1 4841 145 ONE WEEK, BUT NOT 12 HOURS, OF CAST IMMOBILIZATION ALTERS PROMOTOR DNA METHYLATION PATTERNS IN THE NNOS GENE IN MOUSE SKELETAL MUSCLE. KEY POINTS: DNA METHYLATION MAY PLAY AN IMPORTANT ROLE IN REGULATING GENE EXPRESSION IN SKELETAL MUSCLE TO ADAPT TO PHYSICAL ACTIVITY AND INACTIVITY. NEURONAL NITRIC OXIDE SYNTHASE (NNOS) IN SKELETAL MUSCLE IS A KEY REGULATOR OF SKELETAL MUSCLE MASS; HOWEVER, IT IS UNCLEAR WHETHER NNOS EXPRESSION IS REGULATED BY DNA METHYLATION. WE FOUND THAT 1 WEEK OF CAST IMMOBILIZATION INCREASED NNOS DNA METHYLATION LEVELS AND DOWNREGULATED NNOS GENE EXPRESSION IN ATROPHIC SLOW-TWITCH SOLEUS MUSCLE FROM THE MOUSE LEG. THESE CHANGES WERE NOT DETECTED IN NON-ATROPHIC FAST-TWITCH EXTENSOR DIGITORUM LONGUS MUSCLE. TWELVE HOURS OF CAST IMMOBILIZATION DECREASED NNOS GENE EXPRESSION, WHEREAS NNOS DNA METHYLATION LEVELS WERE UNCHANGED, SUGGESTING THAT DOWNREGULATION OF NNOS GENE EXPRESSION BY SHORT-TERM MUSCLE INACTIVITY IS INDEPENDENT OF THE DNA METHYLATION PATTERN. THESE FINDINGS CONTRIBUTE TO A BETTER UNDERSTANDING OF THE MAINTENANCE OF SKELETAL MUSCLE MASS AND PREVENTION OF MUSCLE ATROPHY BY EPIGENETIC MECHANISMS VIA THE NNOS/NO PATHWAY. ABSTRACT: DNA METHYLATION IS A MECHANISM THAT CONTROLS GENE EXPRESSION IN SKELETAL MUSCLE UNDER VARIOUS ENVIRONMENTAL STIMULI, SUCH AS PHYSICAL ACTIVITY AND INACTIVITY. NEURONAL NITRIC OXIDE SYNTHASE (NNOS) REGULATES MUSCLE ATROPHY IN SKELETAL MUSCLE. HOWEVER, THE MECHANISMS REGULATING NNOS EXPRESSION IN ATROPHIC MUSCLE REMAIN UNCLEAR. WE HYPOTHESIZED THAT NNOS EXPRESSION IN ATROPHIC MUSCLE IS REGULATED BY DNA METHYLATION OF THE NNOS PROMOTOR IN SOLEUS (SOL; SLOW-TWITCH FIBRE DOMINANT) AND EXTENSOR DIGITORUM LONGUS (EDL; FAST-TWITCH FIBRE DOMINANT) MUSCLES. ONE WEEK OF CAST IMMOBILIZATION INDUCED SIGNIFICANT MUSCLE ATROPHY IN SOL BUT NOT IN EDL. WE SHOWED THAT 1 WEEK OF CAST IMMOBILIZATION INCREASED NNOS DNA METHYLATION LEVELS IN SOL, ALTHOUGH ONLY A MINOR CHANGE WAS DETECTED IN EDL. CONSISTENT WITH THE INCREASED DNA METHYLATION LEVELS IN ATROPHIC SOL, THE GENE EXPRESSION LEVELS OF TOTAL NNOS AND NNOSMICRO (I.E. THE MAJOR SPLICING VARIANT OF NNOS IN SKELETAL MUSCLE) DECREASED. THE ABUNDANCE OF THE NNOS PROTEIN AND CELL MEMBRANE (ESPECIALLY TYPE IIA FIBRE) IMMUNOREACTIVITY ALSO DECREASED IN ATROPHIC SOL. THESE CHANGES WERE NOT OBSERVED IN EDL AFTER 1 WEEK OF CAST IMMOBILIZATION. FURTHERMORE, DESPITE THE LACK OF SIGNIFICANT ATROPHY, 12 H OF CAST IMMOBILIZATION DECREASED GENE EXPRESSION LEVELS OF TOTAL NNOS AND NNOSMICRO IN SOL. HOWEVER, NO ASSOCIATION WAS DETECTED BETWEEN NNOS DNA METHYLATION AND GENE EXPRESSION. THE EXPRESSION OF THE NNOSBETA GENE, ANOTHER SPLICING VARIANT OF NNOS, IN EDL WAS UNCHANGED BY CAST IMMOBILIZATION, WHEREAS ITS EXPRESSION WAS NOT DETECTED IN SOL. WE CONCLUDED THAT CHRONIC ADAPTATION OF NNOS GENE EXPRESSION IN CAST IMMOBILIZED MUSCLE MAY INVOLVE NNOS DNA METHYLATION. 2019 2 3589 33 IMPACTS OF ECCENTRIC RESISTANCE EXERCISE ON DNA METHYLATION OF CANDIDATE GENES FOR INFLAMMATORY CYTOKINES IN SKELETAL MUSCLE AND LEUKOCYTES OF HEALTHY MALES. PHYSICAL INACTIVITY AND A POOR DIET INCREASE SYSTEMIC INFLAMMATION, WHILE CHRONIC INFLAMMATION CAN BE REDUCED THROUGH EXERCISE AND NUTRITIONAL INTERVENTIONS. THE MECHANISMS UNDERLYING THE IMPACTS OF LIFESTYLE INTERVENTIONS ON INFLAMMATION REMAIN TO BE FULLY EXPLAINED; HOWEVER, EPIGENETIC MODIFICATIONS MAY BE CRITICAL. THE PURPOSE OF OUR STUDY WAS TO INVESTIGATE THE IMPACTS OF ECCENTRIC RESISTANCE EXERCISE AND FATTY ACID SUPPLEMENTATION ON DNA METHYLATION AND MRNA EXPRESSION OF TNF AND IL6 IN SKELETAL MUSCLE AND LEUKOCYTES. EIGHT NON-RESISTANCE EXERCISE-TRAINED MALES COMPLETED THREE BOUTS OF ISOKINETIC ECCENTRIC CONTRACTIONS OF THE KNEE EXTENSORS. THE FIRST BOUT OCCURRED AT BASELINE, THE SECOND OCCURRED FOLLOWING A THREE-WEEK SUPPLEMENTATION OF EITHER OMEGA-3 POLYUNSATURATED FATTY ACID OR EXTRA VIRGIN OLIVE OIL AND THE FINAL BOUT OCCURRED AFTER EIGHT-WEEKS OF ECCENTRIC RESISTANCE TRAINING AND SUPPLEMENTATION. ACUTE EXERCISE DECREASED SKELETAL MUSCLE TNF DNA METHYLATION BY 5% (P = 0.031), WHEREAS IL6 DNA METHYLATION INCREASED BY 3% (P = 0.01). LEUKOCYTE DNA METHYLATION WAS UNCHANGED FOLLOWING EXERCISE (P > 0.05); HOWEVER, THREE HOURS POST-EXERCISE THE TNF DNA METHYLATION DECREASED BY 2% (P = 0.004). IN SKELETAL MUSCLE, INCREASED TNF AND IL6 MRNA EXPRESSION LEVELS WERE IDENTIFIED IMMEDIATELY POST-EXERCISE (P < 0.027); HOWEVER, THE LEUKOCYTE MRNA EXPRESSION WAS UNCHANGED. ASSOCIATIONS BETWEEN DNA METHYLATION AND MARKERS OF EXERCISE PERFORMANCE, INFLAMMATION AND MUSCLE DAMAGE WERE IDENTIFIED (P < 0.05). ACUTE ECCENTRIC RESISTANCE EXERCISE IS SUFFICIENT TO INDUCE TISSUE-SPECIFIC DNA METHYLATION MODIFICATIONS TO TNF AND IL6; HOWEVER, NEITHER ECCENTRIC TRAINING NOR SUPPLEMENTATION WAS SUFFICIENT TO FURTHER MODIFY THE DNA METHYLATION. 