1 4733 110 NOVEL BIOMARKERS FOR THE IDENTIFICATION AND TARGETED THERAPY OF GASTRIC CANCER. GASTRIC CANCER DEVELOPMENT FOLLOWS THE PATHOLOGIC PATTERN SUCH THAT CHRONIC INFLAMMATION IN THE GASTRIC MUCOSA PROGRESSIVELY TRANSFORMS NORMAL MUCOSA INTO ATROPHY, INTESTINAL METAPLASIA, ADENOMA/DYSPLASIA AND EVENTUALLY INVASIVE AND METASTATIC TUMORS. THE ACCUMULATION OF MULTIPLE GENETIC AND EPIGENETIC ALTERATIONS LEADS TO THE DYSREGULATION OF ONCOGENES AND TUMOR SUPPRESSORS, WHICH WAS CONSIDERED AS THE DRIVER BEHIND EVENTS DURING THE TUMORIGENESIS. ALMOST ALL GASTRIC CANCERS ARE ADENOCARCINOMAS, WHICH SHARE CONSIDERABLE HETEROGENEITY WITH DISTINCT MORPHOLOGY, PATHOGENESIS AND CLINICAL BEHAVIOR. THEREFORE, IDENTIFYING SUBTYPES OF GASTRIC CANCERS WITH MOLECULAR AND GENETIC FEATURES WILL BE BENEFICIAL FOR THE EARLY IDENTIFICATION AND SELECTION OF NEW EFFECTIVE AGENTS FOR TARGETED TREATMENT. HIGH-THROUGHPUT SEQUENCING TECHNIQUES SUCH AS WHOLE GENOMIC, EPIGENOME AND TRANSCRIPTOME SEQUENCING AND PROTEOMICS PLATFORMS HAVE IDENTIFIED MAJOR GENOMIC CHARACTERISTICS THAT EXHIBIT IDENTIFICATION AND PROGNOSTIC IMPACTS AND DISTINCT RESPONSE PATTERNS. IN THIS ARTICLE, THE AUTHORS AIM TO SUMMARIZE THE INFORMATION REGARDING THE MOST PROMISING MOLECULES THAT MAY HAVE CLINICAL APPLICATION AS NON-INVASIVE BIOMARKERS AND THERAPY TARGETS. 2015 2 4316 35 MICRORNAS AS NON-INVASIVE DIAGNOSTIC BIOMARKERS FOR GASTRIC CANCER: CURRENT INSIGHTS AND FUTURE PERSPECTIVES. NON-INVASIVE DIAGNOSTIC BIOMARKERS MAY CONTRIBUTE TO AN EARLY IDENTIFICATION OF GASTRIC CANCER (GC) AND IMPROVE THE CLINICAL MANAGEMENT. UNFORTUNATELY, NO SENSITIVE AND SPECIFIC SCREENING BIOMARKERS ARE AVAILABLE YET AND THE CURRENTLY AVAILABLE APPROACHES ARE LIMITED BY THE NATURE OF THE DISEASE. GC IS A HETEROGENIC DISEASE WITH VARIOUS DISTINCT GENETIC AND EPIGENETIC EVENTS THAT OCCUR DURING THE MULTIFACTORIAL CASCADE OF CARCINOGENESIS. MICRORNAS (MIRNAS) ARE COMMONLY DEREGULATED IN GASTRIC MUCOSA DURING THE HELICOBACTER PYLORI INFECTION AND IN STEPWISE MANNER FROM CHRONIC GASTRITIS, THROUGH PRENEOPLASTIC CONDITIONS SUCH AS ATROPHIC GASTRITIS AND INTESTINAL METAPLASIA, TO EARLY DYSPLASIA AND INVASIVE CANCER. IDENTIFICATION OF MIRNAS IN BLOOD IN 2008 LED TO A GREAT INTEREST ON MIRNA-BASED DIAGNOSTIC, PROGNOSTIC BIOMARKERS IN GC. IN THIS REVIEW, WE PROVIDE THE MOST RECENT SYSTEMATIC REVIEW ON THE EXISTING STUDIES