1 4519 119 MULTI-OMICS IN CROHN'S DISEASE: NEW INSIGHTS FROM INSIDE. CROHN'S DISEASE (CD) IS AN INFLAMMATORY BOWEL DISEASE (IBD) WITH COMPLEX CLINICAL MANIFESTATIONS SUCH AS CHRONIC DIARRHEA, WEIGHT LOSS AND HEMATOCHEZIA. DESPITE THE INCREASING INCIDENCE WORLDWIDE, CURE OF CD REMAINS EXTREMELY DIFFICULT. THE RAPID DEVELOPMENT OF HIGH-THROUGHPUT SEQUENCING TECHNOLOGY WITH INTEGRATED-OMICS ANALYSES IN RECENT YEARS HAS PROVIDED A NEW MEANS FOR EXPLORING THE PATHOGENESIS, MINING THE BIOMARKERS AND DESIGNING TARGETED PERSONALIZED THERAPEUTICS OF CD. HOST GENOMICS AND EPIGENOMICS UNVEIL HEREDITY-RELATED MECHANISMS OF SUSCEPTIBLE INDIVIDUALS, WHILE MICROBIOME AND METABOLOMICS MAP HOST-MICROBE INTERACTIONS IN CD PATIENTS. PROTEOMICS SHOWS GREAT POTENTIAL IN SEARCHING FOR PROMISING BIOMARKERS. NONETHELESS, SINGLE OMICS TECHNOLOGY CANNOT HOLISTICALLY CONNECT THE MECHANISMS WITH HETEROGENEITY OF PATHOLOGICAL BEHAVIOR IN CD. THE RISE OF MULTI-OMICS ANALYSIS INTEGRATES GENETIC/EPIGENETIC PROFILES WITH PROTEIN/MICROBIAL METABOLITE FUNCTIONALITY, PROVIDING NEW HOPE FOR COMPREHENSIVE AND IN-DEPTH EXPLORATION OF CD. HEREIN, WE EMPHASIZED THE DIFFERENT OMICS FEATURES AND APPLICATIONS OF CD AND DISCUSSED THE CURRENT RESEARCH AND LIMITATIONS OF MULTI-OMICS IN CD. THIS REVIEW WILL UPDATE AND DEEPEN OUR UNDERSTANDING OF CD FROM INTEGRATION OF BROAD OMICS SPECTRA AND WILL PROVIDE NEW EVIDENCE FOR TARGETED INDIVIDUALIZED THERAPEUTICS. 2023 2 1290 30 DECODING THE GENETIC AND EPIGENETIC BASIS OF ASTHMA. ASTHMA IS A COMPLEX AND HETEROGENEOUS CHRONIC INFLAMMATORY DISEASE OF THE AIRWAYS. ALONGSIDE ENVIRONMENTAL FACTORS, ASTHMA SUSCEPTIBILITY IS STRONGLY INFLUENCED BY GENETICS. GIVEN ITS HIGH PREVALENCE AND OUR INCOMPLETE UNDERSTANDING OF THE MECHANISMS UNDERLYING DISEASE SUSCEPTIBILITY, ASTHMA IS FREQUENTLY STUDIED IN GENOME-WIDE ASSOCIATION STUDIES (GWAS), WHICH HAVE IDENTIFIED THOUSANDS OF GENETIC VARIANTS ASSOCIATED WITH ASTHMA DEVELOPMENT. VIRTUALLY ALL THESE GENETIC VARIANTS RESIDE IN NON-CODING GENOMIC REGIONS, WHICH HAS OBSCURED THE FUNCTIONAL IMPACT OF ASTHMA-ASSOCIATED VARIANTS AND THEIR TRANSLATION INTO DISEASE-RELEVANT MECHANISMS. RECENT ADVANCES IN GENOMICS TECHNOLOGY AND EPIGENETICS NOW OFFER METHODS TO LINK GENETIC VARIANTS TO GENE REGULATORY ELEMENTS EMBEDDED WITHIN NON-CODING REGIONS, WHICH HAVE STARTED TO UNRAVEL THE MOLECULAR MECHANISMS UNDERLYING THE COMPLEX (EPI)GENETICS OF ASTHMA. HERE, WE PROVIDE AN INTEGRATED OVERVIEW OF (EPI)GENETIC VARIANTS ASSOCIATED WITH ASTHMA, FOCUSING ON EFFORTS TO LINK THESE DISEASE ASSOCIATIONS TO BIOLOGICAL INSIGHT INTO ASTHMA PATHOPHYSIOLOGY USING STATE-OF-THE-ART GENOMICS METHODOLOGY. FINALLY, WE PROVIDE A PERSPECTIVE AS TO HOW DECODING THE GENETIC AND EPIGENETIC BASIS OF ASTHMA HAS THE POTENTIAL TO TRANSFORM CLINICAL MANAGEMENT OF ASTHMA AND TO PREDICT THE RISK OF ASTHMA DEVELOPMENT. 2023 3 4422 33 MOLECULAR AND GENETIC INFLAMMATION NETWORKS IN MAJOR HUMAN DISEASES. IT HAS BEEN WELL-RECOGNIZED THAT INFLAMMATION ALONGSIDE TISSUE REPAIR AND DAMAGE MAINTAINING TISSUE HOMEOSTASIS DETERMINES THE INITIATION AND PROGRESSION OF COMPLEX DISEASES. ALBEIT WITH THE ACCOMPLISHMENT OF HAVING CAPTURED THE MOST CRITICAL INFLAMMATION-INVOLVED MOLECULES, GENETIC SUSCEPTIBILITIES, EPIGENETIC FACTORS, AND ENVIRONMENTAL FACTORS, OUR SCHEMATA ON THE ROLE OF INFLAMMATION IN COMPLEX DISEASES REMAIN LARGELY PATCHY, IN PART DUE TO THE SUCCESS OF REDUCTIONISM IN TERMS OF RESEARCH METHODOLOGY PER SE. OMICS DATA ALONGSIDE THE ADVANCES IN DATA INTEGRATION TECHNOLOGIES HAVE ENABLED RECONSTRUCTION OF MOLECULAR AND GENETIC INFLAMMATION NETWORKS WHICH SHED LIGHT ON THE UNDERLYING PATHOPHYSIOLOGY OF COMPLEX DISEASES OR CLINICAL CONDITIONS. GIVEN THE PROVEN BENEFICIAL ROLE OF ANTI-INFLAMMATION IN CORONARY HEART DISEASE AS WELL AS OTHER COMPLEX DISEASES AND IMMUNOTHERAPY AS A REVOLUTIONARY TRANSITION IN ONCOLOGY, IT BECOMES TIMELY TO REVIEW OUR CURRENT UNDERSTANDING