1 4414 122 MOLECULAR AND CELLULAR MECHANISMS OF PROPOLIS AND ITS POLYPHENOLIC COMPOUNDS AGAINST CANCER. IN RECENT YEARS, INTEREST IN NATURAL PRODUCTS SUCH AS ALTERNATIVE SOURCES OF PHARMACEUTICALS FOR NUMEROUS CHRONIC DISEASES, INCLUDING TUMORS, HAS BEEN RENEWED. PROPOLIS, A NATURAL PRODUCT COLLECTED BY HONEYBEES, AND POLYPHENOLIC/FLAVONOID PROPOLIS-RELATED COMPONENTS MODULATE ALL STEPS OF THE CANCER PROGRESSION PROCESS. ANTICANCER ACTIVITY OF PROPOLIS AND ITS COMPOUNDS RELIES ON VARIOUS MECHANISMS: CELL-CYCLE ARREST AND ATTENUATION OF CANCER CELLS PROLIFERATION, REDUCTION IN THE NUMBER OF CANCER STEM CELLS, INDUCTION OF APOPTOSIS, MODULATION OF ONCOGENE SIGNALING PATHWAYS, INHIBITION OF MATRIX METALLOPROTEINASES, PREVENTION OF METASTASIS, ANTI-ANGIOGENESIS, ANTI-INFLAMMATORY EFFECTS ACCOMPANIED BY THE MODULATION OF THE TUMOR MICROENVIRONMENT (BY MODIFYING MACROPHAGE ACTIVATION AND POLARIZATION), EPIGENETIC REGULATION, ANTIVIRAL AND BACTERICIDAL ACTIVITIES, MODULATION OF GUT MICROBIOTA, AND ATTENUATION OF CHEMOTHERAPY-INDUCED DELETERIOUS SIDE EFFECTS. INGREDIENTS FROM PROPOLIS ALSO "SENSITIZE" CANCER CELLS TO CHEMOTHERAPEUTIC AGENTS, LIKELY BY BLOCKING THE ACTIVATION OF THE TRANSCRIPTION FACTOR NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB). IN THIS REVIEW, WE SUMMARIZE THE CURRENT KNOWLEDGE RELATED TO THE THE EFFECTS OF FLAVONOIDS AND OTHER POLYPHENOLIC COMPOUNDS FROM PROPOLIS ON TUMOR GROWTH AND METASTASIZING ABILITY, AND DISCUSS POSSIBLE MOLECULAR AND CELLULAR MECHANISMS INVOLVED IN THE MODULATION OF INFLAMMATORY PATHWAYS AND CELLULAR PROCESSES THAT AFFECT SURVIVAL, PROLIFERATION, INVASION, ANGIOGENESIS, AND METASTASIS OF THE TUMOR. 2022 2 4558 33 MUTATIONS IN THE NF-KAPPAB SIGNALING PATHWAY: IMPLICATIONS FOR HUMAN DISEASE. THE NUCLEAR FACTOR-KAPPA B (NF-KAPPAB) SIGNALING PATHWAY IS A MULTI-COMPONENT PATHWAY THAT REGULATES THE EXPRESSION OF HUNDREDS OF GENES THAT ARE INVOLVED IN DIVERSE AND KEY CELLULAR AND ORGANISMAL PROCESSES, INCLUDING CELL PROLIFERATION, CELL SURVIVAL, THE CELLULAR STRESS RESPONSE, INNATE IMMUNITY AND INFLAMMATION. NOT SURPRISINGLY, MIS-REGULATION OF THE NF-KAPPAB PATHWAY, EITHER BY MUTATION OR EPIGENETIC MECHANISMS, IS INVOLVED IN MANY HUMAN AND ANIMAL DISEASES, ESPECIALLY ONES ASSOCIATED WITH CHRONIC INFLAMMATION, IMMUNODEFICIENCY OR CANCER. THIS REVIEW DESCRIBES HUMAN DISEASES IN WHICH MUTATIONS IN THE COMPONENTS OF THE CORE NF-KAPPAB SIGNALING PATHWAY HAVE BEEN IMPLICATED AND DISCUSSES THE MOLECULAR MECHANISMS BY WHICH THESE ALTERATIONS IN NF-KAPPAB SIGNALING ARE LIKELY TO CONTRIBUTE TO THE DISEASE PATHOLOGY. THESE MUTATIONS CAN BE GERMLINE OR SOMATIC AND INCLUDE GENE AMPLIFICATION (E.G., REL), POINT MUTATIONS AND DELETIONS (REL, NFKB2, IKBA, CYLD, NEMO) AND CHROMOSOMAL TRANSLOCATIONS (BCL-3). IN ADDITION, HUMAN GENETIC DISEASES ARE BRIEFLY DESCRIBED WHEREIN MUTATIONS AFFECT PROTEIN MODIFIERS OR TRANSDUCERS OF NF-KAPPAB SIGNALING OR DISRUPT NF-KAPPAB-BINDING SITES IN PROMOTERS/ENHANCERS. 2006 3 6584 26 TRIGGERING RECEPTORS EXPRESSED ON MYELOID CELLS 1 : OUR NEW PARTNER IN HUMAN ONCOLOGY? INFLAMMATION IS RECOGNIZED AS ONE OF THE HALLMARKS OF CANCER. INDEED, STRONG EVIDENCE INDICATES THAT CHRONIC INFLAMMATION PLAYS A MAJOR ROLE IN ONCOGENESIS, PROMOTING GENOME INSTABILITY, EPIGENETIC ALTERATIONS, PROLIFERATION AND DISSEMINATION OF CANCER CELLS. MONONUCLEAR PHAGOCYTES (MPS) HAVE BEEN IDENTIFIED AS KEY CONTRIBUTORS OF THE INFLAMMATORY INFILTRATE IN SEVERAL SOLID HUMAN NEOPLASIA, PROMOTING ANGIOGENESIS AND CANCER PROGRESSION. ONE OF THE MOST DESCRIBED AMPLIFIERS OF MPS PRO-INFLAMMATORY INNATE IMMUNE RESPONSE IS THE TRIGGERING RECEPTORS EXPRESSED ON MYELOID CELLS 1 (TREM-1). GROWING EVIDENCE SUGGESTS TREM-1 INVOLVEMENT IN ONCOGENESIS THROUGH CANCER RELATED INFLAMMATION AND THE SURROUNDING TUMOR MICROENVIRONMENT. IN HUMAN ONCOLOGY, HIGH LEVELS OF TREM-1 AND/OR ITS SOLUBLE FORM HAVE BEEN ASSOCIATED WITH POORER SURVIVAL DATA IN SEVERAL SOLID MALIGNANCIES, ESPECIALLY IN HEPATOCELLULAR CARCINOMA AND LUNG CANCER. TREM-1 SHOULD BE CONSIDERED AS A POTENTIAL BIOMARKER IN HUMAN ONCOLOGY AND COULD BE USED AS A NEW THERAPEUTIC TARGET OF INTEREST IN HUMAN ONCOLOGY (TREM-1 INHIBITORS, TREM-1 AGONISTS). MORE CLINICAL STUDIES ARE URGENTLY NEEDED TO CONFIRM TREM-1 (AND TREM FAMILY) ROLES IN THE PROGNOSIS AND THE TREATMENT OF HUMAN SOLID CANCERS. 