1 5334 148 QUADRICEPS MUSCLE WEAKNESS AND ATROPHY ARE ASSOCIATED WITH A DIFFERENTIAL EPIGENETIC PROFILE IN ADVANCED COPD. EPIGENETIC MECHANISMS REGULATE MUSCLE MASS AND FUNCTION IN MODELS OF MUSCLE DYSFUNCTION AND ATROPHY. WE ASSESSED WHETHER QUADRICEPS MUSCLE WEAKNESS AND ATROPHY ARE ASSOCIATED WITH A DIFFERENTIAL EXPRESSION PROFILE OF EPIGENETIC EVENTS IN PATIENTS WITH ADVANCED COPD (CHRONIC OBSTRUCTIVE PULMONARY DISEASE). IN VASTUS LATERALIS (VL) OF SEDENTARY SEVERE COPD PATIENTS (N=41), WHO WERE FURTHER SUBDIVIDED INTO THOSE WITH (N=25) AND WITHOUT (N=16) MUSCLE WEAKNESS AND HEALTHY CONTROLS (N=19), EXPRESSION OF MUSCLE-ENRICHED MIRNAS, HISTONE ACETYLTRANSFERASES (HATS) AND DEACETYLASES (HDACS), GROWTH AND ATROPHY SIGNALLING MARKERS, TOTAL PROTEIN AND HISTONE ACETYLATION, TRANSCRIPTION FACTORS, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE CLINICALLY EVALUATED. COMPARED WITH CONTROLS, IN VL OF ALL COPD TOGETHER AND IN MUSCLE-WEAKNESS PATIENTS, EXPRESSION OF MIR-1, MIR-206 AND MIR-27A, LEVELS OF LYSINE-ACETYLATED PROTEINS AND HISTONES AND ACETYLATED HISTONE 3 WERE INCREASED, WHEREAS EXPRESSION OF HDAC3, HDAC4, SIRTUIN-1 (SIRT-1), IGF-1 (INSULIN-LIKE GROWTH FACTOR-1) WERE DECREASED, AKT (V-AKT MURINE THYMOMA VIRAL ONCOGENE HOMOLOGUE 1) EXPRESSION DID NOT DIFFER, FOLLISTATIN EXPRESSION WAS GREATER, WHEREAS MYOSTATIN EXPRESSION WAS LOWER, SERUM REPONSE FACTOR (SRF) EXPRESSION WAS INCREASED AND FIBRE SIZE OF FAST-TWITCH FIBRES WAS SIGNIFICANTLY REDUCED. IN VL OF SEVERE COPD PATIENTS WITH MUSCLE WEAKNESS AND ATROPHY, EPIGENETIC EVENTS REGULATE MUSCLE DIFFERENTIATION RATHER THAN PROLIFERATION AND MUSCLE GROWTH AND ATROPHY SIGNALLING, PROBABLY AS FEEDBACK MECHANISMS TO PREVENT THOSE MUSCLES FROM UNDERGOING FURTHER ATROPHY. LYSINE-HYPERACETYLATION OF HISTONES MAY DRIVE ENHANCED PROTEIN CATABOLISM IN THOSE MUSCLES. THESE FINDINGS MAY HELP DESIGN NOVEL THERAPEUTIC STRATEGIES (ENHANCERS OF MIRNAS PROMOTING MYOGENESIS AND ACETYLATION INHIBITORS) TO SELECTIVELY TARGET MUSCLE WEAKNESS AND ATROPHY IN SEVERE COPD. 2015 2 1633 71 DO EPIGENETIC EVENTS TAKE PLACE IN THE VASTUS LATERALIS OF PATIENTS WITH MILD CHRONIC OBSTRUCTIVE PULMONARY DISEASE? MUSCLE DYSFUNCTION IS A MAJOR COMORBIDITY IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). SEVERAL BIOLOGICAL MECHANISMS INCLUDING EPIGENETIC EVENTS REGULATE MUSCLE MASS AND FUNCTION IN MODELS OF MUSCLE ATROPHY. INVESTIGATIONS CONDUCTED SO FAR HAVE FOCUSED ON THE ELUCIDATION OF BIOLOGICAL MECHANISMS INVOLVED IN MUSCLE DYSFUNCTION IN ADVANCED COPD. WE ASSESSED WHETHER THE EPIGENETIC PROFILE MAY BE ALTERED IN THE VASTUS LATERALIS OF PATIENTS WITH MILD COPD, NORMAL BODY COMPOSITION, AND MILDLY IMPAIRED MUSCLE FUNCTION AND EXERCISE CAPACITY. IN VASTUS LATERALIS (VL) OF MILD COPD PATIENTS WITH WELL-PRESERVED BODY COMPOSITION AND IN HEALTHY AGE-MATCHED CONTROLS, EXPRESSION OF DNA METHYLATION, MUSCLE-ENRICHED MICRORNAS, HISTONE ACETYLTRANSFERASES (HTAS) AND DEACETYLASES (HDACS), PROTEIN ACETYLATION, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES, AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE CLINICALLY EVALUATED. COMPARED TO HEALTHY CONTROLS, IN THE VL OF MILD COPD PATIENTS, MUSCLE FUNCTION AND EXERCISE CAPACITY WERE MODERATELY REDUCED, DNA METHYLATION LEVELS DID NOT DIFFER, MIR-1 EXPRESSION LEVELS WERE INCREASED AND POSITIVELY CORRELATED WITH BOTH FORCED EXPIRATORY VOLUME IN ONE SECOND (FEV1) AND QUADRICEPS FORCE, HDAC4 PROTEIN LEVELS WERE INCREASED, AND MUSCLE FIBER TYPES AND SIZES WERE NOT DIFFERENT. MODERATE SKELETAL MUSCLE DYSFUNCTION IS A RELEVANT FEATURE IN PATIENTS WITH MILD COPD AND PRESERVED BODY COMPOSITION. SEVERAL EPIGENETIC EVENTS ARE DIFFERENTIALLY EXPRESSED IN THE LIMB MUSCLES OF THESE PATIENTS, PROBABLY AS AN ATTEMPT TO COUNTERBALANCE THE UNDERLYING MECHANISMS THAT ALTER MUSCLE FUNCTION AND MASS. THE STUDY OF PATIENTS AT EARLY STAGES OF THEIR DISEASE IS OF INTEREST AS THEY ARE A TARGET FOR TIMELY THERAPEUTIC INTERVENTIONS THAT MAY SLOW DOWN THE COURSE OF THE DISEASE AND PREVENT THE DELETERIOUS EFFECTS OF MAJOR COMORBIDITIES. 