OF THE MOLECULAR AND GENETIC INFLAMMATION NETWORKS UNDERLYING MAJOR HUMAN DISEASES. IN THIS REVIEW, WE FIRST BRIEFLY DISCUSS THE COMPLEXITY OF INFECTIOUS DISEASES AND THEN HIGHLIGHT RECENTLY UNCOVERED MOLECULAR AND GENETIC INFLAMMATION NETWORKS IN OTHER MAJOR HUMAN DISEASES INCLUDING OBESITY, TYPE II DIABETES, CORONARY HEART DISEASE, LATE ONSET ALZHEIMER'S DISEASE, PARKINSON'S DISEASE, AND SPORADIC CANCER. THE COMMONALITY AND SPECIFICITY OF THESE MOLECULAR NETWORKS ARE ADDRESSED IN THE CONTEXT OF GENETICS BASED ON GENOME-WIDE ASSOCIATION STUDY (GWAS). THE DOUBLE-SWORD ROLE OF INFLAMMATION, SUCH AS HOW THE ABERRANT TYPE 1 AND/OR TYPE 2 IMMUNITY LEADS TO CHRONIC AND SEVERE CLINICAL CONDITIONS, REMAINS OPEN IN TERMS OF THE INFLAMMASOME AND THE CORE INFLAMMATOME NETWORK FEATURES. INCREASINGLY AVAILABLE LARGE OMICS AND CLINICAL DATA IN TANDEM WITH SYSTEMS BIOLOGY APPROACHES HAVE OFFERED AN EXCITING YET CHALLENGING OPPORTUNITY TOWARD RECONSTRUCTION OF MORE COMPREHENSIVE AND DYNAMIC MOLECULAR AND GENETIC INFLAMMATION NETWORKS, WHICH HOLD GREAT PROMISE IN TRANSITING NETWORK SNAPSHOTS TO VIDEO-STYLE MULTI-SCALE INTERPLAYS OF DISEASE MECHANISMS, IN TURN LEADING TO EFFECTIVE CLINICAL INTERVENTION. 2016 4 3399 26 HOW CAN GENETICS AND EPIGENETICS HELP THE NEPHROLOGIST IMPROVE THE DIAGNOSIS AND TREATMENT OF CHRONIC KIDNEY DISEASE PATIENTS? DISCOVERY OF NOVEL IMPROVED TOOLS FOR DIAGNOSIS, PREVENTION AND THERAPY OF CHRONIC KIDNEY DISEASE (CKD) IS AN IMPORTANT TASK FOR THE NEPHROLOGY COMMUNITY AND IT IS LIKELY THAT SCIENTIFIC BREAKTHROUGHS, TO A LARGE EXTENT, WILL BE BASED ON GENOMICS. THE RAPID GROWTH OF THE NUMBER OF GENOME-WIDE ASSOCIATION STUDIES, MAJOR ADVANCES IN DNA SEQUENCING AND OMICS PROFILING, AND ACCELERATING BIOMEDICAL RESEARCH EFFORTS IN THIS AREA HAVE GREATLY EXPANDED THE KNOWLEDGE BASE NEEDED FOR APPLIED GENOMICS. HOWEVER, TRANSLATING AND IMPLEMENTING GENOTYPE-PHENOTYPE DATA INTO GENE-BASED MEDICINE IN CKD POPULATIONS IS STILL IN AN EARLY PHASE AND WILL REQUIRE CONTINUOUS RESEARCH EFFORTS WITH INTEGRATED APPROACHES AND INTENSIFIED INVESTIGATIONS THAT FOCUS ON THE BIOLOGICAL PATHWAYS, WHICH CAUSATIVELY LINK A GENETIC VARIANT WITH THE DISEASE PHENOTYPE. IN THIS ARTICLE, WE REVIEW SOME CURRENT STRATEGIES TO UNRAVEL THESE TRANSLATIONAL GAPS AS WELL AS PROSPECTS FOR THE IMPLEMENTATION OF GENETIC AND EPIGENETIC METHODS INTO NOVEL CLINICAL PRACTICE. 2014 5 459 33 APPLYING SINGLE-CELL TECHNOLOGIES TO CLINICAL PATHOLOGY: PROGRESS IN NEPHROPATHOLOGY. CELLS REPRESENT THE BASIC BUILDING BLOCKS OF LIVING ORGANISMS. ACCURATE CHARACTERISATION OF CELLULAR PHENOTYPE, INTERCELLULAR SIGNALLING NETWORKS, AND THE SPATIAL ORGANISATION OF CELLS WITHIN ORGANS IS CRUCIAL TO DELIVER A BETTER UNDERSTANDING OF THE PROCESSES UNDERPINNING PHYSIOLOGY, AND THE PERTURBATIONS THAT LEAD TO DISEASE. SINGLE-CELL METHODOLOGIES HAVE INCREASED RAPIDLY IN SCALE AND SCOPE IN RECENT YEARS AND ARE SET TO GENERATE IMPORTANT INSIGHTS INTO HUMAN DISEASE. HERE, WE REVIEW CURRENT PRACTICES IN NEPHROPATHOLOGY, WHICH ARE DOMINATED BY RELATIVELY SIMPLE MORPHOLOGICAL DESCRIPTIONS OF TISSUE BIOPSIES BASED ON THEIR APPEARANCE USING LIGHT MICROSCOPY. BULK TRANSCRIPTOMICS HAVE MORE RECENTLY BEEN USED TO EXPLORE GLOMERULAR AND TUBULOINTERSTITIAL KIDNEY DISEASE, RENAL CANCER, AND THE RESPONSES TO INJURY AND ALLOIMMUNITY IN KIDNEY TRANSPLANTATION, GENERATING NOVEL DISEASE INSIGHTS AND PROGNOSTIC BIOMARKERS. THESE STUDIES SET THE STAGE FOR SINGLE-CELL TRANSCRIPTOMIC APPROACHES THAT REVEAL CELL-TYPE-SPECIFIC GENE EXPRESSION PATTERNS IN HEALTH AND DISEASE. THESE TECHNOLOGIES ALLOW GENOME-WIDE DISEASE SUSCEPTIBILITY GENES TO BE INTERPRETED WITH THE KNOWLEDGE OF THE SPECIFIC CELL POPULATIONS WITHIN ORGANS THAT EXPRESS THEM, IDENTIFYING CANDIDATE CELL TYPES FOR FURTHER STUDY. SINGLE-CELL TECHNOLOGIES ARE ALSO MOVING BEYOND ASSAYING INDIVIDUAL CELLULAR TRANSCRIPTOMES, TO MEASURING THE EPIGENETIC LANDSCAPE OF SINGLE