2023 3 2681 36 EVALUATION OF MUSCLE-SPECIFIC AND METABOLISM REGULATING MICRORNAS IN A CHRONIC SWIMMING RAT MODEL. MAKING BENEFIT FROM THE EPIGENETIC EFFECTS OF ENVIRONMENTAL FACTORS SUCH AS PHYSICAL ACTIVITY MAY RESULT IN A CONSIDERABLE IMPROVEMENT IN THE PREVENTION OF CHRONIC CIVILIZATION DISEASES. IN OUR CHRONIC SWIMMING RAT MODEL, THE EXPRESSION LEVELS OF SUCH MICRORNAS WERE CHARACTERIZED, THAT ARE INVOLVED IN SKELETAL MUSCLE DIFFERENTIATION, HYPERTROPHY AND FINE-TUNING OF METABOLISM, WHICH PROCESSES ARE INFLUENCED BY CHRONIC ENDURANCE TRAINING, CONTRIBUTING TO THE METABOLIC ADAPTATION OF SKELETAL MUSCLE DURING PHYSICAL ACTIVITY. AFTER CHRONIC SWIMMING, THE LEVEL OF MIR-128A INCREASED SIGNIFICANTLY IN EDL MUSCLES, WHICH MAY INFLUENCE METABOLIC ADAPTATION AND STRESS RESPONSE AS WELL. IN SOL, THE EXPRESSION LEVEL OF MIR-15B AND MIR-451 DECREASED SIGNIFICANTLY AFTER CHRONIC SWIMMING, WHICH CHANGES ARE OPPOSITE TO THEIR PREVIOUSLY DESCRIBED INCREMENT IN INSULIN RESISTANT SKELETAL MUSCLE. MIR-451 ALSO TARGETS PGC-1ALPHA MRNA, WHICHES EXPRESSION LEVEL SIGNIFICANTLY INCREASED IN SOL MUSCLES, RESULTING IN ENHANCED BIOGENESIS AND OXIDATIVE CAPACITY OF MITOCHONDRIA. IN SUMMARY, THE MICRORNA EXPRESSION CHANGES THAT WERE OBSERVED DURING OUR EXPERIMENTS SUGGEST THAT CHRONIC SWIM TRAINING CONTRIBUTES TO A BENEFICIAL METABOLIC PROFILE OF SKELETAL MUSCLE. 2022 4 286 37 AGING AND ALCOHOL INTERACT TO ALTER HEPATIC DNA HYDROXYMETHYLATION. BACKGROUND: AGING AND CHRONIC ALCOHOL CONSUMPTION ARE BOTH MODIFIERS OF DNA METHYLATION, BUT IT IS NOT YET KNOWN WHETHER CHRONIC ALCOHOL CONSUMPTION ALSO ALTERS DNA HYDROXYMETHYLATION, A NEWLY DISCOVERED EPIGENETIC MARK PRODUCED BY OXIDATION OF METHYLCYTOSINE. FURTHERMORE, IT HAS NOT BEEN TESTED WHETHER AGING AND ALCOHOL INTERACT TO MODIFY THIS EPIGENETIC PHENOMENON, THEREBY HAVING AN INDEPENDENT EFFECT ON GENE EXPRESSION. METHODS: OLD (18 MONTHS) AND YOUNG (4 MONTHS) MALE C57BL/6 MICE WERE PAIR-FED EITHER A LIEBER-DECARLI LIQUID DIET WITH ALCOHOL (18% OF ENERGY) OR AN ISOCALORIC LIEBER-DECARLI CONTROL DIET FOR 5 WEEKS. GLOBAL DNA HYDROXYMETHYLATION AND DNA METHYLATION WERE ANALYZED FROM HEPATIC DNA USING A NEW LIQUID CHROMATOGRAPHY-TANDEM MASS SPECTROMETRY METHOD. HEPATIC MRNA EXPRESSION OF THE TET ENZYMES WERE MEASURED VIA QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION. RESULTS: IN YOUNG MICE, MILD CHRONIC ALCOHOL EXPOSURE SIGNIFICANTLY REDUCED GLOBAL DNA HYDROXYMETHYLATION COMPARED WITH CONTROL MICE (0.22 +/- 0.01 VS. 0.29 +/- 0.06%, P = 0.004). ALCOHOL DID NOT SIGNIFICANTLY ALTER HYDROXYMETHYLCYTOSINE LEVELS IN OLD MICE. OLD MICE FED THE CONTROL DIET SHOWED DECREASED GLOBAL DNA HYDROXYMETHYLATION COMPARED WITH YOUNG MICE FED THE CONTROL DIET (0.24 +/- 0.02 VS. 0.29 +/- 0.06%, P = 0.04). THIS MODEL SUGGESTS AN INTERACTION BETWEEN AGING AND ALCOHOL IN DETERMINING DNA HYDROXYMETHYLATION (PINTERACTION = 0.009). EXPRESSION OF TET2 AND TET3 WAS DECREASED IN THE OLD MICE RELATIVE TO THE YOUNG (P < 0.005). CONCLUSIONS: THE OBSERVATION THAT ALCOHOL ALTERS DNA HYDROXYMETHYLATION INDICATES A NEW EPIGENETIC EFFECT OF ALCOHOL. THIS IS THE FIRST STUDY DEMONSTRATING THE INTERACTIVE EFFECTS OF CHRONIC ALCOHOL CONSUMPTION AND AGING ON DNA HYDROXYMETHYLATION. 2014 5 2866 31 FUNCTIONAL ADULT ACETYLCHOLINE RECEPTOR DEVELOPS INDEPENDENTLY OF MOTOR INNERVATION IN SOL 8 MOUSE MUSCLE CELL LINE. WE HAVE DEFINED CULTURE CONDITIONS, USING A FEEDER LAYER OF CELLS FROM THE EMBRYONIC MESENCHYMAL CELL LINE, 10T1/2 AND A SERUM-FREE MEDIUM, WHICH ALLOW CELLS FROM THE MOUSE MYOGENIC CELL LINE SOL 8 TO FORM CONTRACTING MYOTUBES FOR TWO WEEKS. UNDER THESE CULTURE CONDITIONS, SOL 8 MYOTUBES UNDERGO A MATURATION PROCESS CHARACTERIZED BY A SEQUENTIAL EXPRESSION OF TWO PHENOTYPES. AN EARLY PHENOTYPE IS TYPIFIED BY THE EXPRESSION OF THE NICOTINIC ACETYLCHOLINE RECEPTOR (ACHR) GAMMA-SUBUNIT TRANSCRIPTS AND THE PRESENCE OF LOW CONDUCTANCE ACH-ACTIVATED CHANNELS, TYPICAL OF EMBRYONIC ACHR. A LATE PHENOTYPE IS CHARACTERIZED BY THE EXPRESSION OF ACHR EPSILON-SUBUNIT TRANSCRIPTS, THE DECREASED ACCUMULATION OF GAMMA-SUBUNIT TRANSCRIPTS AND THE APPEARANCE OF HIGH CONDUCTANCE ACH-ACTIVATED CHANNELS, TYPICAL OF ADULT ACHR. THESE RESULTS INDICATE THAT THE EXPRESSION OF FUNCTIONAL ADULT TYPE ACHR DOES NOT REQUIRE THE PRESENCE OF THE MOTOR NERVE AND THEREFORE REPRESENTS AN INTRINSIC FEATURE OF THE SOL 8 MUSCLE CELLS. CHRONIC EXPOSURE OF THE CELLS TO THE VOLTAGE-SENSITIVE NA+ CHANNEL BLOCKING AGENT TETRODOTOXIN DOES NOT AFFECT THE APPEARANCE OF THE ACHR EPSILON-SUBUNIT TRANSCRIPTS BUT PREVENTS THE REDUCTION OF THE STEADY-STATE LEVEL OF THE ACHR GAMMA-SUBUNIT TRANSCRIPTS AND YIELDS A REDUCED PROPORTION OF THE ADULT TYPE CHANNELS. THUS, ACTIVITY SEEMS TO FACILITATE THE SWITCH FROM THE EMBRYONIC TO THE ADULT PHENOTYPE OF THE ACHR PROTEIN. THE SOL 8 CELL SYSTEM MIGHT BE USEFUL TO ANALYSE FURTHER THE GENETIC AND EPIGENETIC REGULATION OF MUSCLE FIBRE MATURATION IN MAMMALS. 