2022 4 2446 16 EPIGENETIC STRATEGIES SYNERGIZE WITH PD-L1/PD-1 TARGETED CANCER IMMUNOTHERAPIES TO ENHANCE ANTITUMOR RESPONSES. IMMUNOTHERAPY STRATEGIES TARGETING THE PROGRAMMED CELL DEATH LIGAND 1 (PD-L1)/PROGRAMMED CELL DEATH 1 (PD-1) PATHWAY IN CLINICAL TREATMENTS HAVE ACHIEVED REMARKABLE SUCCESS IN TREATING MULTIPLE TYPES OF CANCER. HOWEVER, OWING TO THE HETEROGENEITY OF TUMORS AND INDIVIDUAL IMMUNE SYSTEMS, PD-L1/PD-1 BLOCKADE STILL SHOWS SLOW RESPONSE RATES IN CONTROLLING MALIGNANCIES IN MANY PATIENTS. ACCUMULATING EVIDENCE HAS SHOWN THAT AN EFFECTIVE RESPONSE TO ANTI-PD-L1/ANTI-PD-1 THERAPY REQUIRES ESTABLISHING AN INTEGRATED IMMUNE CYCLE. DAMAGE IN ANY STEP OF THE IMMUNE CYCLE IS ONE OF THE MOST IMPORTANT CAUSES OF IMMUNOTHERAPY FAILURE. IMPAIRMENTS IN THE IMMUNE CYCLE CAN BE RESTORED BY EPIGENETIC MODIFICATION, INCLUDING REPROGRAMMING THE ENVIRONMENT OF TUMOR-ASSOCIATED IMMUNITY, ELICITING AN IMMUNE RESPONSE BY INCREASING THE PRESENTATION OF TUMOR ANTIGENS, AND BY REGULATING T CELL TRAFFICKING AND REACTIVATION. THUS, A RATIONAL COMBINATION OF PD-L1/PD-1 BLOCKADE AND EPIGENETIC AGENTS MAY OFFER GREAT POTENTIAL TO RETRAIN THE IMMUNE SYSTEM AND TO IMPROVE CLINICAL OUTCOMES OF CHECKPOINT BLOCKADE THERAPY. 2020 5 3762 37 INTEGRATING THE TUMOR-SUPPRESSIVE ACTIVITY OF MASPIN WITH P53 IN RETUNING THE EPITHELIAL HOMEOSTASIS: A WORKING HYPOTHESIS AND APPLICABLE PROSPECTS. EPITHELIAL MALIGNANT TRANSFORMATION AND TUMOROUS DEVELOPMENT WERE BELIEVED TO BE CLOSELY ASSOCIATED WITH THE LOSS OF ITS MICROENVIRONMENT INTEGRITY AND HOMEOSTASIS. THE TUMOR-SUPPRESSIVE MOLECULES MASPIN AND P53 WERE DEMONSTRATED TO PLAY A CRUCIAL ROLE IN BODY EPITHELIAL AND IMMUNE HOMEOSTASIS. DOWNREGULATION OF MASPIN AND MUTATION OF P53 WERE FREQUENTLY ASSOCIATED WITH MALIGNANT TRANSFORMATION AND POOR PROGNOSIS IN VARIOUS HUMAN CANCERS. IN THIS REVIEW, WE FOCUSED ON SUMMARIZING THE PROGRESS OF THE MOLECULAR NETWORK OF MASPIN IN STUDYING EPITHELIAL TUMOROUS DEVELOPMENT AND ITS RESPONSE TO CLINIC TREATMENT AND TRY TO CLARIFY THE UNDERLYING ANTITUMOR MECHANISM. NOTABLY, MASPIN EXPRESSION WAS REPORTED TO BE TRANSCRIPTIONALLY ACTIVATED BY P53, AND THE TRANSCRIPTIONAL ACTIVITY OF P53 WAS DEMONSTRATED TO BE ENHANCED BY ITS ACETYLATION THROUGH INHIBITION OF HDAC1. AS AN ENDOGENOUS INHIBITOR OF HDAC1, MASPIN POSSIBLY POTENTIATES THE TRANSCRIPTIONAL ACTIVITY OF P53 BY ACETYLATING THE P53 PROTEIN. HEREBY, IT COULD FORM A "SELF-PROPELLING" ANTITUMOR MECHANISM. THUS, WE SUMMARIZED THAT, UPON STIMULATION OF CELLULAR STRESS AND BY INTEGRATING WITH P53, THE AROUSED MASPIN PLAYED THE EPIGENETIC SURVEILLANT ROLE TO PREVENT THE EPITHELIAL DIGRESSIONAL PROCESS AND RETUNE THE EPITHELIAL HOMEOSTASIS, WHICH IS INVOLVED IN ACTIVATING HOST IMMUNE SURVEILLANCE, REGULATING THE INFLAMMATORY FACTORS, AND FINE-TUNING ITS ASSOCIATED CELL SIGNALING PATHWAYS. CONSEQUENTIALLY, IN A NORMAL PHYSIOLOGICAL CONDITION, ACTIVATION OF THE ABOVE "SELF-PROPELLING" ANTITUMOR MECHANISM OF MASPIN AND P53 COULD REDUCE CELLULAR STRESS (E.G., CHRONIC INFECTION/INFLAMMATION, OXIDATIVE STRESS, TRANSFORMATION) EFFECTIVELY AND ACHIEVE CANCER PREVENTION. MEANWHILE, DESIGNING A STRATEGY OF MIMICKING MASPIN'S EPIGENETIC REGULATION ACTIVITY WITH INTEGRATING P53 TUMOR-SUPPRESSIVE ACTIVITY COULD ENHANCE THE CHEMOTHERAPY EFFICACY THEORETICALLY IN A PATHOLOGICAL CONDITION OF CANCER. 