CELLS. SINGLE-CELL ANTIGEN-RECEPTOR GENE SEQUENCING ALSO ENABLES SPECIFIC T- AND B-CELL CLONES TO BE TRACKED IN DIFFERENT TISSUES AND DISEASE STATES. IN THE COMING YEARS THESE RICH 'MULTI-OMIC' DESCRIPTIONS OF KIDNEY DISEASE WILL ENABLE HISTOPATHOLOGICAL DESCRIPTIONS TO BE COMPREHENSIVELY INTEGRATED WITH MOLECULAR PHENOTYPES, ENABLING BETTER DISEASE CLASSIFICATION AND PROGNOSTICATION AND THE APPLICATION OF PERSONALISED TREATMENT STRATEGIES. (C) 2020 THE AUTHORS. THE JOURNAL OF PATHOLOGY PUBLISHED BY JOHN WILEY & SONS LTD ON BEHALF OF PATHOLOGICAL SOCIETY OF GREAT BRITAIN AND IRELAND. 2020 6 6630 26 UNDERSTANDING THE INTERPLAY BETWEEN HEALTH DISPARITIES AND EPIGENOMICS. SOCIAL EPIGENOMICS HAS EMERGED AS AN INTEGRATIVE FIELD OF RESEARCH FOCUSED ON IDENTIFICATION OF SOCIO-ENVIRONMENTAL FACTORS, THEIR INFLUENCE ON HUMAN BIOLOGY THROUGH EPIGENOMIC MODIFICATIONS, AND HOW THEY CONTRIBUTE TO CURRENT HEALTH DISPARITIES. SEVERAL HEALTH DISPARITIES STUDIES HAVE BEEN PUBLISHED USING GENETIC-BASED APPROACHES; HOWEVER, INCREASING ACCESSIBILITY AND AFFORDABILITY OF MOLECULAR TECHNOLOGIES HAVE ALLOWED FOR AN IN-DEPTH INVESTIGATION OF THE INFLUENCE OF EXTERNAL FACTORS ON EPIGENETIC MODIFICATIONS (E.G., DNA METHYLATION, MICRO-RNA EXPRESSION). CURRENTLY, RESEARCH IS FOCUSED ON EPIGENETIC CHANGES IN RESPONSE TO ENVIRONMENT, AS WELL AS TARGETED EPIGENETIC THERAPIES AND ENVIRONMENTAL/SOCIAL STRATEGIES FOR POTENTIALLY MINIMIZING CERTAIN HEALTH DISPARITIES. HERE, WE WILL REVIEW RECENT FINDINGS IN THIS FIELD PERTAINING TO CONDITIONS AND DISEASES OVER LIFE SPAN ENCOMPASSING PRENATAL TO ADULT STAGES. 2020 7 4515 36 MULTI-OMICS APPROACHES FOR PRECISION OBESITY MANAGEMENT : POTENTIALS AND LIMITATIONS OF OMICS IN PRECISION PREVENTION, TREATMENT AND RISK REDUCTION OF OBESITY. INTRODUCTION: OBESITY IS A MULTIFACTORIAL CHRONIC DISEASE THAT CANNOT BE ADDRESSED BY SIMPLY PROMOTING BETTER DIETS AND MORE PHYSICAL ACTIVITY. TO DATE, NOT A SINGLE COUNTRY HAS SUCCESSFULLY BEEN ABLE TO CURB THE ACCUMULATING BURDEN OF OBESITY. ONE EXPLANATION FOR THE LACK OF PROGRESS IS THAT LIFESTYLE INTERVENTION PROGRAMS ARE TRADITIONALLY IMPLEMENTED WITHOUT A COMPREHENSIVE EVALUATION OF AN INDIVIDUAL'S DIAGNOSTIC BIOMARKERS. EVIDENCE FROM GENOME-WIDE ASSOCIATION STUDIES HIGHLIGHT THE IMPORTANCE OF GENETIC AND EPIGENETIC FACTORS IN THE DEVELOPMENT OF OBESITY AND HOW THEY IN TURN AFFECT THE TRANSCRIPTOME, METABOLITES, MICROBIOMES, AND PROTEOMES. OBJECTIVE: THE PURPOSE OF THIS REVIEW IS TO PROVIDE AN OVERVIEW OF THE DIFFERENT TYPES OF OMICS DATA: GENOMICS, EPIGENOMICS, TRANSCRIPTOMICS, PROTEOMICS, METABOLOMICS AND ILLUSTRATE HOW A MULTI-OMICS APPROACH CAN BE FUNDAMENTAL FOR THE IMPLEMENTATION OF PRECISION OBESITY MANAGEMENT. RESULTS: THE DIFFERENT TYPES OF OMICS DESIGNS ARE GROUPED INTO TWO CATEGORIES, THE GENOTYPE APPROACH AND THE PHENOTYPE APPROACH. WHEN APPLIED TO OBESITY PREVENTION AND MANAGEMENT, EACH OMICS TYPE COULD POTENTIALLY HELP TO DETECT SPECIFIC BIOMARKERS IN PEOPLE WITH RISK PROFILES AND GUIDE HEALTHCARE PROFESSIONALS AND DECISION MAKERS IN DEVELOPING INDIVIDUALIZED TREATMENT PLANS ACCORDING TO THE NEEDS OF THE INDIVIDUAL BEFORE THE ONSET OF OBESITY. CONCLUSION: INTEGRATING MULTI-OMICS APPROACHES WILL ENABLE A PARADIGM SHIFT FROM THE ONE SIZE FITS ALL APPROACH TOWARDS PRECISION OBESITY MANAGEMENT, I.E. (1) PRECISION PREVENTION OF THE ONSET OF OBESITY, (2) PRECISION MEDICINE AND TAILORED TREATMENT OF OBESITY, AND (3) PRECISION RISK REDUCTION AND PREVENTION OF SECONDARY DISEASES RELATED TO OBESITY. 