1 2649 110 EPIGENOMIC, GENOMIC, AND TRANSCRIPTOMIC LANDSCAPE OF SCHWANNOMATOSIS. SCHWANNOMATOSIS (SWNTS) IS A GENETIC CANCER PREDISPOSITION SYNDROME THAT MANIFESTS AS MULTIPLE AND OFTEN PAINFUL NEURONAL TUMORS CALLED SCHWANNOMAS (SWNS). WHILE GERMLINE MUTATIONS IN SMARCB1 OR LZTR1, PLUS SOMATIC MUTATIONS IN NF2 AND LOSS OF HETEROZYGOSITY IN CHROMOSOME 22Q HAVE BEEN IDENTIFIED IN A SUBSET OF PATIENTS, LITTLE IS KNOWN ABOUT THE EPIGENOMIC AND GENOMIC ALTERATIONS THAT DRIVE SWNTS-RELATED SWNS (SWNTS-SWNS) IN A MAJORITY OF THE CASES. WE PERFORMED MULTIPLATFORM GENOMIC ANALYSIS AND ESTABLISHED THE MOLECULAR SIGNATURE OF SWNTS-SWNS. WE SHOW THAT SWNTS-SWNS HARBOR DISTINCT GENOMIC FEATURES RELATIVE TO THE HISTOLOGICALLY IDENTICAL NON-SYNDROMIC SPORADIC SWNS (NS-SWNS). WE DEMONSTRATE THE EXISTENCE OF FOUR DISTINCT DNA METHYLATION SUBGROUPS OF SWNTS-SWNS THAT ARE ASSOCIATED WITH SPECIFIC TRANSCRIPTIONAL PROGRAMS AND TUMOR LOCATION. WE SHOW SEVERAL NOVEL RECURRENT NON-22Q DELETIONS AND STRUCTURAL REARRANGEMENTS. WE DETECTED THE SH3PXD2A-HTRA1 GENE FUSION IN SWNTS-SWNS, WITH PREDOMINANCE IN LZTR1-MUTANT TUMORS. IN ADDITION, WE IDENTIFIED SPECIFIC GENETIC, EPIGENETIC, AND ACTIONABLE TRANSCRIPTIONAL PROGRAMS ASSOCIATED WITH PAINFUL SWNTS-SWNS INCLUDING PIGF, VEGF, MEK, AND MTOR PATHWAYS, WHICH MAY BE HARNESSED FOR MANAGEMENT OF THIS SYNDROME. 2021 2 967 17 CHRONIC NICOTINE EXPOSURE AUGMENTS RENAL OXIDATIVE STRESS AND INJURY THROUGH TRANSCRIPTIONAL ACTIVATION OF P66SHC. BACKGROUND: CHRONIC NICOTINE (CH-NIC) EXPOSURE EXACERBATES ISCHEMIA/REPERFUSION (I/R)-INDUCED OXIDATIVE STRESS AND ACUTE KIDNEY INJURY (AKI), AND MITOCHONDRIAL PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS) IN CULTURED RENAL PROXIMAL TUBULE CELLS (RPTCS). BECAUSE SER36-PHOSPHORYLATED P66SHC MODULATES MITOCHONDRIAL ROS PRODUCTION AND INJURY OF RPTCS, WE HYPOTHESIZED THAT CH-NIC EXACERBATES AKI BY INCREASING STRESS-INDUCED PHOSPHORYLATION OF P66SHC. METHODS: WE FIRST TESTED WHETHER CH-NIC AUGMENTS I/R-AKI-INDUCED EXPRESSION AND PHOSPHORYLATION OF P66SHC IN VIVO. WE THEN EXAMINED WHETHER KNOCKING DOWN P66SHC, OR IMPAIRING ITS SER36 PHOSPHORYLATION OR BINDING TO CYTOCHROME C, ALTERS THE EFFECTS OF CH-NIC ON OXIDATIVE STRESS (H(2)O(2))-INDUCED PRODUCTION OF ROS, MITOCHONDRIAL DEPOLARIZATION AND INJURY IN RPTCS IN VITRO. RESULTS: WE FOUND THAT CH-NIC INCREASED THE EXPRESSION OF P66SHC IN THE CONTROL AND ISCHEMIC KIDNEYS, BUT ONLY INCREASED ITS SER36 PHOSPHORYLATION AFTER RENAL I/R. KNOCKING DOWN P66SHC OR IMPAIRING PHOSPHORYLATION OF ITS SER36 RESIDUE, VIA THE S36A MUTATION (BUT NOT THE PHOSPHOMIMETIC S36D MUTATION), BLUNTED CH-NIC + H2O2-DEPENDENT ROS PRODUCTION, MITOCHONDRIAL DEPOLARIZATION AND INJURY IN RPTCS. ADDITIONALLY, CH-NIC + H2O2-DEPENDENT BINDING OF P66SHC TO MITOCHONDRIAL CYTOCHROME C WAS ATTENUATED BY S36A MUTATION OF P66SHC, AND IMPAIRING CYTOCHROME C BINDING (VIA W134F MUTATION) ABOLISHED ROS PRODUCTION, MITOCHONDRIAL DEPOLARIZATION AND INJURY, WHILE ECTOPIC OVEREXPRESSION OF P66SHC (WHICH MIMICS CH-NIC TREATMENT) AUGMENTED OXIDANT INJURY. WE DETERMINED THAT CH-NIC STIMULATES THE P66SHC PROMOTER THROUGH P53- AND EPIGENETIC MODIFICATION (PROMOTER HYPOMETHYLATION). CONCLUSIONS: CH-NIC WORSENS OXIDATIVE STRESS-DEPENDENT ACUTE RENAL INJURY BY INCREASING EXPRESSION AND CONSEQUENT OXIDATIVE STRESS-DEPENDENT SER36 PHOSPHORYLATION OF P66SHC. THUS, TARGETING THIS PATHWAY MAY HAVE THERAPEUTIC RELEVANCE IN PREVENTING/AMELIORATING TOBACCO-RELATED KIDNEY INJURY. 