RELATED TO MIRNAS AS DIAGNOSTIC BIOMARKERS FOR GC. HERE, WE SYSTEMATICALLY EVALUATE 75 STUDIES RELATED TO DIFFERENTIAL EXPRESSION OF CIRCULATING MIRNAS IN GC PATIENTS AND PROVIDE NOVEL VIEW ON VARIOUS HETEROGENIC ASPECTS OF THE EXISTING DATA AND SUMMARIZE THE METHODOLOGICAL DIFFERENCES. FINALLY, WE HIGHLIGHT SEVERAL IMPORTANT ASPECTS CRUCIAL TO IMPROVE THE FUTURE TRANSLATIONAL AND CLINICAL RESEARCH IN THE FIELD. 2018 3 4429 36 MOLECULAR BIOLOGY AS A TOOL FOR THE TREATMENT OF CANCER. CANCER IS A GENETIC DISEASE CHARACTERIZED BY UNCONTROLLED CELL GROWTH AND METASTASIS. CANCER CAN HAVE A NUMBER OF CAUSES, SUCH THE ACTIVATION OF ONCOGENES, THE INACTIVATION OF TUMOR-SUPPRESSING GENES, MUTAGENESIS PROVOKED BY EXTERNAL FACTORS, AND EPIGENETIC MODIFICATIONS. THE DEVELOPMENT OF DIAGNOSTIC TOOLS AND TREATMENTS USING A MOLECULAR BIOLOGICAL APPROACH PERMITS THE USE OF SENSITIVE, LOW-COST, NONINVASIVE TESTS FOR CANCER PATIENTS. BIOMARKERS CAN BE USED TO PROVIDE RAPID, PERSONALIZED ONCOLOGY, IN PARTICULAR THE MOLECULAR DIAGNOSIS OF CHRONIC MYELOID LEUKEMIA, AND GASTRIC, COLON, AND BREAST CANCERS. MOLECULAR TESTS BASED ON DNA METHYLATION CAN ALSO BE USED TO DIRECT TREATMENTS OR EVALUATE THE TOXIC EFFECTS OF CHEMOTHERAPY. THE ADEQUATE DIAGNOSIS, PROGNOSIS, AND PREDICTION OF THE RESPONSE OF CANCER PATIENTS TO TREATMENT ARE ESSENTIAL TO ENSURE THE MOST EFFECTIVE THERAPY, REDUCE THE DAMAGING EFFECTS OF TREATMENT, AND DIRECT THE THERAPY TO SPECIFIC TARGETS, AND IN THIS CONTEXT, MOLECULAR BIOLOGY HAS BECOME INCREASINGLY IMPORTANT IN ONCOLOGY. IN THIS BRIEF REVIEW, WE WILL DEMONSTRATE THE FUNDAMENTAL IMPORTANCE OF MOLECULAR BIOLOGY FOR THE TREATMENT OF THREE TYPES OF CANCER-CHRONIC MYELOID LEUKEMIA, HEREDITARY DIFFUSE GASTRIC CANCER, AND ASTROCYTOMAS (SPORADIC TUMORS OF THE CENTRAL NERVOUS SYSTEM). IN EACH OF THESE THREE MODELS, DISTINCT BIOLOGICAL MECHANISMS ARE INVOLVED IN THE TRANSFORMATION OF THE CELLS, BUT IN ALL CASES, MOLECULAR BIOLOGY IS FUNDAMENTAL TO THE DEVELOPMENT OF PERSONALIZED ANALYSES FOR EACH PATIENT AND EACH TYPE OF NEOPLASIA, AND TO GUARANTEE THE SUCCESS OF THE TREATMENT. 