1 4559 140 MUTATIONS OF THE TRANSCRIPTIONAL COREPRESSOR ZMYM2 CAUSE SYNDROMIC URINARY TRACT MALFORMATIONS. CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT (CAKUT) CONSTITUTE ONE OF THE MOST FREQUENT BIRTH DEFECTS AND REPRESENT THE MOST COMMON CAUSE OF CHRONIC KIDNEY DISEASE IN THE FIRST THREE DECADES OF LIFE. DESPITE THE DISCOVERY OF DOZENS OF MONOGENIC CAUSES OF CAKUT, MOST PATHOGENIC PATHWAYS REMAIN ELUSIVE. WE PERFORMED WHOLE-EXOME SEQUENCING (WES) IN 551 INDIVIDUALS WITH CAKUT AND IDENTIFIED A HETEROZYGOUS DE NOVO STOP-GAIN VARIANT IN ZMYM2 IN TWO DIFFERENT FAMILIES WITH CAKUT. THROUGH COLLABORATION, WE IDENTIFIED IN TOTAL 14 DIFFERENT HETEROZYGOUS LOSS-OF-FUNCTION MUTATIONS IN ZMYM2 IN 15 UNRELATED FAMILIES. MOST MUTATIONS OCCURRED DE NOVO, INDICATING POSSIBLE INTERFERENCE WITH REPRODUCTIVE FUNCTION. HUMAN DISEASE FEATURES ARE REPLICATED IN X. TROPICALIS LARVAE WITH MORPHOLINO KNOCKDOWNS, IN WHICH EXPRESSION OF TRUNCATED ZMYM2 PROTEINS, BASED ON INDIVIDUAL MUTATIONS, FAILED TO RESCUE RENAL AND CRANIOFACIAL DEFECTS. MOREOVER, HETEROZYGOUS ZMYM2-DEFICIENT MICE RECAPITULATED FEATURES OF CAKUT WITH HIGH PENETRANCE. THE ZMYM2 PROTEIN IS A COMPONENT OF A TRANSCRIPTIONAL COREPRESSOR COMPLEX RECENTLY LINKED TO THE SILENCING OF DEVELOPMENTALLY REGULATED ENDOGENOUS RETROVIRUS ELEMENTS. USING PROTEIN-PROTEIN INTERACTION ASSAYS, WE SHOW THAT ZMYM2 INTERACTS WITH ADDITIONAL EPIGENETIC SILENCING COMPLEXES, AS WELL AS CONFIRMING THAT IT BINDS TO FOXP1, A TRANSCRIPTION FACTOR THAT HAS ALSO BEEN LINKED TO CAKUT. IN SUMMARY, OUR FINDINGS ESTABLISH THAT LOSS-OF-FUNCTION MUTATIONS OF ZMYM2, AND POTENTIALLY THAT OF OTHER PROTEINS IN ITS INTERACTOME, AS CAUSES OF HUMAN CAKUT, OFFERING NEW ROUTES FOR STUDYING THE PATHOGENESIS OF THE DISORDER. 2020 2 6160 39 THE GENETICS AND PATHOGENESIS OF CAKUT. CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT (CAKUT) COMPRISE A LARGE VARIETY OF MALFORMATIONS THAT ARISE FROM DEFECTIVE KIDNEY OR URINARY TRACT DEVELOPMENT AND FREQUENTLY LEAD TO KIDNEY FAILURE. THE CLINICAL SPECTRUM RANGES FROM SEVERE MALFORMATIONS, SUCH AS RENAL AGENESIS, TO POTENTIALLY MILDER MANIFESTATIONS, SUCH AS VESICOURETERAL REFLUX. ALMOST 50% OF CASES OF CHRONIC KIDNEY DISEASE THAT MANIFEST WITHIN THE FIRST THREE DECADES OF LIFE ARE CAUSED BY CAKUT. EVIDENCE SUGGESTS THAT A LARGE NUMBER OF CAKUT ARE GENETIC IN ORIGIN. TO DATE, MUTATIONS IN ~54 GENES HAVE BEEN IDENTIFIED AS MONOGENIC CAUSES OF CAKUT, CONTRIBUTING TO 12-20% OF THE AETIOLOGY OF THE DISEASE. PATHOGENIC COPY NUMBER VARIANTS HAVE ALSO BEEN SHOWN TO CAUSE CAKUT AND CAN BE DETECTED IN 4-11% OF PATIENTS. FURTHERMORE, ENVIRONMENTAL AND EPIGENETIC FACTORS CAN INCREASE THE RISK OF CAKUT. THE DISCOVERY OF NOVEL CAKUT-CAUSING GENES IS CHALLENGING OWING TO VARIABLE EXPRESSIVITY, INCOMPLETE PENETRANCE AND VARIABLE GENOTYPE-PHENOTYPE CORRELATION. HOWEVER, SUCH A DISCOVERY COULD ULTIMATELY LEAD TO IMPROVEMENTS IN THE ACCURATE MOLECULAR GENETIC DIAGNOSIS, ASSESSMENT OF PROGNOSIS AND MULTIDISCIPLINARY CLINICAL MANAGEMENT OF PATIENTS WITH CAKUT, POTENTIALLY INCLUDING PERSONALIZED THERAPEUTIC APPROACHES. 