1991 6 4349 31 MIR-155 AND MIR-122 EXPRESSION OF SPERMATOZOA IN OBESE SUBJECTS. OBESITY IS CHARACTERIZED BY MILD CHRONIC INFLAMMATION THAT IS LINKED WITH IMPAIRED IRON HOMEOSTASIS. STUDIES IN HUMAN AND MURINE SHOW THAT THERE IS A TRANSGENERATIONAL EPIGENETIC INHERITANCE VIA THE GAMETES IN OBESITY; HOWEVER, THERE IS LITTLE INFORMATION ON CHANGES IN THE EXPRESSION OF MICRORNAS RELATED TO INFLAMMATION AND IRON HOMEOSTASIS IN SPERMATOZOA FROM OBESE SUBJECTS. THE PRESENT STUDY INVESTIGATED THE EXPRESSION OF MICRORNAS RELATED TO INFLAMMATION (MIR-21 Y MIR-155) AND IRON NUTRITION (MIR-122 AND MIR-200B) IN PLASMA, PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMC) AND SPERMATOZOA FROM NORMOZOOSPERMIC CONTROLS (CN; N = 17; BMI: 24.6 +/- 2.0) AND OBESE (OB; N = 17; BMI: 32.6 +/- 4.4) MEN. TO DETERMINE THE INFLAMMATION LEVELS, WE MEASURED IL-6, TNF-ALPHA, AND MONOCYTE CHEMOATTRACTANT PROTEIN-1 (MCP1) BY MAGNETIC LUMINEX((R)) ASSAY. MRNA EXPRESSION OF IL6, TNF-ALPHA, AND HEPCIDIN (HAMP) IN PBMC WERE EVALUATED BY RT-QPCR. THE ANALYSIS OF MICRORNAS WAS PERFORMED USING THE TAQMAN((R)) ASSAYS. THE IRON CONTENT IN PBMC, SEMINAL PLASMA, AND SPERMATOZOA WAS DETERMINED BY INDUCTIVELY COUPLED PLASMA MASS SPECTROMETRY (ICP-MS). HIGH SERUM IL6, TNF-ALPHA, AND MCP1 LEVELS WERE OBSERVED IN OB GROUP (P < 0.05). GENE EXPRESSION ANALYSIS SHOWED AN INCREASED ABUNDANCE RELATIVE OF TNF-ALPHA (P = 0.018), HAMP (P = 0.03), AND IL6 (P = 0.02) IN PBMC FROM OBESE SUBJECTS. ALSO, WE OBSERVED HIGH LEVELS OF SERUM FERRITIN (P = 0.03), IRON CONTENT IN SEMINAL PLASMA (P = 0.04), AND SPERMATOZOA (P = 0.002), BUT LOWER SERUM FE (P = 0.007) IN OBESE SUBJECTS. IN THE OB GROUP, A HIGH EXPRESSION OF MIR-155 (P = 0.02) AND MIR-21 (P = 0.03) WAS OBSERVED IN PBMC AND MIR-122 (P = 0.03) IN PLASMA. IN SPERM, BOTH MIR-155 (P = 0.004) AND MIR-122 (P = 0.028) WERE HIGH IN THE OB GROUP. OUR RESULTS SHOWED THAT OBESE SUBJECTS HAVE INCREASED EXPRESSIONS OF MIR-155 AND MIR-122, TWO MICRORNAS THAT WERE PREVIOUSLY RELATED WITH INFLAMMATION AND IRON METABOLISM, RESPECTIVELY, AT BOTH THE SYSTEMIC AND SPERM LEVELS. 2018 7 2120 29 EPIGENETIC HISTONE MODIFICATIONS IN A CLINICALLY RELEVANT RAT MODEL OF CHRONIC ETHANOL-BINGE-MEDIATED LIVER INJURY. PURPOSE: ETHANOL BINGE AUGMENTS LIVER INJURY AFTER CHRONIC ETHANOL CONSUMPTION IN HUMANS, BUT THE MECHANISM BEHIND THE ENHANCED LIVER INJURY BY ETHANOL BINGE IS NOT KNOWN. IN THIS STUDY WE USED A CLINICALLY RELEVANT RAT MODEL IN WHICH LIVER INJURY IS AMPLIFIED BY BINGE AFTER CHRONIC ETHANOL TREATMENT AND INVESTIGATED THE IMPORTANCE OF HISTONE MODIFICATIONS. METHODS: EIGHT-WEEK-OLD SPRAGUE-DAWLEY RATS WERE FED ETHANOL IN A LIQUID DIET FOR 4 WEEKS. CONTROL RATS WERE FED AN ISOCALORIC LIQUID DIET. THIS WAS FOLLOWED BY THREE BINGE ADMINISTRATIONS OF ETHANOL (INTRAGASTRIC 5 G/KG BODY WEIGHT, 12 H APART). IN THE CONTROL, ETHANOL WAS REPLACED BY WATER. FOUR HOURS AFTER THE LAST BINGE ADMINISTRATION, LIVER SAMPLES WERE ANALYZED FOR HISTONE MODIFICATIONS AND PARAMETERS OF LIVER INJURY. RESULTS: CHRONIC ETHANOL ADMINISTRATION ALONE CAUSED AN INCREASE IN HISTONE H3 SER10 AND SER28 (H3S10 OR S28) PHOSPHORYLATION, AND BINGE ETHANOL REDUCED THEIR LEVELS. LEVELS OF DUALLY MODIFIED PHOSPHOACETYLATED HISTONE H3 (H3ACK9/PS10) INCREASED AFTER ACUTE BINGE ETHANOL AND REMAINED SAME AFTER CHRONIC ETHANOL BINGE. IN CONTRAST, HISTONE H3 LYSINE-9 ACETYLATION (H3ACK9) WAS NOT INCREASED AFTER CHRONIC ETHANOL BUT INCREASED SIGNIFICANTLY AFTER ACUTE BINGE AND CHRONIC ETHANOL BINGE. INCREASE IN HISTONE ACETYLATION WAS ACCOMPANIED BY INCREASED PHOSPHO-ERK1/2 IN THE NUCLEAR EXTRACTS. INCREASED ACETYLATION AFTER CHRONIC ETHANOL BINGE WAS ALSO ACCOMPANIED BY INCREASED PROTEIN LEVELS OF GCN5 HISTONE ACETYL TRANSFERASE AND A MODEST INCREASE IN HDAC3 IN THE NUCLEUS. HISTONE LYSINE-9 DIMETHYLATION WAS SIGNIFICANTLY INCREASED AFTER CHRONIC ETHANOL BINGE. CHRONIC ETHANOL BINGE ALSO RESULTED IN A DECREASE IN THE SAM:SAH RATIO WITH A RELATIVE DECREASE OF SAM LEVELS AND A CORRESPONDING INCREASE IN SAH LEVELS. CONCLUSIONS: ETHANOL BINGE AFTER CHRONIC ETHANOL ALTERED THE PROFILE OF SITE-SPECIFIC HISTONE MODIFICATIONS AND MAY UNDERLIE THE MECHANISM OF AUGMENTED LIVER INJURY BY CHRONIC-ETHANOL-BINGE-TREATED RATS. 2014 8 219 29 ACUTE IMMOBILIZATION STRESS FOLLOWING CONTEXTUAL FEAR CONDITIONING REDUCES FEAR MEMORY: TIMING IS ESSENTIAL. BACKGROUND: HISTONE ACETYLATION IS REGULATED IN RESPONSE TO STRESS AND PLAYS AN IMPORTANT ROLE IN LEARNING AND MEMORY. CHRONIC STRESS IS KNOWN TO DETERIORATE COGNITION, WHEREAS ACUTE STRESS FACILITATES MEMORY FORMATION. HOWEVER, WHETHER ACUTE STRESS FACILITATES MEMORY FORMATION WHEN IT IS APPLIED AFTER FEAR STIMULATION IS NOT YET KNOWN. THEREFORE, THIS STUDY AIMED TO INVESTIGATE THE EFFECT OF ACUTE STRESS APPLIED AFTER FEAR TRAINING ON MEMORY FORMATION, MRNA EXPRESSION OF BRAIN-DERIVED NEUROTROPHIC FACTOR (BDNF), EPIGENETIC REGULATION OF BDNF EXPRESSION, AND CORTICOSTERONE LEVEL IN