2014 3 4577 33 MYOSTATIN: BASIC BIOLOGY TO CLINICAL APPLICATION. MYOSTATIN IS A MEMBER OF THE TRANSFORMING GROWTH FACTOR (TGF)-BETA SUPERFAMILY. IT IS EXPRESSED BY ANIMAL AND HUMAN SKELETAL MUSCLE CELLS WHERE IT LIMITS MUSCLE GROWTH AND PROMOTES PROTEIN BREAKDOWN. ITS EFFECTS ARE INFLUENCED BY COMPLEX MECHANISMS INCLUDING TRANSCRIPTIONAL AND EPIGENETIC REGULATION AND MODULATION BY EXTRACELLULAR BINDING PROTEINS. DUE TO ITS ACTIONS IN PROMOTING MUSCLE ATROPHY AND CACHEXIA, MYOSTATIN HAS BEEN INVESTIGATED AS A PROMISING THERAPEUTIC TARGET TO COUNTERACT MUSCLE MASS LOSS IN EXPERIMENTAL MODELS AND PATIENTS AFFECTED BY DIFFERENT MUSCLE-WASTING CONDITIONS. MOREOVER, GROWING EVIDENCE INDICATES THAT MYOSTATIN, BEYOND TO REGULATE SKELETAL MUSCLE GROWTH, MAY HAVE A ROLE IN MANY PHYSIOLOGIC AND PATHOLOGIC PROCESSES, SUCH AS OBESITY, INSULIN RESISTANCE, CARDIOVASCULAR AND CHRONIC KIDNEY DISEASE. IN THIS CHAPTER, WE REVIEW MYOSTATIN BIOLOGY, INCLUDING INTRACELLULAR AND EXTRACELLULAR REGULATORY PATHWAYS, AND THE ROLE OF MYOSTATIN IN MODULATING PHYSIOLOGIC PROCESSES, SUCH AS MUSCLE GROWTH AND AGING. MOREOVER, WE DISCUSS THE MOST RELEVANT EXPERIMENTAL AND CLINICAL EVIDENCE SUPPORTING THE EXTRA-MUSCLE EFFECTS OF MYOSTATIN. FINALLY, WE CONSIDER THE MAIN STRATEGIES DEVELOPED AND TESTED TO INHIBIT MYOSTATIN IN CLINICAL TRIALS AND DISCUSS THE LIMITS AND FUTURE PERSPECTIVES OF THE RESEARCH ON MYOSTATIN. 2022 4 4543 31 MUSCLE DYSFUNCTION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE: UPDATE ON CAUSES AND BIOLOGICAL FINDINGS. RESPIRATORY AND/OR LIMB MUSCLE DYSFUNCTION, WHICH ARE FREQUENTLY OBSERVED IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) PATIENTS, CONTRIBUTE TO THEIR DISEASE PROGNOSIS IRRESPECTIVE OF THE LUNG FUNCTION. MUSCLE DYSFUNCTION IS CAUSED BY THE INTERACTION OF LOCAL AND SYSTEMIC FACTORS. THE KEY DELETERIOUS ETIOLOGIC FACTORS ARE PULMONARY HYPERINFLATION FOR THE RESPIRATORY MUSCLES AND DECONDITIONING SECONDARY TO REDUCED PHYSICAL ACTIVITY FOR LIMB MUSCLES. NONETHELESS, CIGARETTE SMOKE, SYSTEMIC INFLAMMATION, NUTRITIONAL ABNORMALITIES, EXERCISE, EXACERBATIONS, ANABOLIC INSUFFICIENCY, DRUGS AND COMORBIDITIES ALSO SEEM TO PLAY A RELEVANT ROLE. ALL THESE FACTORS MODIFY THE PHENOTYPE OF THE MUSCLES, THROUGH THE INDUCTION OF SEVERAL BIOLOGICAL PHENOMENA IN PATIENTS WITH COPD. WHILE RESPIRATORY MUSCLES IMPROVE THEIR AEROBIC PHENOTYPE (PERCENTAGE OF OXIDATIVE FIBERS, CAPILLARIZATION, MITOCHONDRIAL DENSITY, ENZYME ACTIVITY IN THE AEROBIC PATHWAYS, ETC.), LIMB MUSCLES EXHIBIT THE OPPOSITE PHENOTYPE. IN ADDITION, BOTH MUSCLE GROUPS SHOW OXIDATIVE STRESS, SIGNS OF DAMAGE AND EPIGENETIC CHANGES. HOWEVER, FIBER ATROPHY, INCREASED NUMBER OF INFLAMMATORY CELLS, ALTERED REGENERATIVE CAPACITY; SIGNS OF APOPTOSIS AND AUTOPHAGY, AND AN IMBALANCE BETWEEN PROTEIN SYNTHESIS AND BREAKDOWN ARE RATHER CHARACTERISTIC FEATURES OF THE LIMB MUSCLES, MOSTLY IN PATIENTS WITH REDUCED BODY WEIGHT. DESPITE THAT SIGNIFICANT PROGRESS HAS BEEN ACHIEVED IN THE LAST DECADES, FULL ELUCIDATION OF THE SPECIFIC ROLES OF THE TARGET BIOLOGICAL MECHANISMS INVOLVED IN COPD MUSCLE DYSFUNCTION IS STILL REQUIRED. SUCH AN ACHIEVEMENT WILL BE CRUCIAL TO ADEQUATELY TACKLE WITH THIS RELEVANT CLINICAL PROBLEM OF COPD PATIENTS IN THE NEAR-FUTURE. 