1 4253 111 METHYLOME OF HUMAN SKELETAL MUSCLE AFTER ACUTE & CHRONIC RESISTANCE EXERCISE TRAINING, DETRAINING & RETRAINING. DNA METHYLATION IS AN IMPORTANT EPIGENETIC MODIFICATION THAT CAN REGULATE GENE EXPRESSION FOLLOWING ENVIRONMENTAL ENCOUNTERS WITHOUT CHANGES TO THE GENETIC CODE. USING INFINIUM METHYLATIONEPIC BEADCHIP ARRAYS (850,000 CPG SITES) WE ANALYSED FOR THE FIRST TIME, DNA ISOLATED FROM UNTRAINED HUMAN SKELETAL MUSCLE BIOPSIES (VASTUS LATERALIS) AT BASELINE (REST) AND IMMEDIATELY FOLLOWING AN ACUTE (SINGLE) BOUT OF RESISTANCE EXERCISE. IN THE SAME PARTICIPANTS, WE ALSO ANALYSED THE METHYLOME FOLLOWING A PERIOD OF MUSCLE GROWTH (HYPERTROPHY) EVOKED VIA CHRONIC (REPEATED BOUTS-3 SESSIONS/WK) RESISTANCE EXERCISE (RE) (TRAINING) OVER 7-WEEKS, FOLLOWED BY COMPLETE EXERCISE CESSATION FOR 7-WEEKS RETURNING MUSCLE BACK TO BASELINE LEVELS (DETRAINING), AND FINALLY FOLLOWED BY A SUBSEQUENT 7-WEEK PERIOD OF RE-INDUCED HYPERTROPHY (RETRAINING). THESE VALUABLE METHYLOME DATA SETS DESCRIBED IN THE PRESENT MANUSCRIPT AND DEPOSITED IN AN OPEN-ACCESS REPOSITORY CAN NOW BE SHARED AND RE-USED TO ENABLE THE IDENTIFICATION OF EPIGENETICALLY REGULATED GENES/NETWORKS THAT ARE MODIFIED AFTER ACUTE ANABOLIC STIMULI AND HYPERTROPHY, AND FURTHER INVESTIGATE THE PHENOMENON OF EPIGENETIC MEMORY IN SKELETAL MUSCLE. 2018 2 6087 23 THE EFFECTS OF AEROBIC AND ANAEROBIC EXERCISES ON CIRCULATING SOLUBLE-KLOTHO AND IGF-I IN YOUNG AND ELDERLY ADULTS AND IN CAD PATIENTS. DIFFERENT STUDIES SUPPORT THE NOTION THAT CHRONIC AEROBIC EXERCISES TRAINING CAN INFLUENCE THE CIRCULATING LEVELS OF SOLUBLE-KLOTHO (S-KLOTHO) AND INSULIN-LIKE GROWTH FACTOR 1 (IGF-I). THE EFFECTS OF S-KLOTHO INCLUDE IMPROVING THE QUALITY OF LIFE, ALLEVIATING THE NEGATIVE IMPACT OF AGE ON THE BODY'S WORK CAPACITY, AND POSSIBLY INCREASING LONGEVITY. THIS REVIEW PROVIDES AN OVERVIEW OF THE LATEST FINDINGS IN THIS FIELD OF RESEARCH IN HUMANS. THE DIFFERENT MODES OF DYNAMIC EXERCISE AND THEIR IMPACT ON CIRCULATING LEVELS OF S-KLOTHO AND IGF-I IN YOUNG ADULT ATHLETES, UNTRAINED YOUNG ADULTS, TRAINED HEALTHY OLDER ADULTS, UNTRAINED HEALTHY OLDER ADULTS, AND CORONARY ARTERY DISEASE (CAD) PATIENTS ARE REVIEWED AND DISCUSSED. TOGETHER THESE FINDINGS SUGGEST THAT LONG-LASTING (CHRONIC) AEROBIC EXERCISE TRAINING IS PROBABLY ONE OF THE ANTIAGING FACTORS THAT COUNTERACT THE AGING AND CAD PROCESS BY INCREASING THE CIRCULATING S-KLOTHO AND LOWERING THE IGF-I LEVELS. HOWEVER, FOLLOWING ANAEROBIC EXERCISE TRAINING THE OPPOSITE OCCURS. THE EXACT METABOLIC AND PHYSIOLOGICAL PATHWAYS INVOLVED IN THE ACTIVITY OF THESE WELL-TRAINED YOUNG AND MASTER SPORTSMEN SHOULD BE FURTHER STUDIED AND ELUCIDATED. THE PURPOSE OF THIS REVIEW WAS TO PROVIDE A CLARIFICATION REGARDING THE ROLES OF S-KLOTHO AND INTENSITIES AND DURATIONS OF DIFFERENT EXERCISE ON HUMAN HEALTH. 2017 3 3583 29 IMPACT OF SHORT- AND LONG-TERM ELECTRICALLY INDUCED MUSCLE EXERCISE ON GENE SIGNALING PATHWAYS, GENE EXPRESSION, AND PGC1A METHYLATION IN MEN WITH SPINAL CORD INJURY. EXERCISE ATTENUATES THE DEVELOPMENT OF CHRONIC NONCOMMUNICABLE DISEASES (NCDS). GENE SIGNALING PATHWAY ANALYSIS OFFERS AN OPPORTUNITY TO DISCOVER IF ELECTRICALLY INDUCED MUSCLE EXERCISE REGULATES KEY PATHWAYS AMONG PEOPLE LIVING WITH SPINAL CORD INJURY (SCI). WE EXAMINED SHORT-TERM AND LONG-TERM DURATIONS OF ELECTRICALLY INDUCED SKELETAL MUSCLE EXERCISE ON COMPLEX GENE SIGNALING PATHWAYS, SPECIFIC GENE REGULATION, AND EPIGENETIC TAGGING OF PGC1A, A MAJOR TRANSCRIPTION FACTOR IN SKELETAL MUSCLE OF MEN WITH SCI. AFTER SHORT- OR LONG-TERM ELECTRICALLY INDUCED EXERCISE TRAINING, PARTICIPANTS UNDERWENT BIOPSIES OF THE TRAINED AND UNTRAINED MUSCLES. RNA WAS HYBRIDIZED TO AN EXON MICROARRAY AND ANALYZED BY A GENE SET ENRICHMENT ANALYSIS. WE DISCOVERED THAT LONG-TERM EXERCISE TRAINING REGULATED THE REACTOME GENE SETS FOR METABOLISM (38 GENE SETS), CELL CYCLE (36 GENE SETS), DISEASE (27 GENE SETS), GENE EXPRESSION AND TRANSCRIPTION (22 GENE SETS), ORGANELLE BIOGENESIS (4 GENE SETS), CELLULAR RESPONSE TO STIMULI (8 GENE SETS), IMMUNE SYSTEM (8 GENE SETS), VESICLE-MEDIATED TRANSPORT (4 GENE SETS), AND TRANSPORT OF SMALL MOLECULES (3 GENE SETS). SPECIFIC GENE EXPRESSION INCLUDED: OXIDATIVE CATABOLISM OF GLUCOSE INCLUDING PDHB (P < 0.001), PDHX (P < 0.001), MPC1 (P < 0.009), AND MPC2 (P < 0.007); OXIDATIVE PHOSPHORYLATION GENES INCLUDING SDHA (P < 0.006), SDHB (P < 0.001), NDUFB1 (P < 0.002), NDUFA2 (P < 0.001); TRANSCRIPTION GENES INCLUDING PGC1ALPHA (P < 0.030) AND PRKAB2 (P < 0.011); HYPERTROPHY GENE MSTN (P < 0.001); AND THE MYOKINE GENERATING FNDC5 GENE (P < 0.008). LONG-TERM ELECTRICALLY INDUCED EXERCISE DEMETHYLATED THE MAJOR TRANSCRIPTION FACTOR PGC1A. TAKEN TOGETHER, THESE FINDINGS SUPPORT THAT LONG-TERM ELECTRICALLY INDUCED MUSCLE ACTIVITY REGULATES KEY PATHWAYS ASSOCIATED WITH MUSCLE HEALTH AND SYSTEMIC METABOLISM. 