1 6237 102 THE MAIN THEORIES ON THE PATHOGENESIS OF ENDOMETRIOSIS. ENDOMETRIOSIS IS A COMPLEX DISEASE, WHICH IS DEFINED BY ABNORMAL GROWTH OF ENDOMETRIAL TISSUE OUTSIDE THE UTERUS. IT AFFECTS ABOUT 10% OF WOMEN OF REPRODUCTIVE AGE ALL OVER THE WORLD. ENDOMETRIOSIS CAUSES SYMPTOMS THAT NOTABLY WORSEN PATIENT'S WELL-BEING-SUCH AS SEVERE PELVIC PAIN, DYSFUNCTION OF THE ORGANS OF PELVIC CAVITY, INFERTILITY AND SECONDARY MENTAL ISSUES. THE DIAGNOSIS OF ENDOMETRIOSIS IS QUITE OFTEN DELAYED BECAUSE OF NONSPECIFIC MANIFESTATIONS. SINCE THE DISEASE WAS DEFINED, SEVERAL DIFFERENT PATHOGENETIC PATHWAYS HAVE BEEN CONSIDERED, INCLUDING RETROGRADE MENSTRUATION, BENIGN METASTASIS, IMMUNE DYSREGULATION, COELOMIC METAPLASIA, HORMONAL DISBALANCE, INVOLVEMENT OF STEM CELLS AND ALTERATIONS IN EPIGENETIC REGULATION, BUT THE TRUE PATHOGENESIS OF ENDOMETRIOSIS REMAINS POORLY UNDERSTOOD. THE KNOWLEDGE OF THE EXACT MECHANISM OF THE ORIGIN AND PROGRESSION OF THIS DISEASE IS SIGNIFICANT FOR THE APPROPRIATE TREATMENT. THEREFORE, THIS REVIEW REPORTS THE MAIN PATHOGENETIC THEORIES OF ENDOMETRIOSIS BASED ON CURRENT STUDIES. 2023 2 2649 22 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 3 4956 48 PATHOGENESIS OF ENDOMETRIOSIS: FOCUS ON ADENOGENESIS-RELATED FACTORS. ENDOMETRIOSIS CAN BE DEFINED AS THE PRESENCE OF THE ENDOMETRIUM OUTSIDE THE UTERINE CAVITY. IT AFFECTS APPROXIMATELY 10% OF WOMEN OF REPRODUCTIVE AGE AND CAUSES INFERTILITY, CHRONIC PAIN, AND DETERIORATION OF THE QUALITY OF LIFE. SINCE THE IDENTIFICATION OF THE DISEASE, VARIOUS PATHOGENETIC MECHANISMS HAVE BEEN PROPOSED, SUCH AS RETROGRADE MENSTRUATION, COELOMIC METAPLASIA, HORMONAL IMBALANCE, STEM CELL INVOLVEMENT, AND ALTERATIONS IN EPIGENETIC REGULATION. HOWEVER, THE UNDERLYING PATHOGENESIS OF ENDOMETRIOSIS REMAINS INADEQUATELY UNDERSTOOD. ELUCIDATION OF THE PRECISE MECHANISM OF THE DEVELOPMENT AND PROGRESSION OF ENDOMETRIOSIS IS CRUCIAL FOR EFFECTIVE TREATMENT. THIS REVIEW PRESENTS THE MAJOR PATHOGENETIC THEORIES OF ENDOMETRIOSIS BASED ON CURRENT RESEARCH STUDIES WITH A MAJOR FOCUS ON THE POTENTIAL ROLE OF UTERINE FACTORS. 2023 4 967 16 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 5 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 6 760 27 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 7 3862 23 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 8 5763 15 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 9 608 21 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 10 890 14 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 