2015 5 5679 43 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 6 2681 25 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 7 2170 69 EPIGENETIC MECHANISMS IN RESPIRATORY MUSCLE DYSFUNCTION OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE. EPIGENETIC EVENTS ARE DIFFERENTIALLY EXPRESSED IN THE LUNGS AND AIRWAYS OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD). MOREOVER, EPIGENETIC MECHANISMS ARE INVOLVED IN THE SKELETAL (PERIPHERAL) MUSCLE DYSFUNCTION OF COPD PATIENTS. WHETHER EPIGENETIC EVENTS MAY ALSO REGULATE RESPIRATORY MUSCLE DYSFUNCTION IN COPD REMAINS UNKNOWN. WE HYPOTHESIZED THAT EPIGENETIC MECHANISMS WOULD BE DIFFERENTIALLY EXPRESSED IN THE MAIN INSPIRATORY MUSCLE (DIAPHRAGM) OF PATIENTS WITH COPD OF A WIDE RANGE OF DISEASE SEVERITY COMPARED TO HEALTHY CONTROLS. IN DIAPHRAGM MUSCLE SPECIMENS (THORACOTOMY DUE TO LUNG LOCALIZED NEOPLASMS) OF SEDENTARY PATIENTS WITH MILD-TO-MODERATE AND SEVERE COPD, WITH PRESERVED BODY COMPOSITION, AND SEDENTARY HEALTHY CONTROLS, EXPRESSION OF MUSCLE-ENRICHED MICRORNAS, HISTONE ACETYLTRANSFERASES (HATS) AND DEACETYLASES (HDACS), TOTAL DNA METHYLATION AND PROTEIN ACETYLATION, SMALL UBIQUITIN-RELATED MODIFIER (SUMO) LIGASES, MUSCLE-SPECIFIC TRANSCRIPTION FACTORS, AND MUSCLE STRUCTURE WERE EXPLORED. ALL SUBJECTS WERE ALSO CLINICALLY EVALUATED: LUNG AND MUSCLE FUNCTIONS AND EXERCISE CAPACITY. COMPARED TO HEALTHY CONTROLS, PATIENTS EXHIBITED MODERATE AIRFLOW LIMITATION AND DIFFUSION CAPACITY, AND REDUCED EXERCISE TOLERANCE AND TRANSDIAPHRAGMATIC STRENGTH. MOREOVER, IN THE DIAPHRAGM OF THE COPD PATIENTS, MUSCLE-SPECIFIC MICRORNA EXPRESSION WAS DOWNREGULATED, WHILE HDAC4 AND MYOCYTE ENHANCER FACTOR (MEF)2C PROTEIN LEVELS WERE HIGHER, AND DNA METHYLATION LEVELS, MUSCLE FIBER TYPES AND SIZES DID NOT DIFFER BETWEEN PATIENTS AND CONTROLS. IN THE MAIN RESPIRATORY MUSCLE OF COPD PATIENTS WITH A WIDE RANGE OF DISEASE SEVERITY AND NORMAL BODY COMPOSITION, MUSCLE-SPECIFIC MICRORNAS WERE DOWNREGULATED, WHILE HDAC4 AND MEF2C LEVELS WERE UPREGULATED. IT IS LIKELY THAT THESE EPIGENETIC EVENTS ACT AS BIOLOGICAL ADAPTIVE MECHANISMS TO BETTER OVERCOME THE CONTINUOUS INSPIRATORY LOADS OF THE RESPIRATORY SYSTEM IN COPD. THESE FINDINGS MAY OFFER NOVEL THERAPEUTIC STRATEGIES TO SPECIFICALLY TARGET RESPIRATORY MUSCLE DYSFUNCTION IN PATIENTS WITH COPD. 2014 8 2505 37 EPIGENETICS AND MUSCLE DYSFUNCTION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A COMMON, PREVENTABLE, AND TREATABLE DISEASE AND A MAJOR LEADING CAUSE OF MORBIDITY AND MORTALITY WORLDWIDE. IN COPD, COMORBIDITIES, ACUTE EXACERBATIONS, AND SYSTEMIC MANIFESTATIONS NEGATIVELY INFLUENCE DISEASE SEVERITY AND PROGRESSION REGARDLESS OF THE RESPIRATORY CONDITION. SKELETAL MUSCLE DYSFUNCTION, WHICH IS ONE OF THE COMMONEST SYSTEMIC MANIFESTATIONS IN PATIENTS WITH COPD, HAS A TREMENDOUS IMPACT ON THEIR EXERCISE CAPACITY AND QUALITY OF LIFE. SEVERAL PATHOPHYSIOLOGICAL AND MOLECULAR UNDERLYING MECHANISMS INCLUDING EPIGENETICS (THE PROCESS WHEREBY GENE EXPRESSION IS REGULATED BY HERITABLE MECHANISMS THAT DO NOT AFFECT DNA SEQUENCE) HAVE BEEN SHOWN TO PARTICIPATE IN THE ETIOLOGY OF COPD MUSCLE DYSFUNCTION. THE EPIGENETIC MODIFICATIONS IDENTIFIED SO FAR IN CELLS INCLUDE DNA METHYLATION, HISTONE ACETYLATION AND METHYLATION, AND NONCODING RNAS SUCH AS MICRORNAS. HEREIN, WE FIRST REVIEW THE ROLE OF EPIGENETIC MECHANISMS IN MUSCLE DEVELOPMENT AND ADAPTATION TO ENVIRONMENTAL FACTORS IN SEVERAL MODELS. MOREOVER, THE EPIGENETIC EVENTS REPORTED SO FAR TO BE POTENTIALLY INVOLVED IN MUSCLE DYSFUNCTION AND MASS LOSS OF PATIENTS WITH COPD ARE ALSO DISCUSSED. FURTHERMORE, THE DIFFERENT EXPRESSION PROFILE OF SEVERAL MUSCLE-ENRICHED MICRORNAS IN THE DIAPHRAGM AND VASTUS LATERALIS MUSCLES OF PATIENTS WITH COPD ARE ALSO REVIEWED FROM RESULTS RECENTLY OBTAINED IN OUR GROUP. THE ROLE OF PROTEIN HYPERACETYLATION IN ENHANCED MUSCLE PROTEIN CATABOLISM OF LIMB MUSCLES IS ALSO DISCUSSED. FUTURE RESEARCH SHOULD FOCUS ON THE FULL ELUCIDATION OF THE TRIGGERS OF EPIGENETIC MECHANISMS AND THEIR SPECIFIC DOWNSTREAM BIOLOGICAL PATHWAYS IN COPD MUSCLE DYSFUNCTION AND WASTING. 