2023 8 5263 31 PROMISING BIOMARKERS OF HUMAN AGING: IN SEARCH OF A MULTI-OMICS PANEL TO UNDERSTAND THE AGING PROCESS FROM A MULTIDIMENSIONAL PERSPECTIVE. THE AGING PROCESS HAS BEEN LINKED TO THE OCCURRENCE OF CHRONIC DISEASES AND FUNCTIONAL IMPAIRMENTS, INCLUDING CANCER, SARCOPENIA, FRAILTY, METABOLIC, CARDIOVASCULAR, AND NEURODEGENERATIVE DISEASES. NONETHELESS, AGING IS HIGHLY VARIABLE AND HETEROGENEOUS AND REPRESENTS A CHALLENGE FOR ITS CHARACTERIZATION. IN THIS SENSE, INTRINSIC CAPACITY (IC) STANDS AS A NOVEL PERSPECTIVE BY THE WORLD HEALTH ORGANIZATION, WHICH INTEGRATES THE INDIVIDUAL WELLBEING, ENVIRONMENT, AND RISK FACTORS TO UNDERSTAND AGING. HOWEVER, THERE IS A LACK OF QUANTITATIVE AND QUALITATIVE ATTRIBUTES TO DEFINE IT OBJECTIVELY. THEREFORE, IN THIS REVIEW WE ATTEMPT TO SUMMARIZE THE MOST RELEVANT AND PROMISING BIOMARKERS DESCRIBED IN CLINICAL STUDIES AT DATE OVER DIFFERENT MOLECULAR LEVELS, INCLUDING EPIGENOMICS, TRANSCRIPTOMICS, PROTEOMICS, METABOLOMICS, AND THE MICROBIOME. TO AID GERONTOLOGISTS, GERIATRICIANS, AND BIOMEDICAL RESEARCHERS TO UNDERSTAND THE AGING PROCESS THROUGH THE IC. AGING BIOMARKERS REFLECT THE PHYSIOLOGICAL STATE OF INDIVIDUALS AND THE UNDERLYING MECHANISMS RELATED TO HOMEOSTATIC CHANGES THROUGHOUT AN INDIVIDUAL LIFESPAN; THEY DEMONSTRATED THAT AGING COULD BE MEASURED INDEPENDENTLY OF TIME (THAT MAY EXPLAIN ITS HETEROGENEITY) AND TO BE HELPFUL TO PREDICT AGE-RELATED SYNDROMES AND MORTALITY. IN SUMMARY, WE HIGHLIGHT THE AREAS OF OPPORTUNITY AND GAPS OF KNOWLEDGE THAT MUST BE ADDRESSED TO FULLY INTEGRATE BIOMEDICAL FINDINGS INTO CLINICALLY USEFUL TOOLS AND INTERVENTIONS. 2020 9 4342 29 MINIREVIEW: EPIGENETICS OF OBESITY AND DIABETES IN HUMANS. UNDERSTANDING THE DETERMINANTS OF HUMAN HEALTH AND DISEASE IS OVERWHELMINGLY COMPLEX, PARTICULARLY FOR COMMON, LATE-ONSET, CHRONIC DISORDERS, SUCH AS OBESITY AND DIABETES. ELUCIDATING THE GENETIC AND ENVIRONMENTAL FACTORS THAT INFLUENCE SUSCEPTIBILITY TO DISRUPTIONS IN ENERGY HOMEOSTASIS AND METABOLIC REGULATION REMAIN A CHALLENGE, AND PROGRESS WILL ENTAIL THE INTEGRATION OF MULTIPLE ASSESSMENTS OF TEMPORALLY DYNAMIC ENVIRONMENTAL EXPOSURES IN THE CONTEXT OF EACH INDIVIDUAL'S GENOTYPE. TO MEET THIS CHALLENGE, RESEARCHERS ARE INCREASINGLY EXPLORING THE EPIGENOME, WHICH IS THE MALLEABLE INTERFACE OF GENE-ENVIRONMENT INTERACTIONS. EPIGENETIC VARIATION, WHETHER INNATE OR INDUCED, CONTRIBUTES TO VARIATION IN GENE EXPRESSION, THE RANGE OF POTENTIAL INDIVIDUAL RESPONSES TO INTERNAL AND EXTERNAL CUES, AND RISK FOR METABOLIC DISEASE. ULTIMATELY, ADVANCEMENT IN OUR UNDERSTANDING OF CHRONIC DISEASE SUSCEPTIBILITY IN HUMANS WILL DEPEND ON REFINEMENT OF EXPOSURE ASSESSMENT TOOLS AND SYSTEMS BIOLOGY APPROACHES TO INTERPRETATION. IN THIS REVIEW, WE PRESENT RECENT PROGRESS IN EPIGENETICS OF HUMAN OBESITY AND DIABETES, EXISTING CHALLENGES, AND THE POTENTIAL FOR NEW APPROACHES TO UNRAVEL THE COMPLEX BIOLOGY OF METABOLIC DYSREGULATION. 2012 10 1240 25 CURRENT ADVANCES OF EPIGENETICS IN PERIODONTOLOGY FROM ENCODE PROJECT: A REVIEW AND FUTURE PERSPECTIVES. BACKGROUND: THE ENCYCLOPEDIA OF DNA ELEMENTS (ENCODE) PROJECT HAS ADVANCED OUR KNOWLEDGE OF THE FUNCTIONAL ELEMENTS IN THE GENOME AND EPIGENOME. THE AIM OF THIS ARTICLE WAS TO PROVIDE THE COMPREHENSION ABOUT CURRENT RESEARCH TRENDS FROM ENCODE PROJECT AND ESTABLISH THE LINK BETWEEN EPIGENETICS AND PERIODONTAL DISEASES BASED ON EPIGENOME STUDIES AND SEEK THE FUTURE DIRECTION. MAIN BODY: GLOBAL EPIGENOME RESEARCH PROJECTS HAVE EMPHASIZED THE IMPORTANCE OF EPIGENETIC RESEARCH FOR UNDERSTANDING HUMAN HEALTH AND DISEASE, AND CURRENT INTERNATIONAL CONSORTIA SHOW AN IMPROVED INTEREST IN THE IMPORTANCE OF ORAL HEALTH WITH SYSTEMIC HEALTH. THE EPIGENETIC STUDIES IN DENTAL FIELD HAVE BEEN MAINLY CONDUCTED IN PERIODONTOLOGY AND HAVE FOCUSED ON DNA METHYLATION ANALYSIS. ADVANCES IN SEQUENCING TECHNOLOGY HAVE BROADENED THE TARGET FOR EPIGENETIC STUDIES FROM SPECIFIC GENES TO GENOME-WIDE ANALYSES. CONCLUSIONS: IN LINE WITH GLOBAL RESEARCH TRENDS, FURTHER EXTENDED AND ADVANCED EPIGENETIC STUDIES WOULD PROVIDE CRUCIAL INFORMATION FOR THE REALIZATION OF COMPREHENSIVE DENTAL MEDICINE AND EXPAND THE SCOPE OF ONGOING LARGE-SCALE RESEARCH PROJECTS. 