2023 3 1055 27 CLINICAL INTEGRATION OF GENOME DIAGNOSTICS FOR CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT. REVOLUTIONS IN GENETICS, EPIGENETICS, AND BIOINFORMATICS ARE CURRENTLY CHANGING THE OUTLINE OF DIAGNOSTICS AND CLINICAL MEDICINE. FROM A NEPHROLOGIST'S PERSPECTIVE, INDIVIDUALS WITH CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT (CAKUT) ARE AN IMPORTANT PATIENT CATEGORY: NOT ONLY IS CAKUT THE PREDOMINANT CAUSE OF KIDNEY FAILURE IN CHILDREN AND YOUNG ADULTS, BUT THE STRONG PHENOTYPIC AND GENOTYPIC HETEROGENEITY OF KIDNEY AND URINARY TRACT MALFORMATIONS HAS HAMPERED STANDARDIZATION OF CLINICAL DECISION MAKING UNTIL NOW. HOWEVER, PATIENTS WITH CAKUT MAY BENEFIT FROM PRECISION MEDICINE, INCLUDING AN INTEGRATED DIAGNOSTICS TRAJECTORY, GENETIC COUNSELING, AND PERSONALIZED MANAGEMENT TO IMPROVE CLINICAL OUTCOMES OF DEVELOPMENTAL KIDNEY AND URINARY TRACT DEFECTS. IN THIS REVIEW, WE DISCUSS THE PRESENT UNDERSTANDING OF THE MOLECULAR ETIOLOGY OF CAKUT AND THE CURRENTLY AVAILABLE GENOME DIAGNOSTIC MODALITIES IN THE CLINICAL CARE OF PATIENTS WITH CAKUT. FINALLY, WE DISCUSS HOW CLINICAL INTEGRATION OF FINDINGS FROM LARGE-SCALE GENETIC, EPIGENETIC, AND GENE-ENVIRONMENT INTERACTION STUDIES MAY IMPROVE THE PROGNOSIS OF ALL INDIVIDUALS WITH CAKUT. 2020 4 3089 25 GENOMIC AND EPIGENOMIC ALTERATIONS IN CHRONIC LYMPHOCYTIC LEUKEMIA. CHRONIC LYMPHOCYTIC LEUKEMIA IS A COMMON DISEASE IN WESTERN COUNTRIES AND HAS HETEROGENEOUS CLINICAL BEHAVIOR. THE RELEVANCE OF THE GENETIC BASIS OF THE DISEASE HAS COME TO THE FOREFRONT RECENTLY, WITH GENOME-WIDE STUDIES THAT HAVE PROVIDED A COMPREHENSIVE VIEW OF STRUCTURAL VARIANTS, SOMATIC MUTATIONS, AND DIFFERENT LAYERS OF EPIGENETIC CHANGES. THE MUTATIONAL LANDSCAPE IS CHARACTERIZED BY RELATIVELY COMMON COPY NUMBER ALTERATIONS, A FEW MUTATED GENES OCCURRING IN 10-15% OF CASES, AND A LARGE NUMBER OF GENES MUTATED IN A SMALL NUMBER OF CASES. THE EPIGENOMIC PROFILE HAS REVEALED A MARKED REPROGRAMMING OF REGULATORY REGIONS IN TUMOR CELLS COMPARED WITH NORMAL B CELLS. ALL OF THESE ALTERATIONS ARE DIFFERENTIALLY DISTRIBUTED IN CLINICAL AND BIOLOGICAL SUBSETS OF THE DISEASE, INDICATING THAT THEY MAY UNDERLIE THE HETEROGENEOUS EVOLUTION OF THE DISEASE. THESE GLOBAL STUDIES ARE REVEALING THE MOLECULAR COMPLEXITY OF CHRONIC LYMPHOCYTIC LEUKEMIA AND PROVIDE NEW PERSPECTIVES THAT HAVE HELPED TO UNDERSTAND ITS PATHOGENIC MECHANISMS AND IMPROVE THE CLINICAL MANAGEMENT OF PATIENTS. 2020 5 4101 25 MDCT AND MR UROGRAM SPECTRUM OF CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT DIAGNOSED IN ADULTHOOD. OBJECTIVE: CONGENITAL ANOMALIES OF THE KIDNEYS AND URINARY TRACT (CAKUT) ENCOMPASS A SPECTRUM OF ANOMALIES THAT RESULT FROM GENETIC, EPIGENETIC, ENVIRONMENTAL, AND MOLECULAR SIGNAL ABERRATIONS AT KEY STAGES OF URINARY TRACT DEVELOPMENT. CAKUT CAN BE SEEN INCIDENTALLY ON CROSS-SECTIONAL IMAGING OF THE ABDOMEN OR CAN BE A CAUSE FOR ADULT-ONSET CHRONIC KIDNEY DISEASE, POSING NEW CHALLENGES FOR NEPHROLOGISTS, UROLOGISTS, AND RADIOLOGISTS. CONCLUSION: AWARENESS OF CAKUT AND FAMILIARITY WITH THEIR IMAGING FINDINGS PERMIT OPTIMAL PATIENT MANAGEMENT AND THOROUGH WORKUP TO PREVENT HYPERTENSION AND PROGRESSION FROM CAKUT TO RENAL FAILURE. THE PURPOSE OF THIS ARTICLE IS TO REVIEW THE CROSS-SECTIONAL IMAGING FINDINGS OF CAKUT THAT MAY PRESENT IN ADULTHOOD. 