2013 3 2796 14 FBW7 MEDIATES SENESCENCE AND PULMONARY FIBROSIS THROUGH TELOMERE UNCAPPING. TISSUE STEM CELLS UNDERGO PREMATURE SENESCENCE UNDER STRESS, PROMOTING AGE-RELATED DISEASES; HOWEVER, THE ASSOCIATED MECHANISMS REMAIN UNCLEAR. HERE, WE REPORT THAT IN RESPONSE TO RADIATION, OXIDATIVE STRESS, OR BLEOMYCIN, THE E3 UBIQUITIN LIGASE FBW7 MEDIATES CELL SENESCENCE AND TISSUE FIBROSIS THROUGH TELOMERE UNCAPPING. FBW7 BINDING TO TELOMERE PROTECTION PROTEIN 1 (TPP1) FACILITATES TPP1 MULTISITE POLYUBIQUITINATION AND ACCELERATES DEGRADATION, TRIGGERING TELOMERE UNCAPPING AND DNA DAMAGE RESPONSE. OVEREXPRESSING TPP1 OR INHIBITING FBW7 BY GENETIC ABLATION, EPIGENETIC INTERFERENCE, OR PEPTIDOMIMETIC TELOMERE DYSFUNCTION INHIBITOR (TELODIN) REDUCES TELOMERE UNCAPPING AND SHORTENING, EXPANDING THE PULMONARY ALVEOLAR AEC2 STEM CELL POPULATION IN MICE. TELODIN, SYNTHESIZED FROM THE SEVENTH BETA STRAND BLADE OF FBW7 WD40 PROPELLER DOMAIN, INCREASES TPP1 STABILITY, LUNG RESPIRATORY FUNCTION, AND RESISTANCE TO SENESCENCE AND FIBROSIS IN ANIMALS CHRONICALLY EXPOSED TO ENVIRONMENTAL STRESS. OUR FINDINGS ELUCIDATE A PIVOTAL MECHANISM UNDERLYING STRESS-INDUCED PULMONARY EPITHELIAL STEM CELL SENESCENCE AND FIBROSIS, PROVIDING A FRAMEWORK FOR AGING-RELATED DISORDER INTERVENTIONS. 2020 4 5763 16 SOME COMMENTS ON MASOCHISM AND THE DELUSION OF OMNIPOTENCE FROM A DEVELOPMENTAL PERSPECTIVE. THIS PAPER EXPLORES THE RELATION OF THE DELUSION OF OMNIPOTENCE TO MASOCHISM AND SUGGESTS THAT THIS FANTASY CONSTITUTES A MAJOR COMPONENT OF THE RESISTANCE SO PROMINENT IN WORK WITH MASOCHISTIC PATIENTS. THE CONNECTIONS AMONG MASOCHISM, OMNIPOTENCE, NEGATIVE THERAPEUTIC REACTION, AND CLINGING TO PAIN ARE DISCUSSED. THE CLASSICAL VIEW HAS BEEN THAT THE FAILURE OF INFANTILE OMNIPOTENCE FORCES THE CHILD TO TURN TO REALITY. OUR EXPERIENCE WITH MASOCHISTIC PATIENTS SUGGESTS THAT IT IS THE REAL FAILURE TO ACHIEVE COMPETENT INTERACTIONS WITH OTHERS THAT FORCES THE CHILD TO TURN TO OMNIPOTENT SOLUTIONS. THE DISTINCTION IS MADE BETWEEN FANTASIES THAT ENHANCE THE REAL CAPACITIES OF THE SELF AND THOSE AIMED AT DENYING AND TRANSFORMING THE PAIN AND INADEQUACY OF THE MOTHER-CHILD RELATIONSHIP. THE EPIGENETIC TRANSFORMATIONS OF OMNIPOTENT FANTASIES THROUGH ALL LEVELS OF DEVELOPMENT ARE DESCRIBED. THE PATIENT'S NEED TO PROTECT THE OMNIPOTENT FANTASY IS DISCUSSED IN RELATION TO RESISTANCE AT EACH PHASE OF ANALYSIS. 1991 5 2819 19 FILARIAL AND WOLBACHIA GENOMICS. FILARIAL NEMATODE PARASITES, THE CAUSATIVE AGENTS FOR A SPECTRUM OF ACUTE AND CHRONIC DISEASES INCLUDING LYMPHATIC FILARIASIS AND RIVER BLINDNESS, THREATEN THE WELL-BEING AND LIVELIHOOD OF HUNDREDS OF MILLIONS OF PEOPLE IN THE DEVELOPING REGIONS OF THE WORLD. THE 2007 PUBLICATION ON A DRAFT ASSEMBLY OF THE 95-MB GENOME OF THE HUMAN FILARIAL PARASITE BRUGIA MALAYI- REPRESENTING THE FIRST HELMINTH PARASITE GENOME TO BE SEQUENCED - HAS BEEN FOLLOWED IN RAPID SUCCESSION BY PROJECTS THAT HAVE RESULTED IN THE GENOME SEQUENCING OF SIX ADDITIONAL FILARIAL SPECIES, SEVEN NONFILARIAL NEMATODE PARASITES OF ANIMALS AND NEARLY 30 PLANT PARASITIC AND FREE-LIVING SPECIES. PARALLEL TO THE GENOMIC SEQUENCING, TRANSCRIPTOMIC AND PROTEOMIC PROJECTS HAVE FACILITATED GENOME ANNOTATION, EXPANDED OUR UNDERSTANDING OF STAGE-ASSOCIATED GENE EXPRESSION AND PROVIDED A FIRST LOOK AT THE ROLE OF EPIGENETIC REGULATION OF FILARIAL GENOMES THROUGH MICRORNAS. THE EXPANSION IN FILARIAL GENOMICS WILL ALSO PROVIDE A SIGNIFICANT ENRICHMENT IN OUR KNOWLEDGE OF THE DIVERSITY AND VARIABILITY IN THE GENOMES OF THE ENDOSYMBIOTIC BACTERIUM WOLBACHIA LEADING TO A BETTER UNDERSTANDING OF THE GENETIC PRINCIPLES THAT GOVERN FILARIAL-WOLBACHIA MUTUALISM. THE GOAL HERE IS TO PROVIDE AN OVERVIEW OF THE TRENDS AND ADVANCES IN FILARIAL AND WOLBACHIA GENOMICS. 2012 6 608 22 BEYOND HOMEOSTASIS: UNDERSTANDING THE IMPACT OF PSYCHOSOCIAL FACTORS ON APPETITE USING NONHUMAN PRIMATE MODELS. ANIMAL MODELS HAVE PROVEN TO BE EXCEPTIONALLY INFORMATIVE IN DEFINING NEUROPEPTIDE REGULATION OF APPETITE AND ENERGY HOMEOSTASIS (GAO AND HORVATH 2007, BERTHOUD 2012, WILLIAMS AND ELMQUIST 2012). MORE RECENT STUDIES USING A RANGE OF ANIMAL MODELS AND MOLECULAR TOOLS ARE ELUCIDATING HOW EPIGENETIC CHANGES RESULTING FROM SPECIFIC PRENATAL AND POSTNATAL DIETARY ENVIRONMENTS OR EXPERIENCES AFFECT METABOLIC PROCESSES AND APPETITE REGULATION (LEVIN 2008, ZAMBRANO AND NATHANIELSZ 2013, BURDGE AND LILLYCROP 2014). TAKEN TOGETHER, THESE APPROACHES ARE HELPING TO DEFINE POSSIBLE TREATMENT INTERVENTIONS FOR EATING DISORDERS IN PEOPLE (CASPER, SULLIVAN, AND TECOTT 2008, FOLTIN 2012, VAN GESTEL