2021 11 5702 30 SINGLE-CELL GENOMICS FOR INVESTIGATING PATHOGENESIS OF INFLAMMATORY DISEASES. RECENT TECHNICAL ADVANCES HAVE ENABLED UNBIASED TRANSCRIPTOMIC AND EPIGENETIC ANALYSIS OF EACH CELL, KNOWN AS "SINGLE-CELL ANALYSIS". SINGLE-CELL ANALYSIS HAS A VARIETY OF TECHNICAL APPROACHES TO INVESTIGATE THE STATE OF EACH CELL, INCLUDING MRNA LEVELS (TRANSCRIPTOME), THE IMMUNE REPERTOIRE (IMMUNE REPERTOIRE ANALYSIS), CELL SURFACE PROTEINS (SURFACE PROTEOME ANALYSIS), CHROMATIN ACCESSIBILITY (EPIGENOME), AND ACCORDANCE WITH GENOME VARIANTS (EQTLS; EXPRESSION QUANTITATIVE TRAIT LOCI). AS AN EFFECTIVE TOOL FOR INVESTIGATING ROBUST IMMUNE RESPONSES IN CORONAVIRUS DISEASE 2019 (COVID-19), MANY RESEARCHERS PERFORMED SINGLE-CELL ANALYSIS TO CAPTURE THE DIVERSE, UNBIASED IMMUNE CELL ACTIVATION AND DIFFERENTIATION. DESPITE CHALLENGES ELUCIDATING THE COMPLICATED IMMUNE MICROENVIRONMENTS OF CHRONIC INFLAMMATORY DISEASES USING EXISTING EXPERIMENTAL METHODS, IT IS NOW POSSIBLE TO CAPTURE THE SIMULTANEOUS IMMUNE FEATURES OF DIFFERENT CELL TYPES ACROSS INFLAMED TISSUES USING VARIOUS SINGLE-CELL TOOLS. IN THIS REVIEW, WE INTRODUCE PATIENT-BASED AND EXPERIMENTAL MOUSE MODEL RESEARCH UTILIZING SINGLE-CELL ANALYSES IN THE FIELD OF CHRONIC INFLAMMATORY DISEASES, AS WELL AS MULTI-ORGAN ATLAS TARGETING IMMUNE CELLS. 2023 12 548 28 AUTISM SPECTRUM DISORDER AT THE CROSSROAD BETWEEN GENES AND ENVIRONMENT: CONTRIBUTIONS, CONVERGENCES, AND INTERACTIONS IN ASD DEVELOPMENTAL PATHOPHYSIOLOGY. THE COMPLEX PATHOPHYSIOLOGY OF AUTISM SPECTRUM DISORDER ENCOMPASSES INTERACTIONS BETWEEN GENETIC AND ENVIRONMENTAL FACTORS. ON THE ONE HAND, HUNDREDS OF GENES, CONVERGING AT THE FUNCTIONAL LEVEL ON SELECTIVE BIOLOGICAL DOMAINS SUCH AS EPIGENETIC REGULATION AND SYNAPTIC FUNCTION, HAVE BEEN IDENTIFIED TO BE EITHER CAUSATIVE OR RISK FACTORS OF AUTISM. ON THE OTHER HAND, EXPOSURE TO CHEMICALS THAT ARE WIDESPREAD IN THE ENVIRONMENT, SUCH AS ENDOCRINE DISRUPTORS, HAS BEEN ASSOCIATED WITH ADVERSE EFFECTS ON HUMAN HEALTH, INCLUDING NEURODEVELOPMENTAL DISORDERS. INTERESTINGLY, EXPERIMENTAL RESULTS SUGGEST AN OVERLAP IN THE REGULATORY PATHWAYS PERTURBED BY GENETIC MUTATIONS AND ENVIRONMENTAL FACTORS, DEPICTING CONVERGENCES AND COMPLEX INTERPLAYS BETWEEN GENETIC SUSCEPTIBILITY AND TOXIC INSULTS. THE PERVASIVE NATURE OF CHEMICAL EXPOSURE POSES PIVOTAL CHALLENGES FOR NEUROTOXICOLOGICAL STUDIES, REGULATORY AGENCIES, AND POLICY MAKERS. THIS HIGHLIGHTS AN EMERGING NEED OF DEVELOPING NEW INTEGRATIVE MODELS, INCLUDING BIOMONITORING, EPIDEMIOLOGY, EXPERIMENTAL, AND COMPUTATIONAL TOOLS, ABLE TO CAPTURE REAL-LIFE SCENARIOS ENCOMPASSING THE INTERACTION BETWEEN CHRONIC EXPOSURE TO MIXTURE OF SUBSTANCES AND INDIVIDUALS' GENETIC BACKGROUNDS. IN THIS REVIEW, WE ADDRESS THE INTERTWINED ROLES OF GENETIC LESIONS AND ENVIRONMENTAL INSULTS. SPECIFICALLY, WE OUTLINE THE TRANSFORMATIVE POTENTIAL OF STEM CELL MODELS, COUPLED WITH OMICS ANALYTICAL APPROACHES AT INCREASINGLY SINGLE CELL RESOLUTION, AS CONVERGING TOOLS TO EXPERIMENTALLY DISSECT THE PATHOGENIC MECHANISMS UNDERLYING NEURODEVELOPMENTAL DISORDERS, AS WELL AS TO IMPROVE DEVELOPMENTAL NEUROTOXICOLOGY RISK ASSESSMENT. 2020 13 1352 29 DEVELOPMENT AND APPLICATION OF THE ADVERSE OUTCOME PATHWAY FRAMEWORK FOR UNDERSTANDING AND PREDICTING CHRONIC TOXICITY: I. CHALLENGES AND RESEARCH NEEDS IN ECOTOXICOLOGY. TO ELUCIDATE THE EFFECTS OF CHEMICALS ON POPULATIONS OF DIFFERENT SPECIES IN THE ENVIRONMENT, EFFICIENT TESTING AND MODELING APPROACHES ARE NEEDED THAT CONSIDER MULTIPLE STRESSORS AND ALLOW RELIABLE EXTRAPOLATION OF RESPONSES ACROSS SPECIES. AN ADVERSE OUTCOME PATHWAY (AOP) IS A CONCEPT THAT PROVIDES A FRAMEWORK FOR ORGANIZING KNOWLEDGE ABOUT THE PROGRESSION OF TOXICITY EVENTS ACROSS SCALES OF BIOLOGICAL ORGANIZATION THAT LEAD TO ADVERSE OUTCOMES RELEVANT FOR RISK ASSESSMENT. IN THIS PAPER, WE FOCUS ON EXPLORING HOW THE AOP CONCEPT CAN BE USED TO GUIDE RESEARCH AIMED AT IMPROVING BOTH OUR UNDERSTANDING OF CHRONIC TOXICITY, INCLUDING DELAYED TOXICITY AS WELL AS EPIGENETIC AND TRANSGENERATIONAL EFFECTS