2018 4 1522 41 DNA METHYLATION CHANGE PROFILING OF COLORECTAL DISEASE: SCREENING TOWARDS CLINICAL USE. COLON CANCER REMAINS ONE OF THE LEADING CAUSES OF CANCER-RELATED DEATHS WORLDWIDE. TRANSFORMATION OF COLON EPITHELIAL CELLS INTO INVASIVE ADENOCARCINOMAS HAS BEEN WELL KNOWN TO BE DUE TO THE ACCUMULATION OF MULTIPLE GENETIC AND EPIGENETIC CHANGES. IN THE PAST DECADE, THE ETIOLOGY OF INFLAMMATORY BOWEL DISEASE (IBD) WHICH IS CHARACTERIZED BY CHRONIC INFLAMMATION OF THE INTESTINAL MUCOSA, WAS ONLY PARTIALLY EXPLAINED BY GENETIC STUDIES PROVIDING SUSCEPTIBILITY LOCI, BUT RECENTLY EPIGENETIC STUDIES HAVE PROVIDED CRITICAL EVIDENCES AFFECTING IBD PATHOGENESIS. OVER THE PAST DECADE, A DEEP UNDERSTANDING OF EPIGENETICS ALONG WITH TECHNOLOGICAL ADVANCES HAVE LED TO IDENTIFYING NUMEROUS GENES THAT ARE REGULATED BY PROMOTER DNA HYPERMETHYLATION IN COLORECTAL DISEASES. RECENT ADVANCES IN OUR UNDERSTANDING OF THE ROLE OF DNA METHYLATION IN COLORECTAL DISEASES COULD IMPROVE A MULTITUDE OF POWERFUL DNA METHYLATION-BASED BIOMARKERS, PARTICULARLY FOR USE AS DIAGNOSIS, PROGNOSIS, AND PREDICTION FOR THERAPEUTIC APPROACHES. THIS REVIEW FOCUSES ON THE EMERGING POTENTIAL FOR TRANSLATIONAL RESEARCH OF EPIGENETIC ALTERATIONS INTO CLINICAL UTILITY AS MOLECULAR BIOMARKERS. MOREOVER, THIS REVIEW DISCUSSES RECENT PROGRESS REGARDING THE IDENTIFICATION OF UNKNOWN HYPERMETHYLATED GENES IN COLON CANCERS AND IBD, AS WELL AS THEIR POSSIBLE ROLE IN CLINICAL PRACTICE, WHICH WILL HAVE IMPORTANT CLINICAL SIGNIFICANCE, PARTICULARLY IN THE ERA OF THE PERSONALIZED MEDICINE. 2021 5 2122 27 EPIGENETIC IMPACT OF INFECTION ON CARCINOGENESIS: MECHANISMS AND APPLICATIONS. VIRAL AND BACTERIAL INFECTIONS ARE INVOLVED IN THE DEVELOPMENT OF HUMAN CANCERS, SUCH AS LIVER, NASOPHARYNGEAL, CERVICAL, HEAD AND NECK, AND GASTRIC CANCERS. ABERRANT DNA METHYLATION IS FREQUENTLY PRESENT IN THESE CANCERS, AND SOME OF THE ABERRANTLY METHYLATED GENES ARE CAUSALLY INVOLVED IN CANCER DEVELOPMENT AND PROGRESSION. NOTABLY, ABERRANT DNA METHYLATION CAN BE PRESENT EVEN IN NON-CANCEROUS OR PRECANCEROUS TISSUES, AND ITS LEVELS CORRELATE WITH THE RISK OF CANCER DEVELOPMENT, PRODUCING A SO-CALLED 'EPIGENETIC FIELD FOR CANCERIZATION'. MECHANISTICALLY, MOST VIRAL OR BACTERIAL INFECTIONS INDUCE DNA METHYLATION INDIRECTLY VIA CHRONIC INFLAMMATION, BUT RECENT STUDIES HAVE INDICATED THAT SOME VIRUSES HAVE DIRECT EFFECTS ON THE EPIGENETIC MACHINERY OF HOST CELLS. FROM A TRANSLATIONAL VIEWPOINT, A RECENT MULTICENTER PROSPECTIVE COHORT STUDY DEMONSTRATED THAT ASSESSMENT OF THE EXTENT OF ALTERATIONS IN DNA METHYLATION IN NON-CANCEROUS TISSUES CAN BE USED TO PREDICT CANCER