2015 6 6168 24 THE GOOD AND BAD OF BETA-CATENIN IN KIDNEY DEVELOPMENT AND RENAL DYSPLASIA. CONGENITAL RENAL MALFORMATIONS ARE A MAJOR CAUSE OF CHILDHOOD AND ADULT ONSET CHRONIC KIDNEY DISEASE. IDENTIFYING THE ETIOLOGY OF THESE RENAL DEFECTS IS OFTEN CHALLENGING SINCE DISRUPTIONS IN THE PROCESSES THAT DRIVE KIDNEY DEVELOPMENT CAN RESULT FROM DISRUPTIONS IN ENVIRONMENTAL, GENETIC, OR EPIGENETIC CUES. BETA-CATENIN IS AN INTRACELLULAR MOLECULE INVOLVED IN CELL ADHESION, CELL SIGNALING, AND REGULATION OF GENE TRANSCRIPTION. IT PLAYS ESSENTIAL ROLES IN KIDNEY DEVELOPMENT AND IN THE PATHOGENESIS OF RENAL DYSPLASIA. HERE, WE REVIEW THE FUNCTION OF BETA-CATENIN DURING KIDNEY DEVELOPMENT AND IN THE GENESIS OF RENAL DYSPLASIA. 2015 7 2944 29 GENETIC AND EPIGENETIC BASIS OF CHRONIC LYMPHOCYTIC LEUKEMIA. PURPOSE OF REVIEW: NEXT-GENERATION SEQUENCING OF WHOLE GENOMES, EXOMES AND DNA METHYLOMES IN CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) HAS PROVIDED THE FIRST COMPREHENSIVE VIEW OF SOMATIC MUTATIONS AND METHYLATION CHANGES IN THIS DISEASE. THIS REVIEW SUMMARIZES THE RECENT FINDINGS IN THIS FIELD AND THEIR IMPACT ON OUR CURRENT UNDERSTANDING OF THIS NEOPLASM. RECENT FINDINGS: GENOMIC STUDIES HAVE REVEALED A REMARKABLE MOLECULAR HETEROGENEITY OF THE DISEASE, WITH ONLY FEW GENES MUTATED IN UP TO 10-15% OF THE PATIENTS AND A RELATIVELY LARGE NUMBER OF GENES RECURRENTLY MUTATED AT LOW FREQUENCY. THE MUTATED GENES TEND TO CLUSTER IN DIFFERENT PATHWAYS THAT INCLUDE NOTCH1 SIGNALING, RNA SPLICING, PROCESSING AND TRANSPORT MACHINERY, INNATE INFLAMMATORY RESPONSE, AND DNA DAMAGE AND CELL CYCLE CONTROL, AMONG OTHERS. NOTCH1 AND SF3B1 MUTATIONS ARE EMERGING AS NEW DRIVERS OF AGGRESSIVE FORMS OF THE DISEASE. GENOME-WIDE METHYLATION STUDIES HAVE SHOWN THAT CLL TRANSFORMATION IS ASSOCIATED WITH A MASSIVE HYPOMETHYLATION PHENOMENON FREQUENTLY AFFECTING THE ENHANCER REGIONS. THIS EPIGENETIC REPROGRAMMING MAINTAINS AN IMPRINT OF THE PUTATIVE CELL OF ORIGIN FROM NAIVE AND MEMORY B-CELLS. SUMMARY: GENOMIC AND EPIGENOMIC STUDIES OF CLL ARE RESHAPING OUR UNDERSTANDING OF THE DISEASE AND PROVIDE NEW PERSPECTIVE FOR A MORE INDIVIDUALIZED DIAGNOSIS AND NEW POTENTIAL THERAPEUTIC TARGETS. 2013 8 6308 31 THE REGULATION OF APOPTOSIS IN KIDNEY DEVELOPMENT: IMPLICATIONS FOR NEPHRON NUMBER AND PATTERN? APOPTOSIS IS ESSENTIAL TO REMODEL DEVELOPING STRUCTURES AND ELIMINATE SUPERFLUOUS CELLS IN A CONTROLLED MANNER DURING NORMAL DEVELOPMENT, AND CONTINUES TO BE AN IMPORTANT COMPONENT OF TISSUE REMODELING AND REGENERATION DURING AN ORGANISM'S LIFESPAN, OR AS A RESPONSE TO INJURY. THIS MINI REVIEW WILL DISCUSS RECENT STUDIES THAT HAVE PROVIDED INSIGHTS INTO THE ROLES OF APOPTOSIS IN THE DETERMINATION OF NEPHRON NUMBER AND PATTERN, DURING NORMAL AND ABNORMAL KIDNEY DEVELOPMENT. THE REGULATION OF CONGENITAL NEPHRON ENDOWMENT HAS IMPLICATIONS FOR RISK OF CHRONIC KIDNEY DISEASE IN LATER LIFE, WHEREAS ABNORMALITIES IN NEPHRON PATTERN ARE ASSOCIATED WITH CONGENITAL ANOMALIES OF THE KIDNEY AND URINARY TRACT (THE LEADING CAUSE OF RENAL DISEASE IN CHILDREN). TIGHT REGULATION OF APOPTOSIS IS REQUIRED IN NORMAL RENAL MORPHOGENESIS, ALTHOUGH MANY QUESTIONS REMAIN REGARDING THE REGULATION OF APOPTOSIS BY GENETIC, EPIGENETIC, AND ENVIRONMENTAL FACTORS, IN ADDITION TO THE FUNCTIONAL REQUIREMENT OF DIFFERENT COMPONENTS OF THE APOPTOTIC PATHWAY. 