2015 9 4041 25 MACROPHAGE PLASTICITY IN DUCHENNE MUSCULAR DYSTROPHY: A NEXUS OF PATHOLOGICAL REMODELLING WITH THERAPEUTIC IMPLICATIONS. DUCHENNE MUSCULAR DYSTROPHY (DMD) IS CHARACTERIZED BY CHRONIC SKELETAL MUSCLE NECROSIS, LEADING TO MUSCLE REGENERATION FAILURE AND FIBROSIS. ALTHOUGH MACROPHAGES (MPS) ARE NORMALLY ESSENTIAL FOR MUSCLE REGENERATION, DYSREGULATED MP FUNCTION PROMOTES PATHOLOGICAL MUSCLE REMODELLING. INFILTRATING MPS CAN BE PREDOMINANTLY PRO-INFLAMMATORY (M1 BIASED), ANTI-INFLAMMATORY (M2 BIASED) OR OF A MIXED PHENOTYPE AND CAN ORIGINATE FROM THE ADULT BONE MARROW (MONOCYTE DEPENDENT) OR EMBRYONIC PRECURSORS (MONOCYTE INDEPENDENT). IN MDX MICE (GENETIC MODEL OF DMD) LACKING EITHER TOLL-LIKE RECEPTOR (TLR) 2 OR TLR4, IT IS FOUND THAT MP INFILTRATION OF DYSTROPHIC MUSCLE IS SIGNIFICANTLY REDUCED AND THAT THE MP PHENOTYPE IS SHIFTED TOWARD A MORE ANTI-INFLAMMATORY PROFILE. THIS IS ACCOMPANIED BY SIGNIFICANT IMPROVEMENTS IN MUSCLE HISTOLOGY AND FORCE PRODUCTION. LACK OF THE CHEMOKINE RECEPTOR CCR2, WHICH IMPEDES MONOCYTE RELEASE FROM THE BONE MARROW, LEADS TO SIMILAR BENEFICIAL EFFECTS IN MDX MICE. EVIDENCE WAS ALSO FOUND FOR TLR4-REGULATED INDUCTION OF TRAINED INNATE IMMUNITY IN MPS CULTURED FROM THE BONE MARROW OF MDX MICE BEFORE THEIR ENTRY INTO THE MUSCLE. THESE MPS EXHIBIT EPIGENETIC AND METABOLIC ALTERATIONS, ACCOMPANIED BY NON-SPECIFIC HYPER-RESPONSIVENESS TO MULTIPLE STIMULI, WHICH IS MANIFESTED BY POTENTIATED UPREGULATION OF BOTH PRO- AND ANTI-INFLAMMATORY GENES. IN SUMMARY, EXAGGERATED RECRUITMENT OF MONOCYTE-DERIVED MPS AND SIGNS OF TRAINED INNATE IMMUNITY AT THE LEVEL OF THE BONE MARROW ARE FEATURES OF THE IMMUNOPHENOTYPE ASSOCIATED WITH DYSTROPHIC MUSCLE DISEASE. THESE PHENOMENA ARE REGULATED BY TOLL-LIKE RECEPTORS THAT BIND ENDOGENOUS DAMAGE-ASSOCIATED MOLECULAR PATTERN (DAMP) MOLECULES, SUGGESTING THAT DAMP RELEASE FROM DYSTROPHIC MUSCLES MODULATES MP PLASTICITY AT THE BONE MARROW LEVEL THROUGH TOLL-LIKE RECEPTOR-DRIVEN MECHANISMS. 2022 10 4841 37 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 11 4047 30 MAIN PATHOGENIC MECHANISMS AND RECENT ADVANCES IN COPD PERIPHERAL SKELETAL MUSCLE WASTING. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS A WORLDWIDE PREVALENT RESPIRATORY DISEASE MAINLY CAUSED BY TOBACCO SMOKE EXPOSURE. COPD IS NOW CONSIDERED AS A SYSTEMIC DISEASE WITH SEVERAL COMORBIDITIES. AMONG THEM, SKELETAL MUSCLE DYSFUNCTION AFFECTS AROUND 20% OF COPD PATIENTS AND IS ASSOCIATED WITH HIGHER MORBIDITY AND MORTALITY. ALTHOUGH THE HISTOLOGICAL ALTERATIONS ARE WELL CHARACTERIZED, INCLUDING MYOFIBER ATROPHY, A DECREASED PROPORTION OF SLOW-TWITCH MYOFIBERS, AND A DECREASED CAPILLARIZATION AND OXIDATIVE PHOSPHORYLATION CAPACITY, THE MOLECULAR BASIS FOR MUSCLE ATROPHY IS COMPLEX AND REMAINS PARTLY UNKNOWN. MAJOR DIFFICULTIES LIE IN PATIENT HETEROGENEITY, ACCESSING PATIENTS' SAMPLES, AND COMPLEX MULTIFACTORIAL PROCESS INCLUDING EXTRINSIC MECHANISMS, SUCH AS TOBACCO SMOKE OR DISUSE, AND INTRINSIC MECHANISMS, SUCH AS OXIDATIVE STRESS, HYPOXIA, OR SYSTEMIC INFLAMMATION. MUSCLE WASTING IS ALSO A HIGHLY DYNAMIC PROCESS WHOSE INVESTIGATION IS HAMPERED BY THE DIFFERENTIAL PROTEIN REGULATION ACCORDING TO THE STAGE OF ATROPHY. IN THIS REVIEW, WE REPORT AND DISCUSS RECENT DATA REGARDING THE MOLECULAR ALTERATIONS IN COPD LEADING TO IMPAIRED MUSCLE MASS, INCLUDING INFLAMMATION, HYPOXIA AND HYPERCAPNIA, MITOCHONDRIAL DYSFUNCTION, DIVERSE METABOLIC CHANGES SUCH AS OXIDATIVE AND NITROSATIVE STRESS AND GENETIC AND EPIGENETIC MODIFICATIONS, ALL LEADING TO AN IMPAIRED ANABOLIC/CATABOLIC BALANCE IN THE MYOCYTE. WE RECAPITULATE DATA CONCERNING SKELETAL MUSCLE DYSFUNCTION OBTAINED IN THE DIFFERENT RODENT MODELS OF COPD. FINALLY, WE PROPOSE SEVERAL PATHWAYS THAT SHOULD BE INVESTIGATED IN COPD SKELETAL MUSCLE DYSFUNCTION IN THE FUTURE. 