11 1679 24 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 12 4576 18 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 13 4048 17 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 14 56 23 A GENOME-WIDE ASSOCIATION META-ANALYSIS OF CIRCULATING SEX HORMONE-BINDING GLOBULIN REVEALS MULTIPLE LOCI IMPLICATED IN SEX STEROID HORMONE REGULATION. SEX HORMONE-BINDING GLOBULIN (SHBG) IS A GLYCOPROTEIN RESPONSIBLE FOR THE TRANSPORT AND BIOLOGIC AVAILABILITY OF SEX STEROID HORMONES, PRIMARILY TESTOSTERONE AND ESTRADIOL. SHBG HAS BEEN ASSOCIATED WITH CHRONIC DISEASES INCLUDING TYPE 2 DIABETES (T2D) AND WITH HORMONE-SENSITIVE CANCERS SUCH AS BREAST AND PROSTATE CANCER. WE PERFORMED A GENOME-WIDE ASSOCIATION STUDY (GWAS) META-ANALYSIS OF 21,791 INDIVIDUALS FROM 10 EPIDEMIOLOGIC STUDIES AND VALIDATED THESE FINDINGS IN 7,046 INDIVIDUALS IN AN ADDITIONAL SIX STUDIES. WE IDENTIFIED TWELVE GENOMIC REGIONS (SNPS) ASSOCIATED WITH CIRCULATING SHBG CONCENTRATIONS. LOCI NEAR THE IDENTIFIED SNPS INCLUDED SHBG (RS12150660, 17P13.1, P = 1.8 X 10(-106)), PRMT6 (RS17496332, 1P13.3, P = 1.4 X 10(-11)), GCKR (RS780093, 2P23.3, P = 2.2 X 10(-16)), ZBTB10 (RS440837, 8Q21.13, P = 3.4 X 10(-09)), JMJD1C (RS7910927, 10Q21.3, P = 6.1 X 10(-35)), SLCO1B1 (RS4149056, 12P12.1, P = 1.9 X 10(-08)), NR2F2 (RS8023580, 15Q26.2, P = 8.3 X 10(-12)), ZNF652 (RS2411984, 17Q21.32, P = 3.5 X 10(-14)), TDGF3 (RS1573036, XQ22.3, P = 4.1 X 10(-14)), LHCGR (RS10454142, 2P16.3, P = 1.3 X 10(-07)), BAIAP2L1 (RS3779195, 7Q21.3, P = 2.7 X 10(-08)), AND UGT2B15 (RS293428, 4Q13.2, P = 5.5 X 10(-06)). THESE GENES ENCOMPASS MULTIPLE BIOLOGIC PATHWAYS, INCLUDING HEPATIC FUNCTION, LIPID METABOLISM, CARBOHYDRATE METABOLISM AND T2D, ANDROGEN AND ESTROGEN RECEPTOR FUNCTION, EPIGENETIC EFFECTS, AND THE BIOLOGY OF SEX STEROID HORMONE-RESPONSIVE CANCERS INCLUDING BREAST AND PROSTATE CANCER. WE FOUND EVIDENCE OF SEX-DIFFERENTIATED GENETIC INFLUENCES ON SHBG. IN A SEX-SPECIFIC GWAS, THE LOCI 4Q13.2-UGT2B15 WAS SIGNIFICANT IN MEN ONLY (MEN P = 2.5 X 10(-08), WOMEN P = 0.66, HETEROGENEITY P = 0.003). ADDITIONALLY, THREE LOCI SHOWED STRONG SEX-DIFFERENTIATED EFFECTS: 17P13.1-SHBG AND XQ22.3-TDGF3 WERE STRONGER IN MEN, WHEREAS 8Q21.12-ZBTB10 WAS STRONGER IN WOMEN. CONDITIONAL ANALYSES IDENTIFIED ADDITIONAL SIGNALS AT THE SHBG GENE THAT TOGETHER ALMOST DOUBLE THE PROPORTION OF VARIANCE EXPLAINED AT THE LOCUS. USING AN INDEPENDENT STUDY OF 1,129 INDIVIDUALS, ALL SNPS IDENTIFIED IN THE OVERALL OR SEX-DIFFERENTIATED OR CONDITIONAL ANALYSES EXPLAINED ~15.6% AND ~8.4% OF THE GENETIC VARIATION OF SHBG CONCENTRATIONS IN MEN AND WOMEN, RESPECTIVELY. THE EVIDENCE FOR SEX-DIFFERENTIATED EFFECTS AND ALLELIC HETEROGENEITY HIGHLIGHT THE IMPORTANCE OF CONSIDERING THESE FEATURES WHEN ESTIMATING COMPLEX TRAIT VARIANCE. 