2014 9 5905 31 TACKLING THE HETEROGENEITY OF CVID. PURPOSE OF REVIEW: COMMON VARIABLE IMMUNODEFICIENCY IS CLINICALLY THE MOST RELEVANT PRIMARY IMMUNODEFICIENCY OF THE ADULT. ITS HETEROGENEITY HAS HINDERED PROGRESS IN THE PATHOGENETIC UNDERSTANDING OF THE MAJORITY OF COMMON VARIABLE IMMUNODEFICIENCY PATIENTS. THIS ABSTRACT SUMMARIZES RECENT ASPECTS OF THE FIELD AND EMPHASIZES THE NEED FOR A COMMONLY ACCEPTED APPROACH TO CLASSIFY COMMON VARIABLE IMMUNODEFICIENCY. RECENT FINDINGS: IN THE LAST 2 YEARS, THE FIRST GENETIC DEFECTS UNDERLYING COMMON VARIABLE IMMUNODEFICIENCY, INCLUDING ICOS, TACI, BAFF-R AND CD19, HAVE BEEN IDENTIFIED. THE ANALYSIS OF DENDRITIC CELLS DEMONSTRATED ALTERATIONS IN A MAJORITY OF PATIENTS IN ADDITION TO THE DISTURBED T AND B-CELL FUNCTION. SEVERAL CHANGES OF THE ADAPTIVE IMMUNE SYSTEM MIGHT BE SECONDARY TO AN UNDERLYING CHRONIC INFLAMMATORY SETTING POSSIBLY DUE TO A HHV8 INFECTION IN A SUBGROUP OF PATIENTS WITH GRANULOMATOUS DISEASE, AUTOIMMUNE PHENOMENA AND T-CELL DYSFUNCTION. THE OCCURRENCE OF GRANULOMATOUS INFLAMMATION IS ASSOCIATED WITH A WORSE PROGNOSIS COMPARED WITH COMMON VARIABLE IMMUNODEFICIENCY PATIENTS WITHOUT GRANULOMA. SUMMARY: THE PATHOGENESIS OF COMMON VARIABLE IMMUNODEFICIENCY INCLUDES DISTURBANCES OF THE ADAPTIVE AS WELL AS INNATE IMMUNE SYSTEM. IDENTIFIED MONOGENIC DEFECTS ACCOUNT FOR ABOUT 10% OF CASES, LEAVING THE MAJORITY OF DEFECTS UNDEFINED AND CERTAINLY IN PART EPIGENETIC. TO COMBINE THE KNOWN ASPECTS OF THE PATHOGENESIS OF COMMON VARIABLE IMMUNODEFICIENCY TO A CONCLUSIVE PICTURE, THE CLINICAL AND IMMUNOLOGIC PHENOTYPING OF PATIENTS NEEDS TO BE STANDARDIZED. 2005 10 1524 20 DNA METHYLATION CHANGES IN CYSTIC FIBROSIS: CAUSE OR CONSEQUENCE? TWIN AND SIBLING STUDIES HAVE SHOWN THAT LUNG DISEASE SEVERITY IS VARIABLE AMONG CYSTIC FIBROSIS (CF) PATIENTS AND AFFECTED TO THE SAME EXTENT BY GENETIC AND NONHERITABLE FACTORS. GENETIC FACTORS HAVE BEEN THOROUGHLY ASSESSED, WHEREAS THE MOLECULAR MECHANISMS WHEREBY NONHERITABLE FACTORS CONTRIBUTE TO THE PHENOTYPIC VARIABILITY OF CF PATIENTS ARE STILL UNKNOWN. EPIGENETIC MODIFICATIONS MAY REPRESENT THE MISSING LINK BETWEEN NONHERITABLE FACTORS AND PHENOTYPIC VARIATION IN CF. HEREIN, WE REVIEW RECENT STUDIES SHOWING THAT DNA METHYLATION IS ALTERED IN CF AND WE ADDRESS THREE POSSIBLE FACTORS RESPONSIBLE FOR THESE VARIATIONS: (I) OVERPRODUCTION OF REACTIVE OXYGEN SPECIES, (II) DEPLETION OF DNA METHYLATION COFACTORS AND (III) SUSCEPTIBILITY TO ACUTE AND CHRONIC BACTERIAL INFECTIONS. ALSO, WE HYPOTHESIZE THAT THE UNIQUE DNA METHYLATION PROFILE OF EACH PATIENT CAN MODULATE THE PHENOTYPE AND DISCUSS THE INTEREST OF IMPLEMENTING INTEGRATED GENOMIC, EPIGENOMIC AND TRANSCRIPTOMIC STUDIES TO FURTHER UNDERSTAND THE CLINICAL DIVERSITY OF CF PATIENTS (GRAPHICAL ABSTRACT). 2020 11 3826 37 INVESTIGATION OF EPIGENETICS IN KIDNEY CELL BIOLOGY. EPIGENETICS IS THE STUDY OF HERITABLE CHANGES IN DNA OR ITS ASSOCIATED PROTEINS EXCEPT MUTATIONS IN GENE SEQUENCE. EPIGENETIC REGULATION PLAYS FUNDAMENTAL ROLES IN THE PROCESSES OF KIDNEY CELL BIOLOGY THROUGH THE ACTION OF DNA METHYLATION, CHROMATIN MODIFICATIONS VIA EPIGENETIC REGULATORS AND INTERACTION VIA TRANSCRIPTION FACTORS, AND NONCODING RNA SPECIES. KIDNEY DISEASES, INCLUDING ACUTE KIDNEY INJURY, CHRONIC KIDNEY DISEASE, NEPHRITIC AND NEPHROTIC SYNDROMES, PYELONEPHRITIS AND POLYCYSTIC KIDNEY DISEASES ARE DRIVEN BY ABERRANT ACTIVITY IN NUMEROUS SIGNALING PATHWAYS IN