2022 6 3933 33 LIVER SINUSOIDAL ENDOTHELIAL CELLS ARE IMPLICATED IN MULTIPLE FIBROTIC MECHANISMS. CHRONIC LIVER DISEASES ARE ATTRIBUTED TO LIVER INJURY. DEVELOPMENT OF FIBROSIS FROM CHRONIC LIVER DISEASES IS A DYNAMIC PROCESS THAT INVOLVES MULTIPLE MOLECULAR AND CELLULAR PROCESSES. AS THE FIRST TO BE IMPACTED BY INJURY, LIVER SINUSOIDAL ENDOTHELIAL CELLS (LSECS) ARE INVOLVED IN THE PATHOGENESIS OF LIVER DISEASES CAUSED BY A VARIETY OF ETIOLOGIES. MOREOVER, CAPILLARIZATION OF LSECS HAS BEEN RECOGNIZED AS AN IMPORTANT EVENT IN THE DEVELOPMENT OF CHRONIC LIVER DISEASES AND FIBROSIS. STUDIES HAVE REPORTED THAT VARIOUS CYTOKINES (SUCH AS VASCULAR ENDOTHELIAL GROWTH FACTOR, TRANSFORMING GROWTH FACTOR-BETA), AND PATHWAYS (SUCH AS HEDGEHOG, AND NOTCH), AS WELL AS EPIGENETIC AND METABOLIC FACTORS ARE INVOLVED IN THE DEVELOPMENT OF LSEC-MEDIATED LIVER FIBROSIS. THIS REVIEW DESCRIBES THE COMPLEXITY AND PLASTICITY OF LSECS IN FIBROTIC LIVER DISEASES FROM SEVERAL PERSPECTIVES, INCLUDING THE CROSS-TALK BETWEEN LSECS AND OTHER INTRA-HEPATIC CELLS. MOREOVER, IT SUMMARIZES THE MECHANISMS OF SEVERAL KINDS OF LSECS-TARGETING ANTI-FIBROSIS CHEMICALS, AND PROVIDES A THEORETICAL BASIS FOR FUTURE STUDIES. 2021 7 6906 25 [THE ROLE OF GLYCANS IN CANCER DEVELOPMENT AND PROGRESSION. CLINICAL APPLICATIONS]. CHANGES IN GLYCOSYLATION PATTERN OF CELL SURFACE, BODY FLUIDS AND EXTRACELLULAR MATRIX GLYCOCONJUGATES IS A CHARACTERISTIC FEATURE OF TUMOR CELL MALIGNANCY. THESE CHANGES ARE THE RESULT OF MUTATIONS OF TUMOR-ASSOCIATED GENES AS WELL AS EPIGENETIC CHANGES IN THE TUMOR ENVIRONMENT, INCLUDING NUTRIENT INFLUX, HYPOXIA, CYTOKINE EXPRESSION AND STIMULATION OF CHRONIC INFLAMMATION. THE UNIQUE SET OF CELL SURFACE GLYCOANTIGENS ON NEOPLASTIC CELLS IS RECOGNIZED BY ENDOGENOUS LECTINS LOCATED IN THE EXTRACELLULAR MATRIX, VASCULAR ENDOTHELIUM, ON LEUKOCYTES OR PLATELETS, AND HAS AN IMPACT ON DISRUPTING BASIC CELLULAR PROCESSES, SUCH AS INTERCELLULAR RECOGNITION, CELL-CELL ADHESION OR CELL-ECM INTERACTION. THESE CHANGES HAVE A CRITICAL IMPACT ON THE MIGRATION, INVASIVE AND METASTATIC POTENTIAL OF NEOPLASTIC CELLS AND MODULATE THE IMMUNE RESPONSE. THIS UNIQUE PATTERN OF SUGAR ANTIGENS ON THE CANCER CELLS CAN BE A VAULABLE MARKER TO IDENTIFY THEM, DETERMINE THE STAGE OF THE DISEASE AS WELL AS BE A TARGET OF ANTI-CANCER THERAPY. 2021 8 2461 29 EPIGENETIC THERAPY AS A PUTATIVE MOLECULAR TARGET TO MODULATE B CELL BIOLOGY AND BEHAVIOR IN THE CONTEXT OF IMMUNOLOGICAL DISORDERS. HISTONE DEACETYLASE- (HDAC-) DEPENDENT EPIGENETIC MECHANISMS HAVE BEEN WIDELY EXPLORED IN THE LAST DECADE IN DIFFERENT TYPES OF MALIGNANCIES IN PRECLINICAL STUDIES. THIS EFFORT LED TO THE DISCOVERY AND DEVELOPMENT OF A RANGE OF NEW HDAC INHIBITORS (IHDAC) WITH DIFFERENT CHEMICAL PROPERTIES AND SELECTIVE ABILITIES. IN FACT, HEMATOLOGICAL MALIGNANCIES WERE THE FIRST ONES TO HAVE NEW IHDACS APPROVED FOR CLINICAL USE, SUCH AS VORINOSTAT AND ROMIDEPSIN FOR CUTANEOUS T CELL LYMPHOMA AND PANOBINOSTAT FOR MULTIPLE MYELOMA. BESIDES THESE PROMISING ALREADY APPROVED IHDACS, WE HIGHLIGHT A RANGE OF STUDIES FOCUSING ON THE HDAC-DEPENDENT EPIGENETIC CONTROL OF B CELL DEVELOPMENT, BEHAVIOR, AND/OR FUNCTION. HERE, WE HIGHLIGHT 21 IHDACS WHICH HAVE BEEN STUDIED IN THE LITERATURE IN THE CONTEXT OF B CELL DEVELOPMENT AND/OR DYSFUNCTION MOSTLY FOCUSED ON B CELL LYMPHOMAGENESIS. REGARDLESS, WE HAVE IDENTIFIED 55 CLINICAL TRIALS USING 6 OUT OF 21 IHDACS TO APPROACH THEIR PUTATIVE ROLES ON B CELL MALIGNANCIES; NONE OF THEM FOCUSES ON PERITONEAL B CELL POPULATIONS. SINCE CELLS BELONGING TO THIS PECULIAR BODY COMPARTMENT, NAMED B1 CELLS, MAY CONTRIBUTE TO THE DEVELOPMENT OF AUTOIMMUNE PATHOLOGIES, SUCH AS LUPUS, A BETTER UNDERSTANDING OF THE HDAC-DEPENDENT EPIGENETIC MECHANISMS THAT CONTROL ITS BIOLOGY AND BEHAVIOR MIGHT SHED LIGHT ON IHDAC USE TO MANAGE THESE IMMUNOLOGICAL DYSFUNCTIONS. IN THIS SENSE, IHDACS MIGHT EMERGE AS A PROMISING NEW APPROACH FOR TRANSLATIONAL STUDIES IN THIS FIELD. IN THIS REVIEW, WE DISCUSS A PUTATIVE ROLE OF IHDACS IN THE MODULATION OF PERITONEAL B CELL SUBPOPULATION'S BALANCE AS WELL AS THEIR ROLE AS THERAPEUTIC AGENTS IN THE CONTEXT OF CHRONIC DISEASES MEDIATED BY PERITONEAL B CELLS. 