ET AL. 2014, LUTTER, CROGHAN, AND CUI 2016). THE CHOICE OF ANIMAL USED IS BEST DICTATED BY THE QUESTION BEING ADDRESSED. BECAUSE OF SIMILARITIES IN PHYSIOLOGY AND NEUROBIOLOGY, STUDIES OF CAPTIVE NONHUMAN PRIMATES HAVE BEGUN TO CONTRIBUTE SIGNIFICANTLY TO OUR UNDERSTANDING OF APPETITE REGULATION (SEE WILSON ET AL. 2014 FOR A REVIEW). IMPORTANTLY, THE USE OF NONHUMAN PRIMATE MODELS PROVIDES THE UNIQUE OPPORTUNITY TO EXTEND ANALYSES BEYOND A FOCUS ON THE HOMEOSTATIC REGULATION OF APPETITE. THIS IS PARTICULARLY RELEVANT GIVEN THE WELL-ESTABLISHED NOTION THAT A NUMBER OF PSYCHOSOCIAL FACTORS INFLUENCE FOOD INTAKE IN PEOPLE (BRUCE AND RICCIARDELLI 2015), INCLUDING CHRONIC STRESSOR EXPOSURE (TSENKOVA, BOYLAN, AND RYFF 2013), EVEN IN CHILDREN (NGUYEN-RODRIGUEZ, UNGER, AND SPRUIJT-METZ 2009). WHILE THE IMPORTANCE OF PSYCHOSOCIAL FACTORS CAN BE MODELED IN NONPRIMATE ANIMALS (TAMASHIRO, HEGEMAN, AND SAKAI 2006), SOCIALLY HOUSED NONHUMAN PRIMATES SHARE MANY CHARACTERISTICS IN ADDITION TO PHYSIOLOGY AND NEUROBIOLOGY, WITH HUMANS INCREASING THE TRANSLATIONAL VALUE OF THESE PRE-CLINICAL STUDIES. 2017 7 760 25 CASZ1: CURRENT IMPLICATIONS IN CARDIOVASCULAR DISEASES AND CANCERS. CASTOR ZINC FINGER 1 (CASZ1) IS A C2H2 ZINC FINGER FAMILY PROTEIN THAT HAS TWO SPLICING VARIANTS, CASZ1A AND CASZ1B. IT IS INVOLVED IN MULTIPLE PHYSIOLOGICAL PROCESSES, SUCH AS TISSUE DIFFERENTIATION AND ALDOSTERONE ANTAGONISM. GENETIC AND EPIGENETIC ALTERNATIONS OF CASZ1 HAVE BEEN CHARACTERIZED IN MULTIPLE CARDIOVASCULAR DISORDERS, SUCH AS CONGENITAL HEART DISEASES, CHRONIC VENOUS DISEASES, AND HYPERTENSION. HOWEVER, LITTLE IS KNOWN ABOUT HOW CASZ1 MECHANICALLY PARTICIPATES IN THE PATHOGENESIS OF THESE DISEASES. OVER THE PAST DECADES, AT FIRST GLANCE, PARADOXICAL INFLUENCES ON CELL BEHAVIORS AND PROGRESSIONS OF DIFFERENT CANCER TYPES HAVE BEEN DISCOVERED FOR CASZ1, WHICH MAY BE EXPLAINED BY A "DOUBLE-AGENT" ROLE FOR CASZ1. IN THIS REVIEW, WE DISCUSS THE PHYSIOLOGICAL FUNCTION OF CASZ1, AND FOCUS ON THE ASSOCIATION OF CASZ1 ABERRATIONS WITH THE PATHOGENESIS OF CARDIOVASCULAR DISEASES AND CANCERS. 2023 8 3862 25 ISOPATHIC USE OF AUTO-SARCODE OF DNA AS ANTI-MIASMATIC HOMEOPATHIC MEDICINE AND MODULATOR OF GENE EXPRESSION? INTRODUCTION: IN ADDITION TO THE FOUR PILLARS OF HOMEOPATHY, VITALISM AND THE MIASMATIC THEORY ARE OFTEN USED TO EXPLAIN THE HEALTH-DISEASE PROCESS. ACCORDING TO HAHNEMANN'S CONCEPTS, HOMEOPATHIC MIASMS ARE THE MAIN OBSTACLE TO THE CURE OF CHRONIC DISEASES, WITH PSORA BEING THE FUNDAMENTAL CAUSE OF ALL FORMS OF DISEASES. ACCORDING TO MODERN GENETICS, THE DISEASE-PROMOTING EPIGENETIC ALTERATIONS ARE THE FUNDAMENTAL CAUSE OF THE MANIFESTATION OF CHRONIC DISEASES. OBJECTIVE: THIS ARTICLE DEVELOPS A PHILOSOPHICAL-SCIENTIFIC CORRELATION BETWEEN CHRONIC MIASMS AND DISEASE-PROMOTING EPIGENETIC MODIFICATIONS, AIMING TO JUSTIFY THE ISOPATHIC USE OF AUTO-SARCODE OF AN INDIVIDUAL'S DNA AS HOMEOPATHIC MEDICINE. RESULTS: BASED ON THE STUDY OF HOMEOPATHIC DOCTRINE AND EPIGENETICS, A CONCEPTUAL AND FUNCTIONAL CORRELATION IS OBSERVED BETWEEN HOMEOPATHIC CHRONIC MIASMS AND DISEASE-PROMOTING EPIGENETIC MODIFICATIONS. ADDITIONALLY, SEVERAL EXPERIMENTAL STUDIES SUGGEST THAT HOMEOPATHY'S MECHANISM OF ACTION MAY BE BY MODULATING GENE EXPRESSION. CONCLUSIONS: BY THE PHILOSOPHICAL-SCIENTIFIC CORRELATIONS DESCRIBED, IT IS INFERRED THAT DISEASE-PROMOTING EPIGENETIC ALTERATIONS ARE THE BIOLOGICAL REPRESENTATION OF THE CHRONIC MIASMS, SUGGESTING THE ISOPATHIC USE OF AUTO-SARCODE OF DNA AS HOMEOPATHIC THERAPEUTIC MODULATOR OF GENE EXPRESSION FOR THE MANAGEMENT OF CHRONIC DISEASES. 