2020 4 5518 21 RISK FACTORS AND FUTURE DIRECTIONS FOR PREVENTING AND DIAGNOSING EXERTIONAL RHABDOMYOLYSIS. EXERTIONAL RHABDOMYOLYSIS MAY OCCUR WHEN AN INDIVIDUAL IS SUBJECTED TO STRENUOUS PHYSICAL EXERCISE. IT IS OCCASIONALLY ASSOCIATED WITH MYOGLOBINURIA (I.E. "COLA-COLORED" URINE) ALONGSIDE MUSCLE PAIN AND WEAKNESS. THE PATHOPHYSIOLOGY OF EXERTIONAL RHABDOMYOLYSIS INVOLVES STRIATED MUSCLE DAMAGE AND THE RELEASE OF CELLULAR COMPONENTS INTO EXTRACELLULAR FLUID AND BLOODSTREAM. THIS CAN CAUSE ACUTE RENAL FAILURE, ELECTROLYTE ABNORMALITIES, ARRHYTHMIAS AND POTENTIALLY DEATH. EXERTIONAL RHABDOMYOLYSIS IS OBSERVED IN HIGH-PERFORMANCE ATHLETES WHO ARE SUBJECTED TO INTENSE, REPETITIVE AND/OR PROLONGED EXERCISE BUT IS ALSO OBSERVED IN UNTRAINED INDIVIDUALS AND HIGHLY TRAINED OR ELITE GROUPS OF MILITARY PERSONNEL. SEVERAL RISK FACTORS HAVE BEEN REPORTED TO INCREASE THE LIKELIHOOD OF THE CONDITION IN ATHLETES, INCLUDING: VIRAL INFECTION, DRUG AND ALCOHOL ABUSE, EXERCISE IN INTENSELY HOT AND HUMID ENVIRONMENTS, GENETIC POLYMORPHISMS (E.G. SICKLE CELL TRAIT AND MCARDLE DISEASE) AND EPIGENETIC MODIFICATIONS. THIS ARTICLE REVIEWS SEVERAL OF THESE RISK FACTORS AND PROPOSES SCREENING PROTOCOLS TO IDENTIFY INDIVIDUAL SUSCEPTIBILITY TO EXERTIONAL RHABDOMYOLYSIS AS WELL AS THE RELEVANCE OF PROTEOMICS FOR THE EVALUATION OF POTENTIAL BIOMARKERS OF MUSCLE DAMAGE. 2021 5 56 21 A GENOME-WIDE ASSOCIATION META-ANALYSIS OF CIRCULATING SEX HORMONE-BINDING GLOBULIN REVEALS MULTIPLE LOCI IMPLICATED IN SEX STEROID HORMONE REGULATION. SEX HORMONE-BINDING GLOBULIN (SHBG) IS A GLYCOPROTEIN RESPONSIBLE FOR THE TRANSPORT AND BIOLOGIC AVAILABILITY OF SEX STEROID HORMONES, PRIMARILY TESTOSTERONE AND ESTRADIOL. SHBG HAS BEEN ASSOCIATED WITH CHRONIC DISEASES INCLUDING TYPE 2 DIABETES (T2D) AND WITH HORMONE-SENSITIVE CANCERS SUCH AS BREAST AND PROSTATE CANCER. WE PERFORMED A GENOME-WIDE ASSOCIATION STUDY (GWAS) META-ANALYSIS OF 21,791 INDIVIDUALS FROM 10 EPIDEMIOLOGIC STUDIES AND VALIDATED THESE FINDINGS IN 7,046 INDIVIDUALS IN AN ADDITIONAL SIX STUDIES. WE IDENTIFIED TWELVE GENOMIC REGIONS (SNPS) ASSOCIATED WITH CIRCULATING SHBG CONCENTRATIONS. LOCI NEAR THE IDENTIFIED SNPS INCLUDED SHBG (RS12150660, 17P13.1, P = 1.8 X 10(-106)), PRMT6 (RS17496332, 1P13.3, P = 1.4 X 10(-11)), GCKR (RS780093, 2P23.3, P = 2.2 X 10(-16)), ZBTB10 (RS440837, 8Q21.13, P = 3.4 X 10(-09)), JMJD1C (RS7910927, 10Q21.3, P = 6.1 X 10(-35)), SLCO1B1 (RS4149056, 12P12.1, P = 1.9 X 10(-08)), NR2F2 (RS8023580, 15Q26.2, P = 8.3 X 10(-12)), ZNF652 (RS2411984, 17Q21.32, P = 3.5 X 10(-14)), TDGF3 (RS1573036, XQ22.3, P = 4.1 X 10(-14)), LHCGR (RS10454142, 2P16.3, P = 1.3 X 10(-07)), BAIAP2L1 (RS3779195, 7Q21.3, P = 2.7 X 10(-08)), AND UGT2B15 (RS293428, 4Q13.2, P = 5.5 X 10(-06)). THESE GENES ENCOMPASS MULTIPLE BIOLOGIC PATHWAYS, INCLUDING HEPATIC FUNCTION, LIPID METABOLISM, CARBOHYDRATE METABOLISM AND T2D, ANDROGEN AND ESTROGEN RECEPTOR FUNCTION, EPIGENETIC EFFECTS, AND THE BIOLOGY OF SEX STEROID HORMONE-RESPONSIVE CANCERS INCLUDING BREAST AND PROSTATE CANCER. WE FOUND EVIDENCE OF SEX-DIFFERENTIATED GENETIC INFLUENCES ON SHBG. IN A SEX-SPECIFIC GWAS, THE LOCI 4Q13.2-UGT2B15 WAS SIGNIFICANT IN MEN ONLY (MEN P = 2.5 X 10(-08), WOMEN P = 0.66, HETEROGENEITY P = 0.003). ADDITIONALLY, THREE LOCI SHOWED STRONG SEX-DIFFERENTIATED EFFECTS: 17P13.1-SHBG AND XQ22.3-TDGF3 WERE STRONGER IN MEN, WHEREAS 8Q21.12-ZBTB10 WAS STRONGER IN WOMEN. CONDITIONAL ANALYSES IDENTIFIED ADDITIONAL SIGNALS AT THE SHBG GENE THAT TOGETHER ALMOST DOUBLE THE PROPORTION OF VARIANCE EXPLAINED AT THE LOCUS. USING AN INDEPENDENT STUDY OF 1,129 INDIVIDUALS, ALL SNPS IDENTIFIED IN THE OVERALL OR SEX-DIFFERENTIATED OR CONDITIONAL ANALYSES EXPLAINED ~15.6% AND ~8.4% OF THE GENETIC VARIATION OF SHBG CONCENTRATIONS IN MEN AND WOMEN, RESPECTIVELY. THE EVIDENCE FOR SEX-DIFFERENTIATED EFFECTS AND ALLELIC HETEROGENEITY HIGHLIGHT THE IMPORTANCE OF CONSIDERING THESE FEATURES WHEN ESTIMATING COMPLEX TRAIT VARIANCE. 