MICE IN VIVO. METHODS: MICE WERE SUBJECTED TO ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 OR 90 MIN AFTER CONTEXTUAL FEAR CONDITIONING TRAINING, AND ACETYLATION OF HISTONE 3 AT LYSINE 14 (H3K14) AND LEVEL OF CORTICOSTERONE WERE MEASURED USING WESTERN BLOT ANALYSIS AND ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA), RESPECTIVELY. A FREEZING BEHAVIOR TEST WAS PERFORMED 24 H AFTER TRAINING, AND MRNA EXPRESSION OF BDNF WAS MEASURED USING REAL-TIME POLYMERASE CHAIN REACTIONS. DIFFERENT GROUPS OF MICE WERE USED FOR EACH TEST. RESULTS: FREEZING BEHAVIOR SIGNIFICANTLY DECREASED WITH THE DOWN-REGULATION OF BDNF MRNA EXPRESSION CAUSED BY ACUTE IMMOBILIZATION STRESS AT 60 MIN AFTER FEAR CONDITIONING TRAINING OWING TO THE REDUCTION OF H3K14 ACETYLATION. HOWEVER, BDNF MRNA EXPRESSION AND H3K14 ACETYLATION WERE NOT REDUCED IN ANIMALS SUBJECTED TO IMMOBILIZATION STRESS AT 90 MIN AFTER THE TRAINING. FURTHER, THE CORTICOSTERONE LEVEL WAS SIGNIFICANTLY HIGH IN MICE SUBJECTED TO IMMOBILIZATION STRESS AT 60 MIN AFTER THE TRAINING. CONCLUSION: ACUTE IMMOBILIZATION STRESS FOR 30 MIN AT 60 MIN AFTER FEAR CONDITIONING TRAINING IMPAIRED MEMORY FORMATION AND REDUCED BDNF MRNA EXPRESSION AND H3K14 ACETYLATION IN THE HIPPOCAMPUS OF MICE OWING TO THE HIGH LEVEL OF CORTICOSTERONE. 2016 9 1559 35 DNA METHYLATION MODULATES NOCICEPTIVE SENSITIZATION AFTER INCISION. DNA METHYLATION IS A KEY EPIGENETIC MECHANISM CONTROLLING DNA ACCESSIBILITY AND GENE EXPRESSION. BLOCKADE OF DNA METHYLATION CAN SIGNIFICANTLY AFFECT PAIN BEHAVIORS IMPLICATED IN NEUROPATHIC AND INFLAMMATORY PAIN. HOWEVER, THE ROLE OF DNA METHYLATION WITH REGARD TO POSTOPERATIVE PAIN HAS NOT YET BEEN EXPLORED. IN THIS STUDY WE SOUGHT TO INVESTIGATE THE ROLE OF DNA METHYLATION IN MODULATING INCISIONAL PAIN AND IDENTIFY POSSIBLE TARGETS UNDER DNA METHYLATION AND CONTRIBUTING TO INCISIONAL PAIN. DNA METHYLTRANFERASE (DNMT) INHIBITOR 5-AZA-2'-DEOXYCYTIDINE SIGNIFICANTLY REDUCED INCISION-INDUCED MECHANICAL ALLODYNIA AND THERMAL SENSITIVITY. AZA-2'-DEOXYCYTIDINE ALSO REDUCED HINDPAW SWELLING AFTER INCISION, SUGGESTING AN ANTI-INFLAMMATORY EFFECT. GLOBAL DNA METHYLATION AND DNMT3B EXPRESSION WERE INCREASED IN SKIN AFTER INCISION, BUT NONE OF DNMT1, DNMT3A OR DNMT3B WAS ALTERED IN SPINAL CORD OR DRG. THE EXPRESSION OF PROOPIOMELANOCORTIN POMC ENCODING BETA-ENDORPHIN AND OPRM1 ENCODING THE MU-OPIOID RECEPTOR WERE UPREGULATED PERIPHERALLY AFTER INCISION; MOREOVER, OPRM1 EXPRESSION WAS FURTHER INCREASED UNDER DNMT INHIBITOR TREATMENT. FINALLY, LOCAL PERIPHERAL INJECTION OF THE OPIOID RECEPTOR ANTAGONIST NALOXONE SIGNIFICANTLY EXACERBATED INCISION-INDUCED MECHANICAL HYPERSENSITIVITY. THESE RESULTS SUGGEST THAT DNA METHYLATION IS FUNCTIONALLY RELEVANT TO INCISIONAL NOCICEPTIVE SENSITIZATION, AND THAT MU-OPIOID RECEPTOR SIGNALING MIGHT BE ONE METHYLATION REGULATED PATHWAY CONTROLLING SENSITIZATION AFTER INCISION. 2015 10 872 41 CHRONIC ALCOHOL EXPOSURE DIFFERENTIALLY ALTERS ONE-CARBON METABOLISM IN RAT LIVER AND BRAIN. BACKGROUND: EPIGENETIC MECHANISMS SUCH AS DNA METHYLATION PLAY AN IMPORTANT ROLE IN REGULATING THE PATHOPHYSIOLOGY OF ALCOHOLISM. CHRONIC ALCOHOL EXPOSURE LEADS TO BEHAVIORAL CHANGES AS WELL AS DECREASED EXPRESSION OF GENES ASSOCIATED WITH SYNAPTIC PLASTICITY. IN THE LIVER, IT HAS BEEN DOCUMENTED THAT CHRONIC ALCOHOL EXPOSURE IMPAIRS METHIONINE SYNTHASE (MS) ACTIVITY LEADING TO A DECREASE IN S-ADENOSYL METHIONINE/S-ADENOSYL HOMOCYSTEINE (SAM/SAH) RATIO WHICH RESULTS IN DNA HYPOMETHYLATION; HOWEVER, IT IS NOT KNOWN WHETHER SIMILAR ALTERATIONS OF SAM AND SAH LEVELS ARE ALSO PRODUCED IN BRAIN. METHODS: MALE ADULT SPRAGUE DAWLEY RATS WERE FED CHRONICALLY WITH LIEBER-DECARLI ETHANOL (ETOH) (9% V/V) OR CONTROL DIET. THE ETOH-DIET-FED RATS WERE WITHDRAWN FOR 0 AND 24 HOURS. THE CEREBELLUM AND LIVER TISSUES WERE DISSECTED AND USED TO INVESTIGATE CHANGES IN ONE-CARBON METABOLISM, SAM, AND SAH LEVELS. RESULTS: WE FOUND THAT CHRONIC ETOH EXPOSURE DECREASED SAM LEVELS, SAM/SAH RATIO, MS, METHYLENE TETRAHYDROFOLATE REDUCTASE, AND BETAINE HOMOCYSTEINE METHYLTRANSFERASE (BHMT) EXPRESSION AND INCREASED METHIONINE ADENOSYLTRANSFERASE-2B (MAT2B) BUT NOT MAT2A EXPRESSION IN THE LIVER. IN CONTRAST, CHRONIC ETOH EXPOSURE DECREASED SAH LEVELS, INCREASED SAM/SAH RATIO AND THE EXPRESSION OF MAT2A AND S-ADENOSYL HOMOCYSTEINE HYDROLASE, WHILE THE LEVELS OF SAM OR BHMT EXPRESSION IN CEREBELLUM REMAINED UNALTERED. HOWEVER, IN BOTH LIVER AND CEREBELLUM, CHRONIC ETOH EXPOSURE DECREASED THE EXPRESSION OF MS AND INCREASED MAT2B EXPRESSION. ALL CHRONIC ETOH-INDUCED CHANGES OF ONE-CARBON METABOLISM IN CEREBELLUM, BUT NOT LIVER, RETURNED TO NEAR-NORMAL LEVELS DURING ETOH WITHDRAWAL. CONCLUSIONS: THESE RESULTS INDICATE A DECREASED "METHYLATION INDEX" IN LIVER AND AN INCREASED "METHYLATION INDEX" IN CEREBELLUM. THE OPPOSING CHANGES OF THE "METHYLATION INDEX" SUGGEST ALTERED DNA METHYLATION IN LIVER AND CEREBELLUM, THUS IMPLICATING ONE-CARBON METABOLISM IN THE PATHOPHYSIOLOGY OF ALCOHOLISM. 