EVEN INDIVIDUAL KIDNEY CELL. EPIGENETIC ALTERATIONS, INCLUDING DNA METHYLATION, HISTONE ACETYLATION AND METHYLATION, NONCODING RNAS, AND PROTEIN POSTTRANSLATIONAL MODIFICATIONS, COULD DISRUPT ESSENTIAL PATHWAYS THAT PROTECT THE RENAL CELLS FROM UNCONTROLLED GROWTH, APOPTOSIS AND ESTABLISHMENT OF OTHER RENAL ASSOCIATED SYNDROMES, WHICH HAVE BEEN RECOGNIZED AS ONE OF THE CRITICAL MECHANISMS FOR REGULATING FUNCTIONAL CHANGES THAT DRIVE AND MAINTAIN THE KIDNEY DISEASE PHENOTYPE. IN THIS CHAPTER, WE BRIEFLY SUMMARIZE THE EPIGENETIC MECHANISMS IN KIDNEY CELL BIOLOGY AND EPIGENETIC BASIS OF KIDNEY DEVELOPMENT, AND INTRODUCE EPIGENETIC TECHNIQUES THAT CAN BE USED IN INVESTIGATING THE MOLECULAR MECHANISM OF KIDNEY CELL BIOLOGY AND KIDNEYS DISEASES, PRIMARILY FOCUSING ON THE INTEGRATION OF DNA METHYLATION AND CHROMATIN IMMUNOPRECIPITATION TECHNOLOGIES INTO KIDNEY DISEASE ASSOCIATED STUDIES. FUTURE STUDIES USING THESE EMERGING TECHNOLOGIES WILL ELUCIDATE HOW ALTERATIONS IN THE RENAL CELL EPIGENOME COOPERATE WITH GENETIC ABERRATIONS FOR KIDNEY DISEASE INITIATION AND PROGRESSION. INCORPORATING EPIGENOMIC TESTING INTO THE CLINICAL RESEARCH IS ESSENTIAL TO FUTURE STUDIES WITH EPIGENETICS BIOMARKERS AND PRECISION MEDICINE USING EMERGING EPIGENETIC THERAPIES. 2019 12 851 26 CHIP-SEQ ANALYSIS OF HUMAN CHRONIC MYELOID LEUKEMIA CELLS. MANY TRANSCRIPTION FACTORS, CHROMATIN-ASSOCIATED PROTEINS AND REGULATORY DNA ELEMENTS ARE GENETICALLY AND/OR EPIGENETICALLY ALTERED IN CANCER, INCLUDING CHRONIC MYELOID LEUKEMIA (CML). THIS LEADS TO DEREGULATION OF TRANSCRIPTION THAT IS OFTEN CAUSALLY LINKED TO THE TUMORIGENIC STATE. CHROMATIN-IMMUNOPRECIPITATION COUPLED WITH MASSIVELY PARALLEL DNA SEQUENCING (CHIP-SEQ) IS THE KEY TECHNOLOGY TO STUDY TRANSCRIPTION AS IT ALLOWS IN VIVO WHOLE-GENOME MAPPING OF EPIGENETIC MODIFICATIONS AND INTERACTIONS OF PROTEINS WITH DNA OR CHROMATIN. HOWEVER, NUMEROUS DNA/CHROMATIN-BINDING PROTEINS, INCLUDING EZH2, REMAIN DIFFICULT TO "CHIP," THUS YIELDING GENOME-WIDE BINDING MAPS OF ONLY SUBOPTIMAL QUALITY. HERE, WE DESCRIBE A CHIP-SEQ PROTOCOL OPTIMIZED FOR HIGH-QUALITY PROTEIN-GENOME BINDING MAPS THAT HAVE PROVEN ESPECIALLY USEFUL FOR STUDYING DIFFICULT TO 'CHIP' TRANSCRIPTION REGULATORY FACTORS IN CHRONIC MYELOID LEUKEMIA (CML) AND RELATED MALIGNANCIES. 2016 13 6854 27 [NEW ADVANCES OF EPIGENETIC STUDY IN TUMORS OF LYMPHATIC SYSTEM---REVIEW]. EPIGENETICS IS AIMED TO STUDY THE HERITABLE CHANGES IN GENE EXPRESSION PATTERNS INDEPENDENT OF ALTERATIONS IN GENOMIC DNA SEQUENCE STRUCTURE, AND THE MECHANISMS OF TRANSLATION FROM GENOTYPE TO PHENOTYPE. IN RECENT YEARS, COMPELLING EVIDENCE GATHERED SUPPORTS A ROLE OF EPIGENETIC ALTERATIONS IN THE PATHOGENESIS OF LYMPHATIC SYSTEM TUMORS. FOR EXAMPLE, RECENT DATA FROM MULTIPLE LABORATORIES INDICATE THAT SEVERAL HUNDRED GENES, INVOLVING DOZENS OF CRITICAL MOLECULAR PATHWAYS, ARE EPIGENETICALLY SUPPRESSED IN ACUTE LYMPHOCYTIC LEUKEMIA; A PANEL OF METHYLATION MARKERS CAN BE USED FOR ADDITIONAL RISK STRATIFICATION OF CHRONIC LYMPHOCYTIC LEUKEMIA PATIENTS; BASED ON THE EPIGENETIC PROFILES, THE CLASS PREDICTION MODELS IN GRAY ZONE LYMPHOMA CAN BE ESTABLISHED; THE EPIGENETIC SILENCING OF MICRORNAS IN MULTIPLE MYELOMA GENERALLY APPEARS TO HAVE INTACT P53 FUNCTION; EPIGENETIC THERAPIES HAVE BROADER IMPLICATION AND HIGH POTENTIAL FOR THE DEVELOPMENT OF IMMUNOTHERAPEUTIC STRATEGIES AND SO ON. IN THIS REVIEW, THE LATEST ADVANCES OF EPIGENETIC STUDY AND THE PROSPECT OF EPIGENETIC THERAPY FOR TUMORS IN LYMPHATIC SYSTEM ARE SUMMARIZED. 