2012 15 3570 19 IMPACT OF JUVENILE HORMONE ANALOGUE INSECTICIDES ON THE WATER FLEA MOINA MACROCOPA: GROWTH, REPRODUCTION AND TRANSGENERATIONAL EFFECT. THE INCREASING QUANTITIES OF INSECTICIDES THAT LEACH INTO WATER BODIES SEVERELY AFFECT THE HEALTH OF THE AQUATIC ENVIRONMENT. JUVENILE HORMONE ANALOGUE (JHA) INSECTICIDES ARE ENDOCRINE DISRUPTERS THAT INTERFERE WITH HORMONAL ACTIVITY IN INSECTS BY MIMICKING JUVENILE HORMONES (JHS). BECAUSE THE STRUCTURE AND FUNCTIONS OF METHYL FARNESOATE IN CRUSTACEANS ARE SIMILAR TO THE INSECT JHS, EXOGENOUS JHA INSECTICIDES MAY CAUSE ADVERSE EFFECTS ON THE GROWTH AND REPRODUCTION IN CRUSTACEANS SIMILAR TO THOSE OBSERVED IN INSECTS. THIS STUDY EXAMINED THE TOXIC EFFECTS OF TWO JHA INSECTICIDES, METHOPRENE AND FENOXYCARB, ON THE WATER FLEA MOINA MACROCOPA. THE 24-H AND 48-H LC(50) VALUES FOR FENOXYCARB AND METHOPRENE WERE 0.53 AND 0.32 MG/L AND 0.70 AND 0.54 MG/L, RESPECTIVELY. CHRONIC EXPOSURE TO THE TWO JHAS CAUSED A SERIES OF TOXIC EFFECTS IN M. MACROCOPA, INCLUDING SHORTENING OF LIFE EXPECTANCY, REPRESSION OF BODY GROWTH, REDUCTION IN FECUNDITY, AND DISTURBED THE EXPRESSION OF GENES INVOLVED IN THE JH SIGNALING PATHWAY, IN CUTICLE DEVELOPMENT, AND IN THE CARBOHYDRATE, AMINO ACID, AND ATP METABOLIC PROCESSES. MOREOVER, JHA EXPOSURE IMPAIRED THE GROWTH AND REPRODUCTION OF THE OFFSPRING OF M. MACROCOPA EXPOSED TO JHAS, EVEN WHEN THE NEONATES WERE NOT EXPOSED TO THE CHEMICALS. IN ADDITION, CHANGES IN THE EXPRESSION OF GENES RELATED TO HISTONE METHYLATION INDICATE THAT EPIGENETIC CHANGES MAY PROMOTE TRANSGENERATIONAL IMPAIRMENT IN M. MACROCOPA. THESE RESULTS DEMONSTRATE THE TOXIC EFFECTS OF FENOXYCARB AND METHOPRENE ON NON-TARGET AQUATIC ORGANISMS. THE DAMAGES DONE BY THESE JHA INSECTICIDES TO THE AQUATIC ENVIRONMENT IS WORTHY OF OUR ATTENTION AND FURTHER STUDIES. 2020 16 6463 19 TISSUE METHYLATION AND DEMETHYLATION INFLUENCE TRANSLESION SYNTHESIS DNA POLYMERASES (TLS) CONTRIBUTING TO THE GENESIS OF CHROMOSOMAL ABNORMALITIES IN MYELODYSPLASTIC SYNDROME. AIMS: DNA METHYLATION HAS ITS DISTRIBUTION INFLUENCED BY DNA DEMETHYLATION PROCESSES WITH THE CATALYTIC CONVERSION OF 5-METHYLCYTOSINE (5MC) INTO 5-HYDROXYMETHYLCYTOSINE (5HMC). MYELODYSPLASTIC SYNDROME (MDS) HAS BEEN ASSOCIATED WITH EPIGENETIC DYSREGULATION