2020 9 3152 35 GLUCOSE VARIABILITY: HOW DOES IT WORK? A GROWING BODY OF EVIDENCE POINTS TO THE ROLE OF GLUCOSE VARIABILITY (GV) IN THE DEVELOPMENT OF THE MICROVASCULAR AND MACROVASCULAR COMPLICATIONS OF DIABETES. IN THIS REVIEW, WE SUMMARIZE DATA ON GV-INDUCED BIOCHEMICAL, CELLULAR AND MOLECULAR EVENTS INVOLVED IN THE PATHOGENESIS OF DIABETIC COMPLICATIONS. CURRENT DATA INDICATE THAT THE DETERIORATING EFFECT OF GV ON TARGET ORGANS CAN BE REALIZED THROUGH OXIDATIVE STRESS, GLYCATION, CHRONIC LOW-GRADE INFLAMMATION, ENDOTHELIAL DYSFUNCTION, PLATELET ACTIVATION, IMPAIRED ANGIOGENESIS AND RENAL FIBROSIS. THE EFFECTS OF GV ON OXIDATIVE STRESS, INFLAMMATION, ENDOTHELIAL DYSFUNCTION AND HYPERCOAGULABILITY COULD BE AGGRAVATED BY HYPOGLYCEMIA, ASSOCIATED WITH HIGH GV. OSCILLATING HYPERGLYCEMIA CONTRIBUTES TO BETA CELL DYSFUNCTION, WHICH LEADS TO A FURTHER INCREASE IN GV AND COMPLETES THE VICIOUS CIRCLE. IN CELLS, THE GV-INDUCED CYTOTOXIC EFFECT INCLUDES MITOCHONDRIAL DYSFUNCTION, ENDOPLASMIC RETICULUM STRESS AND DISTURBANCES IN AUTOPHAGIC FLUX, WHICH ARE ACCOMPANIED BY REDUCED VIABILITY, ACTIVATION OF APOPTOSIS AND ABNORMALITIES IN CELL PROLIFERATION. THESE EFFECTS ARE REALIZED THROUGH THE UP- AND DOWN-REGULATION OF A LARGE NUMBER OF GENES AND THE ACTIVITY OF SIGNALING PATHWAYS SUCH AS PI3K/AKT, NF-KAPPAB, MAPK (ERK), JNK AND TGF-BETA/SMAD. EPIGENETIC MODIFICATIONS MEDIATE THE POSTPONED EFFECTS OF GLUCOSE FLUCTUATIONS. THE MULTIPLE DETERIORATIVE EFFECTS OF GV PROVIDE FURTHER SUPPORT FOR CONSIDERING IT AS A THERAPEUTIC TARGET IN DIABETES. 2021 10 5491 30 REVIEW ARTICLE: INFLAMMATION-RELATED PROMOTION OF GASTROINTESTINAL CARCINOGENESIS--A PERIGENETIC PATHWAY. CHRONIC INFLAMMATION HAS BEEN REPORTED TO ACCELERATE NEOPLASMAS IN GASTROINTESTINAL TRACT. CERTAIN BACTERIA INCLUDING HELICOBACTER PYLORI DIRECTLY INTERACT WITH HOST CELLS, INDUCE PROINFLAMMATORY CYTOKINES AND STIMULATE PRODUCTION OF FREE RADICALS. FREE RADICALS CAUSE MUTATIONS IN TARGET CELLS SO THAT NEOPLASTIC CLONES ARE ESTABLISHED. ACCUMULATION OF SUCH GENETIC ALTERATIONS MAY CAUSE MALIGNANT TRANSFORMATION OF SOME ESTABLISHED CLONES. IN ADDITION, INFLAMMATORY ALTERATIONS MAY PROMOTE GROWTH, EXPANSION AND INVASION OF GASTROINTESTINAL EPITHELIAL CELLS. THE LATTER CHANGES CAUSED BY INFLAMMATION MAY OCCUR EVEN WITHOUT FURTHER GENETIC MUTATIONS OR EPIGENETIC ALTERATIONS, AND THEREFORE MAY BE CATEGORIZED AS 'PERIGENETIC ALTERATIONS' OF NEOPLASTIC CELLS. FOR AN EXAMPLE, TUMOUR NECROSIS FACTOR ALPHA (TNF-ALPHA) PLAYS PIVOTAL ROLES NOT ONLY IN THE REDUCTION BUT ALSO IN THE GROWTH, INVASION AND METASTASES OF CERTAIN NEOPLASMAS. OUR STUDIES SHOW THAT TNF-ALPHA INCREASES INTRACELLULAR RADICAL PRODUCTION, DEGRADATES E-CADHERIN / BETA-CATENIN COMPLEX AND PROMOTES DISPERSION AND MIGRATION IN EPITHELIAL CELLS TRANSFORMED WITH AN ACTIVATED SRC ONCOGENE (V-SRC). THESE DATA INDICATE THAT AN INFLAMMATORY CYTOKINE INDUCES THE MALIGNANT POTENTIAL OF SRC-ACTIVATED NEOPLASTIC CELLS. INTERESTINGLY, TNF-ALPHA ALSO INDUCED THESE PHENOTYPIC CHANGES IN NONMUTATED CELLS WHOSE C-SRC WAS ACTIVATED BY TGF-ALPHA, SUGGESTING THAT THE INVASIVE PROPERTIES OF THE CELL WERE NOT NECESSARILY RELATED TO GENE MUTATION. FURTHERMORE, CERTAIN RADICAL SCAVENGERS SUPPRESSED THE INVASIVE PHENOTYPE OF THE CELLS. THESE RESULTS INDICATE THAT PERIGENETIC ALTERATIONS ARE AN IMPORTANT TARGET OF PHARMACOLOGICAL INTERVENTION OF CARCINOGENESIS. 