2017 11 4081 26 MATERNAL MICRONUTRIENT SUPPLEMENTATION SUPPRESSES T CELL CHEMOKINE RECEPTOR EXPRESSION AND FUNCTION IN F1 MICE. PRENATAL ENVIRONMENTAL EXPOSURES PLAY A CRITICAL ROLE IN DETERMINING LATE-LIFE CHRONIC DISEASE SUSCEPTIBILITY. HOWEVER, THE MECHANISMS LINKING THE IN UTERO ENVIRONMENT AND DISEASE DEVELOPMENT IN THE OFFSPRING ARE POORLY UNDERSTOOD. RECENT INVESTIGATIONS HAVE CONFIRMED A CENTRAL PATHOGENIC ROLE OF T CELL CHEMOKINE RECEPTORS, PARTICULARLY C-C CHEMOKINE RECEPTOR (CCR) 2 AND CCR5, IN CHRONIC INFLAMMATORY CONDITIONS. THIS STUDY WAS DESIGNED TO DETERMINE THE EFFECT OF A SYNTHETIC PRENATAL MICRONUTRIENT SUPPLEMENTATION (MS) DIET RICH IN METHIONINE PATHWAY METABOLITES ON THE T CELL CHEMOKINE SYSTEM IN F1 C57BL/6 MICE. FEMALE MICE WERE FED EITHER AN MS OR CONTROL DIET 3 WK PRIOR TO MATING, DURING PREGNANCY, AND LACTATION. AT 4 WK OF AGE, F1 MICE WERE KILLED FOR EXPERIMENTS OR WERE FED THE STANDARD NIH-31 DIET AND ALLOWED TO AGE. FOOD CONSUMPTION, MATERNAL WEIGHT GAIN, AND LITTER SIZE WERE SIMILAR IN DAMS FED THE CONTROL AND MS DIETS. HOWEVER, THE F1 OFFSPRING OF DAMS FED THE MS DIET WERE SMALLER IN SIZE (P < 0.001). T CELLS FROM THE MS F1 OFFSPRING HAD GLOBAL HYPERMETHYLATION COMPARED WITH CONTROL F1 OFFSPRING (P < 0.005), CORRESPONDING TO LOWER T CELL CHEMOKINE RECEPTOR EXPRESSION [CCR2 (P < 0.001), CCR5 (P < 0.001), AND C-X-C CHEMOKINE RECEPTOR 3 (P < 0.01)] AND CYTOKINE EXPRESSION [TNFALPHA (P < 0.05), IL-2 (P < 0.001), AND IL-4 (P < 0.01)]. REDUCED T CELL CHEMOKINE RECEPTOR GENE EXPRESSION IN MS F1 MICE WAS ASSOCIATED WITH DECREASED CHEMOTAXIS IN VITRO TO C-C CHEMOKINE LIGAND (CCL) 2 AND C-X-C CHEMOKINE LIGAND 10 (P < 0.01) AND IN VIVO TO CCL2 (P < 0.01). TAKEN TOGETHER, THE RESULTS SUGGEST THAT EPIGENETIC ALTERATION THROUGH PRENATAL DIET MANIPULATION REDUCES THE RESPONSE TO PROINFLAMMATORY SIGNALS IN MICE. 2012 12 1189 39 CORRELATION BETWEEN GLOBAL METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES AND SERUM C REACTIVE PROTEIN LEVEL MODIFIED BY MTHFR POLYMORPHISM: A CROSS-SECTIONAL STUDY. BACKGROUND: CHRONIC INFLAMMATORY CONDITIONS ARE ASSOCIATED WITH HIGHER TUMOR INCIDENCE THROUGH EPIGENETIC AND GENETIC ALTERATIONS. HERE, WE FOCUSED ON AN ASSOCIATION BETWEEN AN INFLAMMATION MARKER, C-REACTIVE-PROTEIN (CRP), AND GLOBAL DNA METHYLATION LEVELS OF PERIPHERAL BLOOD LEUKOCYTES. METHODS: THE SUBJECTS WERE 384 HEALTHY JAPANESE WOMEN ENROLLED AS THE CONTROL GROUP OF A CASE-CONTROL STUDY FOR BREAST CANCER CONDUCTED FROM 2001 TO 2005. GLOBAL DNA METHYLATION WAS QUANTIFIED BY LUMINOMETRIC METHYLATION ASSAY (LUMA). RESULTS: WITH ADJUSTMENT FOR LIFESTYLE-RELATED FACTORS, INCLUDING FOLATE INTAKE, THE GLOBAL DNA METHYLATION LEVEL OF PERIPHERAL BLOOD LEUKOCYTES WAS SIGNIFICANTLY BUT WEAKLY INCREASED BY 0.43% PER QUARTILE CATEGORY FOR CRP (P FOR TREND = 0.010). ESTIMATED METHYLATION LEVELS STRATIFIED BY CRP QUARTILE WERE 70.0%, 70.8%, 71.4%, AND 71.3%, RESPECTIVELY. IN ADDITION, INTERACTION BETWEEN POLYMORPHISM OF MTHFR (RS1801133, KNOWN AS C677T) AND CRP WAS SIGNIFICANT (P FOR INTERACTION = 0.046); THE GLOBAL METHYLATION LEVEL WAS SIGNIFICANTLY INCREASED BY 0.61% PER QUARTILE CATEGORY FOR CRP IN THE CT/TT GROUP (THOSE WITH THE MINOR ALLELE T, P FOR TREND = 0.001), WHEREAS NO ASSOCIATION WAS OBSERVED IN THE CC GROUP (WILD TYPE). CONCLUSIONS: OUR STUDY SUGGESTS THAT CRP CONCENTRATION IS WEAKLY ASSOCIATED WITH GLOBAL DNA METHYLATION LEVEL. HOWEVER, THIS ASSOCIATION WAS OBSERVED MORE CLEARLY IN INDIVIDUALS WITH THE MINOR ALLELE OF THE MTHFR MISSENSE SNP RS1801133. BY ELUCIDATING THE COMPLEX MECHANISM OF THE REGULATION OF DNA METHYLATION BY BOTH ACQUIRED AND GENETIC FACTORS, OUR RESULTS MAY BE IMPORTANT FOR CANCER PREVENTION. 2018 13 169 38 ABNORMALITIES OF AMPK ACTIVATION AND GLUCOSE UPTAKE IN CULTURED SKELETAL MUSCLE CELLS FROM INDIVIDUALS WITH CHRONIC FATIGUE SYNDROME. BACKGROUND: POST EXERTIONAL MUSCLE FATIGUE IS A KEY FEATURE IN CHRONIC FATIGUE SYNDROME (CFS). ABNORMALITIES OF SKELETAL MUSCLE FUNCTION HAVE BEEN IDENTIFIED IN SOME BUT NOT ALL PATIENTS WITH CFS. TO TRY TO LIMIT POTENTIAL CONFOUNDERS THAT MIGHT CONTRIBUTE TO THIS CLINICAL HETEROGENEITY, WE DEVELOPED A NOVEL IN VITRO SYSTEM THAT ALLOWS COMPARISON OF AMP KINASE (AMPK) ACTIVATION AND METABOLIC RESPONSES TO EXERCISE IN CULTURED SKELETAL MUSCLE CELLS FROM CFS PATIENTS AND CONTROL SUBJECTS. METHODS: SKELETAL MUSCLE CELL CULTURES WERE ESTABLISHED FROM 10 SUBJECTS WITH CFS AND 7 AGE-MATCHED CONTROLS, SUBJECTED TO ELECTRICAL PULSE STIMULATION (EPS) FOR UP TO 24H AND EXAMINED FOR CHANGES ASSOCIATED WITH EXERCISE. RESULTS: IN THE BASAL STATE, CFS CULTURES SHOWED INCREASED MYOGENIN EXPRESSION BUT DECREASED IL6 SECRETION DURING DIFFERENTIATION COMPARED WITH CONTROL CULTURES. CONTROL CULTURES SUBJECTED TO 16 H EPS SHOWED A SIGNIFICANT INCREASE IN BOTH AMPK