2019 9 1401 17 DIETARY AND PHARMACOLOGICAL TREATMENT OF ABDOMINAL PAIN IN IBS. THIS REVIEW INTRODUCES THE PRINCIPLES OF VISCERAL SENSATION AND APPRAISES THE CURRENT APPROACHES TO MANAGEMENT OF VISCERAL PAIN IN FUNCTIONAL GI DISEASES, PRINCIPALLY IBS. THESE APPROACHES INCLUDE DIETARY MEASURES INCLUDING FIBRE SUPPLEMENTATION, LOW FERMENTABLE OLIGOSACCHARIDES, DISACCHARIDES, MONOSACCHARIDES AND POLYOLS DIET, AND PHARMACOLOGICAL APPROACHES SUCH AS ANTISPASMODICS, PEPPERMINT OIL, ANTIDEPRESSANTS (TRICYCLIC AGENTS, SELECTIVE SEROTONIN REUPTAKE INHIBITORS), 5-HT(3) RECEPTOR ANTAGONISTS (ALOSETRON, ONDANSETRON, RAMOSETRON), NON-ABSORBED ANTIBIOTIC (RIFAXIMIN), SECRETAGOGUES (LUBIPROSTONE, LINACLOTIDE), MU-OPIOID RECEPTOR (OR) AND KAPPA-OR AGONIST, DELTA-OR ANTAGONIST (ELUXADOLINE), HISTAMINE H1 RECEPTOR ANTAGONIST (EBASTINE), NEUROKININ-2 RECEPTOR ANTAGONIST (IBODUTANT) AND GABAERGIC AGENTS (GABAPENTIN AND PREGABALIN). EFFICACY AND SAFETY ARE DISCUSSED BASED ON PIVOTAL TRIALS OR PUBLISHED SYSTEMATIC REVIEWS AND META-ANALYSIS, EXPRESSING ORS OR RELATIVE RISKS AND THEIR 95% CIS. POTENTIAL NEW APPROACHES MAY BE BASED ON RECENT INSIGHTS ON MUCOSAL EXPRESSION OF GENES, AND MICRORNA AND EPIGENETIC MARKERS IN HUMAN BIOPSIES AND IN ANIMAL MODELS OF VISCERAL HYPERSENSITIVITY.THE OBJECTIVES OF THIS REVIEW ARE TO APPRAISE THE PHYSIOLOGY AND ANATOMY OF GUT SENSATION AND THE EFFICACY IN THE RELIEF OF VISCERAL PAIN (TYPICALLY IN IBS) OF SEVERAL CLASSES OF THERAPIES. THESE INCLUDE FERMENTABLE OLIGOSACCHARIDES, DISACCHARIDES, MONOSACCHARIDES AND POLYOLS (FODMAPS) AND DIFFERENT CLASSES OF MEDICATIONS (BOX 1). BOX 1CLASSES OF PHARMACOLOGICAL AGENTS FOR VISCERAL PAINANTIDEPRESSANTS (TRICYCLIC AGENTS, SELECTIVE SEROTONIN REUPTAKE INHIBITORS)PEPPERMINT OIL5-HT(3) RECEPTOR ANTAGONISTS (ALOSETRON, ONDANSETRON, RAMOSETRON)NON-ABSORBED ANTIBIOTIC (RIFAXIMIN)SECRETAGOGUES (LUBIPROSTONE, LINACLOTIDE)MU-OPIOID RECEPTOR (OR) AND KAPPA-OR AGONIST AND DELTA-OR ANTAGONIST (ELUXADOLINE)HISTAMINE H1 RECEPTOR ANTAGONIST (EBASTINE)NEUROKININ-2 RECEPTOR ANTAGONIST (IBODUTANT)GABAERGIC AGENTS (GABAPENTIN AND PREGABALIN). 2017 10 4048 22 MAINTENANCE AND PHARMACOLOGIC TARGETING OF ROR1 PROTEIN LEVELS VIA UHRF1 IN T(1;19) PRE-B-ALL. EXPRESSION OF THE TRANSMEMBRANE PSEUDOKINASE ROR1 IS REQUIRED FOR SURVIVAL OF T(1;19)-PRE-B-CELL ACUTE LYMPHOBLASTIC LEUKEMIA (T(1;19) PRE-B-ALL), CHRONIC LYMPHOCYTIC LEUKEMIA, AND MANY SOLID TUMORS. HOWEVER, TARGETING ROR1 WITH SMALL-MOLECULES HAS BEEN CHALLENGING DUE TO THE ABSENCE OF ROR1 KINASE ACTIVITY. TO IDENTIFY GENES THAT REGULATE ROR1 EXPRESSION AND MAY, THEREFORE, SERVE AS SURROGATE DRUG TARGETS, WE EMPLOYED AN SIRNA SCREENING APPROACH AND DETERMINED THAT THE EPIGENETIC REGULATOR AND E3 UBIQUITIN LIGASE, UHRF1, IS REQUIRED FOR T(1;19) PRE-B-ALL CELL VIABILITY IN A ROR1-DEPENDENT MANNER. UPON UHRF1 SILENCING, ROR1 PROTEIN IS REDUCED WITHOUT ALTERING ROR1 MRNA, AND ECTOPICALLY EXPRESSED UHRF1 IS SUFFICIENT TO INCREASE ROR1 LEVELS. ADDITIONALLY, PROTEASOME INHIBITION RESCUES LOSS OF ROR1 PROTEIN AFTER UHRF1 SILENCING, SUGGESTING A ROLE FOR THE PROTEASOME IN THE UHRF1-ROR1 AXIS. FINALLY, WE SHOW THAT ROR1-POSITIVE CELLS ARE TWICE AS SENSITIVE TO THE UHRF1-TARGETING DRUG, NAPHTHAZARIN, AND UNDERGO INCREASED APOPTOSIS COMPARED TO ROR1-NEGATIVE CELLS. NAPHTHAZARIN ELICITS REDUCED EXPRESSION OF UHRF1 AND ROR1, AND COMBINATION OF NAPHTHAZARIN WITH INHIBITORS OF PRE-B CELL RECEPTOR SIGNALING RESULTS IN FURTHER REDUCTION OF CELL SURVIVAL COMPARED WITH EITHER INHIBITOR ALONE. THEREFORE, OUR WORK REVEALS A MECHANISM BY WHICH UHRF1 STABILIZES ROR1, SUGGESTING A POTENTIAL TARGETING STRATEGY TO INHIBIT ROR1 IN T(1;19) PRE-B-ALL AND OTHER MALIGNANCIES. 2018 11 3009 27 GENETICS AND EPIGENETICS IN NEOPLASMS WITH PLASMACYTOID DENDRITIC CELLS. PLASMACYTOID DENDRITIC CELLS (PDC) ARE TYPE I INTERFERON (IFN)-PRODUCING CELLS THAT PLAY A KEY ROLE IN IMMUNE RESPONSES. TWO MAJOR TYPES OF NEOPLASTIC COUNTERPARTS FOR PDC ARE NOW DISCRIMINATED: BLASTIC PDC NEOPLASM (BPDCN) AND MATURE PDC PROLIFERATION (MPDCP), ASSOCIATED WITH MYELOID NEOPLASM. TWO TYPES OF MPDCP ARE NOW BETTER DESCRIBED: CHRONIC MYELOMONOCYTIC LEUKEMIA WITH PDC EXPANSION (PDC-CMML) AND ACUTE MYELOID LEUKEMIA WITH PDC EXPANSION (PDC-AML). DIFFERENTIAL DIAGNOSIS BETWEEN PDC-AML AND BPDCN IS PARTICULARLY CHALLENGING, AND GENOMIC FEATURES CAN HELP FOR DIAGNOSIS. HERE, WE SYSTEMATICALLY REVIEW THE CYTOGENETIC, MOLECULAR, AND TRANSCRIPTIONAL CHARACTERISTICS OF BPDCN AND PDC-AML. BPDCN ARE