2003 11 5433 30 REL/NF-KAPPA B/I KAPPA B SIGNAL TRANSDUCTION IN THE GENERATION AND TREATMENT OF HUMAN CANCER. THE REL/NF-KAPPA B FAMILY IS A GROUP OF STRUCTURALLY-RELATED, TIGHTLY-REGULATED TRANSCRIPTION FACTORS THAT CONTROL THE EXPRESSION OF A MULTITUDE OF GENES INVOLVED IN KEY CELLULAR AND ORGANISMAL PROCESSES. THE REL/NF-KAPPA B SIGNAL TRANSDUCTION PATHWAY IS MISREGULATED IN A VARIETY OF HUMAN CANCERS, ESPECIALLY ONES OF LYMPHOID CELL ORIGIN, DUE EITHER TO GENETIC CHANGES (SUCH AS CHROMOSOMAL REARRANGEMENTS, AMPLIFICATIONS, AND MUTATIONS) OR TO CHRONIC ACTIVATION OF THE PATHWAY BY EPIGENETIC MECHANISMS. CONSTITUTIVE ACTIVATION OF THE REL/NF-KAPPA B PATHWAY CAN CONTRIBUTE TO THE ONCOGENIC STATE IN SEVERAL WAYS, FOR EXAMPLE, BY DRIVING PROLIFERATION, BY ENHANCING CELL SURVIVAL, OR BY PROMOTING ANGIOGENESIS OR METASTASIS. IN MANY CASES, INHIBITION OF REL/NF-KAPPA B ACTIVITY REVERSES ALL OR PART OF THE MALIGNANT STATE. THUS, THE REL/NF-KAPPA B PATHWAY HAS RECEIVED MUCH ATTENTION AS A FOCAL POINT FOR CLINICAL INTERVENTION. 2002 12 1902 33 ENHANCED EXPRESSION OF THE NUCLEAR ENVELOPE LAP2 TRANSCRIPTIONAL REPRESSORS IN NORMAL AND MALIGNANT ACTIVATED LYMPHOCYTES. EXTENSIVE RESEARCH IN RECENT YEARS HAS BROADENED THE FUNCTIONS OF NUCLEAR ENVELOPE PROTEINS BEYOND SIMPLY STABILIZING THE NUCLEUS ARCHITECTURE. PARTICULARLY, INTEGRAL NUCLEAR MEMBRANE PROTEINS, SUCH AS THE ALTERNATIVE SPLICED ISOFORMS OF LAMINA-ASSOCIATED POLYPEPTIDE 2 (LAP2), HAVE BEEN SHOWN TO BE IMPORTANT FOR THE INITIATION OF REPLICATION AND REPRESSION OF TRANSCRIPTION. THE LATTER IS REGULATED BY EPIGENETIC CHANGES, INDUCED BY THE BINDING OF LAP2BETA TO HISTONE DEACETYLASE-3 (HDAC3), RESULTING IN HISTONE H4 DEACETYLATION. INVOLVEMENT OF NUCLEAR ENVELOPE PROTEINS IN PATHOLOGICAL PROLIFERATIVE CONDITIONS, MAINLY THOSE INVOLVING ABNORMAL RECRUITMENT AND ACTIVATION OF HDACS, IS STILL UNKNOWN. IN THIS PAPER, WE SHOW THAT VARIOUS NUCLEAR ENVELOPE PROTEINS ARE HIGHLY EXPRESSED IN NORMAL AND MALIGNANT ACTIVATED LYMPHOCYTES. SPECIFICALLY, RAPIDLY REPLICATING CELLS OF VARIOUS HEMATOLOGICAL MALIGNANCIES HIGHLY EXPRESS LAP2BETA, WHILE SLOWLY PROLIFERATING MALIGNANT CELLS OF CHRONIC MALIGNANT HEMATOLOGICAL DISEASES DO NOT. TAKING TOGETHER THE ELEVATED EXPRESSION OF LAP2BETA IN HIGHLY PROLIFERATIVE MALIGNANT CELLS WITH ITS KNOWN ABILITY TO MODIFY HISTONES THROUGH BINDING WITH HDAC3 RAISES THE POSSIBILITY OF ITS ROLE IN HEMATOLOGICAL MALIGNANCIES INVOLVING ABERRANT ACTIVITY OF HDAC3. BASED ON OUR PRESENTED RESULTS, WE BELIEVE THAT THE LAP2-HDAC REGULATORY PATHWAY SHOULD BE STUDIED AS A NEW TARGET FOR RATIONAL THERAPY. 2007 13 1260 28 CURRENT VIEWS ON THE INTERPLAY BETWEEN TYROSINE KINASES AND PHOSPHATASES IN CHRONIC MYELOID LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A MYELOPROLIFERATIVE DISORDER CHARACTERIZED BY BCR-ABL1 ONCOGENE EXPRESSION. THIS DYSREGULATED PROTEIN-TYROSINE KINASE (PTK) IS KNOWN AS THE PRINCIPAL DRIVER OF THE DISEASE AND IS TARGETED BY TYROSINE KINASE INHIBITORS (TKIS). EXTENSIVE DOCUMENTATION HAS ELUCIDATED HOW THE TRANSFORMATION OF MALIGNANT CELLS IS CHARACTERIZED BY MULTIPLE GENETIC/EPIGENETIC CHANGES LEADING TO THE LOSS OF TUMOR-SUPPRESSOR GENES FUNCTION OR PROTO-ONCOGENES EXPRESSION. THE IMPAIRMENT OF ADEQUATE LEVELS OF SUBSTRATES PHOSPHORYLATION, THUS AFFECTING THE BALANCE PTKS AND PROTEIN PHOSPHATASES (PPS), REPRESENTS A WELL-ESTABLISHED CELLULAR MECHANISM TO ESCAPE FROM SELF-LIMITING SIGNALS. IN THIS REVIEW, WE FOCUS OUR ATTENTION ON THE CHARACTERIZATION OF AND INTERACTIONS BETWEEN PTKS AND PPS, EMPHASIZING THEIR BIOLOGICAL ROLES IN DISEASE EXPANSION, THE REGULATION OF LSCS AND TKI RESISTANCE. WE DECIDED TO SEPARATE THOSE PPS THAT HAVE BEEN VALIDATED IN PRIMARY CELL MODELS OR LEUKEMIA MOUSE MODELS FROM THOSE WHOSE STUDIES HAVE BEEN PERFORMED ONLY IN CELL LINES (AND, THUS, REQUIRE VALIDATION), AS THERE MAY BE DIFFERENCES IN THE MANNER THAT THE ASSOCIATED PATHWAYS ARE MODIFIED UNDER THESE TWO CONDITIONS. THIS REVIEW SUMMARIZES THE ROLES OF DIVERSE PPS, WITH HOPE THAT BETTER KNOWLEDGE OF THE INTERPLAY AMONG PHOSPHATASES AND KINASES WILL EVENTUALLY RESULT IN A BETTER UNDERSTANDING OF THIS DISEASE AND CONTRIBUTE TO ITS ERADICATION. 