2012 6 890 18 CHRONIC DIETARY EXPOSURE OF ROOSTERS TO A GLYPHOSATE-BASED HERBICIDE INCREASES SEMINAL PLASMA GLYPHOSATE AND AMPA CONCENTRATIONS, ALTERS SPERM PARAMETERS, AND INDUCES METABOLIC DISORDERS IN THE PROGENY. THE EFFECTS OF CHRONIC DIETARY ROUNDUP (RU) EXPOSURE ON ROOSTER SPERM PARAMETERS, FERTILITY, AND OFFSPRING ARE UNKNOWN. WE INVESTIGATED THE EFFECTS OF CHRONIC RU DIETARY EXPOSURE (46.8 MG KG(-1) DAY(-1) GLYPHOSATE) FOR 5 WEEKS IN 32-WEEK-OLD ROOSTERS (N = 5 RU-EXPOSED AND N = 5 CONTROL (CT)). ALTHOUGH THE CONCENTRATIONS OF GLYPHOSATE AND ITS MAIN METABOLITE AMPA (AMINOMETHYLPHOSPHONIC ACID) INCREASED IN BLOOD PLASMA AND SEMINAL FLUID DURING EXPOSURE, NO SIGNIFICANT DIFFERENCES IN TESTIS WEIGHT AND SPERM CONCENTRATIONS WERE OBSERVED BETWEEN RU AND CT ROOSTERS. HOWEVER, SPERM MOTILITY WAS SIGNIFICANTLY REDUCED, ASSOCIATED WITH DECREASED CALCIUM AND ATP CONCENTRATIONS IN RU SPERMATOZOA. PLASMA TESTOSTERONE AND OESTRADIOL CONCENTRATIONS INCREASED IN RU ROOSTERS. THESE NEGATIVE EFFECTS CEASED 14 DAYS AFTER RU REMOVAL FROM THE DIET. EPIGENETIC ANALYSIS SHOWED A GLOBAL DNA HYPOMETHYLATION IN RU ROOSTERS. AFTER ARTIFICIAL INSEMINATION OF HENS (N = 40) WITH SPERM FROM CT OR RU ROOSTERS, EGGS WERE COLLECTED AND ARTIFICIALLY INCUBATED. EMBRYO VIABILITY DID NOT DIFFER, BUT CHICKS FROM RU ROOSTERS (N = 118) HAD A HIGHER FOOD CONSUMPTION, BODY WEIGHT AND SUBCUTANEOUS ADIPOSE TISSUE CONTENT. CHRONIC DIETARY RU EXPOSURE IN ROOSTERS REDUCES SPERM MOTILITY AND INCREASES PLASMA TESTOSTERONE LEVELS, GROWTH PERFORMANCE, AND FATTENING IN OFFSPRING. 2021 7 3903 19 LEP, LDLR AND APOA4 GENE POLYMORPHISMS AND THEIR RELATIONSHIP WITH THE RISK OF OVERWEIGHT, OBESITY AND CHRONIC DISEASES IN ADULTS OF THE STATE OF SUCRE, VENEZUELA. INTRODUCTION: OVERWEIGHT, OBESITY AND SOME CHRONIC DISEASES HAVE BECOME MORE PREVALENT RECENTLY. IT IS WELL KNOWN THAT THEIR CAUSES MAY BE GENETIC, EPIGENETIC, ENVIRONMENTAL, OR A MIXTURE OF THESE. OBJECTIVE: TO ANALYZE THE RELATIONSHIP BETWEEN NINE SINGLE NUCLEOTIDE POLYMORPHISMS OF GENES LEP (RS2167270), LDLR (RS885765, RS688, RS5925, RS55903358, RS5742911) AND APOA4 (RS5095, RS675, RS5110) WITH OBESITY-RELATED PHENOTYPES AND OTHER COMORBIDITIES. MATERIAL AND METHODS: WE RECRUITED 144 ADULTS (76 MALES AND 68 FEMALES, WITH AVERAGE AGES OF 29.93+/-8.29 AND 32.49+/-11.15 YEARS, RESPECTIVELY) IN THE STATE OF SUCRE, VENEZUELA. CLINICAL AND ANTHROPOMETRIC PARAMETERS WERE OBTAINED. GENOTYPE-RISK ASSOCIATIONS WERE STUDIED. WE THEN COMPARED THE AVERAGES REGISTERED FOR ANTHROPOMETRIC AND BIOCHEMICAL VARIABLES PREVIOUSLY ADJUSTED FOR BIOLOGICAL AND ENVIRONMENTAL FACTORS. RESULTS: ACCORDING TO THE BODY MASS INDEX, 38.9% OF THE INDIVIDUALS IN THE SAMPLE WERE OVERWEIGHT (25/=30 KG/M2). GENOTYPE AND ALLELE FREQUENCIES DID NOT DIFFER STATISTICALLY FOR GROUPS WITH NORMAL AND HIGH BODY MASS INDEX (OVERWEIGHT PLUS OBESITY). THE ASSOCIATION BETWEEN LDLR RS5742911 ANCESTRAL GENOTYPE A/A AND HIGH RISK CONDITION RELATED TO HDL-CHOLESTEROL WAS THE ONLY ONE FOUND TO BE SIGNIFICANT (OR=2.944, 95% CI: 1.446-5.996; P=0.003). THE DIFFERENCE IN ADJUSTED MEAN HDL-CHOLESTEROL FOR LDLR RS5742911 GENOTYPES WAS STATISTICALLY SIGNIFICANT (P=0.005) (A/A: 41.50+/-14.81 MG/DL; A/G: 45.00+/-12.07 MG/DL; G/G: 47.17+/-9.43 MG/DL). CONCLUSIONS: FOR MOST OF THE GENETIC VARIANTS STUDIED, THERE WAS AN ASSOCIATION WITH THE PRESENCE OF OVERWEIGHT AND OBESITY AMONG ANCESTRAL GENOTYPE CARRIERS, ALTHOUGH THIS WAS NOT STATISTICALLY SIGNIFICANT. THE RS5742911 POLYMORPHISM MAY BE USEFUL AS AN INDICATOR OF A RISK OF CHRONIC DISEASES. 2016 8 6632 24 UNDERSTANDING THE ROLE OF THE CHROMOSOME 15Q25.1 IN COPD THROUGH EPIGENETICS AND TRANSCRIPTOMICS. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A MAJOR HEALTH BURDEN IN ADULTS AND CIGARETTE SMOKING IS CONSIDERED THE MOST IMPORTANT ENVIRONMENTAL RISK FACTOR OF COPD. CHROMOSOME 15Q25.1 LOCUS IS ASSOCIATED WITH BOTH COPD AND SMOKING. OUR STUDY AIMS AT UNDERSTANDING THE MECHANISM UNDERLYING THE ASSOCIATION OF CHROMOSOME 15Q25.1 WITH COPD THROUGH EPIGENETIC AND TRANSCRIPTIONAL VARIATION IN A POPULATION-BASED SETTING. TO ASSESS IF COPD-ASSOCIATED VARIANTS IN 15Q25.1 ARE METHYLATION QUANTITATIVE TRAIT LOCI, EPIGENOME-WIDE ASSOCIATION ANALYSIS OF FOUR GENETIC VARIANTS, PREVIOUSLY ASSOCIATED WITH COPD (P < 5 X 10(-8)) IN THE 15Q25.1 LOCUS (RS12914385:C>T-CHRNA3, RS8034191:T>C-HYKK, RS13180:C>T-IREB2 AND RS8042238:C>T-IREB2), WAS PERFORMED