OF CHEMICALS, AND OUR ABILITY TO PREDICT ADVERSE OUTCOMES. A BETTER UNDERSTANDING OF THE INFLUENCE OF SUBTLE TOXICITY ON INDIVIDUAL AND POPULATION FITNESS WOULD SUPPORT A BROADER INTEGRATION OF SUBLETHAL ENDPOINTS INTO RISK ASSESSMENT FRAMEWORKS. DETAILED MECHANISTIC KNOWLEDGE WOULD FACILITATE THE DEVELOPMENT OF ALTERNATIVE TESTING METHODS AS WELL AS HELP PRIORITIZE HIGHER TIER TOXICITY TESTING. WE ARGUE THAT TARGETED DEVELOPMENT OF AOPS SUPPORTS BOTH OF THESE ASPECTS BY PROMOTING THE ELUCIDATION OF MOLECULAR MECHANISMS AND THEIR CONTRIBUTION TO RELEVANT TOXICITY OUTCOMES ACROSS BIOLOGICAL SCALES. WE FURTHER DISCUSS INFORMATION REQUIREMENTS AND CHALLENGES IN APPLICATION OF AOPS FOR CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AND FOR EXTRAPOLATION ACROSS SPECIES. WE PROVIDE RECOMMENDATIONS FOR POTENTIAL EXTENSION OF THE AOP FRAMEWORK TO INCORPORATE INFORMATION ON EXPOSURE, TOXICOKINETICS AND SITUATION-SPECIFIC ECOLOGICAL CONTEXTS, AND DISCUSS COMMON INTERFACES THAT CAN BE EMPLOYED TO COUPLE AOPS WITH COMPUTATIONAL MODELING APPROACHES AND WITH EVOLUTIONARY LIFE HISTORY THEORY. THE EXTENDED AOP FRAMEWORK CAN SERVE AS A VENUE FOR INTEGRATION OF KNOWLEDGE DERIVED FROM VARIOUS SOURCES, INCLUDING EMPIRICAL DATA AS WELL AS MOLECULAR, QUANTITATIVE AND EVOLUTIONARY-BASED MODELS DESCRIBING SPECIES RESPONSES TO TOXICANTS. THIS WILL ALLOW A MORE EFFICIENT APPLICATION OF AOP KNOWLEDGE FOR QUANTITATIVE CHEMICAL- AND SITE-SPECIFIC RISK ASSESSMENT AS WELL AS FOR EXTRAPOLATION ACROSS SPECIES IN THE FUTURE. 2015 14 6843 24 [MEDICAL APPLICATIONS OF GENOME DISCOVERY]. THE DISCOVERY OF THE COMPLETE BASE SEQUENCE OF HUMAN GENOME UNVEILS SEVERAL PERSPECTIVES TO UNDERSTAND HUMAN DISEASES AND DEVELOP NEW THERAPIES. HUMAN GENOME CONTAINS APPROXIMATELY 39,000 GENES OF WHICH 26,000 CODE SPECIFIC PROTEINS THAT HAVE BEEN IDENTIFIED. THERE ARE APPROXIMATELY 1,500 DISEASES WITH IDENTIFIED MOLECULAR DISTURBANCES. GENES CAN MODIFY SIGNS AND SYMPTOMS OF COMMON DISEASES. THUS, THERE ARE NO PURE MONOGENIC DISEASES. CHRONIC DISEASES OF ADULTS ARE COMPLEX AND DEPENDENT ON MULTIPLE FACTORS. SEVERAL GENES THAT PREDISPOSE TO CHRONIC DEGENERATIVE DISEASES HAVE BEEN IDENTIFIED. THIS IS REVEALING THE COMPLEX NATURE AND THE INTERACTION OF THESE AILMENTS WITH THE ENVIRONMENT. THE DISCOVERY OF BACTERIAL AND VIRAL GENOMIC SEQUENCES WILL ALLOW THE MANUFACTURING OF NEW VACCINES AND SPECIFIC MOLECULAR ANTIMICROBIALS. THE NEW PHARMACOGENOMICS WILL DEVISE TREATMENTS FOR EACH SUBJECT ACCORDING TO HER SPECIFIC GENOMIC PROFILE. THE NEW APPLICATIONS OF GENOMIC TECHNOLOGY IS CREATING NEW PARADIGMS IN BIOMEDICAL RESEARCH SUCH AS FUNCTIONAL GENOMICS, PROTEONOMICS, EPIGENETIC REGULATION. GENE DIAGNOSIS AND THERAPY WILL CONSIDERABLY IMPROVE THE FUTURE OF MEDICINE. 2001 15 5025 32 PERSONALIZED MANAGEMENT OF CARDIOVASCULAR DISORDERS. PERSONALIZED MANAGEMENT OF CARDIOVASCULAR DISORDERS (CVD), ALSO REFERRED TO AS PERSONALIZED OR PRECISION CARDIOLOGY IN ACCORDANCE WITH GENERAL PRINCIPLES OF PERSONALIZED MEDICINE, IS SELECTION OF THE BEST TREATMENT FOR AN INDIVIDUAL PATIENT. IT INVOLVES THE INTEGRATION OF VARIOUS "OMICS" TECHNOLOGIES SUCH AS GENOMICS AND PROTEOMICS AS WELL AS OTHER NEW TECHNOLOGIES SUCH AS NANOBIOTECHNOLOGY. MOLECULAR DIAGNOSTICS AND BIOMARKERS ARE IMPORTANT FOR LINKING DIAGNOSIS WITH THERAPY AND MONITORING THERAPY. BECAUSE CVD INVOLVE PERTURBATIONS OF LARGE COMPLEX BIOLOGICAL NETWORKS, A SYSTEMS BIOLOGY APPROACH TO CVD RISK STRATIFICATION MAY BE USED FOR IMPROVING RISK-ESTIMATING ALGORITHMS, AND MODELING OF PERSONALIZED BENEFIT OF TREATMENT MAY BE HELPFUL FOR GUIDING THE CHOICE OF INTERVENTION. BIOINFORMATICS TOOLS ARE HELPFUL IN ANALYZING AND INTEGRATING LARGE AMOUNTS OF DATA FROM VARIOUS SOURCES. PERSONALIZED THERAPY IS CONSIDERED DURING DRUG DEVELOPMENT, INCLUDING METHODS OF TARGETED DRUG DELIVERY AND CLINICAL TRIALS. INDIVIDUALIZED RECOMMENDATIONS CONSIDER MULTIPLE FACTORS - GENETIC AS