CHARACTERIZED BY FREQUENT COMPLEX KARYOTYPES WITH RECURRENT MYB/MYC REARRANGEMENTS AS WELL AS RECURRENT DELETIONS INVOLVING ETV6, IKZF1, RB1, AND TP53 LOCI. EPIGENETIC AND SPLICING PATHWAYS ARE ALSO PARTICULARLY MUTATED, WHILE ORIGINAL PROCESSES ARE DYSREGULATED, SUCH AS NF-KB, TCF4, BCL2, AND IFN PATHWAYS; NEUTROPHIL-SPECIFIC RECEPTORS; AND CHOLINERGIC SIGNALING. IN CONTRAST, CYTOGENETIC ABNORMALITIES ARE LIMITED IN PDC-AML AND ARE QUITE SIMILAR TO OTHER AML. INTERESTINGLY, RUNX1 IS THE MOST FREQUENTLY MUTATED GENE (70% OF CASES). THESE TYPICAL GENOMIC FEATURES ARE OF POTENTIAL INTEREST FOR DIAGNOSIS, AND ALSO FROM A PROGNOSTIC OR THERAPEUTIC PERSPECTIVE. 2022 12 6072 29 THE DNA METHYLOME OF HUMAN VASCULAR ENDOTHELIUM AND ITS USE IN LIQUID BIOPSIES. BACKGROUND: VASCULAR ENDOTHELIAL CELLS (VECS) ARE AN ESSENTIAL COMPONENT OF EACH TISSUE, CONTRIBUTE TO MULTIPLE PATHOLOGIES, AND ARE TARGETED BY IMPORTANT DRUGS. YET, THERE IS A SHORTAGE OF BIOMARKERS TO ASSESS VEC TURNOVER. METHODS: TO DEVELOP DNA METHYLATION-BASED LIQUID BIOPSIES FOR VECS, WE DETERMINED THE METHYLOME OF VECS ISOLATED FROM FRESHLY DISSOCIATED HUMAN TISSUES. FINDINGS: A COMPARISON WITH A HUMAN CELL-TYPE METHYLOME ATLAS YIELDED THOUSANDS OF LOCI THAT ARE UNIQUELY UNMETHYLATED IN VECS. THESE SITES ARE TYPICALLY GENE ENHANCERS, OFTEN RESIDING ADJACENT TO VEC-SPECIFIC GENES. WE ALSO IDENTIFIED HUNDREDS OF GENOMIC LOCI THAT ARE DIFFERENTIALLY METHYLATED IN ORGANOTYPIC VECS, INDICATING THAT VECS FEEDING SPECIFIC ORGANS ARE DISTINCT CELL TYPES WITH A STABLE EPIGENETIC IDENTITY. WE ESTABLISHED UNIVERSAL AND LUNG-SPECIFIC VEC MARKERS AND EVALUATED THEIR PRESENCE IN CIRCULATING CELL-FREE DNA (CFDNA). NEARLY 2.5% OF CFDNA IN THE PLASMA OF HEALTHY INDIVIDUALS ORIGINATES FROM VECS. SEPSIS, GRAFT VERSUS HOST DISEASE, AND CARDIAC CATHETERIZATION ARE ASSOCIATED WITH ELEVATED LEVELS OF VEC-DERIVED CFDNA, INDICATIVE OF VASCULAR DAMAGE. LUNG-SPECIFIC VEC CFDNA IS SELECTIVELY ELEVATED IN PATIENTS WITH CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) OR LUNG CANCER, REVEALING TISSUE-SPECIFIC VASCULAR TURNOVER. CONCLUSIONS: VEC CFDNA BIOMARKERS INFORM VASCULAR DYNAMICS IN HEALTH AND DISEASE, POTENTIALLY CONTRIBUTING TO EARLY DIAGNOSIS AND MONITORING OF PATHOLOGIES, AND ASSESSMENT OF DRUG ACTIVITY. FUNDING: THIS WORK WAS SUPPORTED BY THE BEUTLER RESEARCH PROGRAM, HELMSLEY CHARITABLE TRUST, JDRF, GRAIL AND THE DON FOUNDATION (TO Y.D.). Y.D HOLDS THE WALTER & GRETA STIEL CHAIR IN HEART STUDIES. B.G., R.S., J.M., D.N., T.K., AND Y.D. FILED PATENTS ON CFDNA ANALYSIS. 2023 13 1679 21 DRUG RESISTANCE IN GIARDIA DUODENALIS. GIARDIA DUODENALIS IS A MICROAEROPHILIC PARASITE OF THE HUMAN GASTROINTESTINAL TRACT AND A MAJOR CONTRIBUTOR TO DIARRHEAL AND POST-INFECTIOUS CHRONIC GASTROINTESTINAL DISEASE WORLD-WIDE. TREATMENT OF G. DUODENALIS INFECTION CURRENTLY RELIES ON A SMALL NUMBER OF DRUG CLASSES. NITROHETEROCYCLICS, IN PARTICULAR METRONIDAZOLE, HAVE REPRESENTED THE FRONT LINE TREATMENT FOR THE LAST 40 YEARS. NITROHETEROCYCLIC-RESISTANT G. DUODENALIS HAVE BEEN ISOLATED FROM PATIENTS AND CREATED IN VITRO, PROMPTING CONSIDERABLE RESEARCH INTO THE BIOMOLECULAR MECHANISMS OF RESISTANCE. THESE COMPOUNDS ARE REDOX-ACTIVE AND ARE BELIEVED TO DAMAGE PROTEINS AND DNA AFTER BEING ACTIVATED BY OXIDOREDUCTASE ENZYMES IN METABOLICALLY ACTIVE CELLS. IN THIS REVIEW, WE EXPLORE THE MOLECULAR PHENOTYPES OF NITROHETEROCYCLIC-RESISTANT G. DUODENALIS DESCRIBED TO DATE IN THE CONTEXT OF THE PROTIST'S UNUSUAL GLYCOLYTIC AND ANTIOXIDANT SYSTEMS. WE PROPOSE THAT RESISTANCE MECHANISMS ARE LIKELY TO EXTEND WELL BEYOND CURRENTLY DESCRIBED RESISTANCE-ASSOCIATED ENZYMES (I.E., PYRUVATE FERREDOXIN OXIDOREDUCTASES AND NITROREDUCTASES), TO INCLUDE NAD(P)H- AND FLAVIN-GENERATING PATHWAYS, AND POSSIBLY REDOX-SENSITIVE EPIGENETIC REGULATION. MECHANISMS THAT ALLOW G. DUODENALIS TO TOLERATE OXIDATIVE STRESS MAY LEAD TO RESISTANCE AGAINST BOTH OXYGEN AND NITROHETEROCYCLICS, WITH IMPLICATIONS FOR CLINICAL CONTROL. THE PRESENT REVIEW HIGHLIGHTS THE POTENTIAL FOR SYSTEMS BIOLOGY TOOLS AND ADVANCED BIOINFORMATICS TO FURTHER INVESTIGATE THE MULTIFACETED MECHANISMS OF NITROHETEROCYCLIC RESISTANCE IN THIS IMPORTANT PATHOGEN. 