2023 12 4928 26 PARP-1 AND PARP-2 ACTIVITY IN CANCER-INDUCED CACHEXIA: POTENTIAL THERAPEUTIC IMPLICATIONS. SKELETAL MUSCLE DYSFUNCTION AND MASS LOSS IS A CHARACTERISTIC FEATURE IN PATIENTS WITH CHRONIC DISEASES INCLUDING CANCER AND ACUTE CONDITIONS SUCH AS CRITICAL ILLNESS. MAINTENANCE OF AN ADEQUATE MUSCLE MASS IS CRUCIAL FOR THE PATIENTS' PROGNOSIS IRRESPECTIVE OF THE UNDERLYING CONDITION. MOREOVER, AGING-RELATED SARCOPENIA MAY FURTHER AGGRAVATE THE MUSCLE WASTING PROCESS ASSOCIATED WITH CHRONIC DISEASES AND CANCER. POLY(ADENOSINE DIPHOSPHATE-RIBOSE) POLYMERASE (PARP) ACTIVATION HAS BEEN DEMONSTRATED TO CONTRIBUTE TO THE PATHOPHYSIOLOGY OF MUSCLE MASS LOSS AND DYSFUNCTION IN ANIMAL MODELS OF CANCER-INDUCED CACHEXIA. GENETIC INHIBITION OF PARP ACTIVITY ATTENUATED THE DELETERIOUS EFFECTS SEEN ON DEPLETED MUSCLES IN MOUSE MODELS OF ONCOLOGIC CACHEXIA. IN THE PRESENT MINIREVIEW THE MECHANISMS WHEREBY PARP ACTIVITY INHIBITION MAY IMPROVE MUSCLE MASS AND PERFORMANCE IN MODELS OF CANCER-INDUCED CACHEXIA ARE DISCUSSED. SPECIFICALLY, THE BENEFICIAL EFFECTS OF INHIBITION OF PARP ACTIVITY ON ATTENUATION OF INCREASED OXIDATIVE STRESS, PROTEIN CATABOLISM, POOR MUSCLE ANABOLISM AND MITOCHONDRIAL CONTENT AND EPIGENETIC MODULATION OF MUSCLE PHENOTYPE ARE REVIEWED IN THIS ARTICLE. FINALLY, THE POTENTIAL THERAPEUTIC STRATEGIES OF PHARMACOLOGICAL PARP ACTIVITY INHIBITION FOR THE TREATMENT OF CANCER-INDUCED CACHEXIA ARE ALSO BEING DESCRIBED IN THIS REVIEW. 2018 13 4410 36 MOLECULAR AND BIOLOGICAL PATHWAYS OF SKELETAL MUSCLE DYSFUNCTION IN CHRONIC OBSTRUCTIVE PULMONARY DISEASE. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) WILL BE A MAJOR LEADING CAUSE OF DEATH WORLDWIDE IN THE NEAR FUTURE. WEAKNESS AND ATROPHY OF THE QUADRICEPS ARE ASSOCIATED WITH A SIGNIFICANTLY POORER PROGNOSIS AND INCREASED MORTALITY IN COPD. DESPITE THAT SKELETAL MUSCLE DYSFUNCTION MAY AFFECT BOTH RESPIRATORY AND LIMB MUSCLE GROUPS IN COPD, THE LATTER ARE FREQUENTLY MORE SEVERELY AFFECTED. THEREFORE, MUSCLE DYSFUNCTION IN COPD IS A COMMON SYSTEMIC MANIFESTATION THAT SHOULD BE EVALUATED ON ROUTINE BASIS IN CLINICAL SETTINGS. IN THE PRESENT REVIEW, SEVERAL ASPECTS OF COPD MUSCLE DYSFUNCTION ARE BEING REVIEWED, WITH SPECIAL EMPHASIS ON THE UNDERLYING BIOLOGICAL MECHANISMS. FIGURES ON THE PREVALENCE OF COPD MUSCLE DYSFUNCTION AND THE MOST RELEVANT ETIOLOGIC CONTRIBUTORS ARE ALSO PROVIDED. DESPITE THAT ONGOING RESEARCH WILL SHED LIGHT INTO THE CONTRIBUTION OF ADDITIONAL MECHANISMS TO COPD MUSCLE DYSFUNCTION, CURRENT KNOWLEDGE POINTS TOWARD THE INVOLVEMENT OF A WIDE SPECTRUM OF CELLULAR AND MOLECULAR EVENTS THAT ARE DIFFERENTIALLY EXPRESSED IN RESPIRATORY AND LIMB MUSCLES. SUCH MECHANISMS ARE THOROUGHLY DESCRIBED IN THE ARTICLE. THE CONTRIBUTION OF EPIGENETIC EVENTS ON COPD MUSCLE DYSFUNCTION IS ALSO REVIEWED. WE CONCLUDE THAT IN VIEW OF THE LATEST DISCOVERIES, FROM NOW, ON NEW AVENUES OF RESEARCH SHOULD BE DESIGNED TO SPECIFICALLY TARGET CELLULAR MECHANISMS AND PATHWAYS THAT IMPAIR MUSCLE MASS AND FUNCTION IN COPD USING PHARMACOLOGICAL STRATEGIES AND/OR EXERCISE TRAINING MODALITIES. 