WELL AS EPIGENETIC - FOR PATIENTS' RISK OF HEART DISEASE. EXAMPLES OF PERSONALIZED TREATMENT ARE THOSE OF CHRONIC MYOCARDIAL ISCHEMIA, HEART FAILURE, AND HYPERTENSION. SIMILAR APPROACHES CAN BE USED FOR THE MANAGEMENT OF ATRIAL FIBRILLATION AND HYPERCHOLESTEROLEMIA, AS WELL AS THE USE OF ANTICOAGULANTS. PERSONALIZED MANAGEMENT INCLUDES PHARMACOTHERAPY, SURGERY, LIFESTYLE MODIFICATIONS, AND COMBINATIONS THEREOF. FURTHER PROGRESS IN UNDERSTANDING THE PATHOMECHANISM OF COMPLEX CARDIOVASCULAR DISEASES AND IDENTIFICATION OF CAUSATIVE FACTORS AT THE INDIVIDUAL PATIENT LEVEL WILL PROVIDE OPPORTUNITIES FOR THE DEVELOPMENT OF PERSONALIZED CARDIOLOGY. APPLICATION OF PRINCIPLES OF PERSONALIZED MEDICINE WILL IMPROVE THE CARE OF THE PATIENTS WITH CVD. 2017 16 1914 27 ENVIRONMENTAL AND GENETIC RISK FACTORS FOR MS: AN INTEGRATED REVIEW. RECENT FINDINGS HAVE PROVIDED A MOLECULAR BASIS FOR THE COMBINED CONTRIBUTIONS OF MULTIFACETED RISK FACTORS FOR THE ONSET OF MULTIPLE SCLEROSIS (MS). MS APPEARS TO START AS A CHRONIC DYSREGULATION OF IMMUNE HOMEOSTASIS RESULTING FROM COMPLEX INTERACTIONS BETWEEN GENETIC PREDISPOSITIONS, INFECTIOUS EXPOSURES, AND FACTORS THAT LEAD TO PRO-INFLAMMATORY STATES, INCLUDING SMOKING, OBESITY, AND LOW SUN EXPOSURE. THIS IS SUPPORTED BY THE DISCOVERY OF GENE-ENVIRONMENT (GXE) INTERACTIONS AND EPIGENETIC ALTERATIONS TRIGGERED BY ENVIRONMENTAL EXPOSURES IN INDIVIDUALS WITH PARTICULAR GENETIC MAKE-UPS. IT IS NOTABLE THAT SEVERAL OF THESE PRO-INFLAMMATORY FACTORS HAVE NOT EMERGED AS STRONG PROGNOSTIC INDICATORS. BIOLOGICAL PROCESSES AT PLAY DURING THE RELAPSING PHASE OF THE DISEASE MAY RESULT FROM INITIAL INFLAMMATORY-MEDIATED INJURY, WHILE RISK FACTORS FOR THE LATER PHASE OF MS, WHICH IS WEIGHTED TOWARD NEURODEGENERATION, ARE NOT YET WELL DEFINED. THIS INTEGRATED REVIEW OF CURRENT EVIDENCE GUIDES RECOMMENDATIONS FOR CLINICAL PRACTICE AND HIGHLIGHTS RESEARCH GAPS. 2019 17 3682 27 INFLAMMATION, FIBROSIS AND CANCER: MECHANISMS, THERAPEUTIC OPTIONS AND CHALLENGES. UNCONTROLLED INFLAMMATION IS A SALIENT FACTOR IN MULTIPLE CHRONIC INFLAMMATORY DISEASES AND CANCERS. IN THIS REVIEW, WE PROVIDED AN IN-DEPTH ANALYSIS OF THE RELATIONSHIPS AND DISTINCTIONS BETWEEN UNCONTROLLED INFLAMMATION, FIBROSIS AND CANCERS, WHILE EMPHASIZING THE CHALLENGES AND OPPORTUNITIES OF DEVELOPING NOVEL THERAPIES FOR THE TREATMENT AND/OR MANAGEMENT OF THESE DISEASES. WE DESCRIBED HOW DRUG DELIVERY SYSTEMS, COMBINATION THERAPY AND THE INTEGRATION OF TISSUE-TARGETED AND/OR PATHWAYS SELECTIVE STRATEGIES COULD OVERCOME THE CHALLENGES OF CURRENT AGENTS FOR MANAGING AND/OR TREATING CHRONIC INFLAMMATORY DISEASES AND CANCERS. WE ALSO RECOGNIZED THE VALUE OF THE RE-EVALUATION OF THE DISEASE-SPECIFIC ROLES OF MULTIPLE PATHWAYS IMPLICATED IN THE PATHOPHYSIOLOGY OF CHRONIC INFLAMMATORY DISEASES AND CANCERS-AS WELL AS THE APPLICATION OF DATA FROM SINGLE-CELL RNA SEQUENCING IN THE SUCCESS OF FUTURE DRUG DISCOVERY ENDEAVORS. 2022 18 4832 31 OMICS BIOMARKERS IN OBESITY: NOVEL ETIOLOGICAL INSIGHTS AND TARGETS FOR PRECISION PREVENTION. PURPOSE OF REVIEW: OMICS-BASED TECHNOLOGIES WERE SUGGESTED TO PROVIDE AN ADVANCED UNDERSTANDING OF OBESITY ETIOLOGY AND ITS METABOLIC CONSEQUENCES. THIS REVIEW HIGHLIGHTS THE RECENT DEVELOPMENTS IN "OMICS"-BASED RESEARCH AIMED TO IDENTIFY OBESITY-RELATED BIOMARKERS. RECENT FINDINGS: RECENT ADVANCES IN OBESITY AND METABOLISM RESEARCH INCREASINGLY RELY ON NEW TECHNOLOGIES TO IDENTIFY MECHANISMS IN THE DEVELOPMENT OF OBESITY USING VARIOUS "OMICS" PLATFORMS. GENETIC AND EPIGENETIC BIOMARKERS THAT TRANSLATE INTO CHANGES IN TRANSCRIPTOME, PROTEOME, AND METABOLOME COULD SERVE AS TARGETS FOR OBESITY PREVENTION. DESPITE A NUMBER OF PROMISING CANDIDATE BIOMARKERS, THERE IS AN INCREASED DEMAND FOR LARGER PROSPECTIVE COHORT STUDIES TO VALIDATE FINDINGS AND DETERMINE BIOMARKER REPRODUCIBILITY BEFORE THEY CAN FIND APPLICATIONS IN PRIMARY CARE AND PUBLIC HEALTH. "OMICS" BIOMARKERS HAVE ADVANCED OUR KNOWLEDGE ON THE ETIOLOGY OF OBESITY AND ITS LINKS WITH CHRONIC DISEASES. THEY BRING SUBSTANTIAL PROMISE IN IDENTIFYING EFFECTIVE PUBLIC HEALTH STRATEGIES THAT PAVE THE WAY TOWARDS PATIENT STRATIFICATION AND PRECISION PREVENTION. 