2015 14 5154 22 PRAKRITI-BASED MEDICINE: A STEP TOWARDS PERSONALIZED MEDICINE. THE CONCEPT OF PERSONALIZED MEDICINE HAS BEEN AROUND FOR AS LONG AS PEOPLE HAVE BEEN PRACTICING MEDICINE. FROM CHARAKA TO HIPPOCRATES, ALL HAVE PRACTICED THE PERSONALIZED APPROACH FOR TREATING A DISEASE. IN THE 21(ST) CENTURY, PERSONALIZED MEDICINE IS ALL ABOUT DNA. WHEREAS THE SINGLE NUCLEOTIDE POLYMORPHISM (SNP) AND EPIGENETIC FACTORS INFLUENCE DRUG RESPONSE AND FORM THE BASIS OF PERSONALIZED MEDICINE, THE TRIDOSHA THEORY FORMS THE BASIS OF PRAKRITI-BASED MEDICINE. IT IS WELL ESTABLISHED BY NOW THAT WESTERN ALLOPATHIC MEDICINE IS EXCELLENT IN HANDLING ACUTE MEDICAL CRISES, WHEREAS AYURVEDA HAS SUCCESSFULLY DEMONSTRATED AN ABILITY TO MANAGE CHRONIC DISORDERS THAT WESTERN MEDICINE HAS BEEN UNABLE TO CURE. WITH EFFECTIVE INTEGRATION OF 'OMICS' PRAKRITI-BASED MEDICINE CAN PLAY A VITAL ROLE IN THIS CHANGING SCENARIO OF GLOBAL HEALTH WISDOM AS AYURVEDA OFFERS ITS MODALITIES BY WAY OF AHARA (DIET), VIHARA (LIFESTYLE), AND AUSHADHI (MEDICATION), WHICH ARE THE THREE PILLARS OF PRAKRITI-BASED MEDICINE MAKING IT A HOLISTIC SCIENCE. PRAKRITI-BASED MEDICINE AND OTHER TRADITIONAL MEDICINE SYSTEMS HAVE THE POTENTIAL TO OFFER REMEDIES TO THE CHALLENGING HEALTH ISSUES LIKE ADVERSE DRUG REACTIONS, DRUG WITHDRAWALS, AND ECONOMIC DISPARITIES AMONG FEW. AN INTEGRATIVE GLOBAL APPROACH COULD DO WONDERS TO HEALTH SCIENCES BENEFITING A BROAD SPECTRUM OF PATIENTS. 2011 15 829 30 CHARACTERIZATION OF P190-BCR-ABL CHRONIC MYELOID LEUKEMIA REVEALS SPECIFIC SIGNALING PATHWAYS AND THERAPEUTIC TARGETS. THE ONCOGENIC PROTEIN BCR-ABL HAS TWO MAJOR ISOFORMS, P190(BCR-ABL) AND P210(BCR-ABL). WHILE P210(BCR-ABL) IS THE HALLMARK OF CHRONIC MYELOID LEUKEMIA (CML), P190(BCR-ABL) OCCURS IN THE MAJORITY OF PHILADELPHIA-POSITIVE ACUTE LYMPHOBLASTIC LEUKEMIA (PH + ALL) PATIENTS. IN CML, P190(BCR-ABL) OCCURS IN A MINORITY OF PATIENTS ASSOCIATING WITH DISTINCT HEMATOLOGICAL FEATURES AND INFERIOR OUTCOMES, YET THE PATHOGENIC ROLE OF P190(BCR-ABL) AND POTENTIAL TARGETING THERAPIES ARE LARGELY UNCHARACTERIZED. WE EMPLOYED NEXT GENERATION SEQUENCING, PHOSPHO-PROTEOMIC PROFILING, AND DRUG SENSITIVITY TESTING TO CHARACTERIZE P190(BCR-ABL) IN CML AND HEMATOPOIETIC PROGENITOR CELL LINE MODELS (BA/F3 AND HPC-LSK). P190(BCR-ABL) CML PATIENTS DEMONSTRATED POOR RESPONSE TO IMATINIB AND FREQUENT MUTATIONS IN EPIGENETIC MODIFIERS GENES. IN CONTRAST WITH P210(BCR-ABL), P190(BCR-ABL) EXHIBITED SPECIFIC TRANSCRIPTIONAL UPREGULATION OF INTERFERON, INTERLEUKIN-1 RECEPTOR, AND P53 SIGNALING PATHWAYS, ASSOCIATED WITH HYPERPHOSPHORYLATION OF RELEVANT SIGNALING MOLECULES INCLUDING JAK1/STAT1 AND PAK1 IN ADDITION TO SRC HYPERPHOSPHORYLATION. COMPARABLE TO P190(BCR-ABL) CML PATIENTS, P190(BCR-ABL) CELL LINES DEMONSTRATED SIMILAR TRANSCRIPTIONAL AND PHOSPHO-SIGNALING SIGNATURES. WITH THE DRUG SENSITIVITY SCREENING WE IDENTIFIED TARGETED DRUGS WITH SPECIFIC ACTIVITY IN P190(BCR-ABL) CELL LINES INCLUDING IAP-, PAK1-, AND SRC INHIBITORS AND GLUCOCORTICOIDS. OUR RESULTS PROVIDE NOVEL INSIGHTS INTO THE MECHANISMS UNDERLYING THE DISTINCT FEATURES OF P190(BCR-ABL) CML AND PROMISING THERAPEUTIC TARGETS FOR THIS HIGH-RISK PATIENT GROUP. 2021 16 1171 16 CONTRIBUTION OF MATURE HEPATOCYTES TO BILIARY REGENERATION IN RATS WITH ACUTE AND CHRONIC BILIARY INJURY. WHETHER HEPATOCYTES CAN CONVERT INTO BILIARY EPITHELIAL CELLS (BECS) DURING BILIARY INJURY IS MUCH DEBATED. TO TEST THIS CONCEPT, WE TRACED THE FATE OF GENETICALLY LABELED [DIPEPTIDYL PEPTIDASE IV (DPPIV)-POSITIVE] HEPATOCYTES IN HEPATOCYTE TRANSPLANTATION MODEL FOLLOWING ACUTE HEPATO-BILIARY INJURY INDUCED BY 4,4'-METHYLENE-DIANILINE (DAPM) AND D-GALACTOSAMINE (DAPM+D-GAL) AND IN DPPIV-CHIMERIC LIVER MODEL SUBJECTED TO ACUTE (DAPM+D-GAL) OR CHRONIC BILIARY INJURY CAUSED BY DAPM AND BILE DUCT LIGATION (DAPM+BDL). IN BOTH MODELS BEFORE BILIARY INJURY, BECS ARE UNIFORMLY