THE DNA METHYLATION STATUS OF THEIR OOCYTES DURING GONAD MATURATION. THUS, FISH WERE SAMPLED IN TWO LOCATIONS PRESENTING A LOW OR A HIGH CONTAMINATION LEVEL. THEN, FISH WERE TRANSFERRED TO THE LABORATORY AND ARTIFICIALLY MATURED. BEFORE HORMONAL TREATMENT, THE DNA METHYLATION LEVELS OF THE GENES ENCODING FOR THE AROMATASE AND THE RECEPTOR OF THE FOLLICLE STIMULATING HORMONE WERE HIGHER IN CONTAMINATED FISH THAN IN FISH FROM THE CLEAN SITE. FOR THE HORMONE RECEPTOR, THIS HYPERMETHYLATION WAS POSITIVELY CORRELATED WITH THE CONTAMINATION LEVEL OF FISH AND WAS ASSOCIATED WITH A DECREASE IN ITS TRANSCRIPTION LEVEL. IN ADDITION, WHEREAS GONAD GROWTH WAS ASSOCIATED WITH AN INCREASE IN DNA METHYLATION IN FISH FROM THE CLEAN SITE, NO CHANGES WERE OBSERVED IN CONTAMINATED FISH IN RESPONSE TO HORMONAL TREATMENT. FINALLY, A HIGHER GONAD GROWTH WAS OBSERVED IN FISH FROM THE REFERENCE SITE IN COMPARISON TO CONTAMINATED FISH. 2014 17 156 24 ABERRANT METHYLATION OF THE DEATH-ASSOCIATED PROTEIN KINASE 1 (DAPK1) CPG ISLAND IN CHRONIC MYELOID LEUKEMIA. THE DEATH-ASSOCIATED PROTEIN KINASE 1 (DAPK1) GENE IS A CANDIDATE TUMOR SUPPRESSOR (TSG) AND THE ABNORMAL METHYLATION OF DAPK1 GENE HAS BEEN FOUND IN MANY CARCINOMAS. THE EPIGENETIC CHANGES OF TSGS ARE NOW RECOGNIZED AS A MECHANISM CONTRIBUTING TO THE DEVELOPMENT OF CHRONIC MYELOID LEUKEMIA (CML). TO CLARIFY THE ROLE OF DAPK1 IN CML, WE EXAMINED THE METHYLATION STATUS OF DAPK1 IN 49 PATIENTS WITH CML USING METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION. THE ABERRANT METHYLATION OF THE DAPK1 GENE WAS FOUND IN 25 OF 49 (51.0%) CML CASES, NOT IN ALL CONTROLS. NO CORRELATION WAS FOUND BETWEEN DAPK1 GENE METHYLATION AND THE AGE, HEMATOLOGIC PARAMETERS, CHROMOSOMAL ABNORMALITIES, THE TYPES AND LEVELS OF BCR/ABL TRANSCRIPTS OF CML PATIENTS. HOWEVER, CORRELATION COULD BE OBSERVED BETWEEN THE SEX AND THE STATUS OF DAPK1 METHYLATION IN CML PATIENTS (R = 0.374, P = 0.008). FURTHERMORE, THERE WAS A SIGNIFICANT CORRELATION BETWEEN DAPK1 METHYLATION AND THE STAGES OF CML (R = 0.354, P = 0.013). THE CML PATIENTS IN ACCELERATED PHASE (AP) AND BLAST CRISIS (BC) HAD HIGHER FREQUENCY OF DAPK1 METHYLATION THAN THOSE IN CHRONIC PHASE (CP) (75.0% VS. 34.5%) (CHI(2) = 7.776, P = 0.005). IN ONE PATIENT, THE STATUS OF DAPK1 METHYLATION BECAME POSITIVE ON THE TRANSITION FROM CP TO AP AND BC. THESE RESULTS SUGGESTED THAT DAPK1 PROMOTER METHYLATION MIGHT PLAY A SIGNIFICANT ROLE IN THE PROGRESSION OF CML. 2009 18 3530 28 IMATINIB (ST1571) PROVIDES ONLY LIMITED SELECTIVITY FOR CML CELLS AND TREATMENT MIGHT BE COMPLICATED BY SILENT BCR-ABL GENES. VERY PROMISING RESULTS HAVE BEEN OBTAINED IN CLINICAL TRIALS ON CHRONIC-PHASE CHRONIC