IN THE ROTTERDAM STUDY (N = 1489). ALL FOUR VARIANTS WERE SIGNIFICANTLY ASSOCIATED (P < 1.4 X 10(-6)) WITH BLOOD DNA METHYLATION OF IREB2, CHRNA3 AND PSMA4, OF WHICH TWO, INCLUDING IREB2 AND PSMA4, WERE ALSO DIFFERENTIALLY METHYLATED IN COPD CASES AND CONTROLS (P < 0.04). FURTHER ADDITIVE AND MULTIPLICATIVE EFFECTS OF SMOKING WERE EVALUATED AND NO SIGNIFICANT EFFECT WAS OBSERVED. TO EVALUATE IF THESE FOUR GENETIC VARIANTS ARE EXPRESSION QUANTITATIVE TRAIT LOCI, TRANSCRIPTOME-WIDE ASSOCIATION ANALYSIS WAS PERFORMED IN 1087 LUNG SAMPLES. ALL FOUR VARIANTS WERE ALSO SIGNIFICANTLY ASSOCIATED WITH DIFFERENTIAL EXPRESSION OF THE IREB2 3'UTR IN LUNG TISSUES (P < 5.4 X 10(-95)). WE CONCLUDE THAT REGULATORY MECHANISMS AFFECTING THE EXPRESSION OF IREB2 GENE, SUCH AS DNA METHYLATION, MAY EXPLAIN THE ASSOCIATION BETWEEN GENETIC VARIANTS IN CHROMOSOME 15Q25.1 AND COPD, LARGELY INDEPENDENT OF SMOKING. 2018 9 2998 19 GENETIC VARIANTS IN TELOMERASE REVERSE TRANSCRIPTASE CONTRIBUTE TO SOLAR LENTIGINES. SOLAR LENTIGINES (SLS) ARE A HALLMARK OF HUMAN SKIN AGING. THEY RESULT FROM CHRONIC EXPOSURE TO SUNLIGHT AND OTHER ENVIRONMENTAL STRESSORS. RECENT STUDIES ALSO IMPLY GENETIC FACTORS, BUT FINDINGS ARE PARTIALLY CONFLICTING AND LACK OF REPLICATION. THROUGH A MULTI-TRAIT BASED ANALYSIS STRATEGY, WE DISCOVERED THAT GENETIC VARIANTS IN TELOMERASE REVERSE TRANSCRIPTASE WERE SIGNIFICANTLY ASSOCIATED WITH NON-FACIAL SL IN TWO EAST ASIAN (TAIZHOU LONGITUDINAL COHORT, N = 2,964 AND NATIONAL SURVEY OF PHYSICAL TRAITS, N = 2,954) AND ONE CAUCASIAN POPULATION (SALIA, N = 462), TOP SNP RS2853672 (P-VALUE FOR TAIZHOU LONGITUDINAL COHORT = 1.32 X 10(?28) AND P-VALUE FOR NATIONAL SURVEY OF PHYSICAL TRAITS = 3.66 X 10(?17) AND P-VALUE FOR SALIA = 0.0007 AND P(META) = 4.93 X 10(?44)). THE SAME VARIANTS WERE NOMINALLY ASSOCIATED WITH FACIAL SL BUT NOT WITH OTHER SKIN AGING OR SKIN PIGMENTATION TRAITS. THE SL-ENHANCED ALLELE/HAPLOTYPE UPREGULATED THE TRANSCRIPTION OF THE TELOMERASE REVERSE TRANSCRIPTASE GENE. OF NOTE, WELL-KNOWN TELOMERASE REVERSE TRANSCRIPTASE?RELATED AGING MARKERS SUCH AS LEUKOCYTE TELOMERE LENGTH AND INTRINSIC EPIGENETIC AGE ACCELERATION WERE NOT ASSOCIATED WITH SL. OUR RESULTS INDICATE A PREVIOUSLY UNRECOGNIZED ROLE OF TELOMERASE REVERSE TRANSCRIPTASE IN SKIN AGING?RELATED LENTIGINES FORMATION. 2023 10 3753 24 INTEGRATED ANALYSIS OF GENE EXPRESSION AND METHYLATION DATA TO IDENTIFY POTENTIAL BIOMARKERS RELATED TO ATHEROSCLEROSIS ONSET. ATHEROSCLEROSIS IS A KIND OF CHRONIC INFLAMMATORY CARDIOVASCULAR DISEASE. EPIGENETIC REGULATION PLAYS A CRUCIAL ROLE IN ATHEROSCLEROSIS. OUR STUDY WAS AIMED AT FINDING POTENTIAL BIOMARKERS ASSOCIATED WITH THE OCCURRENCE OF ATHEROSCLEROSIS. TWO DATASETS WERE DOWNLOADED FROM THE GENE EXPRESSION OMNIBUS (GEO) DATABASE. THE EPIGENOME-WIDE ASSOCIATION STUDY (EWAS) ANALYSIS WAS PERFORMED ON METHYLATION DATA USING CPGASSOC PACKAGE. THE DIFFERENTIAL EXPRESSION ANALYSIS WAS CONDUCTED ON MRNA DATA USING LIMMA PACKAGE. THE GO (GENE ONTOLOGY) AND KEGG (KYOTO ENCYCLOPEDIA OF GENES AND GENOMES) FUNCTIONAL ENRICHMENT WAS DONE IN CLUSTERPROFILER PACKAGE. FINALLY, THE LOGISTIC REGRESSION MODEL WAS CONSTRUCTED USING GENERALIZED LINEAR MODEL (GLM) FUNCTION. BETWEEN ATHEROSCLEROTIC VS. NONATHEROSCLEROTIC SAMPLES, TOTALLY 4980 CYTOSINE-PHOSPHATE-GUANINE (CPG) SITES (ANNOTATED TO 2860 GENES) AND 132 DIFFERENTIALLY EXPRESSED GENES (DEGS) RELATED TO ATHEROSCLEROSIS WERE IDENTIFIED. THE ANNOTATED 2860 GENES AND 132 DEGS WERE SIGNIFICANTLY ENRICHED IN 9 AND 4 KEGG PATHWAYS AND 289 AND 132 GO TERMS, RESPECTIVELY. AFTER CROSS-ANALYSIS, 6 CRUCIAL CPG SITES WERE SCREENED TO BUILD THE MODEL, INCLUDING CG01187920, CG03422911, CG08018825, CG10967350, CG14473924, AND CG25313204. THE DIAGNOSTIC MODEL COULD RELIABLY SEPARATE THE ATHEROSCLEROSIS SAMPLES FROM NONATHEROSCLEROTIC SAMPLES. IN CONCLUSION, THE 6 CPG SITES ARE PROBABLY POTENTIAL DIAGNOSTIC BIOMARKERS FOR ATHEROSCLEROSIS, INCLUDING CG01187920, CG03422911, CG08018825, CG10967350, CG14473924, AND CG25313204. 