2016 14 5471 24 RESPIRATORY MUSCLE SENESCENCE IN AGEING AND CHRONIC LUNG DISEASES. AGEING IS A PROGRESSIVE CONDITION THAT USUALLY LEADS TO THE LOSS OF PHYSIOLOGICAL PROPERTIES. THIS PROCESS IS ALSO PRESENT IN RESPIRATORY MUSCLES, WHICH ARE AFFECTED BY BOTH SENESCENT CHANGES OCCURRING IN THE WHOLE ORGANISM AND THOSE THAT ARE MORE SPECIFIC FOR MUSCLES. THE MECHANISMS OF THE LATTER CHANGES INCLUDE OXIDATIVE STRESS, DECREASE IN NEUROTROPHIC FACTORS AND DNA ABNORMALITIES. AGEING NORMALLY COEXISTS WITH COMORBIDITIES, INCLUDING RESPIRATORY DISEASES, WHICH FURTHER DETERIORATE THE STRUCTURE AND FUNCTION OF RESPIRATORY MUSCLES. IN THIS CONTEXT, CHANGES INTRINSIC TO AGEING BECOME ENHANCED BY MORE SPECIFIC FACTORS SUCH AS THE IMPAIRMENT IN LUNG MECHANICS AND GAS EXCHANGE, EXACERBATIONS AND HYPOXIA. HYPOXIA IN PARTICULAR HAS A DIRECT EFFECT ON MUSCLES, MAINLY THROUGH THE EXPRESSION OF INDUCIBLE FACTORS (HYPOXIC-INDUCIBLE FACTOR), AND CAN RESULT IN OXIDATIVE STRESS AND CHANGES IN DNA, DECREASE IN MITOCHONDRIAL BIOGENESIS AND DEFECTS IN THE TISSUE REPAIR MECHANISMS. INTENSE EXERCISE CAN ALSO CAUSE DAMAGE IN RESPIRATORY MUSCLES OF ELDERLY RESPIRATORY PATIENTS, BUT THIS CAN BE FOLLOWED BY TISSUE REPAIR AND REMODELLING. HOWEVER, AGEING INTERFERES WITH MUSCLE REPAIR BY TAMPERING WITH THE FUNCTION OF SATELLITE CELLS, MAINLY DUE TO OXIDATIVE STRESS, DNA DAMAGE AND EPIGENETIC MECHANISMS. IN ADDITION TO THE NORMAL PROCESS OF AGEING, STRESS-INDUCED PREMATURE SENESCENCE CAN ALSO OCCUR, INVOLVING CHANGES IN THE EXPRESSION OF MULTIPLE GENES BUT WITHOUT MODIFICATIONS IN TELOMERE LENGTH. 2020 15 2348 35 EPIGENETIC REGULATION OF MUSCLE PHENOTYPE AND ADAPTATION: A POTENTIAL ROLE IN COPD MUSCLE DYSFUNCTION. QUADRICEPS MUSCLE DYSFUNCTION OCCURS IN ONE-THIRD OF PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IN VERY EARLY STAGES OF THEIR CONDITION, EVEN PRIOR TO THE DEVELOPMENT OF AIRWAY OBSTRUCTION. AMONG SEVERAL FACTORS, DECONDITIONING AND MUSCLE MASS LOSS ARE THE MOST RELEVANT CONTRIBUTING FACTORS LEADING TO THIS DYSFUNCTION. MOREOVER, EPIGENETICS, DEFINED AS THE PROCESS WHEREBY GENE EXPRESSION IS REGULATED BY HERITABLE MECHANISMS THAT DO NOT AFFECT DNA SEQUENCE, COULD BE INVOLVED IN THE SUSCEPTIBILITY TO MUSCLE DYSFUNCTION, PATHOGENESIS, AND PROGRESSION. HEREIN, WE REVIEW THE ROLE OF EPIGENETIC MECHANISMS IN MUSCLE DEVELOPMENT AND ADAPTATION TO ENVIRONMENTAL FACTORS SUCH AS IMMOBILIZATION AND EXERCISE, AND THEIR IMPLICATIONS IN THE PATHOPHYSIOLOGY AND SUSCEPTIBILITY TO MUSCLE DYSFUNCTION IN COPD. THE EPIGENETIC MODIFICATIONS IDENTIFIED SO FAR INCLUDE DNA METHYLATION, HISTONE ACETYLATION AND METHYLATION, AND NON-CODING RNAS SUCH AS MICRORNAS (MIRNAS). IN THE PRESENT REVIEW, WE DESCRIBE THE SPECIFIC CONTRIBUTION OF EPIGENETIC MECHANISMS TO THE REGULATION OF EMBRYONIC MYOGENESIS, MUSCLE STRUCTURE AND METABOLISM, IMMOBILIZATION, AND EXERCISE, AND IN MUSCLES OF COPD PATIENTS. EVENTS RELATED TO MUSCLE DEVELOPMENT AND REGENERATION AND THE RESPONSE TO EXERCISE AND IMMOBILIZATION ARE TIGHTLY REGULATED BY EPIGENETIC MECHANISMS. THESE ENVIRONMENTAL FACTORS PLAY A KEY ROLE IN THE OUTCOME OF MUSCLE MASS AND FUNCTION AS WELL AS IN THE SUSCEPTIBILITY TO MUSCLE DYSFUNCTION IN COPD. FUTURE RESEARCH REMAINS TO BE DONE TO SHED LIGHT ON THE SPECIFIC TARGET PATHWAYS OF MIRNA FUNCTION AND OTHER EPIGENETIC MECHANISMS IN THE SUSCEPTIBILITY, PATHOGENESIS, AND PROGRESSION OF COPD MUSCLE DYSFUNCTION. 2013 16 5327 28 PULSED GLUCOCORTICOIDS ENHANCE DYSTROPHIC MUSCLE PERFORMANCE THROUGH EPIGENETIC-METABOLIC REPROGRAMMING. IN HUMANS, CHRONIC GLUCOCORTICOID USE IS ASSOCIATED WITH SIDE EFFECTS LIKE MUSCLE WASTING, OBESITY, AND METABOLIC SYNDROME. INTERMITTENT STEROID DOSING HAS BEEN PROPOSED IN DUCHENNE MUSCULAR DYSTROPHY PATIENTS TO MITIGATE THE SIDE EFFECTS SEEN WITH DAILY STEROID INTAKE. WE EVALUATED BIOMARKERS FROM DUCHENNE MUSCULAR DYSTROPHY PATIENTS, FINDING THAT, COMPARED WITH CHRONIC DAILY STEROID USE, WEEKEND STEROID USE WAS ASSOCIATED WITH REDUCED SERUM INSULIN, FREE FATTY ACIDS, AND BRANCHED CHAIN AMINO ACIDS, AS WELL AS REDUCTION IN FAT MASS DESPITE HAVING SIMILAR BMIS. WE