OF GENES RELATED TO DNA REPAIR SYSTEM, CHRONIC IMMUNE RESPONSE AND CELL CYCLE. METHODS: WE EVALUATED THE TISSUE DNA METHYLATION/HYDROXYMETHYLATION IN BONE MARROW TREPHINE BIOPSIES OF 73 PATIENTS WITH MDS, TRYING TO CORRELATE WITH THE MRNA EXPRESSION OF 21 GENES (POLH, POLL, REV3L, POLN, POLQ, POLI, POLK, IRF-1, IRF-2, IRF-3, IRF-4, IRF-5, IRF6, IRF-7, IRF-8,IRF-9, MAD2, CDC20, AURKA, AURKB AND TPX2). RESULTS: THE M-SCORE (5MC) WAS SIGNIFICANTLY HIGHER IN PATIENTS WITH CHROMOSOMAL ABNORMALITIES THAN PATIENTS WITH NORMAL KARYOTYPE (95% CI -27.127779 TO -2.368020; P=0.022). WE OBSERVED A HIGHER 5MC/5HMC RATIO IN PATIENTS CLASSIFIED AS HIGH-RISK SUBTYPES COMPARED WITH LOW-RISK SUBTYPES (95% CI -72.922115 TO -1.855662; P=0.040) AS WELL AS PATIENTS WITH HYPERCELLULAR BONE MARROW COMPARED WITH PATIENTS WITH NORMOCELLULAR/HYPOCELLULAR BONE MARROW (95% CI -69.189259 TO -0.511828; P=0.047) AND WITH THE PRESENCE OF DYSERYTHROPOIESIS (95% CI 17.077703 TO 51.331388; P=0.001). DNA POLS WITH TRANSLESION ACTIVITY ARE SIGNIFICANTLY INFLUENCED BY METHYLATION. AS 5MC IMMUNOEXPRESSION INCREASES, THE EXPRESSIONS OF POLH (R=-0.816; R(2) =0.665; P=0.000), POLQ (R=-0.790; R(2)=0.624; P=0.001), PCNA (R=-0.635; R(2)=0.403; P=0.020), POLK (R=-0.633; R(2)=0.400; P=0.036 AND REV1 (R=-0.578; R(2)=0.334; P=0.049) DECREASE. CONCLUSIONS: OUR RESULTS CONFIRM THAT THERE IS AN IMBALANCE IN THE DNA METHYLATION IN MDS, INFLUENCING THE DEVELOPMENT OF CHROMOSOMAL ABNORMALITIES WHICH MAY BE ASSOCIATED WITH THE LOW EXPRESSION OF DNA POLYMERASES WITH TRANSLESION SYNTHESIS POLYMERASES ACTIVITY. 2022 17 2819 20 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 18 681 21 BRAIN LIPOTOXICITY OF PHYTANIC ACID AND VERY LONG-CHAIN FATTY ACIDS. HARMFUL CELLULAR/MITOCHONDRIAL ACTIVITIES IN REFSUM DISEASE AND X-LINKED ADRENOLEUKODYSTROPHY. IT IS INCREASINGLY UNDERSTOOD THAT IN THE AGING BRAIN, ESPECIALLY IN THE CASE OF PATIENTS SUFFERING FROM NEURODEGENERATIVE DISEASES, SOME FATTY ACIDS AT PATHOLOGICALLY HIGH CONCENTRATIONS EXERT DETRIMENTAL ACTIVITIES. TO STUDY SUCH ACTIVITIES, WE HERE ANALYZE GENETIC DISEASES, WHICH ARE DUE TO COMPROMISED METABOLISM OF SPECIFIC FATTY ACIDS, EITHER THE BRANCHED-CHAIN PHYTANIC ACID OR VERY LONG-CHAIN FATTY ACIDS (VLCFAS). MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID OR OF VLCFAS DISTURB THE INTEGRITY OF NEURAL CELLS BY IMPAIRING CA(2+) HOMEOSTASIS, ENHANCING OXIDATIVE STRESS OR DE-ENERGIZING MITOCHONDRIA. FINALLY, THESE COMBINED HARMFUL ACTIVITIES ACCELERATE CELL DEATH. MITOCHONDRIA ARE