2022 11 5001 26 PERINATAL RISK FACTORS IN TOURETTE'S AND CHRONIC TIC DISORDERS: A TOTAL POPULATION SIBLING COMPARISON STUDY. ADVERSE PERINATAL EVENTS MAY INCREASE THE RISK OF TOURETTE'S AND CHRONIC TIC DISORDERS (TD/CTD), BUT PREVIOUS STUDIES HAVE BEEN UNABLE TO CONTROL FOR UNMEASURED ENVIRONMENTAL AND GENETIC CONFOUNDING. WE AIMED TO PROSPECTIVELY INVESTIGATE POTENTIAL PERINATAL RISK FACTORS FOR TD/CTD, TAKING UNMEASURED FACTORS SHARED BETWEEN FULL SIBLINGS INTO ACCOUNT. A POPULATION-BASED BIRTH COHORT, CONSISTING OF ALL SINGLETONS BORN IN SWEDEN IN 1973-2003, WAS FOLLOWED UNTIL DECEMBER 2013. A TOTAL OF 3 026 861 INDIVIDUALS WERE IDENTIFIED, 5597 OF WHICH HAD A REGISTERED TD/CTD DIAGNOSIS. WE THEN STUDIED DIFFERENTIALLY EXPOSED FULL SIBLINGS FROM 947 942 FAMILIES; OF THESE, 3563 FAMILIES INCLUDED SIBLINGS THAT WERE DISCORDANT FOR TD/CTD. PERINATAL DATA WERE COLLECTED FROM THE MEDICAL BIRTH REGISTER AND TD/CTD DIAGNOSES WERE COLLECTED FROM THE NATIONAL PATIENT REGISTER, USING A PREVIOUSLY VALIDATED ALGORITHM. IN THE FULLY ADJUSTED MODELS, IMPAIRED FETAL GROWTH, PRETERM BIRTH, BREECH PRESENTATION AND CESAREAN SECTION WERE ASSOCIATED WITH A HIGHER RISK OF TD/CTD, LARGELY INDEPENDENT FROM SHARED FAMILY CONFOUNDERS AND MEASURED COVARIATES. MATERNAL SMOKING DURING PREGNANCY WAS ASSOCIATED WITH RISK OF TD/CTD IN A DOSE-RESPONSE MANNER BUT THE ASSOCIATION WAS NO LONGER STATISTICALLY SIGNIFICANT IN THE SIBLING COMPARISON MODELS OR AFTER THE EXCLUSION OF COMORBID ATTENTION-DEFICIT/HYPERACTIVITY DISORDER. A DOSE-RESPONSE RELATIONSHIP BETWEEN THE NUMBER OF ADVERSE PERINATAL EVENTS AND INCREASED RISK FOR TD/CTD WAS ALSO OBSERVED, WITH HAZARD RATIOS RANGING FROM 1.41 (95% CONFIDENCE INTERVAL (CI): 1.33-1.50) FOR ONE EVENT TO 2.42 (95% CI: 1.65-3.53) FOR FIVE OR MORE EVENTS. THESE RESULTS PAVE THE WAY FOR FUTURE GENE BY ENVIRONMENT INTERACTION AND EPIGENETIC STUDIES IN TD/CTD. 2018 12 3570 20 IMPACT OF JUVENILE HORMONE ANALOGUE INSECTICIDES ON THE WATER FLEA MOINA MACROCOPA: GROWTH, REPRODUCTION AND TRANSGENERATIONAL EFFECT. THE INCREASING QUANTITIES OF INSECTICIDES THAT LEACH INTO WATER BODIES SEVERELY AFFECT THE HEALTH OF THE AQUATIC ENVIRONMENT. JUVENILE HORMONE ANALOGUE (JHA) INSECTICIDES ARE ENDOCRINE DISRUPTERS THAT INTERFERE WITH HORMONAL ACTIVITY IN INSECTS BY MIMICKING JUVENILE HORMONES (JHS). BECAUSE THE STRUCTURE AND FUNCTIONS OF METHYL FARNESOATE IN CRUSTACEANS ARE SIMILAR TO THE INSECT JHS, EXOGENOUS JHA INSECTICIDES MAY CAUSE ADVERSE EFFECTS ON THE GROWTH AND REPRODUCTION IN CRUSTACEANS SIMILAR TO THOSE OBSERVED IN INSECTS. THIS STUDY EXAMINED THE TOXIC EFFECTS OF TWO JHA INSECTICIDES, METHOPRENE AND FENOXYCARB, ON THE WATER FLEA MOINA MACROCOPA. THE 24-H AND 48-H LC(50) VALUES FOR FENOXYCARB AND METHOPRENE WERE 0.53 AND 0.32 MG/L AND 0.70 AND 0.54 MG/L, RESPECTIVELY. CHRONIC EXPOSURE TO THE TWO JHAS CAUSED A SERIES OF TOXIC EFFECTS IN M. MACROCOPA, INCLUDING SHORTENING OF LIFE EXPECTANCY, REPRESSION OF BODY GROWTH, REDUCTION IN FECUNDITY, AND DISTURBED THE EXPRESSION OF GENES INVOLVED IN THE JH SIGNALING PATHWAY, IN CUTICLE DEVELOPMENT, AND IN THE CARBOHYDRATE, AMINO ACID, AND ATP METABOLIC PROCESSES. MOREOVER, JHA EXPOSURE IMPAIRED THE GROWTH AND REPRODUCTION OF THE OFFSPRING OF M. MACROCOPA EXPOSED TO JHAS, EVEN WHEN THE NEONATES WERE NOT EXPOSED TO THE CHEMICALS. IN ADDITION, CHANGES IN THE EXPRESSION OF GENES RELATED TO HISTONE METHYLATION INDICATE THAT EPIGENETIC CHANGES MAY PROMOTE TRANSGENERATIONAL IMPAIRMENT IN M. MACROCOPA. THESE RESULTS DEMONSTRATE THE TOXIC EFFECTS OF FENOXYCARB AND METHOPRENE ON NON-TARGET AQUATIC ORGANISMS. THE DAMAGES DONE BY THESE JHA INSECTICIDES TO THE AQUATIC ENVIRONMENT IS WORTHY OF OUR ATTENTION AND FURTHER STUDIES. 2020 13 3279 24 HERITABLE ALTERATION IN DNA METHYLATION INDUCED BY NITROGEN-DEFICIENCY STRESS ACCOMPANIES ENHANCED TOLERANCE BY PROGENIES TO THE STRESS IN RICE (ORYZA SATIVA L.). CYTOSINE METHYLATION IS RESPONSIVE TO VARIOUS BIOTIC- AND ABIOTIC-STRESSES, WHICH MAY PRODUCE HERITABLE EPIALLELES. NITROGEN (N)-DEFICIENCY IS AN ABIOTIC STRESS BEING REPEATEDLY EXPERIENCED BY PLANTS. TO ADDRESS POSSIBLE EPIGENETIC CONSEQUENCES OF N-DEFICIENCY-STRESS, WE INVESTIGATED THE STABILITY OF CYTOSINE METHYLATION IN RICE (ORYZA SATIVA L.) SUBSEQUENT TO A CHRONIC (A WHOLE-GENERATION) N-DEFICIENCY AT TWO LEVELS, MODERATE (20MG/L) AND SEVERE (10MG/L), UNDER HYDROPONIC CULTURE. MSAP ANALYSIS REVEALED THAT LOCUS-SPECIFIC METHYLATION ALTERATION OCCURRED IN LEAF-TISSUE OF THE STRESSED PLANTS (S(0)) EXPERIENCING EITHER LEVEL OF N-DEFICIENCY, WHICH WAS VALIDATED BY GEL-BLOTTING. ANALYSIS ON THREE NON-STRESSED SELF-FED PROGENIES (S(1), S(2) AND S(3)) BY GEL-BLOTTING INDICATED THAT CA. 50% OF THE ALTERED METHYLATION PATTERNS IN SOMATIC CELLS (LEAF) OF THE STRESSED S(0) PLANTS WERE RECAPTURED