2021 14 4507 25 MRTF: BASIC BIOLOGY AND ROLE IN KIDNEY DISEASE. A LESSER KNOWN BUT CRUCIALLY IMPORTANT DOWNSTREAM EFFECT OF RHO FAMILY GTPASES IS THE REGULATION OF GENE EXPRESSION. THIS MAJOR ROLE IS MEDIATED VIA THE CYTOSKELETON, THE ORGANIZATION OF WHICH DICTATES THE NUCLEOCYTOPLASMIC SHUTTLING OF A SET OF TRANSCRIPTION FACTORS. CENTRAL AMONG THESE IS MYOCARDIN-RELATED TRANSCRIPTION FACTOR (MRTF), WHICH UPON ACTIN POLYMERIZATION TRANSLOCATES TO THE NUCLEUS AND BINDS TO ITS COGNATE PARTNER, SERUM RESPONSE FACTOR (SRF). THE MRTF/SRF COMPLEX THEN DRIVES A LARGE COHORT OF GENES INVOLVED IN CYTOSKELETON REMODELING, CONTRACTILITY, EXTRACELLULAR MATRIX ORGANIZATION AND MANY OTHER PROCESSES. ACCORDINGLY, MRTF, ACTIVATED BY A VARIETY OF MECHANICAL AND CHEMICAL STIMULI, AFFECTS A PLETHORA OF FUNCTIONS WITH PHYSIOLOGICAL AND PATHOLOGICAL RELEVANCE. THESE INCLUDE CELL MOTILITY, DEVELOPMENT, METABOLISM AND THUS METASTASIS FORMATION, INFLAMMATORY RESPONSES AND-PREDOMINANTLY-ORGAN FIBROSIS. THE AIM OF THIS REVIEW IS TWOFOLD: TO PROVIDE AN UP-TO-DATE SUMMARY ABOUT THE BASIC BIOLOGY AND REGULATION OF THIS VERSATILE TRANSCRIPTIONAL COACTIVATOR; AND TO HIGHLIGHT ITS PRINCIPAL INVOLVEMENT IN THE PATHOBIOLOGY OF KIDNEY DISEASE. ACTING THROUGH BOTH DIRECT TRANSCRIPTIONAL AND EPIGENETIC MECHANISMS, MRTF PLAYS A KEY (YET NOT FULLY APPRECIATED) ROLE IN THE INDUCTION OF A PROFIBROTIC EPITHELIAL PHENOTYPE (PEP) AS WELL AS IN FIBROBLAST-MYOFIBROBLAST TRANSITION, PRIME PATHOMECHANISMS IN CHRONIC KIDNEY DISEASE AND RENAL FIBROSIS. 2021 15 5476 31 RESTORING T CELL TOLERANCE, EXPLORING THE POTENTIAL OF HISTONE DEACETYLASE INHIBITORS FOR THE TREATMENT OF JUVENILE IDIOPATHIC ARTHRITIS. JUVENILE IDIOPATHIC ARTHRITIS (JIA) IS CHARACTERIZED BY A LOSS OF IMMUNE TOLERANCE. HERE, THE BALANCE BETWEEN THE ACTIVITY OF EFFECTOR T (TEFF) CELLS AND REGULATORY T (TREG) CELLS IS DISTURBED RESULTING IN CHRONIC INFLAMMATION IN THE JOINTS. PRESENTLY, THERAPEUTIC STRATEGIES ARE PREDOMINANTLY AIMED AT SUPPRESSING IMMUNE ACTIVATION AND PRO-INFLAMMATORY EFFECTOR MECHANISMS, IGNORING THE OPPORTUNITY TO ALSO PROMOTE TOLERANCE BY BOOSTING THE REGULATORY SIDE OF THE IMMUNE BALANCE. HISTONE DEACETYLASES (HDACS) CAN DEACETYLATE BOTH HISTONE AND NON-HISTONE PROTEINS AND HAVE BEEN DEMONSTRATED TO MODULATE EPIGENETIC REGULATION AS WELL AS CELLULAR SIGNALING IN VARIOUS CELL TYPES. IMPORTANTLY, HDACS ARE POTENT REGULATORS OF BOTH TEFF CELL AND TREG CELL FUNCTION AND CAN THUS BE REGARDED AS ATTRACTIVE THERAPEUTIC TARGETS IN CHRONIC INFLAMMATORY ARTHRITIS. HDAC INHIBITORS (HDACI) HAVE PROVEN THERAPEUTIC POTENTIAL IN THE CANCER FIELD, AND ARE PRESENTLY BEING EXPLORED FOR THEIR POTENTIAL IN THE TREATMENT OF AUTOIMMUNE DISEASES. SPECIFIC HDACI HAVE ALREADY BEEN DEMONSTRATED TO REDUCE THE SECRETION OF PRO-INFLAMMATORY CYTOKINES BY TEFF CELLS, AND PROMOTE TREG NUMBERS AND SUPPRESSIVE CAPACITY IN VITRO AND IN VIVO. IN THIS REVIEW, WE OUTLINE THE ROLE OF THE DIFFERENT CLASSES OF HDACS IN BOTH TEFF CELL AND TREG CELL FUNCTION. FURTHERMORE, WE WILL REVIEW THE EFFECT OF DIFFERENT HDACI ON T CELL TOLERANCE AND EXPLORE THEIR POTENTIAL AS A THERAPEUTIC STRATEGY FOR THE TREATMENT OF OLIGOARTICULAR AND POLYARTICULAR JIA. 2019 16 5447 34 REPOSITIONING LIDOCAINE AS AN ANTICANCER DRUG: THE ROLE BEYOND ANESTHESIA. WHILE CANCER TREATMENT HAS IMPROVED DRAMATICALLY, IT HAS ALSO ENCOUNTERED MANY CRITICAL CHALLENGES, SUCH AS DISEASE RECURRENCE, METASTASIS, AND DRUG RESISTANCE, MAKING NEW DRUGS WITH NOVEL MECHANISMS AN URGENT CLINICAL NEED. THE TERM "DRUG REPOSITIONING," ALSO KNOWN AS OLD DRUGS FOR NEW USES, HAS EMERGED AS ONE PRACTICAL