MORE SEVERELY TARGETED BY PHYTANIC ACID THAN BY VLCFAS. THE INSERTION OF VLCFAS INTO THE INNER MEMBRANE DISTORTS THE ARRANGEMENT OF MEMBRANE CONSTITUENTS AND THEIR FUNCTIONAL INTERACTIONS. PHYTANIC ACID EXERTS SPECIFIC PROTONOPHORIC ACTIVITY, INDUCES REACTIVE OXYGEN SPECIES (ROS) GENERATION, AND REDUCES ATP GENERATION. A CLEAR INHIBITION OF THE NA(+), K(+)-ATPASE ACTIVITY BY PHYTANIC ACID HAS ALSO BEEN REPORTED. IN ADDITION TO THE INSTANTANEOUS EFFECTS, A CHRONIC EXPOSURE OF BRAIN CELLS TO LOW MICROMOLAR CONCENTRATIONS OF PHYTANIC ACID MAY PRODUCE NEURONAL DAMAGE IN REFSUM DISEASE BY ALTERING EPIGENETIC TRANSCRIPTIONAL REGULATION. MYELIN-PRODUCING OLIGODENDROCYTES RESPOND WITH PARTICULAR SENSITIVITY TO VLCFAS. DELETERIOUS ACTIVITY OF VLCFAS ON ENERGY-DEPENDENT MITOCHONDRIAL FUNCTIONS DECLINES WITH INCREASING THE HYDROCARBON CHAIN LENGTH (C22:0 > C24:0 > C26:0). IN CONTRAST, THE REVERSE SEQUENCE HOLDS TRUE FOR CELL DEATH INDUCTION BY VLCFAS (C22:0 < C24:0 < C26:0). IN ADRENOLEUKODYSTROPHY, THE UPTAKE OF VLCFAS BY PEROXISOMES IS IMPAIRED BY DEFECTS OF THE ABCD1 TRANSPORTER. STUDYING MITOCHONDRIA FROM ABCD1-DEFICIENT AND WILD-TYPE MICE PROVES THAT THE ENERGY-DEPENDENT FUNCTIONS ARE NOT ALTERED IN THE DISEASE MODEL. THUS, A DEFECTIVE ABCD1 APPARENTLY EXERTS NO OBVIOUS ADAPTIVE PRESSURE ON MITOCHONDRIA. FURTHER RESEARCH HAS TO ELUCIDATE THE DETAILED MECHANISTIC BASIS FOR THE FAILURES CAUSING FATTY ACID-MEDIATED NEURODEGENERATION AND SHOULD HELP TO PROVIDE POSSIBLE THERAPEUTIC INTERVENTIONS. 2016 19 850 22 CHILDREN WITH CHRONIC IMMUNE THROMBOCYTOPENIA EXHIBIT HIGH EXPRESSION OF HUMAN ENDOGENOUS RETROVIRUSES TRIM28 AND SETDB1. CHRONIC IMMUNE THROMBOCYTOPENIA (CITP) IS AN AUTOIMMUNE DISEASE WHOSE UNDERLYING BIOLOGIC MECHANISMS REMAIN ELUSIVE. HUMAN ENDOGENOUS RETROVIRUSES (HERVS) DERIVE FROM ANCESTRAL INFECTIONS AND CONSTITUTE ABOUT 8% OF OUR GENOME. A WEALTH OF CLINICAL AND EXPERIMENTAL STUDIES HIGHLIGHTS THEIR PIVOTAL PATHOGENETIC ROLE IN AUTOIMMUNE DISEASES. EPIGENETIC MECHANISMS, SUCH AS THOSE MODULATED BY TRIM28 AND SETDB1, ARE INVOLVED IN HERV ACTIVATION AND REGULATION OF IMMUNE RESPONSE. WE ASSESSED, THROUGH A POLYMERASE CHAIN REACTION REAL-TIME TAQMAN AMPLIFICATION ASSAY, THE TRANSCRIPTION LEVELS OF POL GENES OF HERV-H, HERV-K, AND HERV-W; ENV GENES OF SYNCYTIN (SYN)1, SYN2, AND HERV-W; AS WELL AS TRIM28 AND SETDB1 IN WHOLE BLOOD FROM 34 CHILDREN WITH CITP AND AGE-MATCHED HEALTHY CONTROLS (HC). THE TRANSCRIPTIONAL LEVELS OF ALL HERV SEQUENCES, WITH THE EXCEPTION OF HERV-W-ENV, WERE SIGNIFICANTLY