IN S(1), WHICH WERE THEN STABLY INHERITED TO S(2) AND S(3). BISULFITE SEQUENCING OF TWO VARIANT MSAP LOCI WITH HOMOLOGY TO LOW-COPY RETROTRANSPOSONS ON ONE STRESSED PLANT (S(0)) AND ITS NON-STRESSED PROGENIES (S(1) AND S(2)) SHOWED THAT WHEREAS ONE LOCUS EXHIBITED LIMITED AND NON-HERITABLE CHH METHYLATION ALTERATION, THE OTHER LOCUS MANIFESTED DRAMATIC HERITABLE HYPERMETHYLATION AT NEARLY ALL CYTOSINE SITES WITHIN THE ASSAYED REGION. INTRIGUINGLY, WHEN TWO GROUPS OF S(2) PLANTS DESCENDED FROM THE SAME N-DEFICIENCY-STRESSED S(0) PLANT WERE RE-SUBJECTED TO THE STRESS, THE GROUP INHERITING THE MODIFIED METHYLATION PATTERNS SHOWED ENHANCED TOLERANCE TO THE N-DEFICIENCY-STRESS COMPARED WITH THE GROUP BEARING THE ORIGINAL PATTERNS. OUR RESULTS THUS DEMONSTRATE HERITABILITY OF AN ACQUIRED ADAPTIVE TRAIT IN RICE, WHICH WAS ACCOMPANIED BY EPIGENETIC INHERITANCE OF MODIFIED CYTOSINE METHYLATION PATTERNS, IMPLICATING AN EPIGENETIC BASIS UNDERLYING THE INHERITANCE OF AN ACQUIRED TRAIT IN PLANTS. 2011 14 6072 29 THE DNA METHYLOME OF HUMAN VASCULAR ENDOTHELIUM AND ITS USE IN LIQUID BIOPSIES. BACKGROUND: VASCULAR ENDOTHELIAL CELLS (VECS) ARE AN ESSENTIAL COMPONENT OF EACH TISSUE, CONTRIBUTE TO MULTIPLE PATHOLOGIES, AND ARE TARGETED BY IMPORTANT DRUGS. YET, THERE IS A SHORTAGE OF BIOMARKERS TO ASSESS VEC TURNOVER. METHODS: TO DEVELOP DNA METHYLATION-BASED LIQUID BIOPSIES FOR VECS, WE DETERMINED THE METHYLOME OF VECS ISOLATED FROM FRESHLY DISSOCIATED HUMAN TISSUES. FINDINGS: A COMPARISON WITH A HUMAN CELL-TYPE METHYLOME ATLAS YIELDED THOUSANDS OF LOCI THAT ARE UNIQUELY UNMETHYLATED IN VECS. THESE SITES ARE TYPICALLY GENE ENHANCERS, OFTEN RESIDING ADJACENT TO VEC-SPECIFIC GENES. WE ALSO IDENTIFIED HUNDREDS OF GENOMIC LOCI THAT ARE DIFFERENTIALLY METHYLATED IN ORGANOTYPIC VECS, INDICATING THAT VECS FEEDING SPECIFIC ORGANS ARE DISTINCT CELL TYPES WITH A STABLE EPIGENETIC IDENTITY. WE ESTABLISHED UNIVERSAL AND LUNG-SPECIFIC VEC MARKERS AND EVALUATED THEIR PRESENCE IN CIRCULATING CELL-FREE DNA (CFDNA). NEARLY 2.5% OF CFDNA IN THE PLASMA OF HEALTHY INDIVIDUALS ORIGINATES FROM VECS. SEPSIS, GRAFT VERSUS HOST DISEASE, AND CARDIAC CATHETERIZATION ARE ASSOCIATED WITH ELEVATED LEVELS OF VEC-DERIVED CFDNA, INDICATIVE OF VASCULAR DAMAGE. LUNG-SPECIFIC VEC CFDNA IS SELECTIVELY ELEVATED IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) OR LUNG CANCER, REVEALING TISSUE-SPECIFIC VASCULAR TURNOVER. CONCLUSIONS: VEC CFDNA BIOMARKERS INFORM VASCULAR DYNAMICS IN HEALTH AND DISEASE, POTENTIALLY CONTRIBUTING TO EARLY DIAGNOSIS AND MONITORING OF PATHOLOGIES, AND ASSESSMENT OF DRUG ACTIVITY. FUNDING: THIS WORK WAS SUPPORTED BY THE BEUTLER RESEARCH PROGRAM, HELMSLEY CHARITABLE TRUST, JDRF, GRAIL AND THE DON FOUNDATION (TO Y.D.). Y.D HOLDS THE WALTER & GRETA STIEL CHAIR IN HEART STUDIES. B.G., R.S., J.M., D.N., T.K., AND Y.D. FILED PATENTS ON CFDNA ANALYSIS. 2023 15 608 23 BEYOND HOMEOSTASIS: UNDERSTANDING THE IMPACT OF PSYCHOSOCIAL FACTORS ON APPETITE USING NONHUMAN PRIMATE MODELS. ANIMAL MODELS HAVE PROVEN TO BE EXCEPTIONALLY INFORMATIVE IN DEFINING NEUROPEPTIDE REGULATION OF APPETITE AND ENERGY HOMEOSTASIS (GAO AND HORVATH 2007, BERTHOUD 2012, WILLIAMS AND ELMQUIST 2012). MORE RECENT STUDIES USING A RANGE OF ANIMAL MODELS AND MOLECULAR TOOLS ARE ELUCIDATING HOW EPIGENETIC CHANGES RESULTING FROM SPECIFIC PRENATAL AND POSTNATAL DIETARY ENVIRONMENTS OR EXPERIENCES AFFECT METABOLIC PROCESSES AND APPETITE REGULATION (LEVIN 2008, ZAMBRANO AND NATHANIELSZ 2013, BURDGE AND LILLYCROP 2014). TAKEN TOGETHER, THESE APPROACHES ARE HELPING TO DEFINE POSSIBLE TREATMENT INTERVENTIONS FOR EATING DISORDERS IN PEOPLE (CASPER, SULLIVAN, AND TECOTT 2008, FOLTIN 2012, VAN GESTEL ET AL. 2014, LUTTER, CROGHAN, AND CUI 2016). THE CHOICE OF ANIMAL USED IS BEST DICTATED BY THE QUESTION BEING ADDRESSED. BECAUSE OF SIMILARITIES IN PHYSIOLOGY AND NEUROBIOLOGY, STUDIES OF CAPTIVE NONHUMAN PRIMATES HAVE BEGUN TO CONTRIBUTE SIGNIFICANTLY TO OUR UNDERSTANDING OF APPETITE REGULATION (SEE WILSON ET AL. 2014 FOR A REVIEW). IMPORTANTLY, THE USE OF NONHUMAN PRIMATE MODELS PROVIDES THE UNIQUE OPPORTUNITY TO EXTEND ANALYSES BEYOND A FOCUS ON THE HOMEOSTATIC REGULATION OF APPETITE. THIS IS PARTICULARLY RELEVANT GIVEN THE WELL-ESTABLISHED NOTION THAT A NUMBER OF PSYCHOSOCIAL FACTORS INFLUENCE FOOD INTAKE IN PEOPLE (BRUCE AND RICCIARDELLI 2015), INCLUDING CHRONIC STRESSOR EXPOSURE (TSENKOVA, BOYLAN, AND RYFF 2013), EVEN IN CHILDREN (NGUYEN-RODRIGUEZ, UNGER, AND SPRUIJT-METZ 2009). WHILE THE IMPORTANCE OF PSYCHOSOCIAL FACTORS CAN BE MODELED IN NONPRIMATE ANIMALS (TAMASHIRO, HEGEMAN, AND SAKAI 2006), SOCIALLY HOUSED NONHUMAN PRIMATES SHARE MANY CHARACTERISTICS IN ADDITION TO PHYSIOLOGY AND NEUROBIOLOGY, WITH HUMANS INCREASING THE TRANSLATIONAL VALUE OF THESE PRE-CLINICAL STUDIES. 