RISK. FURTHERMORE, SUPPRESSION OF ABERRANT DNA METHYLATION WAS SHOWN TO BE A USEFUL STRATEGY FOR CANCER PREVENTION IN AN ANIMAL MODEL. HERE, WE REVIEW THE INVOLVEMENT OF ABERRANT DNA METHYLATION IN VARIOUS TYPES OF INFECTION-ASSOCIATED CANCERS, ALONG WITH INDIVIDUAL INDUCTION MECHANISMS, AND WE DISCUSS THE APPLICATION OF THESE FINDINGS FOR CANCER PREVENTION, DIAGNOSIS, AND THERAPY. 2016 6 4479 37 MOLECULAR PATHOGENESIS OF ORAL SQUAMOUS CELL CARCINOMA: IMPLICATIONS FOR THERAPY. THE DEVELOPMENT OF ORAL SQUAMOUS CELL CARCINOMA (OSCC) IS A MULTISTEP PROCESS REQUIRING THE ACCUMULATION OF MULTIPLE GENETIC ALTERATIONS, INFLUENCED BY A PATIENT'S GENETIC PREDISPOSITION AS WELL AS BY ENVIRONMENTAL INFLUENCES, INCLUDING TOBACCO, ALCOHOL, CHRONIC INFLAMMATION, AND VIRAL INFECTION. TUMORIGENIC GENETIC ALTERATIONS CONSIST OF TWO MAJOR TYPES: TUMOR SUPPRESSOR GENES, WHICH PROMOTE TUMOR DEVELOPMENT WHEN INACTIVATED; AND ONCOGENES, WHICH PROMOTE TUMOR DEVELOPMENT WHEN ACTIVATED. TUMOR SUPPRESSOR GENES CAN BE INACTIVATED THROUGH GENETIC EVENTS SUCH AS MUTATION, LOSS OF HETEROZYGOSITY, OR DELETION, OR BY EPIGENETIC MODIFICATIONS SUCH AS DNA METHYLATION OR CHROMATIN REMODELING. ONCOGENES CAN BE ACTIVATED THROUGH OVEREXPRESSION DUE TO GENE AMPLIFICATION, INCREASED TRANSCRIPTION, OR CHANGES IN STRUCTURE DUE TO MUTATIONS THAT LEAD TO INCREASED TRANSFORMING ACTIVITY. THIS REVIEW FOCUSES ON THE MOLECULAR MECHANISMS OF ORAL CARCINOGENESIS AND THE USE OF BIOLOGIC THERAPY TO SPECIFICALLY TARGET MOLECULES ALTERED IN OSCC. THE RAPID PROGRESS THAT HAS BEEN MADE IN OUR UNDERSTANDING OF THE MOLECULAR ALTERATIONS CONTRIBUTING TO THE DEVELOPMENT OF OSCC IS LEADING TO IMPROVEMENTS IN THE EARLY DIAGNOSIS OF TUMORS AND THE REFINEMENT OF BIOLOGIC TREATMENTS INDIVIDUALIZED TO THE SPECIFIC CHARACTERISTICS OF A PATIENT'S TUMOR. 2008 7 2975 32 GENETIC AND MOLECULAR ALTERATIONS ASSOCIATED WITH ORAL SQUAMOUS CELL CANCER (REVIEW). THE DEVELOPMENT OF ORAL SQUAMOUS CELL CANCER (OSCC) IS A MULTISTEP PROCESS INVOLVING THE ACCUMULATION OF MULTIPLE GENETIC ALTERATIONS MODULATED BY GENETIC PRE-DISPOSITION AND ENVIRONMENTAL INFLUENCES SUCH AS TOBACCO AND ALCOHOL USE, CHRONIC INFLAMMATION, AND VIRAL INFECTIONS. ALL OF THESE FACTORS CAN LEAD TO A WIDE RANGE OF GENETIC AND MOLECULAR ALTERATIONS THAT CAN BE DETECTED USING A RANGE OF MOLECULAR STUDIES. THE ALTERATIONS MOSTLY AFFECT TWO LARGE GROUPS OF