STRATEGY TO DEVELOP NEW ANTICANCER DRUGS. ANESTHETICS HAVE BEEN WIDELY USED IN SURGICAL PROCEDURES TO REDUCE THE EXCRUCIATING PAIN. LIDOCAINE, ONE OF THE MOST-USED LOCAL ANESTHETICS IN CLINICAL SETTINGS, HAS BEEN FOUND TO SHOW MULTI-ACTIVITIES, INCLUDING POTENTIAL IN CANCER TREATMENT. GROWING EVIDENCE SHOWS THAT LIDOCAINE MAY NOT ONLY WORK AS A CHEMOSENSITIZER THAT SENSITIZES OTHER CONVENTIONAL CHEMOTHERAPEUTICS TO CERTAIN RESISTANT CANCER CELLS, BUT ALSO COULD SUPPRESS CANCER CELLS GROWTH BY SINGLE USE AT DIFFERENT DOSES OR CONCENTRATIONS. LIDOCAINE COULD SUPPRESS CANCER CELL GROWTH IN VITRO AND IN VIVO VIA MULTIPLE MECHANISMS, SUCH AS REGULATING EPIGENETIC CHANGES AND PROMOTING PRO-APOPTOSIS PATHWAYS, AS WELL AS REGULATING ABC TRANSPORTERS, METASTASIS, AND ANGIOGENESIS, ETC., PROVIDING VALUABLE INFORMATION FOR ITS FURTHER APPLICATION IN CANCER TREATMENT AND FOR NEW DRUG DISCOVERY. IN ADDITION, LIDOCAINE IS NOW UNDER CLINICAL TRIALS TO TREAT CERTAIN TYPES OF CANCER. IN THE CURRENT REVIEW, WE SUMMARIZE THE RESEARCH AND ANALYZE THE UNDERLYING MECHANISMS, AND ADDRESS KEY ISSUES IN THIS AREA. 2020 17 4002 29 LOSS OF P120 CATENIN AND LINKS TO MITOTIC ALTERATIONS, INFLAMMATION, AND SKIN CANCER. TUMOR FORMATION INVOLVES EPIGENETIC MODIFICATIONS AND MICROENVIRONMENTAL CHANGES AS WELL AS CUMULATIVE GENETIC ALTERATIONS ENCOMPASSING SOMATIC MUTATIONS, LOSS OF HETEROZYGOSITY, AND ANEUPLOIDY. HERE, WE SHOW THAT CONDITIONAL TARGETING OF P120 CATENIN IN MICE LEADS TO PROGRESSIVE DEVELOPMENT OF SKIN NEOPLASIAS ASSOCIATED WITH INTRINSIC NF-KAPPAB ACTIVATION. WE FIND THAT, SIMILARLY, SQUAMOUS CELL CARCINOMAS IN HUMANS DISPLAY ALTERED P120 AND ACTIVATED NF-KAPPAB. WE SHOW THAT EPIDERMAL HYPERPROLIFERATION ARISING FROM P120 LOSS CAN BE ABROGATED BY IKAPPAB KINASE 2 INHIBITORS. ALTHOUGH THIS UNDERSCORES THE IMPORTANCE OF THIS PATHWAY, THE ROLE OF NF-KAPPAB IN HYPERPROLIFERATION APPEARS ROOTED IN ITS IMPACT ON EPIDERMAL MICROENVIRONMENT BECAUSE AS P120-NULL KERATINOCYTES DISPLAY A GROWTH-ARRESTED PHENOTYPE IN CULTURE. WE TRACE THIS TO A MITOTIC DEFECT, RESULTING IN UNSTABLE, BINUCLEATED CELLS IN VITRO AND IN VIVO. WE SHOW THAT THE ABNORMAL MITOSES CAN BE AMELIORATED BY INHIBITING RHOA, THE ACTIVITY OF WHICH IS ABNORMALLY HIGH. CONVERSELY, WE CAN ELICIT SUCH MITOTIC DEFECTS IN CONTROL KERATINOCYTES BY ELEVATING RHOA ACTIVITY. THE ABILITY OF P120 DEFICIENCY TO ELICIT MITOTIC ALTERATIONS AND CHRONIC INFLAMMATORY RESPONSES, THAT TOGETHER MAY FACILITATE THE DEVELOPMENT OF GENETIC INSTABILITY IN VIVO, PROVIDES INSIGHTS INTO WHY IT FIGURES SO PROMINENTLY IN SKIN CANCER PROGRESSION. 2008 18 5288 21 PROSPECTS FOR EPIGENETIC COMPOUNDS IN THE TREATMENT OF AUTOIMMUNE DISEASE. THERE IS GROWING EVIDENCE FOR A ROLE FOR EPIGENETIC MECHANISMS IN THE DEVELOPMENT OF AUTOIMMUNE DISEASES. IN MOST CASES OFAUTOIMMUNE DISEASE THE PRECISE EPIGENETIC MECHANISM INVOLVED REMAINS TO BE RESOLVED, HOWEVER DNA HYPOMETHYLATION ACCOMPANIED BY HYPOACETYLATION OFHISTONE H3/H4 IS COMMONLY OBSERVED. DUE TO THE REVERSIBLE NATURE OF EPIGENETIC MARKS THEIR MAINTENANCE ENZYMES SUCH AS DNA METHYLTRANSFERASES (DNMTS), HISTONE DEACETYLASES (HDACS) AND HISTONE LYSINE METHYLTRANSFERASES (HKMT) ARE ATTRACTIVE DRUG TARGETS. SMALL MOLECULE INHIBITORS OF HISTONE MODIFICATION AND DNA METHYLATION MAINTENANCE ARE INCREASINGLY BECOMING AVAILABLE AND WILL BE USEFUL CHEMICAL BIOLOGICAL TOOLS TO DISSECT EPIGENETIC MECHANISMS IN THESE DISEASES. HOWEVER, ALTHOUGH EPIGENETIC THERAPIES USED IN CANCER TREATMENT ARE A PROMISING STARTING POINT FOR THE EXPLORATION OF AUTOIMMUNE DISEASE TREATMENT, THERE IS A REQUIREMENT FOR MORE SPECIFIC AND LESS TOXIC AGENTS FOR THESE CHRONIC DISEASES OR FOR USE AS CHEMOPREVENTATIVE AGENTS. 