2017 16 3992 22 LONGITUDINAL EPIGENOME-WIDE ANALYSIS OF KIDNEY TRANSPLANT RECIPIENTS PRETRANSPLANT AND POSTTRANSPLANT. INTRODUCTION: KIDNEY TRANSPLANTATION REMAINS THE GOLD STANDARD OF TREATMENT FOR END-STAGE RENAL DISEASE (ESRD), WITH IMPROVED PATIENT OUTCOMES COMPARED WITH DIALYSIS. EPIGENOME-WIDE ASSOCIATION ANALYSIS (EWAS) OF DNA METHYLATION MAY IDENTIFY MARKERS THAT CONTRIBUTE TO AN INDIVIDUAL'S RISK OF ADVERSE TRANSPLANT OUTCOMES, YET ONLY A LIMITED NUMBER OF EWAS HAVE BEEN CONDUCTED IN KIDNEY TRANSPLANT RECIPIENTS. THIS EWAS AIMED TO INTERROGATE THE METHYLATION PROFILE OF A KIDNEY TRANSPLANT RECIPIENT COHORT WITH MINIMAL POSTTRANSPLANT COMPLICATIONS, EXPLORING DIFFERENCES IN SAMPLES PRETRANSPLANT AND POSTTRANSPLANT. METHODS: WE COMPARED DIFFERENTIALLY METHYLATED CYTOSINE-PHOSPHATE-GUANINE SITES (DMCPGS) IN SAMPLES DERIVED FROM PERIPHERAL BLOOD MONONUCLEAR CELLS OF THE SAME KIDNEY TRANSPLANT RECIPIENTS, COLLECTED BOTH PRETRANSPLANT AND POSTTRANSPLANT (N = 154), USING THE INFINIUM METHYLATIONEPIC MICROARRAY (ILLUMINA, SAN DIEGO, CA). RECIPIENTS RECEIVED KIDNEYS FROM DECEASED DONORS AND HAD A MEAN OF 17 YEARS OF FOLLOW-UP. RESULTS: FIVE TOP-RANKED DMCPGS WERE SIGNIFICANTLY DIFFERENT AT FALSE DISCOVERY RATE (FDR) ADJUSTED P /= 0.05), THEREBY THIS STUDY ESTABLISHES AN IMPORTANT REFERENCE FOR FUTURE EPIGENETIC STUDIES THAT SEEK TO IDENTIFY MARKERS OF POSTTRANSPLANT COMPLICATIONS. 2023 17 1187 29 COPD GWAS VARIANT AT 19Q13.2 IN RELATION WITH DNA METHYLATION AND GENE EXPRESSION. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS AMONG THE MAJOR HEALTH BURDENS IN ADULTS. WHILE CIGARETTE SMOKING IS THE LEADING RISK FACTOR, A GROWING NUMBER OF GENETIC VARIATIONS HAVE BEEN DISCOVERED TO INFLUENCE DISEASE SUSCEPTIBILITY. EPIGENETIC MODIFICATIONS MAY MEDIATE THE RESPONSE OF THE GENOME TO SMOKING AND REGULATE GENE EXPRESSION. CHROMOSOME 19Q13.2 REGION IS ASSOCIATED WITH BOTH SMOKING AND COPD, YET ITS FUNCTIONAL ROLE IS UNCLEAR. OUR STUDY AIMED TO DETERMINE WHETHER RS7937 (RAB4B, EGLN2), A TOP GENETIC VARIANT IN 19Q13.2 REGION IDENTIFIED IN GENOME-WIDE ASSOCIATION STUDIES OF COPD, IS ASSOCIATED WITH DIFFERENTIAL DNA METHYLATION IN BLOOD (N = 1490) AND GENE EXPRESSION IN BLOOD (N = 721) AND LUNGS (N = 1087). WE COMBINED GENETIC AND EPIGENETIC DATA FROM THE ROTTERDAM STUDY (RS) TO PERFORM THE EPIGENOME-WIDE ASSOCIATION ANALYSIS OF RS7937. FURTHER, WE USED GENETIC AND TRANSCRIPTOMIC DATA FROM BLOOD (RS) AND FROM LUNG TISSUE (LUNG EXPRESSION QUANTITATIVE TRAIT LOCI MAPPING STUDY), TO PERFORM THE TRANSCRIPTOME-WIDE ASSOCIATION STUDY OF RS7937. RS7937 WAS SIGNIFICANTLY (FDR < 0.05) AND CONSISTENTLY ASSOCIATED WITH DIFFERENTIAL DNA METHYLATION IN BLOOD AT 4 CPG SITES IN CIS, INDEPENDENT OF SMOKING. ONE METHYLATION SITE (CG11298343-EGLN2) WAS ALSO ASSOCIATED WITH COPD (P = 0.001). ADDITIONALLY, RS7937 WAS ASSOCIATED WITH GENE EXPRESSION LEVELS IN BLOOD IN CIS (EGLN2), 42% MEDIATED THROUGH CG11298343, AND IN LUNG TISSUE, IN CIS AND TRANS (NUMBL, EGLN2, DNMT3A, LOC101929709 AND PAK2). OUR RESULTS SUGGEST THAT CHANGES OF DNA METHYLATION AND GENE EXPRESSION MAY BE INTERMEDIATE STEPS BETWEEN GENETIC VARIANTS AND COPD, BUT FURTHER CAUSAL STUDIES IN LUNG TISSUE SHOULD CONFIRM THIS HYPOTHESIS. 2018 18 1422 25 DIFFERENTIAL CPG DNA METHYLATION OF PERIPHERAL B CELLS, CD4(+) T CELLS, AND SALIVARY GLAND TISSUES IN IGG4-RELATED DISEASE. OBJECTIVES: IMMUNOGLOBULIN-G4-RELATED DISEASE (IGG4-RD) IS A DISTINCT SYSTEMIC AUTOIMMUNE-MEDIATED DISEASE MANIFESTING AS CHRONIC INFLAMMATION AND TISSUE FIBROSIS. SINCE THE ROLE OF DNA METHYLATION IN THE PATHOGENESIS OF IGG4-RD IS STILL UNCLEAR, WE CONDUCT THIS STUDY TO INVESTIGATE EPIGENETIC MODIFICATIONS IN IGG4-RD. METHODS: A GENOME-WIDE DNA METHYLATION STUDY WAS CONDUCTED WITH B CELLS, CD4(+) T CELLS, AND SALIVARY GLAND TISSUES FROM IGG4-RD PATIENTS AND MATCHED CONTROLS BY USING THE ILLUMINA HUMANMETHYLATION 850K BEADCHIP. WE FURTHER PERFORMED PYROSEQUENCING AND IMMUNOHISTOCHEMISTRY ASSAYS TO VALIDATE THE METHYLATION STATUS OF SOME TARGETS OF