2012 14 389 19 AN INTEGRATIVE HYPOTHESIS LINKING CANCER, DIABETES AND ATHEROSCLEROSIS: THE ROLE OF MUTATIONS AND EPIGENETIC CHANGES. IT APPEARS THAT THE DISEASE STATES OF CANCER, ALTHEROSCLEROSIS AND DIABETES MIGHT SHARE A COMMON ETIOLOGY. THESE CHRONIC DISEASES APPEAR TO BE MULTI-STAGED IN THEIR PROGRESSION, WITH GENETIC, NUTRITIONAL, PSYCHO-SOCIAL, ENVIRONMENTAL AND VIRAL FACTORS INFLUENCING THEIR APPEARANCE. WE OFFERED A HYPOTHESIS (A "MUTATION THEORY OF DISEASE"), STATING THAT THESE DISEASES CAN BE DESCRIBED BY INITIATION AND PROMOTION PHASES; INITIATION BEING THE RESULT OF THE PRODUCTION OF MUTATED CELLS AFTER UNREPAIRED DAMAGED DNA IS REPLICATED; PROMOTION BEING THE SELECTIVE PROLIFERATION OF THE INITIATED CELLS TO FORM CLONES OF MUTATED CELLS. IT WAS FURTHER POSTULATED THAT PROMOTION AFFECTS CELL PROLIFERATION BY ALTERING A MEMBRANE-CA++ REGULATORY SYSTEM. DEPENDING ON THE NATURE OF THE MUTATION IN THE CLONE OF CELLS, SPECIFIC DISEASE STATES WOULD RESULT. THE ROLES OF RADIATIONS, CHEMICALS, VIRUSES, GENES, NUTRITION AND PSYCHO-SOCIAL STRESS WERE RELATED TO EITHER THE INITIATION (MUTATION PRODUCTION) OR THE PROMOTION (CELL PROLIFERATION) PHASE OF THESE DISEASES. 1980 15 943 20 CHRONIC LYMPHOCYTIC LEUKEMIA. PATIENTS WITH CHRONIC LYMPHOCYTIC LEUKEMIA CAN BE DIVIDED INTO THREE CATEGORIES: THOSE WHO ARE MINIMALLY AFFECTED BY THE PROBLEM, OFTEN NEVER REQUIRING THERAPY; THOSE THAT INITIALLY FOLLOW AN INDOLENT COURSE BUT SUBSEQUENTLY PROGRESS AND REQUIRE THERAPY; AND THOSE THAT FROM THE POINT OF DIAGNOSIS EXHIBIT AN AGGRESSIVE DISEASE NECESSITATING TREATMENT. LIKEWISE, SUCH PATIENTS PASS THROUGH THREE PHASES: DEVELOPMENT OF THE DISEASE, DIAGNOSIS, AND NEED FOR THERAPY. FINALLY, THE LEUKEMIC CLONES OF ALL PATIENTS APPEAR TO REQUIRE CONTINUOUS INPUT FROM THE EXTERIOR, MOST OFTEN THROUGH MEMBRANE RECEPTORS, TO ALLOW THEM TO SURVIVE AND GROW. THIS REVIEW IS PRESENTED ACCORDING TO THE TEMPORAL COURSE THAT THE DISEASE FOLLOWS, FOCUSING ON THOSE EXTERNAL INFLUENCES FROM THE TISSUE MICROENVIRONMENT (TME) THAT SUPPORT THE TIME LINES AS WELL AS THOSE INTERNAL INFLUENCES THAT ARE INHERITED OR DEVELOP AS GENETIC AND EPIGENETIC CHANGES OCCURRING OVER THE TIME LINE. REGARDING THE FORMER, SPECIAL EMPHASIS IS PLACED ON THE INPUT PROVIDED VIA THE B-CELL RECEPTOR FOR ANTIGEN AND THE C-X-C-MOTIF CHEMOKINE RECEPTOR-4 AND THE THERAPEUTIC AGENTS THAT BLOCK THESE INPUTS. REGARDING THE LATTER, PROMINENCE IS LAID UPON INHERITED SUSCEPTIBILITY GENES AND THE GENETIC AND EPIGENETIC ABNORMALITIES THAT LEAD TO THE DEVELOPMENTAL AND PROGRESSION OF THE DISEASE. 2021 16 3091 19 GENOMIC AND EPIGENOMIC HETEROGENEITY IN CHRONIC LYMPHOCYTIC LEUKEMIA. DEFINING FEATURES OF CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) ARE NOT ONLY ITS IMMUNOPHENOTYPE OF CD19(+)CD5(+)CD23(+)SIGDIM EXPRESSING CLONAL MATURE B CELLS BUT ALSO ITS HIGHLY VARIABLE CLINICAL COURSE. IN RECENT YEARS, ADVANCES IN MASSIVELY PARALLEL SEQUENCING TECHNOLOGIES HAVE LED TO RAPID PROGRESS IN OUR UNDERSTANDING OF THE CLL GENOME AND EPIGENOME. OVERALL, THESE STUDIES HAVE CLEARLY DEMARCATED NOT ONLY THE VAST DEGREE OF GENETIC AND EPIGENETIC HETEROGENEITY AMONG INDIVIDUALS WITH CLL BUT ALSO EVEN WITHIN INDIVIDUAL PATIENT LEUKEMIAS. WE HEREIN REVIEW THE RAPIDLY GROWING SERIES OF STUDIES ASSESSING THE GENETIC AND EPIGENETIC FEATURES OF CLL WITHIN CLINICALLY DEFINED PERIODS OF ITS GROWTH. THESE STUDIES STRONGLY SUGGEST AN EVOLVING SPECTRUM OF LESIONS OVER TIME AND THAT THESE FEATURES MAY HAVE CLINICAL IMPACT. 