2011 19 5688 37 SILENCING EFFECTS OF MUTANT RAS SIGNALLING ON TRANSCRIPTOMES. MUTATED GENES OF THE RAS FAMILY ENCODING SMALL GTP-BINDING PROTEINS DRIVE NUMEROUS CANCERS, INCLUDING PANCREATIC, COLON AND LUNG TUMORS. BESIDES THE NUMEROUS EFFECTS OF MUTANT RAS GENE EXPRESSION ON ABERRANT PROLIFERATION, TRANSFORMED PHENOTYPES, METABOLISM, AND THERAPY RESISTANCE, THE MOST STRIKING CONSEQUENCES OF CHRONIC RAS ACTIVATION ARE CHANGES OF THE GENETIC PROGRAM. BY PERFORMING SYSTEMATIC GENE EXPRESSION STUDIES IN CELLULAR MODELS THAT ALLOW COMPARISONS OF PRE-NEOPLASTIC WITH RAS-TRANSFORMED CELLS, WE AND OTHERS HAVE ESTIMATED THAT 7 PERCENT OR MORE OF ALL TRANSCRIPTS ARE ALTERED IN CONJUNCTION WITH THE EXPRESSION OF THE ONCOGENE. IN THIS CONTEXT, THE NUMBER OF UP-REGULATED TRANSCRIPTS APPROXIMATES THAT OF DOWN-REGULATED TRANSCRIPTS. WHILE UP-REGULATED TRANSCRIPTION FACTORS SUCH AS MYC, FOSL1, AND HMGA2 HAVE BEEN IDENTIFIED AND CHARACTERIZED AS RAS-RESPONSIVE DRIVERS OF THE ALTERED TRANSCRIPTOME, THE SUPPRESSED FACTORS HAVE BEEN LESS WELL STUDIED AS POTENTIAL REGULATORS OF THE GENETIC PROGRAM AND TRANSFORMED PHENOTYPE IN THE BREADTH OF THEIR OCCURRENCE. WE THEREFORE HAVE COLLECTED INFORMATION ON DOWNREGULATED RAS-RESPONSIVE FACTORS AND DISCUSS THEIR POTENTIAL ROLE AS TUMOR SUPPRESSORS THAT ARE LIKELY TO ANTAGONIZE ACTIVE CANCER DRIVERS. TO BETTER UNDERSTAND THE ACTIVE MECHANISMS THAT ENTAIL ANTI-RAS FUNCTION AND THOSE THAT LEAD TO LOSS OF TUMOR SUPPRESSOR ACTIVITY, WE FOCUS ON THE TUMOR SUPPRESSOR HREV107 (ALIAS PLAAT3 [PHOSPHOLIPASE A AND ACYLTRANSFERASE 3], PLA2G16 [PHOSPHOLIPASE A2, GROUP XVI] AND HRASLS3 [HRAS-LIKE SUPPRESSOR 3]). INACTIVATING HREV107 MUTATIONS IN TUMORS ARE EXTREMELY RARE, HENCE EPIGENETIC CAUSES MODULATED BY THE RAS PATHWAY ARE LIKELY TO LEAD TO DOWN-REGULATION AND LOSS OF FUNCTION. 2023 20 2597 32 EPIGENETICS OF SUBCELLULAR STRUCTURE FUNCTIONING IN THE ORIGIN OF RISK OR RESILIENCE TO COMORBIDITY OF NEUROPSYCHIATRIC AND CARDIOMETABOLIC DISORDERS. MECHANISMS CONTROLLING MITOCHONDRIAL FUNCTION, PROTEIN FOLDING IN THE ENDOPLASMIC RETICULUM (ER) AND NUCLEAR PROCESSES SUCH AS TELOMERE LENGTH AND DNA REPAIR MAY BE SUBJECT TO EPIGENETIC CUES THAT RELATE THE GENOMIC EXPRESSION AND ENVIRONMENTAL EXPOSURES IN EARLY STAGES OF LIFE. THEY MAY ALSO BE INVOLVED IN THE COMORBID APPEARANCE OF CARDIOMETABOLIC (CMD) AND NEUROPSYCHIATRIC DISORDERS (NPD) DURING ADULTHOOD. MITOCHONDRIAL FUNCTION AND PROTEIN FOLDING IN THE ENDOPLASMIC RETICULUM ARE ASSOCIATED WITH OXIDATIVE STRESS AND ELEVATED INTRACELLULAR CALCIUM LEVELS AND MAY ALSO UNDERLIE THE VULNERABILITY FOR COMORBID CMD AND NPD. MITOCHONDRIA PROVIDE KEY METABOLITES SUCH AS NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD+), ATP, ALPHA-KETOGLUTARATE AND ACETYL COENZYME A THAT ARE REQUIRED FOR MANY TRANSCRIPTIONAL AND EPIGENETIC PROCESSES. THEY ARE ALSO A SOURCE OF FREE RADICALS. ON THE OTHER HAND, EPIGENETIC MARKERS IN NUCLEAR DNA DETERMINE MITOCHONDRIAL BIOGENESIS. THE ER IS THE SUBCELLULAR ORGANELLE IN WHICH SECRETORY PROTEINS ARE FOLDED. MANY ENVIRONMENTAL FACTORS STOP THE ABILITY OF CELLS TO PROPERLY FOLD PROTEINS AND MODIFY POST-TRANSLATIONALLY SECRETORY AND TRANSMEMBRANE PROTEINS LEADING TO ENDOPLASMIC RETICULUM STRESS AND OXIDATIVE STRESS. ER FUNCTIONING MAY BE EPIGENETICALLY DETERMINED. CHRONIC ER STRESS IS EMERGING AS A KEY CONTRIBUTOR TO A GROWING LIST OF HUMAN DISEASES, INCLUDING CMD AND NPD. TELOMERE LOSS CAUSES CHROMOSOMAL FUSION, ACTIVATION OF THE CONTROL OF DNA DAMAGE-RESPONSES, UNSTABLE GENOME AND ALTERED STEM CELL FUNCTION, WHICH MAY UNDERLIE THE COMORBIDITY OF CMD AND NPD. THE LENGTH OF TELOMERES IS RELATED TO OXIDATIVE STRESS AND MAY BE EPIGENETICALLY PROGRAMMED. PATHWAYS INVOLVED IN DNA REPAIR MAY BE EPIGENETICALLY PROGRAMMED AND MAY CONTRIBUTE TO DISEASES. IN THIS PAPER, WE DESCRIBE SUBCELLULAR MECHANISMS THAT ARE DETERMINED BY EPIGENETIC MARKERS AND THEIR POSSIBLE RELATION TO THE DEVELOPMENT OF INCREASED SUSCEPTIBILITY TO DEVELOP CMD AND NPD. 2018