DPPIV-DEFICIENT AND PROLIFERATION OF DPPIV-DEFICIENT HEPATOCYTES IS RESTRICTED BY RETRORSINE. WE FOUND THAT MATURE HEPATOCYTES UNDERWENT A STEPWISE CONVERSION INTO BECS AFTER BILIARY INJURY. IN THE HEPATOCYTE TRANSPLANTATION MODEL, DPPIV-POSITIVE HEPATOCYTES ENTRAPPED PERIPORTALLY PROLIFERATED, AND FORMED TWO-LAYERED PLATES ALONG PORTAL VEINS. WITHIN THE TWO-LAYERED PLATES, THE HEPATOCYTES GRADUALLY LOST THEIR HEPATOCYTIC IDENTITY, PROCEEDED THROUGH AN INTERMEDIATE STATE, ACQUIRED A BILIARY PHENOTYPE, AND SUBSEQUENTLY FORMED BILE DUCTS ALONG THE HILUM-TO-PERIPHERY AXIS. IN DPPIV-CHIMERIC LIVER MODEL, PERIPORTAL HEPATOCYTES EXPRESSING HEPATOCYTE NUCLEAR FACTOR-1BETA (HNF-1BETA) WERE EXCLUSIVELY DPPIV-POSITIVE AND WERE IN CONTINUITY TO DPPIV-POSITIVES BILE DUCTS. INHIBITION OF HEPATOCYTE PROLIFERATION BY ADDITIONAL DOSES OF RETRORSINE IN DPPIV-CHIMERIC LIVERS PREVENTED THE APPEARANCE OF DPPIV-POSITIVE BECS AFTER BILIARY INJURY. MOREOVER, ENRICHED DPPIV-POSITIVE BEC/HEPATIC OVAL CELL TRANSPLANTATION PRODUCED DPPIV-POSITIVE BECS OR BILE DUCTS IN UNEXPECTEDLY LOW FREQUENCY AND IN MID-LOBULAR REGIONS. THESE RESULTS TOGETHER SUGGEST THAT MATURE HEPATOCYTES BUT NOT CONTAMINATING BECS/HEPATIC OVAL CELLS ARE THE SOURCES OF PERIPORTAL DPPIV-POSITIVE BECS. WE CONCLUDE THAT MATURE HEPATOCYTES CONTRIBUTE TO BILIARY REGENERATION IN THE ENVIRONMENT OF ACUTE AND CHRONIC BILIARY INJURY THROUGH A DUCTAL PLATE CONFIGURATION WITHOUT THE NEED OF EXOGENOUSLY GENETIC OR EPIGENETIC MANIPULATION. 2015 17 238 19 ADENOSINE KINASE: A KEY REGULATOR OF PURINERGIC PHYSIOLOGY. ADENOSINE (ADO) IS AN ESSENTIAL BIOMOLECULE FOR LIFE THAT PROVIDES CRITICAL REGULATION OF ENERGY UTILIZATION AND HOMEOSTASIS. ADENOSINE KINASE (ADK) IS AN EVOLUTIONARY ANCIENT RIBOKINASE DERIVED FROM BACTERIAL SUGAR KINASES THAT IS WIDELY EXPRESSED IN ALL FORMS OF LIFE, TISSUES AND ORGAN SYSTEMS THAT TIGHTLY REGULATES INTRACELLULAR AND EXTRACELLULAR ADO CONCENTRATIONS. THE FACILE ABILITY OF ADK TO ALTER ADO AVAILABILITY PROVIDES A "SITE AND EVENT" SPECIFICITY TO THE ENDOGENOUS PROTECTIVE EFFECTS OF ADO IN SITUATIONS OF CELLULAR STRESS. IN ADDITION TO MODULATING THE ABILITY OF ADO TO ACTIVATE ITS COGNATE RECEPTORS (P1 RECEPTORS), NUCLEAR ADK ISOFORM ACTIVITY HAS BEEN LINKED TO EPIGENETIC MECHANISMS BASED ON TRANSMETHYLATION PATHWAYS. PREVIOUS DRUG DISCOVERY RESEARCH HAS TARGETED ADK INHIBITION AS A THERAPEUTIC APPROACH TO MANAGE EPILEPSY, PAIN, AND INFLAMMATION. THESE EFFORTS GENERATED MULTIPLE CLASSES OF HIGHLY POTENT AND SELECTIVE INHIBITORS. HOWEVER, CLINICAL DEVELOPMENT OF EARLY ADK INHIBITORS WAS STOPPED DUE TO APPARENT MECHANISTIC TOXICITY AND THE LACK OF SUITABLE TRANSLATIONAL MARKERS. NEW INSIGHTS REGARDING THE POTENTIAL ROLE OF THE NUCLEAR ADK ISOFORM (ADK-LONG) IN THE EPIGENETIC MODULATION OF MALADAPTIVE DNA METHYLATION OFFERS THE POSSIBILITY OF IDENTIFYING NOVEL ADK-ISOFORM SELECTIVE INHIBITORS AND NEW INTERVENTIONAL STRATEGIES THAT ARE INDEPENDENT OF ADO RECEPTOR ACTIVATION. 2021 18 890 15 CHRONIC DIETARY EXPOSURE OF ROOSTERS TO A GLYPHOSATE-BASED HERBICIDE INCREASES SEMINAL PLASMA GLYPHOSATE AND AMPA CONCENTRATIONS, ALTERS SPERM PARAMETERS, AND INDUCES METABOLIC DISORDERS IN THE PROGENY. THE EFFECTS OF CHRONIC DIETARY ROUNDUP (RU) EXPOSURE ON ROOSTER SPERM PARAMETERS, FERTILITY, AND OFFSPRING ARE UNKNOWN. WE INVESTIGATED THE EFFECTS OF CHRONIC RU DIETARY EXPOSURE (46.8 MG KG(-1) DAY(-1) GLYPHOSATE) FOR 5 WEEKS IN 32-WEEK-OLD ROOSTERS (N = 5 RU-EXPOSED AND N = 5 CONTROL (CT)). ALTHOUGH THE CONCENTRATIONS OF GLYPHOSATE AND ITS MAIN METABOLITE AMPA (AMINOMETHYLPHOSPHONIC ACID) INCREASED IN BLOOD PLASMA AND SEMINAL FLUID DURING EXPOSURE, NO SIGNIFICANT DIFFERENCES IN TESTIS WEIGHT AND SPERM CONCENTRATIONS WERE OBSERVED BETWEEN RU AND CT ROOSTERS. HOWEVER, SPERM MOTILITY WAS SIGNIFICANTLY REDUCED, ASSOCIATED WITH DECREASED CALCIUM AND ATP CONCENTRATIONS IN RU SPERMATOZOA. PLASMA TESTOSTERONE AND OESTRADIOL CONCENTRATIONS INCREASED IN RU ROOSTERS. THESE NEGATIVE EFFECTS CEASED 14 DAYS AFTER RU REMOVAL FROM THE DIET. EPIGENETIC ANALYSIS SHOWED A GLOBAL DNA HYPOMETHYLATION IN RU ROOSTERS. AFTER ARTIFICIAL INSEMINATION OF HENS (N = 40) WITH SPERM FROM CT OR RU ROOSTERS, EGGS WERE COLLECTED AND ARTIFICIALLY INCUBATED. EMBRYO VIABILITY DID NOT DIFFER, BUT CHICKS FROM RU ROOSTERS (N = 118) HAD A HIGHER FOOD CONSUMPTION, BODY WEIGHT AND SUBCUTANEOUS ADIPOSE TISSUE CONTENT. CHRONIC DIETARY RU EXPOSURE IN ROOSTERS REDUCES SPERM MOTILITY AND INCREASES PLASMA TESTOSTERONE LEVELS, GROWTH PERFORMANCE, AND FATTENING IN OFFSPRING. 