2015 17 857 29 CHROMATIN ARCHITECTURE REVEALS CELL TYPE-SPECIFIC TARGET GENES FOR KIDNEY DISEASE RISK VARIANTS. BACKGROUND: CELL TYPE-SPECIFIC TRANSCRIPTIONAL PROGRAMMING RESULTS FROM THE COMBINATORIAL INTERPLAY BETWEEN THE REPERTOIRE OF ACTIVE REGULATORY ELEMENTS. DISEASE-ASSOCIATED VARIANTS DISRUPT SUCH PROGRAMMING, LEADING TO ALTERED EXPRESSION OF DOWNSTREAM REGULATED GENES AND THE ONSET OF PATHOLOGICAL STATES. HOWEVER, DUE TO THE NON-LINEAR REGULATORY PROPERTIES OF NON-CODING ELEMENTS SUCH AS ENHANCERS, WHICH CAN ACTIVATE TRANSCRIPTION AT LONG DISTANCES AND IN A NON-DIRECTIONAL WAY, THE IDENTIFICATION OF CAUSAL VARIANTS AND THEIR TARGET GENES REMAINS CHALLENGING. HERE, WE PROVIDE A MULTI-OMICS ANALYSIS TO IDENTIFY REGULATORY ELEMENTS ASSOCIATED WITH FUNCTIONAL KIDNEY DISEASE VARIANTS, AND DOWNSTREAM REGULATED GENES. RESULTS: IN ORDER TO UNDERSTAND THE GENETIC RISK OF KIDNEY DISEASES, WE GENERATED A COMPREHENSIVE DATASET OF THE CHROMATIN LANDSCAPE OF HUMAN KIDNEY TUBULE CELLS, INCLUDING TRANSCRIPTION-CENTERED 3D CHROMATIN ORGANIZATION, HISTONE MODIFICATIONS DISTRIBUTION AND TRANSCRIPTOME WITH HICHIP, CHIP-SEQ AND RNA-SEQ. WE IDENTIFIED GENOME-WIDE FUNCTIONAL ELEMENTS AND THOUSANDS OF INTERACTIONS BETWEEN THE DISTAL ELEMENTS AND TARGET GENES. THE RESULTS REVEALED THAT RISK VARIANTS FOR RENAL TUMOR AND CHRONIC KIDNEY DISEASE WERE ENRICHED IN KIDNEY TUBULE CELLS. WE FURTHER PINPOINTED THE TARGET GENES FOR THE VARIANTS AND VALIDATED TWO TARGET GENES BY CRISPR/CAS9 GENOME EDITING TECHNIQUES IN ZEBRAFISH, DEMONSTRATING THAT SLC34A1 AND MTX1 WERE INDISPENSABLE GENES TO MAINTAIN KIDNEY FUNCTION. CONCLUSIONS: OUR RESULTS PROVIDE A VALUABLE MULTI-OMICS RESOURCE ON THE CHROMATIN LANDSCAPE OF HUMAN KIDNEY TUBULE CELLS AND ESTABLISH A BIOINFORMATIC PIPELINE IN DISSECTING FUNCTIONS OF KIDNEY DISEASE-ASSOCIATED VARIANTS BASED ON CELL TYPE-SPECIFIC EPIGENOME. 2021 18 2592 24 EPIGENETICS OF RENAL DEVELOPMENT AND DISEASE. AN UNDERSTANDING OF EPIGENETICS IS INDISPENSABLE TO OUR UNDERSTANDING OF GENE REGULATION UNDER NORMAL AND PATHOLOGICAL STATES. THIS KNOWLEDGE WILL HELP WITH DESIGNING BETTER THERAPEUTIC APPROACHES IN REGENERATIVE TISSUE MEDICINE. EPIGENETICS ALLOWS US TO PARSE OUT THE MECHANISMS BY WHICH TRANSCRIPTIONAL REGULATORS GAIN ACCESS TO SPECIFIC GENE LOCI THEREBY IMPRINTING EPIGENETIC INFORMATION AFFECTING CHROMATIN FUNCTION. THIS EPIGENETIC MEMORY FORMS THE BASIS OF CELL LINEAGE SPECIFICATION IN MULTICELLULAR ORGANISMS. POST-TRANSLATIONAL MODIFICATIONS TO DNA AND HISTONES IN THE NUCLEOSOME CORE FORM CHARACTERISTIC EPIGENETIC CODES WHICH ARE DISTINCT FOR SELF-RENEWING AND PRIMED PROGENITOR CELL POPULATIONS. STUDIES OF CHROMATIN MODIFIERS AND MODIFICATIONS IN RENAL DEVELOPMENT AND DISEASE HAVE BEEN GAINING MOMENTUM. BOTH CONGENITAL AND ADULT RENAL DISEASES HAVE A GENE-ENVIRONMENT COMPONENT, WHICH INVOLVES ALTERATIONS TO THE EPIGENETIC INFORMATION IMPRINTED DURING DEVELOPMENT. THIS EPIGENETIC MEMORY MUST BE CHARACTERIZED TO ESTABLISH OPTIMAL TREATMENT OF BOTH ACUTE AND CHRONIC RENAL DISEASES. 