ENHANCED IN CHILDREN WITH CITP AS COMPARED TO HC. PATIENTS ON ELTROMBOPAG TREATMENT EXHIBITED LOWER EXPRESSION OF SYN1, SYN2, AND HERV-W-ENV AS COMPARED TO UNTREATED PATIENTS. THE MRNA CONCENTRATIONS OF TRIM28 AND SETDB1 WERE SIGNIFICANTLY HIGHER AND WERE POSITIVELY CORRELATED WITH THOSE OF HERVS IN CITP PATIENTS. THE OVER-EXPRESSIONS OF HERVS AND TRIM28/SETDB1 AND THEIR POSITIVE CORRELATIONS IN PATIENTS WITH CITP ARE SUGGESTIVE CLUES OF THEIR CONTRIBUTION TO THE PATHOGENESIS OF THE DISEASE AND SUPPORT INNOVATIVE INTERVENTIONS TO INHIBIT HERV AND TRIM28/SETDB1 EXPRESSIONS IN PATIENTS UNRESPONSIVE TO STANDARD THERAPIES. 2023 20 4527 17 MULTIGENERATIONAL EFFECTS OF 4-METHYLBENZYLIDENE CAMPHOR (4-MBC) ON THE SURVIVAL, DEVELOPMENT AND REPRODUCTION OF THE MARINE COPEPOD TIGRIOPUS JAPONICUS. ONE OF THE MOST WIDELY USED ORGANIC UV FILTERS, 4-METHYLBENZYLIDENE CAMPHOR (4-MBC), IS PRESENT AT HIGH CONCENTRATIONS IN OFFSHORE WATERS. THE MARINE COPEPOD TIGRIOPUS JAPONICUS WAS EXPOSED TO DIFFERENT CONCENTRATIONS OF 4-MBC (I.E., 0, 0.5, 1, 5 AND 10MUGL(-1)) FOR 4 CONSECUTIVE GENERATIONS (F0-F3) TO EVALUATE THE IMPACT OF 4-MBC ON MARINE ECOSYSTEMS. THE RESULTS SHOWED THAT IN THE F0 GENERATION, 4-MBC CAUSED SIGNIFICANT LETHAL TOXICITY IN T. JAPONICAS AT CONCENTRATIONS OF 5 AND 10MUGL(-1) AND THE NAUPLII WERE MORE SENSITIVE TO 4-MBC TOXICITY THAN THE ADULTS. HOWEVER IN THE F1-F3 GENERATIONS, 4-MBC EXPOSURE DID NOT AFFECT THE SURVIVAL RATE. THE HATCHING RATE AND THE DEVELOPMENTAL DURATION FROM THE NAUPLII TO THE COPEPODITE (N-C) AND FROM THE NAUPLII TO ADULT (N-A) DECREASED SIGNIFICANTLY IN THE F1-F2 GENERATIONS AND IN THE F2-F3 GENERATIONS, RESPECTIVELY, EVEN AT THE LOWEST EXPOSURE CONCENTRATION (0.5MUGL(-1)). IN THE SUBSEQUENT TWO GENERATIONS (I.E., THE F4-F5 GENERATIONS) OF RECOVERY EXPOSURE IN CLEAN SEAWATER, THE GROWTH RATES OF THE ORIGINAL 4-MBC EXPOSURE GROUPS WERE STILL FASTER THAN THE CONTROL IN BOTH THE N-C AND N-A STAGES, SUGGESTING POSSIBLE TRANSGENERATIONAL GENETIC AND/OR EPIGENETIC CHANGES UPON CHRONIC 4-MBC EXPOSURE. THE EXPRESSION OF THE ECDYSONE RECEPTOR GENE WAS UP-REGULATED BY 4-MBC, WHICH WAS CONSISTENT WITH THE DECREASE OF THE N-C/N-A DURATION. IN ADDITION, 4-MBC MAY INDUCE OXIDATIVE STRESS AND TRIGGER APOPTOSIS IN T. JAPONICAS, RESULTING IN DEVELOPMENTAL, REPRODUCTIVE AND EVEN LETHAL TOXICITY. A PRELIMINARY RISK ASSESSMENT SUGGESTED THAT UNDER ENVIRONMENTALLY REALISTIC CONCENTRATIONS, 4-MBC HAD SIGNIFICANT POTENTIAL TO POSE A THREAT TO MARINE CRUSTACEANS AND MARINE ECOSYSTEMS. 2018