PHOSPHORYLATION AND GLUCOSE UPTAKE COMPARED WITH UNSTIMULATED CELLS. IN CONTRAST, CFS CULTURES SHOWED NO INCREASE IN AMPK PHOSPHORYLATION OR GLUCOSE UPTAKE AFTER 16 H EPS. HOWEVER, GLUCOSE UPTAKE REMAINED RESPONSIVE TO INSULIN IN THE CFS CELLS POINTING TO AN EXERCISE-RELATED DEFECT. IL6 SECRETION IN RESPONSE TO EPS WAS SIGNIFICANTLY REDUCED IN CFS COMPARED WITH CONTROL CULTURES AT ALL TIME POINTS MEASURED. CONCLUSION: EPS IS AN EFFECTIVE MODEL FOR ELICITING MUSCLE CONTRACTION AND THE METABOLIC CHANGES ASSOCIATED WITH EXERCISE IN CULTURED SKELETAL MUSCLE CELLS. WE FOUND FOUR MAIN DIFFERENCES IN CULTURED SKELETAL MUSCLE CELLS FROM SUBJECTS WITH CFS; INCREASED MYOGENIN EXPRESSION IN THE BASAL STATE, IMPAIRED ACTIVATION OF AMPK, IMPAIRED STIMULATION OF GLUCOSE UPTAKE AND DIMINISHED RELEASE OF IL6. THE RETENTION OF THESE DIFFERENCES IN CULTURED MUSCLE CELLS FROM CFS SUBJECTS POINTS TO A GENETIC/EPIGENETIC MECHANISM, AND PROVIDES A SYSTEM TO IDENTIFY NOVEL THERAPEUTIC TARGETS. 2015 14 3841 32 IRON SUPPLEMENTATION REVERSES THE REDUCTION OF HYDROXYMETHYLCYTOSINE IN HEPATIC DNA ASSOCIATED WITH CHRONIC ALCOHOL CONSUMPTION IN RATS. BACKGROUND: ALCOHOL IS KNOWN TO AFFECT TWO EPIGENETIC PHENOMENA, DNA METHYLATION AND DNA HYDROXYMETHYLATION, AND IRON IS A COFACTOR OF TEN-ELEVEN TRANSLOCATION (TET) ENZYMES THAT CATALYZE THE CONVERSION FROM METHYLCYTOSINE TO HYDROXYMETHYLCYTOSINE. IN THE PRESENT STUDY WE AIMED TO DETERMINE THE EFFECTS OF ALCOHOL ON DNA HYDROXYMETHYLATION AND FURTHER EFFECTS OF IRON ON ALCOHOL ASSOCIATED EPIGENETIC CHANGES. METHODS: TWENTY-FOUR MALE SPRAGUE-DAWLEY RATS WERE FED EITHER LIEBER-DECARLI ALCOHOL DIET (36% CALORIES FROM ETHANOL) OR LIEBER-DECARLI CONTROL DIET ALONG WITH OR WITHOUT IRON SUPPLEMENTATION (0.6% CARBONYL IRON) FOR 8 WEEKS. HEPATIC NON-HEME IRON CONCENTRATIONS WERE MEASURED BY COLORIMETRIC ASSAYS. PROTEIN LEVELS OF HEPATIC FERRITIN AND TRANSFERRIN RECEPTOR WERE DETERMINED BY WESTERN BLOTTING. METHYLCYTOSINE, HYDROXYMETHYLCYTOSINE AND UNMODIFIED CYTOSINE IN DNA WERE SIMULTANEOUSLY MEASURED BY LIQUID CHROMATOGRAPHY/MASS SPECTROMETRY METHOD. RESULTS: IRON SUPPLEMENTATION SIGNIFICANTLY INCREASED HEPATIC NON-HEME IRON CONTENTS (P < 0.05) BUT ALCOHOL ALONE DID NOT. HOWEVER, BOTH ALCOHOL AND IRON SIGNIFICANTLY INCREASED HEPATIC FERRITIN LEVELS AND DECREASED HEPATIC TRANSFERRIN RECEPTOR LEVELS (P < 0.05). ALCOHOL REDUCED HEPATIC DNA HYDROXYMETHYLATION (0.21% +/- 0.04% VS. 0.33% +/- 0.04%, P = 0.01) COMPARED TO CONTROL, WHILE IRON SUPPLEMENTATION TO ALCOHOL DIET DID NOT CHANGE DNA HYDROXYMETHYLATION. THERE WAS NO SIGNIFICANT DIFFERENCE IN METHYLCYTOSINE LEVELS, WHILE UNMODIFIED CYTOSINE LEVELS WERE SIGNIFICANTLY INCREASED IN ALCOHOL-FED GROUPS COMPARED TO CONTROL (95.61% +/- 0.08% VS. 95.26% +/- 0.12%, P = 0.03), SUGGESTING THAT ALCOHOL FURTHER INCREASES THE CONVERSION FROM HYDROXYMETHYLCYTOSINE TO UNMODIFIED CYTOSINE. CONCLUSIONS: CHRONIC ALCOHOL CONSUMPTION ALTERS GLOBAL DNA HYDROXYMETHYLATION IN THE LIVER BUT IRON SUPPLEMENTATION REVERSES THE EPIGENETIC EFFECT OF ALCOHOL. 2016 15 2711 24 EXERCISE TRAINING ALTERS THE GENOMIC RESPONSE TO ACUTE EXERCISE IN HUMAN ADIPOSE TISSUE. AIM: TO DETERMINE THE GENOMIC MECHANISMS BY WHICH ADIPOSE TISSUE RESPONDS TO ACUTE AND CHRONIC EXERCISE. METHODS: WE PROFILED THE TRANSCRIPTOMIC AND EPIGENETIC RESPONSE TO ACUTE EXERCISE IN HUMAN ADIPOSE TISSUE COLLECTED BEFORE AND AFTER ENDURANCE TRAINING. RESULTS: ALTHOUGH ACUTE EXERCISES WERE PERFORMED AT SAME RELATIVE INTENSITIES, THE MAGNITUDE OF TRANSCRIPTOMIC CHANGES AFTER ACUTE EXERCISE WAS REDUCED BY ENDURANCE TRAINING. DNA METHYLATION REMODELING INDUCED BY ACUTE EXERCISE WAS MORE PROMINENT IN TRAINED VERSUS UNTRAINED STATE. WE FOUND AN OVERLAP BETWEEN GENE EXPRESSION AND DNA METHYLATION CHANGES AFTER ACUTE EXERCISE FOR 32 GENES PRE-TRAINING AND SIX POST-TRAINING, NOTABLY AT ADIPOCYTE-SPECIFIC GENES. CONCLUSION: TRAINING STATUS DIFFERENTIALLY AFFECTS THE EPIGENETIC AND TRANSCRIPTOMIC RESPONSE TO ACUTE EXERCISE IN HUMAN ADIPOSE TISSUE. 2018 16 4248 32 METHYLATION STATUS, MRNA AND PROTEIN EXPRESSION OF THE SMAD4 GENE IN PATIENTS WITH NON-MELANOCYTIC SKIN CANCERS. BACKGROUND: SMAD4 IS A POTENT TUMOR SUPPRESSOR. SMAD4 LOSS INCREASES GENOMIC INSTABILITY AND PLAYS A CRITICAL ROLE IN THE DNA DAMAGE RESPONSE THAT LEADS TO SKIN CANCER DEVELOPMENT. WE AIMED TO INVESTIGATE SMAD4 METHYLATION EFFECTS ON MRNA AND PROTEIN EXPRESSION OF SMAD4 IN CANCER AND HEALTHY TISSUES FROM PATIENTS WITH BASAL CELL CARCINOMA (BCC), CUTANEOUS SQUAMOUS CELL CARCINOMA (CSCC), AND BASOSQUAMOUS SKIN CANCER (BSC). METHODS AND RESULTS: THE STUDY INCLUDED 17 BCC, 24 CSCC AND NINE BSC PATIENTS. DNA AND RNA WERE ISOLATED FROM CANCEROUS AND HEALTHY TISSUES FOLLOWING PUNCH BIOPSY. METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (PCR) AND REAL-TIME QUANTITATIVE PCR METHODS WERE USED TO EXAMINE SMAD4 PROMOTER METHYLATION AND SMAD4 MRNA LEVELS, RESPECTIVELY. THE