GENES: ONCOGENES AND TUMOR SUPPRESSOR GENES, WHICH CAN BE EITHER INACTIVATED OR OVEREXPRESSED THROUGH MUTATIONS, LOSS OF HETEROZYGOSITY, DELETIONS, OR EPIGENETIC MODIFICATIONS SUCH AS METHYLATION. OTHER MOLECULES THAT ARE CLOSELY ASSOCIATED WITH TUMOR PATHOGENESIS AND PROGNOSIS ALSO EXIST AND WARRANT FURTHER STUDY. IMPORTANT ADVANCES IN MOLECULAR BIOLOGY ARE HELPING TO SHED LIGHT ON ORAL CANCER AND THUS AIDING IN THE EARLY DIAGNOSIS AND DEVELOPMENT OF NEW PERSONALIZED TREATMENT APPROACHES. THE PURPOSE OF THE REVIEW IS TO EXPLORE THE GENETIC AND MOLECULAR ALTERATIONS ASSOCIATED WITH OSCC. 2009 8 5742 27 SMOKING MOLECULAR DAMAGE IN BRONCHIAL EPITHELIUM. OUR UNDERSTANDING OF THE MOLECULAR PATHOLOGY OF LUNG CANCER IS ADVANCING RAPIDLY WITH SEVERAL SPECIFIC GENES AND CHROMOSOMAL REGIONS BEING IDENTIFIED. LUNG CANCER APPEARS TO REQUIRE MANY MUTATIONS IN BOTH DOMINANT AND RECESSIVE ONCOGENES TO POSSESS MALIGNANT PHENOTYPES. SEVERAL GENETIC AND EPIGENETIC CHANGES ARE COMMON TO ALL LUNG CANCER HISTOLOGIC TYPES, WHILE OTHERS APPEAR TO BE CELL TYPE SPECIFIC. HOWEVER, SPECIFIC ROLES OF THE GENES UNDERGOING MUTATIONS AND THE ORDER OF CUMULATIVE MOLECULAR CHANGES THAT LEAD TO THE DEVELOPMENT OF EACH LUNG TUMOR HISTOLOGIC TYPE REMAIN TO BE FULLY ELUCIDATED. RECENT FINDINGS OF MOLECULAR ABNORMALITIES IN NORMAL APPEARING AND PRENEOPLASTIC BRONCHIAL EPITHELIUM FROM PATIENTS WITH LUNG CANCER AND CHRONIC SMOKERS SUGGEST THAT GENETIC CHANGES MAY SERVE AS BIOMARKERS FOR EARLY DIAGNOSIS, RISK ASSESSMENT AND MONITORING RESPONSE TO CHEMOPREVENTION. 2002 9 5291 30 PROSTATE CARCINOGENESIS: INSIGHTS IN RELATION TO EPIGENETICS AND INFLAMMATION. PROSTATE CANCER IS A MULTIFACTORIAL DISEASE THAT MAINLY OCCURS DUE TO THE ACCUMULATION OF SOMATIC, GENETIC, AND EPIGENETIC CHANGES, RESULTING IN THE INACTIVATION OF TUMOR-SUPPRESSOR GENES AND ACTIVATION OF ONCOGENES. MUTATIONS IN GENES, SPECIFICALLY THOSE THAT CONTROL CELL GROWTH AND DIVISION OR THE REPAIR OF DAMAGED DNA, MAKE THE CELLS GROW AND DIVIDE UNCONTROLLABLY TO FORM A TUMOR. THE RISK OF DEVELOPING PROSTATE CANCER DEPENDS UPON THE GENE THAT HAS UNDERGONE THE MUTATION. IDENTIFYING SUCH GENETIC RISK FACTORS FOR PROSTATE CANCER POSES A CHALLENGE FOR THE RESEARCHERS. BESIDES GENETIC MUTATIONS, MANY EPIGENETIC ALTERATIONS, INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS (METHYLATION, ACETYLATION, UBIQUITYLATION, SUMOYLATION, AND