MYELOID LEUKEMIA (CP-CML) PATIENTS TREATED WITH IMATINIB MESYLATE (IM; GLEEVECR, STI571), A BCR-ABL TYROSINE KINASE INHIBITOR. HOWEVER, WE FOUND THAT IM CAUSED CONSIDERABLE INHIBITION OF NORMAL HEMATOPOIETIC PROGENITOR CELLS UPON TREATING CONTROL BONE MARROW (BM) CULTURES. IN VITRO IM TREATMENT GAVE A DECREASE IN THE YIELD AND SIZE OF COLONIES FROM BM OF UNTREATED CP-CML PATIENTS THAT WAS ONLY TWO TO THREE TIMES THAT FROM THE NORMAL SAMPLES. MOREOVER, ABOUT 30% OF MYELOID PROGENITORS (CFU-GM) FROM CML BM STILL FORMED COLONIES IN THE PRESENCE OF IM, MOST OF WHICH HAD BCR-ABL RNA. ABOUT HALF OF THESE TREATED COLONIES ALSO DISPLAYED METHYLATION OF THE INTERNAL ABL PA PROMOTER, A CML-SPECIFIC EPIGENETIC ALTERATION, WHICH WAS USED IN THIS STUDY AS A MARKER FOR BCR-ABL TRANSLOCATION-CONTAINING CELLS. HOWEVER, ~5-8% OF THE TREATED OR THE UNTREATED CML BM-DERIVED COLONIES HAD NO DETECTABLE BCR-ABL RNA BY TWO OR THREE ROUNDS OF RT-PCR DESPITE BEING POSITIVE FOR THE INTERNAL STANDARD RNA AND DISPLAYING HALLMARKS OF CML, EITHER T(9;22)(Q34;QL 1) OR ABL PA METHYLATION. OUR RESULTS INDICATE THAT IM IS ONLY PARTIALLY SPECIFIC FOR CML PROGENITOR CELLS COMPARED TO NORMAL HEMATOPOIETIC PROGENITOR CELLS AND SUGGEST THAT SOME CML CELLS MAY HAVE A SILENT BCR-ABL ONCOGENE THAT COULD INTERFERE WITH THERAPY. 2003 19 6552 30 TRANSGENERATIONAL DNA METHYLATION CHANGES IN DAPHNIA MAGNA EXPOSED TO CHRONIC GAMMA IRRADIATION. OUR AIM WAS TO INVESTIGATE EPIGENETIC CHANGES IN DAPHNIA MAGNA AFTER A 25-DAY CHRONIC EXTERNAL GAMMA IRRADIATION (GENERATION F0 EXPOSED TO 6.5 MUGY.H(-1) OR 41.3 MGY.H(-1)) AND THEIR POTENTIAL INHERITANCE BY SUBSEQUENT RECOVERING GENERATIONS, NAMELY, F2 (EXPOSED AS GERMLINE CELLS IN F1 EMBRYOS) AND F3 (THE FIRST TRULY UNEXPOSED GENERATION). EFFECTS ON SURVIVAL, GROWTH, AND REPRODUCTION WERE OBSERVED AND DNA WAS EXTRACTED FOR WHOLE-GENOME BISULFITE SEQUENCING IN ALL GENERATIONS. RESULTS SHOWED EFFECTS ON REPRODUCTION IN F0 BUT NO EFFECT IN THE SUBSEQUENT GENERATIONS F1, F2, AND F3. IN CONTRAST, WE OBSERVED SIGNIFICANT METHYLATION CHANGES AT SPECIFIC CPG POSITIONS IN EVERY GENERATION INDEPENDENT OF DOSE RATE, WITH A MAJORITY OF HYPOMETHYLATION. SOME OF THESE CHANGES WERE SHARED BETWEEN DOSE RATES AND BETWEEN GENERATIONS. ASSOCIATED GENE FUNCTIONS INCLUDED GENE FAMILIES AND GENES THAT WERE PREVIOUSLY SHOWN TO PLAY ROLES DURING EXPOSURE TO IONIZING RADIATION. COMMON METHYLATION CHANGES DETECTED BETWEEN GENERATIONS F2 AND F3 CLEARLY SHOWED THAT EPIGENETIC MODIFICATIONS CAN BE TRANSMITTED TO UNEXPOSED GENERATIONS, MOST LIKELY THROUGH THE GERMLINE, WITH POTENTIAL IMPLICATIONS FOR ENVIRONMENTAL RISK. 2018 20 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