PERCENTAGE AND INTENSITY OF STAINING OF THE SMAD4 PROTEIN WERE DETERMINED BY IMMUNOHISTOCHEMISTRY. THE PERCENTAGE OF SMAD4 METHYLATION WAS INCREASED IN THE PATIENTS WITH BCC (P = 0.007), CSCC (P = 0.004), AND BSC (P = 0.018) COMPARED TO THE HEALTHY TISSUE. SMAD4 MRNA EXPRESSION WAS DECREASED IN THE PATIENTS WITH BCC (P<0.001), CSCC (P<0.001), AND BSC (P = 0.008). THE STAINING CHARACTERISTIC OF SMAD4 PROTEIN WAS NEGATIVE IN THE CANCER TISSUES OF THE PATIENTS WITH CSCC (P = 0.00). LOWER SMAD4 MRNA LEVELS WERE OBSERVED IN THE POORLY DIFFERENTIATED CSCC PATIENTS (P = 0.001). THE STAINING CHARACTERISTICS OF THE SMAD4 PROTEIN WERE RELATED TO AGE AND CHRONIC SUN EXPOSURE. CONCLUSIONS: HYPERMETHYLATION OF SMAD4 AND REDUCED SMAD4 MRNA EXPRESSION WERE FOUND TO PLAY A ROLE IN THE PATHOGENESIS OF BCC, CSCC, AND BSC. A DECREASE IN SMAD4 PROTEIN EXPRESSION LEVEL WAS OBSERVED ONLY IN CSCC PATIENTS. THIS SUGGESTS THAT EPIGENETIC ALTERATIONS TO THE SMAD4 GENE ARE ASSOCIATED WITH CSCC. TRIAL REGISTRATION: THE NAME OF THE TRIAL REGISTER: SMAD4 METHYLATION AND EXPRESSION LEVELS IN NON-MELANOCYTIC SKIN CANCERS; SMAD4 PROTEIN POSITIVITY. THE REGISTRATION NUMBER: NCT04759261 ( HTTPS://CLINICALTRIALS.GOV/CT2/RESULTS?TERM=NCT04759261 ). 2023 17 5679 35 SHORT- AND LONG-TERM HINDLIMB IMMOBILIZATION AND RELOADING: PROFILE OF EPIGENETIC EVENTS IN GASTROCNEMIUS. SKELETAL MUSCLE DYSFUNCTION AND ATROPHY ARE CHARACTERISTIC FEATURES ACCOMPANYING CHRONIC CONDITIONS. EPIGENETIC EVENTS REGULATE MUSCLE MASS AND FUNCTION MAINTENANCE. WE HYPOTHESIZED THAT THE PATTERN OF EPIGENETIC EVENTS (MUSCLE-ENRICHED MICRORNAS AND HISTONE ACETYLATION) AND ACETYLATION OF TRANSCRIPTION FACTORS KNOWN TO SIGNAL MUSCLE WASTING MAY DIFFER BETWEEN EARLY- AND LATE-TIME POINTS IN SKELETAL MUSCLES OF MICE EXPOSED TO HINDLIMB IMMOBILIZATION (I) AND RECOVERY FOLLOWING I. BODY AND MUSCLE WEIGHTS, GRIP STRENGTH, MUSCLE-ENRICHED MICRORNAS, HISTONE DEACETYLASES (HDACS), ACETYLATION OF PROTEINS, HISTONES, AND TRANSCRIPTION FACTORS (TF), MYOGENIC TF FACTORS, AND MUSCLE PHENOTYPE WERE ASSESSED IN GASTROCNEMIUS OF MICE EXPOSED TO PERIODS (1, 2, 3, 7, 15, AND 30 DAYS, I GROUPS) OF HINDLIMB IMMOBILIZATION, AND IN THOSE EXPOSED TO RELOADING FOR DIFFERENT PERIODS OF TIME (1, 3, 7, 15, AND 30 DAYS, R GROUPS) FOLLOWING 7-DAY IMMOBILIZATION. COMPARED TO NON-IMMOBILIZED CONTROLS, MUSCLE WEIGHT, LIMB STRENGTH, MICRORNAS, ESPECIALLY MIR-486, SIRT1 LEVELS, AND SLOW- AND FAST-TWITCH CROSS-SECTIONAL AREAS WERE DECREASED IN MICE OF I GROUPS, WHEREAS PAX7 AND ACETYLATED FOXO1 AND FOXO3 LEVELS WERE INCREASED. MUSCLE RELOADING FOLLOWING SPLINT REMOVAL IMPROVED MUSCLE MASS LOSS, STRENGTH, AND FIBER ATROPHY, BY INCREASING MICRORNAS, PARTICULARLY MIR-486, AND SIRT1 CONTENT, WHILE DECREASING ACETYLATED FOXO1 AND FOXO3 LEVELS. IN THIS MOUSE MODEL OF DISUSE MUSCLE ATROPHY, MUSCLE-ENRICHED MICRORNAS, ESPECIALLY MIR-486, THROUGH PAX7 REGULATION DELAYED MUSCLE CELL DIFFERENTIATION FOLLOWING UNLOADING OF GASTROCNEMIUS MUSCLE. ACETYLATION OF FOXO1 AND 3 SEEMED TO DRIVE MUSCLE MASS LOSS AND ATROPHY, WHILE DEACETYLATION OF THESE FACTORS THROUGH SIRT1 WOULD ENABLE THE MUSCLE FIBERS TO REGENERATE. J. CELL. PHYSIOL. 232: 1415-1427, 2017. (C) 2016 WILEY PERIODICALS, INC. 2017 18 897 37 CHRONIC EXERCISE TRAINING ACTIVATES HISTONE TURNOVER IN MOUSE SKELETAL MUSCLE FIBERS. EPIGENETIC REGULATION OF SKELETAL MUSCLE ADAPTATION TO EXERCISE IS A RECENT TOPIC FOR WHICH THERE IS LIMITED INFORMATION. THIS STUDY INVESTIGATED WHETHER EXERCISE TRAINING ACTIVATES HISTONE TURNOVER IN THE SKELETAL MUSCLE FIBERS OF MICE. EXPERIMENTS USING A TETRACYCLINE-INDUCIBLE H2B-GFP EXPRESSION MODEL DEMONSTRATED THAT 4 WEEKS OF RUNNING TRAINING, BUT NOT 2 WEEKS OF TRAINING, SIGNIFICANTLY PROMOTED THE INCORPORATION OF H2B-GFP INTO NUCLEOSOMES AND THE DISSOCIATION OF HISTONE H3.3 AT BOTH TRANSCRIPTIONALLY UPREGULATED AND NONRESPONSIVE LOCI. MUSCLE-SPECIFIC PGC-1ALPHA-B-OVEREXPRESSING MICE CROSSED WITH H2B-GFP MICE SHOWED A SLIGHT INCREASE IN H2B-GFP INCORPORATION AT TRANSCRIPTIONALLY ACTIVE LOCI, BUT NOT IN THE DISSOCIATION OF H3.3 FROM NUCLEOSOMES. GENE EXPRESSION RESPONSES TO A SINGLE BOUT OF RUNNING WERE SIGNIFICANTLY ENHANCED IN 4-WEEK TRAINED MICE WHEN COMPARED WITH THOSE IN 2-WEEK TRAINED MICE. THE MOST DRASTIC INCREASE IN THE GENE RESPONSE WAS FOUND IN THE EXPRESSION OF HSPA1A AND HSPA1B, IN WHICH THE MAGNITUDE OF UPREGULATION IN RESPONSE TO RUNNING WAS SIGNIFICANTLY ENHANCED FROM 8-FOLD IN 2 WEEK TRAINED MICE TO 97- AND 121-FOLD IN 4 WEEK TRAINED MICE, RESPECTIVELY. IT WAS ALSO FOUND THAT THE HSP70 LEVEL INCREASED DURING THE TRAINING PERIOD. IN A MYONUCLEAR IMMUNOHISTOCHEMICAL ANALYSIS OF CHROMATIN REMODELERS, WE FURTHER FOUND THAT THE LEVEL OF SPT16, AN H2A-H2B-SPECIFIC CHAPERONE, WAS UPREGULATED AFTER RUNNING TRAINING. THESE RESULTS REVEALED THAT 4 WEEKS OF RUNNING TRAINING ACTIVATED HISTONE TURNOVER IN SKELETAL MUSCLE FIBERS. THEY ALSO SUGGESTED THAT HISTONE TURNOVER LED TO LOOSENING OF THE NUCLEOSOMES AND ENHANCED GENE RESPONSES TO EXERCISE. 