REASONED THAT INTERMITTENT PREDNISONE ADMINISTRATION IN DYSTROPHIC MICE WOULD ALTER MUSCLE EPIGENOMIC SIGNATURES, AND WE IDENTIFIED THE COORDINATED ACTION OF THE GLUCOCORTICOID RECEPTOR, KLF15 AND MEF2C AS MEDIATORS OF A GENE EXPRESSION PROGRAM DRIVING METABOLIC REPROGRAMMING AND ENHANCED NUTRIENT UTILIZATION. MUSCLE LACKING KLF15 FAILED TO RESPOND TO INTERMITTENT STEROIDS. FURTHERMORE, COADMINISTRATION OF THE HISTONE ACETYLTRANSFERASE INHIBITOR ANACARDIC ACID WITH STEROIDS IN MDX MICE ELIMINATED STEROID-SPECIFIC EPIGENETIC MARKS AND ABROGATED THE STEROID RESPONSE. TOGETHER, THESE FINDINGS INDICATE THAT INTERMITTENT, REPEATED EXPOSURE TO GLUCOCORTICOIDS PROMOTES PERFORMANCE IN DYSTROPHIC MUSCLE THROUGH AN EPIGENETIC PROGRAM THAT ENHANCES NUTRIENT UTILIZATION. 2019 17 6495 15 TRAINED IMMUNITY AS A POTENTIAL TARGET FOR THERAPEUTIC IMMUNOMODULATION IN DUCHENNE MUSCULAR DYSTROPHY. DYSREGULATED INFLAMMATION INVOLVING INNATE IMMUNE CELLS, PARTICULARLY OF THE MONOCYTE/MACROPHAGE LINEAGE, IS A KEY CONTRIBUTOR TO THE PATHOGENESIS OF DUCHENNE MUSCULAR DYSTROPHY (DMD). TRAINED IMMUNITY IS AN EVOLUTIONARILY ANCIENT PROTECTIVE MECHANISM AGAINST INFECTION, IN WHICH EPIGENETIC AND METABOLIC ALTERATIONS CONFER NON-SPECIFIC HYPERRESPONSIVENESS OF INNATE IMMUNE CELLS TO VARIOUS STIMULI. RECENT WORK IN AN ANIMAL MODEL OF DMD (MDX MICE) HAS SHOWN THAT MACROPHAGES EXHIBIT CARDINAL FEATURES OF TRAINED IMMUNITY, INCLUDING THE PRESENCE OF INNATE IMMUNE SYSTEM "MEMORY". THE LATTER IS REFLECTED BY EPIGENETIC CHANGES AND DURABLE TRANSMISSIBILITY OF THE TRAINED PHENOTYPE TO HEALTHY NON-DYSTROPHIC MICE BY BONE MARROW TRANSPLANTATION. MECHANISTICALLY, IT IS SUGGESTED THAT A TOLL-LIKE RECEPTOR (TLR) 4-REGULATED, MEMORY-LIKE CAPACITY OF INNATE IMMUNITY IS INDUCED AT THE LEVEL OF THE BONE MARROW BY FACTORS RELEASED FROM THE DAMAGED MUSCLES, LEADING TO EXAGGERATED UPREGULATION OF BOTH PRO- AND ANTI-INFLAMMATORY GENES. HERE WE PROPOSE A CONCEPTUAL FRAMEWORK FOR THE INVOLVEMENT OF TRAINED IMMUNITY IN DMD PATHOGENESIS AND ITS POTENTIAL TO SERVE AS A NEW THERAPEUTIC TARGET. 2023 18 5724 21 SKELETAL MUSCLE WASTING AND ITS RELATIONSHIP WITH OSTEOARTHRITIS: A MINI-REVIEW OF MECHANISMS AND CURRENT INTERVENTIONS. PURPOSE OF REVIEW: OSTEOARTHRITIS (OA) IS A SUBSET OF JOINT DISORDERS RESULTING IN DEGENERATION OF SYNOVIAL JOINTS. THIS LEADS TO PAIN, DISABILITY AND LOSS OF INDEPENDENCE. KNEE AND HIP OA ARE EXTREMELY PREVALENT, AND THEIR OCCURRENCE INCREASES WITH AGEING. SIMILARLY, LOSS OF MUSCLE MASS AND FUNCTION, SARCOPENIA, OCCURS DURING AGEING. RECENT FINDINGS: LITTLE IS KNOWN ABOUT THE IMPACT OF MUSCLE WASTING ON OA PROGRESSION; NEVERTHELESS, IT HAS BEEN SUGGESTED THAT MUSCLE WASTING DIRECTLY AFFECTS THE STABILITY OF THE JOINTS AND LOSS OF MOBILITY LEADS TO GRADUAL DEGENERATION OF ARTICULAR CARTILAGE. THE MOLECULAR MECHANISMS UNDERLYING MUSCLE WASTING IN OA ARE NOT WELL UNDERSTOOD; HOWEVER, THESE ARE PROBABLY RELATED TO CHANGES IN GENE EXPRESSION, AS WELL AS EPIGENETIC MODIFICATIONS. IT IS BECOMING CLEAR THAT SKELETAL MUSCLE WASTING PLAYS AN IMPORTANT ROLE IN OA DEVELOPMENT AND/OR PROGRESSION. HERE, WE DISCUSS MECHANISMS, CURRENT INTERVENTIONS, SUCH AS EXERCISE, AND POTENTIALLY NOVEL APPROACHES, SUCH AS MODULATION OF MICRORNAS, AIMING AT AMELIORATING OA SYMPTOMS THROUGH MAINTAINING MUSCLE MASS AND FUNCTION. 