2016 19 6570 34 TRANSPOSABLE ELEMENTS AND THEIR POTENTIAL ROLE IN COMPLEX LUNG DISORDER. TRANSPOSABLE ELEMENTS (TES) ARE A CLASS OF MOBILE GENETIC ELEMENTS (MGES) THAT WERE LONG REGARDED AS JUNK DNA, WHICH MAKE UP APPROXIMATELY 45% OF THE GENOME. ALTHOUGH MOST OF THESE ELEMENTS ARE RENDERED INACTIVE BY MUTATIONS AND OTHER GENE SILENCING MECHANISMS, TES SUCH AS LONG INTERSPERSED NUCLEAR ELEMENTS (LINES) ARE STILL ACTIVE AND TRANSLOCATE WITHIN THE GENOME. DURING TRANSPOSITION, THEY MAY CREATE LESIONS IN THE GENOME, THEREBY ACTING AS EPIGENETIC MODIFIERS. APPROXIMATELY 65 DISEASE-CAUSING LINE INSERTION EVENTS HAVE BEEN REPORTED THUS FAR; HOWEVER, ANY POSSIBLE ROLE OF TES IN COMPLEX DISORDERS IS NOT WELL ESTABLISHED. CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) IS ONE SUCH COMPLEX DISEASE THAT IS PRIMARILY CAUSED BY CIGARETTE SMOKING. ALTHOUGH THE EXACT MOLECULAR MECHANISM UNDERLYING COPD REMAINS UNCLEAR, OXIDATIVE STRESS IS THOUGHT TO BE THE MAIN FACTOR IN THE PATHOGENESIS OF COPD. IN THIS REVIEW, WE EXPLORE THE POTENTIAL ROLE OF OXIDATIVE STRESS IN EPIGENETIC ACTIVATION OF TES SUCH AS LINES AND THE SUBSEQUENT CASCADE OF MOLECULAR DAMAGE. RECENT ADVANCEMENTS IN SEQUENCING AND COMPUTATION HAVE EASED THE IDENTIFICATION OF MOBILE ELEMENTS. THEREFORE, A COMPARATIVE STUDY ON THE ACTIVITY OF THESE ELEMENTS AND MARKERS FOR GENOME INSTABILITY WOULD GIVE MORE INSIGHT ON THE RELATIONSHIP BETWEEN MGES AND COMPLEX DISORDER SUCH AS COPD. 2013 20 3565 35 IMPACT OF GENETIC POLYMORPHISMS AND BIOMARKERS ON THE EFFECTIVENESS AND TOXICITY OF TREATMENT OF CHRONIC MYELOID LEUKEMIA AND ACUTE MYELOID LEUKEMIA. MOST MALIGNANT HEMATOLOGICAL DISEASES ARE GENERALLY A CONSEQUENCE OF ACQUIRED MUTATIONS OR REARRANGEMENTS IN CELL REPLICATION PROCESSES. ACUTE MYELOID LEUKEMIA (AML) IS A CLINICALLY AND MOLECULARLY HETEROGENEOUS DISEASE THAT RESULTS FROM ACQUIRED GENETIC AND EPIGENETIC ALTERATIONS IN HEMATOPOIETIC PROGENITOR CELLS. DESPITE THE ADVANCES MADE IN UNDERSTANDING THE PATHOGENESIS OF THIS DISEASE, THE OVERALL SURVIVAL OF PATIENTS REMAINS VERY LOW DUE TO THE HIGH RELAPSE RATE. PHARMACOGENETICS AND MASSIVE SEQUENCING STUDIES HAVE ALLOWED THE IDENTIFICATION OF NEW RECURRENT MUTATIONS WITH SIGNIFICANT PROGNOSTIC IMPACT IN AML; FURTHERMORE, IT SEEMS LIKELY THAT WHOLE GENOME SEQUENCING WILL SOON BECOME A STANDARD DIAGNOSTIC TEST, WHICH WILL ALLOW THE MOLECULAR DIAGNOSIS OF PATIENTS. THEREFORE, IT IS NECESSARY TO DEVELOP MOLECULAR TARGETS THAT OPEN NEW THERAPEUTIC PERSPECTIVES AND ALLOW INDIVIDUALIZED TREATMENT OF PATIENTS WITH THIS AGGRESSIVE DISEASE. CHRONIC MYELOID LEUKEMIA (CML) IS THE FIRST NEOPLASTIC DISEASE FOR WHICH A CHARACTERISTIC GENETIC ALTERATION WAS DESCRIBED. IT HAS, BY DEFINITION, A GENETIC MARKER, THE BCR::ABL1 REARRANGEMENT, AS A CONSEQUENCE OF THE T9;22(Q34;Q11) TRANSLOCATION. ITS STUDY IS ESSENTIAL FOR THE DIAGNOSIS OF THIS ENTITY AND ALSO FOR MONITORING THE RESPONSE TO TREATMENT. DRUGS KNOWN AS TYROSINE KINASE INHIBITORS (TKIS) THAT TARGET THE BCR::ABL1 PROTEIN (ORAL TARGETED THERAPY) ARE THE CONVENTIONAL TREATMENT OF CML, REPRESENTING A CHANGE OF PARADIGM IN THE MANAGEMENT OF ONCOHEMATOLOGICAL PATIENTS. 2022