PHOSPHORYLATION) NUCLEOSOMAL REMODELING, AND CHROMOSOMAL LOOPING, HAVE SIGNIFICANTLY CONTRIBUTED TO THE ONSET OF PROSTATE CANCER AS WELL AS THE PROGNOSIS, DIAGNOSIS, AND TREATMENT OF PROSTATE CANCER. CHRONIC INFLAMMATION ALSO PLAYS A MAJOR ROLE IN THE ONSET AND PROGRESSION OF HUMAN CANCER, VIA MODIFICATIONS IN THE TUMOR MICROENVIRONMENT BY INITIATING EPITHELIALMESENCHYMAL TRANSITION AND REMODELING THE EXTRACELLULAR MATRIX. IN THIS ARTICLE, THE AUTHORS PRESENT A BRIEF HISTORY OF THE MECHANISMS AND POTENTIAL LINKS BETWEEN THE GENETIC ABERRATIONS, EPIGENETIC CHANGES, INFLAMMATION, AND INFLAMMASOMES THAT ARE KNOWN TO CONTRIBUTE TO THE PROGNOSIS OF PROSTATE CANCER. FURTHERMORE, THE AUTHORS EXAMINE AND DISCUSS THE CLINICAL POTENTIAL OF PROSTATE CARCINOGENESIS IN RELATION TO EPIGENETICS AND INFLAMMATION FOR ITS DIAGNOSIS AND TREATMENT.. 2021 10 2970 33 GENETIC AND EPIGENETIC SIGNATURES IN HUMAN HEPATOCELLULAR CARCINOMA: A SYSTEMATIC REVIEW. HEPATOCELLULAR CARCINOMA (HCC) IS THE THIRD MOST COMMON CAUSE OF CANCER DEATHS WORLDWIDE, AND THE INCIDENCE OF THIS FATAL DISEASE IS STILL ON RISE. THE MAJORITY OF HCCS EMERGE IN THE BACKGROUND OF A CHRONIC LIVER DISEASE, SUCH AS CHRONIC HEPATITIS AND LIVER CIRRHOSIS. THE CURRENT UNDERSTANDING IS THAT MAJORITY OF HCCS EVOLVE AS A CONSEQUENCE OF CHRONIC INFLAMMATION AND DUE TO THE PRESENCE OF INFECTION WITH HEPATITIS VIRUSES. THESE UNDERLYING PATHOGENIC STIMULI SUBSEQUENTLY INDUCE A SPECTRUM OF GENETIC AND EPIGENETIC ALTERATIONS IN SEVERAL CANCER-RELATED GENES, WHICH ARE INVOLVED IN CELL-CYCLE REGULATION, CELL GROWTH AND ADHESION. SUCH WIDESPREAD GENOMIC ALTERATIONS CAUSE DISRUPTION OF NORMAL CELLULAR SIGNALING AND FINALLY LEAD TO THE ACQUISITION OF A MALIGNANT PHENOTYPE IN HCC. IN GENERAL, THE TYPE OF GENE ALTERATIONS, SUCH AS POINT MUTATIONS, DELETION OF CHROMOSOMAL REGIONS AND ABNORMAL METHYLATION OF GENE PROMOTERS DIFFER ACCORDING TO THE INDIVIDUAL TARGETED GENE. IN HCC, INCIDENCE OF GENETIC ALTERATIONS IS RELATIVELY RARE AND IS LIMITED TO A SUBSET OF FEW CANCER-SPECIFIC GENES, SUCH AS THE TUMOR SUPPRESSOR P53, RB GENES AND ONCOGENES SUCH AS THE CTNNB1. IN CONTRAST, EPIGENETIC CHANGES THAT INVOLVE ABERRANT METHYLATION OF GENES AND OTHER POST-TRANSCRIPTIONAL HISTONE MODIFICATIONS OCCUR FAR MORE FREQUENTLY, AND SOME OF THESE EPIGENETIC ALTERATIONS ARE NOW BEING EXPLOITED FOR THE DEVELOPMENT