2021 19 4579 26 N(6)-METHYLADENOSINE METHYLASE METTL3 CONTRIBUTES TO NEUROPATHIC PAIN BY EPIGENETIC SILENCING OF MU OPIOID RECEPTOR. WE AIMED AT EXPLORING THE ROLE AND MECHANISM OF METTL3-MEDIATED M(6)A MODIFICATION IN NEUROPATHIC PAIN. MALE SPRAGUE-DAWLEY RATS WERE RANDOMLY DIVIDED INTO FOUR GROUPS: SHAM OPERATION GROUP (SHAM GROUP), CHRONIC CONSTRICTION INJURY (CCI) OF THE SCIATIC NERVE MODEL GROUP (NPP GROUP), INTRATHECAL INJECTION OF VIRUS DOWN-REGULATED METTL3 + CCI MODEL GROUP (M3 + NPP GROUP) AND INTRATHECAL INJECTION OF NEGATIVE CONTROL VIRUS + CCI MODEL GROUP (SCR + NPP GROUP). THE M3 + NPP GROUP AND THE SCR + NPP GROUP WERE INTRATHECALLY INJECTED WITH VIRUS NINETEEN DAYS BEFORE OPERATION. THE PAW WITHDRAWAL MECHANICAL THRESHOLDS AND PAW WITHDRAWAL LATENCY WERE RESPECTIVELY RECORDED ONE DAY BEFORE OPERATION, THREE DAYS, FIVE DAYS AND SEVEN DAYS AFTER OPERATION. THE RATS WERE SACRIFICED ON THE SEVENTH DAY AFTER OPERATION, AND THEIR SPINAL CORD TISSUES WERE TAKEN. THE FROZEN SECTIONS OF RATS WERE PERFORMED TO OBSERVE THE EXPRESSION OF GREEN FLUORESCENT PROTEIN OF THE VIRUS. THE METHYLATION LEVEL OF RNA, THE PROTEIN EXPRESSION OF M(6)A-RELATED ENZYME (METTL3) AND MU OPIOID RECEPTOR (MOR) IN SPINAL CORD TISSUES OF THE FOUR GROUPS WERE MEASURED. DOWNREGULATION OF METTL3 HAD NO EFFECT ON THE OVERALL METHYLATION LEVEL OF THE SPINAL CORD, BUT IT COULD REGULATE THE METHYLATION LEVEL OF THE OPRM1 GENE RNA ENCODING MOR, PARTIALLY RESTORE THE EXPRESSION OF MOR, AND RELIEVE PAIN IN RATS. IN THE PROCESS OF NPP, METTL3 MAY INHIBIT THE EXPRESSION OF MOR BY REGULATING THE METHYLATION LEVEL OF OPRM1 GENE RNA ENCODING MOR, AND ULTIMATELY PROMOTE THE OCCURRENCE AND DEVELOPMENT OF NPP. 2023 20 521 43 ASSOCIATIONS BETWEEN MATERNAL PSYCHOSOCIAL STRESS, DNA METHYLATION, AND NEWBORN BIRTH WEIGHT IDENTIFIED BY INVESTIGATING METHYLATION AT INDIVIDUAL, REGIONAL, AND GENOME LEVELS. STRESS IS KNOWN TO AFFECT HEALTH THROUGHOUT LIFE AND INTO FUTURE GENERATIONS, BUT THE UNDERLYING MOLECULAR MECHANISMS ARE UNKNOWN. WE TESTED THE HYPOTHESIS THAT MATERNAL PSYCHOSOCIAL STRESS INFLUENCES DNA METHYLATION (DNAM), WHICH IN TURN IMPACTS NEWBORN HEALTH OUTCOMES. SPECIFICALLY, WE ANALYZED DNAM AT INDIVIDUAL, REGIONAL, AND GENOME-WIDE LEVELS TO TEST FOR ASSOCIATIONS WITH MATERNAL STRESS AND NEWBORN BIRTH WEIGHT. MATERNAL VENOUS BLOOD AND NEWBORN CORD BLOOD (N = 24 AND 22, RESPECTIVELY) WERE ASSAYED FOR METHYLATION AT APPROXIMATELY 450,000 CPG SITES. METHYLATION WAS ANALYZED BY EXAMINING CPG SITES INDIVIDUALLY IN AN EPIGENOME-WIDE ASSOCIATION STUDY (EWAS), AS REGIONAL GROUPS USING VARIABLY METHYLATED REGION (VMR) ANALYSIS IN MATERNAL BLOOD ONLY, AND THROUGH THE EPIGENOME-WIDE MEASURES USING GENOME-WIDE MEAN METHYLATION (GMM), HORVATH'S EPIGENETIC CLOCK, AND MITOTIC AGE. THESE METHYLATION MEASURES WERE TESTED FOR ASSOCIATION WITH THREE MEASURES OF MATERNAL STRESS (MATERNAL WAR TRAUMA, CHRONIC STRESS, AND EXPERIENCE OF SEXUAL VIOLENCE) AND ONE HEALTH OUTCOME (NEWBORN BIRTH WEIGHT). WE OBSERVED THAT MATERNAL EXPERIENCES OF WAR TRAUMA, CHRONIC STRESS, AND SEXUAL ASSAULT WERE EACH ASSOCIATED WITH DECREASED NEWBORN BIRTH WEIGHT (P < 1.95 X 10(-7) IN ALL CASES). TESTING INDIVIDUAL CPG SITES USING EWAS, WE OBSERVED NO ASSOCIATIONS BETWEEN DNAM AND ANY MEASURE OF MATERNAL STRESS OR NEWBORN BIRTH WEIGHT IN EITHER MATERNAL OR CORD BLOOD, AFTER BONFERRONI MULTIPLE TESTING CORRECTION. HOWEVER, THE TOP-RANKED CPG SITE IN MATERNAL BLOOD THAT ASSOCIATED WITH MATERNAL CHRONIC STRESS AND SEXUAL VIOLENCE BEFORE MULTIPLE TESTING CORRECTION IS LOCATED NEAR THE SPON1 GENE. TESTING AT A REGIONAL LEVEL, WE FOUND INCREASED METHYLATION OF A VMR IN MATERNAL BLOOD NEAR SPON1 THAT WAS ASSOCIATED WITH CHRONIC STRESS AND SEXUAL VIOLENCE AFTER BONFERRONI MULTIPLE TESTING CORRECTION (P = 1.95 X 10(-7) AND 8.3 X 10(-6), RESPECTIVELY). AT THE EPIGENOMIC LEVEL, CORD BLOOD GMM WAS ASSOCIATED WITH SIGNIFICANTLY HIGHER LEVELS OF WAR TRAUMA (P = 0.025) AND WAS SUGGESTIVELY ASSOCIATED WITH SEXUAL VIOLENCE (P = 0.053). THE OTHER TWO EPIGENOME-WIDE MEASURES WERE NOT ASSOCIATED WITH MATERNAL STRESS OR NEWBORN BIRTH WEIGHT IN EITHER TISSUE TYPE. DESPITE OUR SMALL SAMPLE SIZE, WE IDENTIFIED ASSOCIATIONS EVEN AFTER CONSERVATIVE MULTIPLE TESTING CORRECTION. SPECIFICALLY, WE FOUND ASSOCIATIONS BETWEEN DNAM AND THE THREE MEASURES OF MATERNAL STRESS ACROSS BOTH TISSUES; SPECIFICALLY, A VMR IN MATERNAL BLOOD AND GMM IN CORD BLOOD WERE BOTH ASSOCIATED WITH DIFFERENT MEASURES OF MATERNAL STRESS. THE ASSOCIATION OF CORD BLOOD GMM, BUT NOT MATERNAL BLOOD GMM, WITH MATERNAL STRESS MAY SUGGEST DIFFERENT RESPONSES TO STRESS IN MOTHER AND NEWBORN. IT IS NOTEWORTHY THAT WE FOUND ASSOCIATIONS ONLY WHEN CPG SITES WERE ANALYZED IN AGGREGATE, EITHER AS VMRS OR AS A BROAD SUMMARY MEASURE OF GMM. 2019