2019 19 3090 36 GENOMIC AND EPIGENOMIC EVALUATION OF ELECTRICALLY INDUCED EXERCISE IN PEOPLE WITH SPINAL CORD INJURY: APPLICATION TO PRECISION REHABILITATION. OBJECTIVE: PHYSICAL THERAPISTS DEVELOP PATIENT-CENTERED EXERCISE PRESCRIPTIONS TO HELP OVERCOME THE PHYSICAL, EMOTIONAL, PSYCHOSOCIAL, AND ENVIRONMENTAL STRESSORS THAT UNDERMINE A PERSON'S HEALTH. OPTIMALLY PRESCRIBING MUSCLE ACTIVITY FOR PEOPLE WITH DISABILITY, SUCH AS A SPINAL CORD INJURY, IS CHALLENGING BECAUSE OF THEIR LOSS OF VOLITIONAL MOVEMENT CONTROL AND THE DETERIORATION OF THEIR UNDERLYING SKELETAL SYSTEMS. THIS REPORT SUMMARIZES SPINAL CORD INJURY-SPECIFIC FACTORS THAT SHOULD BE CONSIDERED IN PATIENT-CENTERED, PRECISION PRESCRIPTION OF MUSCLE ACTIVITY FOR PEOPLE WITH SPINAL CORD INJURY. THIS REPORT ALSO PRESENTS A MUSCLE GENOMIC AND EPIGENOMIC ANALYSIS TO EXAMINE THE REGULATION OF THE PROLIFERATOR-ACTIVATED RECEPTOR GAMMA COACTIVATOR 1ALPHA (PGC-1ALPHA) (OXIDATIVE) AND MYOSTATIN (HYPERTROPHY) SIGNALING PATHWAYS IN SKELETAL MUSCLE DURING LOW-FREQUENCY (LOWER-FORCE) ELECTRICALLY INDUCED EXERCISE VERSUS HIGHER-FREQUENCY (HIGHER-FORCE) ELECTRICALLY INDUCED EXERCISE UNDER CONSTANT MUSCLE RECRUITMENT (INTENSITY). METHODS: SEVENTEEN PEOPLE WITH SPINAL CORD INJURY PARTICIPATED IN 1 OR MORE UNILATERAL ELECTRICALLY INDUCED EXERCISE SESSIONS USING A LOWER-FORCE (1-, 3-, OR 5-HZ) OR HIGHER-FORCE (20-HZ) PROTOCOL. THREE HOURS AFTER THE EXERCISE SESSION, PERCUTANEOUS MUSCLE BIOPSIES WERE PERFORMED ON EXERCISED AND NONEXERCISED MUSCLES FOR GENOMIC AND EPIGENOMIC ANALYSIS. RESULTS: WE FOUND THAT LOW-FREQUENCY (LOW-FORCE) ELECTRICALLY INDUCED EXERCISE SIGNIFICANTLY INCREASED THE EXPRESSION OF PGC-1ALPHA AND DECREASED THE EXPRESSION OF MYOSTATIN, CONSISTENT WITH THE EXPRESSION CHANGES OBSERVED WITH HIGH-FREQUENCY (HIGHER-FORCE) ELECTRICALLY INDUCED EXERCISE. FURTHER, WE FOUND THAT LOW-FREQUENCY (LOWER-FORCE) ELECTRICALLY INDUCED EXERCISE SIGNIFICANTLY DEMETHYLATED, OR EPIGENETICALLY PROMOTED, THE PGC-1ALPHA SIGNALING PATHWAY. A GLOBAL EPIGENETIC ANALYSIS SHOWED THAT >70 PATHWAYS WERE REGULATED WITH LOW-FREQUENCY (LOWER-FORCE) ELECTRICALLY INDUCED EXERCISE. CONCLUSION: THESE NOVEL RESULTS SUPPORT THE NOTION THAT LOW-FREQUENCY (LOW-FORCE) ELECTRICALLY INDUCED EXERCISE MAY OFFER A MORE PRECISE REHABILITATION STRATEGY FOR PEOPLE WITH CHRONIC PARALYSIS AND SEVERE OSTEOPOROSIS. FUTURE CLINICAL TRIALS ARE WARRANTED TO EXPLORE WHETHER LOW-FREQUENCY (LOWER-FORCE) ELECTRICALLY INDUCED EXERCISE TRAINING AFFECTS THE OVERALL HEALTH OF PEOPLE WITH CHRONIC SPINAL CORD INJURY. 2022 20 4544 34 MUSCLE HYPERTROPHY IN HYPOXIA WITH INFLAMMATION IS CONTROLLED BY BROMODOMAIN AND EXTRA-TERMINAL DOMAIN PROTEINS. SOME OF THE CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) PATIENTS ENGAGED IN EXERCISE-BASED MUSCLE REHABILITATION PROGRAMS ARE UNRESPONSIVE. TO UNRAVEL THE RESPECTIVE ROLE OF CHRONIC HYPOXIA AND PULMONARY INFLAMMATION ON SOLEUS MUSCLE HYPERTROPHIC CAPACITIES, WE CHALLENGED MALE WISTAR RATS TO REPEATED LIPOPOLYSACCHARIDE INSTILLATIONS, ASSOCIATED OR NOT WITH A CHRONIC HYPOXIA EXPOSURE. MUSCLE HYPERTROPHY WAS INITIATED BY BILATERAL ABLATION OF SOLEUS AGONISTS 1 WEEK BEFORE SACRIFICE. TO UNDERSTAND THE ROLE PLAYED BY THE HISTONE ACETYLATION, WE ALSO TREATED OUR ANIMALS WITH AN INHIBITOR OF BROMODOMAINS AND EXTRA TERMINAL PROTEINS (I-BET) DURING THE WEEK AFTER SURGERY. PULMONARY INFLAMMATION TOTALLY INHIBITED THIS HYPERTROPHY RESPONSE UNDER BOTH NORMOXIC AND HYPOXIC CONDITIONS (26% LOWER THAN CONTROL SURGERY, P < 0.05), CONSISTENT WITH THE S6K1 AND MYOGENIN MEASUREMENTS. CHANGES IN HISTONE ACETYLATION AND CLASS IIA HISTONE DEACETYLASES EXPRESSION, FOLLOWING PULMONARY INFLAMMATION, SUGGESTED A PUTATIVE ROLE FOR HISTONE ACETYLATION SIGNALING IN THE ALTERED HYPERTROPHY RESPONSE. THE I-BET DRUG RESTORED THE HYPERTROPHY RESPONSE SUGGESTING THAT THE NON-RESPONSE OF MUSCLE TO A HYPERTROPHIC STIMULUS COULD BE MODULATED BY EPIGENETIC MECHANISMS, INCLUDING HISTONE-ACETYLATION DEPENDANT PATHWAYS. DRUGS TARGETING SUCH EPIGENETIC MECHANISMS MAY OPEN THERAPEUTIC PERSPECTIVES FOR COPD PATIENTS WITH SYSTEMIC INFLAMMATION WHO ARE UNRESPONSIVE TO REHABILITATION. 2017