OF MOLECULAR DIAGNOSTIC SIGNATURES FOR HCC. IN ADDITION, RECENT FINDINGS OF UNIQUE MICRORNA EXPRESSION PROFILES ALSO PROVIDE AN EVIDENCE FOR THE EXISTENCE OF NOVEL MECHANISMS FOR GENE EXPRESSION REGULATION IN HCC. IN THIS REVIEW ARTICLE, WE WILL REVIEW THE CURRENT STATE OF KNOWLEDGE ON THE ACTIVATION OF VARIOUS ONCOGENIC PATHWAYS AND THE INACTIVATION OF TUMOR SUPPRESSOR PATHWAYS IN HCC THAT RESULT IN THE DISRUPTION OF CANCER-RELATED GENE FUNCTION. IN ADDITION, WE WILL SPECIFICALLY EMPHASIZE THE CLINICAL IMPLICATION OF SOME OF THESE GENETIC AND EPIGENETIC ALTERATIONS IN THE MANAGEMENT OF HEPATOCARCINOGENESIS. 2011 11 186 26 ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS IN NORMAL CELLS AND CANCER RISK. CANCERS DEVELOP DUE TO THE ACCUMULATION OF GENETIC AND EPIGENETIC ALTERATIONS. GENETIC ALTERATIONS ARE INDUCED BY AGING, MUTAGENIC CHEMICALS, ULTRAVIOLET LIGHT, AND OTHER FACTORS; WHEREAS, EPIGENETIC ALTERATIONS ARE MAINLY BY AGING AND CHRONIC INFLAMMATION. THE ACCUMULATION AND PATTERNS OF ALTERATIONS IN NORMAL CELLS REFLECT OUR PAST EXPOSURE LEVELS AND LIFE HISTORY. MOST ACCUMULATED ALTERATIONS ARE CONSIDERED AS PASSENGERS, BUT THEIR ACCUMULATION IS CORRELATED WITH CANCER DRIVERS. THIS HAS BEEN SHOWN FOR ABERRANT DNA METHYLATION BUT HAS ONLY BEEN SPECULATED FOR GENETIC ALTERATIONS. HOWEVER, RECENT TECHNOLOGICAL ADVANCEMENTS HAVE ENABLED MEASUREMENT OF RARE POINT MUTATIONS, AND STUDIES HAVE SHOWN THAT THEIR ACCUMULATION LEVELS ARE INDEED CORRELATED WITH CANCER RISK. WHEN THE ACCUMULATION LEVELS OF ABERRANT DNA METHYLATION AND POINT MUTATIONS ARE COMBINED, RISK PREDICTION BECOMES EVEN MORE ACCURATE. WHEN HIGH LEVELS OF ALTERATIONS ACCUMULATE, THE TISSUE HAS A HIGH RISK OF DEVELOPING CANCER OR EVEN MULTIPLE CANCERS AND IS CONSIDERED AS A "CANCERIZATION FIELD", WITH OR WITHOUT EXPANSION OF PHYSIOLOGICAL PATCHES OF CLONAL CELLS. IN THIS REVIEW, WE DESCRIBE THE FORMATION OF A CANCERIZATION FIELD AND HOW WE CAN APPLY ITS DETECTION IN PRECISION CANCER RISK DIAGNOSIS. 2019 12 3958 34 LONG NON-CODING RNAS IN BONE METASTASIS: PROGRESSES AND PERSPECTIVES AS POTENTIAL DIAGNOSTIC AND PROGNOSTIC BIOMARKERS. IN A PRECISION MEDICINE PERSPECTIVE, AMONG THE BIOMARKERS POTENTIALLY USEFUL FOR EARLY DIAGNOSIS OF CANCERS, AS WELL AS TO DEFINE THEIR PROGNOSIS AND EVENTUALLY TO IDENTIFY NOVEL AND MORE EFFECTIVE THERAPEUTIC TARGETS, THERE ARE THE LONG