2020 19 6070 23 THE DISCOVAIR PROJECT: A ROADMAP TOWARDS THE HUMAN LUNG CELL ATLAS. THE HUMAN CELL ATLAS (HCA) CONSORTIUM AIMS TO ESTABLISH AN ATLAS OF ALL ORGANS IN THE HEALTHY HUMAN BODY AT SINGLE-CELL RESOLUTION TO INCREASE OUR UNDERSTANDING OF BASIC BIOLOGICAL PROCESSES THAT GOVERN DEVELOPMENT, PHYSIOLOGY AND ANATOMY, AND TO ACCELERATE DIAGNOSIS AND TREATMENT OF DISEASE. THE LUNG BIOLOGICAL NETWORK OF THE HCA AIMS TO GENERATE THE HUMAN LUNG CELL ATLAS AS A REFERENCE FOR THE CELLULAR REPERTOIRE, MOLECULAR CELL STATES AND PHENOTYPES, AND CELL-CELL INTERACTIONS THAT CHARACTERISE NORMAL LUNG HOMEOSTASIS IN HEALTHY LUNG TISSUE. SUCH A REFERENCE ATLAS OF THE HEALTHY HUMAN LUNG WILL FACILITATE MAPPING THE CHANGES IN THE CELLULAR LANDSCAPE IN DISEASE. THE DISCOVAIR PROJECT IS ONE OF SIX PILOT ACTIONS FOR THE HCA FUNDED BY THE EUROPEAN COMMISSION IN THE CONTEXT OF THE H2020 FRAMEWORK PROGRAMME. DISCOVAIR AIMS TO ESTABLISH THE FIRST DRAFT OF AN INTEGRATED HUMAN LUNG CELL ATLAS, COMBINING SINGLE-CELL TRANSCRIPTIONAL AND EPIGENETIC PROFILING WITH SPATIALLY RESOLVING TECHNIQUES ON MATCHED TISSUE SAMPLES, AS WELL AS INCLUDING A NUMBER OF CHRONIC AND INFECTIOUS DISEASES OF THE LUNG. THE INTEGRATED HUMAN LUNG CELL ATLAS WILL BE AVAILABLE AS A RESOURCE FOR THE WIDER RESPIRATORY COMMUNITY, INCLUDING BASIC AND TRANSLATIONAL SCIENTISTS, CLINICAL MEDICINE, AND THE PRIVATE SECTOR, AS WELL AS FOR PATIENTS WITH LUNG DISEASE AND THE INTERESTED LAY PUBLIC. WE ANTICIPATE THAT THE HUMAN LUNG CELL ATLAS WILL BE THE FOUNDING STONE FOR A MORE DETAILED UNDERSTANDING OF THE PATHOGENESIS OF LUNG DISEASES, GUIDING THE DESIGN OF NOVEL DIAGNOSTICS AND PREVENTIVE OR CURATIVE INTERVENTIONS. 2022 20 3395 29 HOST GENETIC FACTORS PREDISPOSING TO HIV-ASSOCIATED NEUROCOGNITIVE DISORDER. THE SUCCESS OF COMBINATION ANTIRETROVIRAL THERAPY (CART) IN TRANSFORMING THE LIVES OF HIV-INFECTED INDIVIDUALS WITH ACCESS TO THESE DRUGS IS TEMPERED BY THE INCREASING THREAT OF HIV-ASSOCIATED NEUROCOGNITIVE DISORDERS (HAND) TO THEIR OVERALL HEALTH AND QUALITY OF LIFE. INTENSIVE INVESTIGATIONS OVER THE PAST TWO DECADES HAVE UNDERSCORED THE ROLE OF HOST IMMUNE RESPONSES, INFLAMMATION, AND MONOCYTE-DERIVED MACROPHAGES IN HAND, BUT THE PRECISE PATHOGENIC MECHANISMS UNDERLYING HAND REMAIN ONLY PARTIALLY DELINEATED. COMPLICATING RESEARCH EFFORTS AND THERAPEUTIC DRUG DEVELOPMENT ARE THE SHEER COMPLEXITY OF HAND PHENOTYPES, DIAGNOSTIC IMPRECISION, AND THE GROWING INTERSECTION OF CHRONIC IMMUNE ACTIVATION WITH AGING-RELATED COMORBIDITIES. YET, GENETIC STUDIES STILL OFFER A POWERFUL MEANS OF ADVANCING INDIVIDUALIZED CARE FOR HIV-INFECTED INDIVIDUALS AT RISK. THERE IS AN URGENT NEED FOR 1) LONGITUDINAL STUDIES USING CONSISTENT PHENOTYPIC DEFINITIONS OF HAND IN HIV-INFECTED SUBPOPULATIONS AT VERY HIGH RISK OF BEING ADVERSELY IMPACTED, SUCH AS CHILDREN, 2) TISSUE STUDIES THAT CORRELATE NEUROPATHOLOGICAL CHANGES IN MULTIPLE BRAIN REGIONS WITH GENOMIC MARKERS IN AFFECTED INDIVIDUALS AND WITH CHANGES AT THE RNA, EPIGENOMIC, AND/OR PROTEIN LEVELS, AND 3) GENETIC ASSOCIATION STUDIES USING MORE SENSITIVE SUBPHENOTYPES OF HAND. THE NIH BRAIN INITIATIVE AND HUMAN CONNECTOME PROJECT, COUPLED WITH RAPIDLY EVOLVING SYSTEMS BIOLOGY AND MACHINE LEARNING APPROACHES FOR ANALYZING HIGH-THROUGHPUT GENETIC, TRANSCRIPTOMIC AND EPIGENETIC DATA, HOLD PROMISE FOR IDENTIFYING ACTIONABLE BIOLOGICAL PROCESSES AND GENE NETWORKS THAT UNDERLIE HAND. THIS REVIEW SUMMARIZES THE CURRENT STATE OF UNDERSTANDING OF HOST GENETIC FACTORS PREDISPOSING TO HAND IN LIGHT OF PAST CHALLENGES AND SUGGESTS SOME PRIORITIES FOR FUTURE RESEARCH TO ADVANCE THE UNDERSTANDING AND CLINICAL MANAGEMENT OF HAND IN THE CART ERA. 2014