2021 19 3381 25 HLA AND AUTOIMMUNE DISEASES: TYPE 1 DIABETES (T1D) AS AN EXAMPLE. AUTOIMMUNE DISEASES NEED TO BE CONSIDERED AT A GENETIC AND MECHANISTIC LEVEL. T1D IS AN AUTOIMMUNE, CHRONIC, MULTIFACTORIAL AND POLYGENIC DISEASE CHARACTERIZED BY THE DESTRUCTION OF THE PANCREATIC BETA-CELLS ASSOCIATED WITH LONG TERM DYSFUNCTION OF SEVERAL ORGANS AND TISSUES. MECHANISMS OF SUSCEPTIBILITY INCLUDE EPI-GENETIC AND POST-TRANSCRIPTIONAL EFFECTS THAT REGULATE TRANSMISSION AND EXPRESSION OF THE INHERITED GENES. THE HLA COMPLEX, CONSTITUTES THE MOST RELEVANT REGION CONTRIBUTING 50% OF THE INHERITED RISK FOR T1D. AN ADDITIONAL 17 GENES WITH VARIABLE BUT SMALL EFFECTS HAVE BEEN DESCRIBED. IN NON-CAUCASIANS, THE PRESENCE OF E-DRBETA1-74 AND/OR D-DRBETA1-57 ARE RELEVANT IN PREDISPOSITION. THE "DIABETOGENIC HAPLOTYPES" IN MEXICANS WERE DRB1*0301-DQA1*0501-DQB1*0201 (OR = 21.4); DRB1*0405-DQA1-*0301-DQB1*0302 (OR = 44.5) AND THE SAME DQA1/DQB1 WITH DRB1*0404/*0401 CONFERRING LOWER RISK, INCREASING (OR = 61.3) WITH AN EARLY AGE AT ONSET AND A HETEROZYGOTE DR3/DR4 GENOTYPE. IN MOST POPULATIONS, THE ABSENCE OF D-57 AND THE PRESENCE OF R-52 ARE IMPORTANT TO THE SUSCEPTIBILITY, BUT IN HISPANICS, ALL DR4S (INCLUDING THE PROTECTIVE DRB1*0403/*0407/*0411) ARE IN LINKAGE DISEQUILIBRIUM WITH DQA1/DQB1 SUSCEPTIBILITY ALLELES. THUS, SUSCEPTIBILITY ALLELES IN LATIN AMERICAN MESTIZOS ARE OF MEDITERRANEAN ANCESTRY WHEREAS PROTECTIVE ALLELES ARE OF AMERINDIAN ORIGIN. IN THIS REVIEW, WE DISCUSS THE COMPLEXITY OF T1D AND SOME ASPECTS OF PREVENTION/INTERVENTION BASED ON IMMUNOGENETICS. 2006 20 4576 19 MYOGENIC POTENTIAL OF CANINE CRANIOFACIAL SATELLITE CELLS. THE SKELETAL FIBERS HAVE DIFFERENT EMBRYOLOGICAL ORIGIN; THE EXTRAOCULAR AND JAW-CLOSER MUSCLES DEVELOP FROM PRECHORDAL MESODERM WHILE THE LIMB AND TRUNK MUSCLES FROM SOMITES. THESE DIFFERENT ORIGINS CHARACTERIZE ALSO THE ADULT MUSCLE STEM CELLS, KNOWN AS SATELLITE CELLS (SCS) AND RESPONSIBLE FOR THE FIBER GROWTH AND REGENERATION. THE PHYSIOLOGICAL PROPERTIES OF PRESOMITIC SCS AND THEIR EPIGENETICS ARE POORLY STUDIED DESPITE THEIR PECULIAR CHARACTERISTICS TO PRESERVE MUSCLE INTEGRITY DURING CHRONIC MUSCLE DEGENERATION. HERE, WE ISOLATED SCS FROM CANINE SOMITIC [SOMITE-DERIVED MUSCLE (SDM): VASTUS LATERALIS, RECTUS ABDOMINIS, GLUTEUS SUPERFICIALIS, BICEPS FEMORIS, PSOAS] AND PRESOMITIC [PRE-SOMITE-DERIVED MUSCLE (PSDM): LATERAL RECTUS, TEMPORALIS, AND RETRACTOR BULBI] MUSCLES AS MYOGENIC PROGENITOR CELLS FROM YOUNG AND OLD ANIMALS. IN ADDITION, SDM AND PSDM-SCS WERE OBTAINED ALSO FROM GOLDEN RETRIEVERS AFFECTED BY MUSCULAR DYSTROPHY (GRMD). WE CHARACTERIZED THE LIFESPAN, THE MYOGENIC POTENTIAL AND FUNCTIONS, AND OXIDATIVE STRESS OF BOTH SOMITIC AND PRESOMITIC SCS WITH THE AIM TO REVEAL DIFFERENCES WITH AGING AND BETWEEN HEALTHY AND DYSTROPHIC ANIMALS. THE DIFFERENT PROLIFERATION RATE WAS CONSISTENT WITH HIGHER TELOMERASE ACTIVITY IN PSDM-SCS COMPARED TO SDM-SCS, ALTHOUGH RESTRICTED AT EARLY PASSAGES. SDM-SCS EXPRESS EARLY (PAX7, MYOD) AND LATE (MYOSIN HEAVY CHAIN, MYOGENIN) MYOGENIC MARKERS DIFFERENTLY FROM PSDM-SCS RESULTING IN A MORE EFFICIENT AND FASTER CELL DIFFERENTIATION. TAKEN TOGETHER, OUR RESULTS SHOWED THAT PSDM-SCS ELICIT A STRONGER STEM CELL PHENOTYPE COMPARED TO SDM ONES. FINALLY, MYOMIR EXPRESSION PROFILE REVEALS A UNIQUE EPIGENETIC SIGNATURE IN GRMD SCS AND MIR-206, HIGHLY EXPRESSED IN DYSTROPHIC SCS, SEEMS TO PLAY A CRITICAL ROLE IN MUSCLE DEGENERATION. THUS, MIR-206 COULD REPRESENT A POTENTIAL TARGET FOR NOVEL THERAPEUTIC APPROACHES. 2014