INTEREST. RESULTS: WE IDENTIFIED DIFFERENTIALLY METHYLATED CPG SITES INCLUDING 44 HYPOMETHYLATED AND 166 HYPERMETHYLATED DIFFERENTIALLY METHYLATED PROBES (DMPS) IN B CELLS AND 260 HYPOMETHYLATED AND 112 HYPERMETHYLATED DMPS IN CD4(+) T CELLS FROM 10 IGG4-RD PATIENTS COMPARED WITH 10 HEALTHY CONTROLS. WE ALSO IDENTIFIED 36945 HYPOMETHYLATED AND 78380 HYPERMETHYLATED DMPS IN SALIVARY GLAND TISSUES OF 4 IGG4-RD PATIENTS COMPARED WITH 4 CONTROLS. DPM2 (CG21181453), IQCK (CG10266221), AND ABCC13 (CG05699681, CG04985582) WERE HYPERMETHYLATED AND MBP (CG18455083) WAS HYPOMETHYLATED IN B CELLS, CD4(+) T CELLS, AND SALIVARY GLAND TISSUES OF IGG4-RD PATIENTS. WE ALSO OBSERVED THE HYPOMETHYLATED HLA-DQB2 IN CD4(+) T CELLS FROM IGG4-RD PATIENTS. KYOTO ENCYCLOPEDIA OF GENES AND GENOMES (KEGG) PATHWAY ANALYSIS OF DMPS IN SALIVARY GLAND TISSUES OF IGG4-RD PATIENTS REVEALED ENRICHMENT OF PATHWAYS INVOLVED IN THE REGULATION OF IMMUNE CELL RESPONSES AND FIBROSIS. CONCLUSION: THIS IS THE FIRST DNA METHYLATION STUDY IN PERIPHERAL B CELLS, CD4(+) T CELLS, AND SALIVARY GLAND TISSUES FROM IGG4-RD PATIENTS. OUR FINDINGS HIGHLIGHTED THE ROLE OF EPIGENETIC MODIFICATION OF DNA METHYLATION AND IDENTIFIED SEVERAL GENES AND PATHWAYS POSSIBLY INVOLVED IN IGG4-RD PATHOGENESIS. 2023 19 1791 23 EFFECT OF CHRONIC RADIATION ON THE FLAX (LINUM USITATISSIMUM L.) GENOME GROWN FOR SIX CONSECUTIVE GENERATIONS IN THE RADIOACTIVE CHERNOBYL AREA. THE GROWTH OF PLANTS UNDER CHRONIC RADIATION STRESS IN THE CHERNOBYL AREA MAY CAUSE CHANGES IN THE GENOME OF PLANTS. TO ASSESS THE EXTENT OF GENETIC AND EPIGENETIC CHANGES IN NUCLEAR DNA, SEEDS OF THE ANNUAL CROP FLAX (LINUM USITATISSIMUM L.) OF THE KYIVSKYI VARIETY, SOWN 21 YEARS AFTER THE ACCIDENT AND GROWN FOR SIX GENERATIONS IN RADIOACTIVE (RAD) AND REMEDIATED (REM) FIELDS WERE ANALYSED. FLAXSEED USED FOR SOWING FIRST GENERATION, WHICH SERVED AS A REFERENCE (REF), WAS ALSO ANALYSED. THE AFLP (AMPLIFIED FRAGMENT LENGTH POLYMORPHISM) REVEALED A HIGHER NUMBER OF SPECIFIC ECORI-MSEI LOCI (3.4-FOLD) IN POOLED FLAXSEED SAMPLES HARVESTED FROM THE RAD FIELD COMPARED WITH THE REM FIELD, INDICATING A LINK BETWEEN THE MUTATION PROCESS IN THE FLAX GENOME AND THE ONGOING ADAPTATION PROCESS. MSAP (METHYLATION-SENSITIVE AMPLIFIED POLYMORPHISM) DETECTING ECORI-MSPI AND ECORI-HPAII LOCI IN FLAX NUCLEAR DNA GENOME SHOWED NO SIGNIFICANT DIFFERENCES IN METHYLATION LEVEL, REACHING ABOUT 33% IN EACH OF THE GROUPS STUDIED. ON THE OTHER HAND, SIGNIFICANT CHANGES IN THE DNA METHYLATION PATTERN OF FLAXSEED SAMPLES HARVESTED FROM THE RAD FIELD COMPARED WITH CONTROLS WERE DETECTED. PAIRWISE F(ST) COMPARISON REVEALED WITHIN BOTH, ECORI-MSPI AND TRANSFORMED METHYLATION-SENSITIVE DATA SETS MORE THAN A 3-FOLD INCREASE OF GENETIC DIVERGENCE IN THE RAD FIELD COMPARED WITH BOTH CONTROLS. THESE RESULTS INDICATE THAT THE NUCLEAR GENOME OF FLAX EXPOSED TO CHRONIC RADIATION FOR SIX GENERATIONS HAS MORE MUTATIONS AND USES DNA METHYLATION AS ONE OF THE ADAPTATION MECHANISMS FOR SUSTAINABILITY UNDER ADVERSE CONDITIONS. 2022 20 4240 15 METHYLATION QUANTITATIVE TRAIT LOCUS ANALYSIS OF CHRONIC POSTSURGICAL PAIN UNCOVERS EPIGENETIC MEDIATORS OF GENETIC RISK. BACKGROUND: OVERLAP OF PATHWAYS ENRICHED BY SINGLE NUCLEOTIDE POLYMORPHISMS AND DNA-METHYLATION UNDERLYING CHRONIC POSTSURGICAL PAIN (CPSP), PROMPTED PILOT STUDY OF CPSP-ASSOCIATED METHYLATION QUANTITATIVE TRAIT LOCI (MEQTL). MATERIALS & METHODS: CHILDREN UNDERGOING SPINE-FUSION WERE RECRUITED PROSPECTIVELY. LOGISTIC-REGRESSION FOR GENOME- AND EPIGENOME-WIDE CPSP ASSOCIATION AND DNA-METHYLATION-SINGLE NUCLEOTIDE POLYMORPHISM ASSOCIATION/MEDIATION ANALYSES TO IDENTIFY MEQTLS WERE FOLLOWED BY FUNCTIONAL GENOMICS ANALYSES. RESULTS: CPSP (N = 20/58) AND NON-CPSP GROUPS DIFFERED IN PAIN-MEASURES. OF 2753 MEQTLS, DNA-METHYLATION AT 127 CYTOSINE-GUANINE DINUCLEOTIDES MEDIATED ASSOCIATION OF 470 MEQTLS WITH CPSP (P < 0.05). AT PARK16 LOCUS, CPSP RISK MEQTLS WERE ASSOCIATED WITH DECREASED DNA-METHYLATION AT RAB7L1 AND INCREASED DNA-METHYLATION AT PM20D1. CORRESPONDING RAB7L1/PM20D1 BLOOD EQTLS (GTEX) AND CYTOSINE-GUANINE DINUCLEOTIDE-LOCI ENRICHMENT FOR HISTONE MARKS, TRANSCRIPTION FACTOR BINDING SITES AND ATAC-SEQ PEAKS SUGGEST ALTERED TRANSCRIPTION FACTOR-BINDING. CONCLUSION: CPSP-ASSOCIATED MEQTLS INDICATE EPIGENETIC MECHANISMS MEDIATE GENETIC RISK. CLINICAL TRIAL REGISTRATION: NCT01839461, NCT01731873 (CLINICALTRIALS.GOV). 2021