NON-CODING RNAS (LNCRNAS). THE TERM LNCRNA IDENTIFIES A CLASS OF NON-CODING RNA MOLECULES INVOLVED IN THE REGULATION OF GENE EXPRESSION THAT INTERVENE AT THE TRANSCRIPTIONAL, POST-TRANSCRIPTIONAL, AND EPIGENETIC LEVEL. METASTASIS IS A NATURAL EVOLUTION OF SOME MALIGNANT TUMOURS, FREQUENTLY ENCOUNTERED IN PATIENTS WITH ADVANCED CANCERS. ONSET AND DEVELOPMENT OF METASTASIS REPRESENTS A DETRIMENTAL EVENT THAT WORSEN THE PATIENT'S PROGNOSIS BY PROFOUNDLY INFLUENCING THE QUALITY OF LIFE AND IS RESPONSIBLE FOR THE OMINOUS PROGRESSION OF THE DISEASE. DUE TO THE PECULIAR ENVIRONMENT AND THE BIOMECHANICAL PROPERTIES, BONE IS A PREFERENTIAL SITE FOR THE SECONDARY GROWTH OF BREAST, PROSTATE AND LUNG CANCERS. UNFORTUNATELY, ONLY PALLIATIVE AND PAIN THERAPIES ARE CURRENTLY AVAILABLE FOR PATIENTS WITH BONE METASTASES, WHILE NO EFFECTIVE AND DEFINITIVE TREATMENTS ARE AVAILABLE. THE UNDERSTANDING OF PATHOPHYSIOLOGICAL BASIS OF BONE METASTASIS FORMATION AND PROGRESSION, AS WELL AS THE IMPROVEMENT IN THE CLINICAL MANAGEMENT OF THE PATIENT, ARE CENTRAL BUT CHALLENGING TOPICS IN BASIC RESEARCH AND CLINICAL PRACTICE. THE IDENTIFICATION OF NEW MOLECULAR SPECIES THAT MAY HAVE A ROLE AS EARLY HALLMARKS OF THE METASTATIC PROCESS COULD OPEN THE DOOR TO THE DEFINITION OF NEW, AND MORE EFFECTIVE, THERAPEUTIC AND DIAGNOSTIC APPROACHES. NON-CODING RNAS SPECIES AND, PARTICULARLY, LNCRNAS ARE PROMISING COMPOUNDS IN THIS SETTING, AND THEIR STUDY MAY BRING TO THE IDENTIFICATION OF RELEVANT PROCESSES. IN THIS REVIEW, WE HIGHLIGHT THE ROLE OF LNCRNAS AS EMERGING MOLECULES IN MEDIATING THE FORMATION AND DEVELOPMENT OF BONE METASTASES, AS POSSIBLE BIOMARKERS FOR CANCER DIAGNOSIS AND PROGNOSIS, AND AS THERAPEUTIC TARGETS TO COUNTERACT CANCER SPREAD. 2023 13 928 25 CHRONIC INFLAMMATION, THE TUMOR MICROENVIRONMENT AND CARCINOGENESIS. CHRONIC INFLAMMATION OFTEN PRECEDES OR ACCOMPANIES A SUBSTANTIAL NUMBER OF CANCERS. INDEED, ANTI-INFLAMMATORY THERAPIES HAVE SHOWN EFFICACY IN CANCER PREVENTION AND TREATMENT. THE EXACT MECHANISMS THAT TURN A WOUND HEALING PROCESS INTO A CANCER PRECURSOR ARE TOPICS OF INTENSE RESEARCH. A PATHOGENIC LINK HAS BEEN IDENTIFIED BETWEEN INFLAMMATORY MEDIATORS, INFLAMMATION RELATED GENE POLYMORPHISMS AND CARCINOGENESIS. ANIMAL MODELS OF CANCER HAVE BEEN INSTRUMENTAL IN DEMONSTRATING THE DIVERSITY OF MECHANISMS THROUGH WHICH EVERY TUMOR COMPARTMENT AND TUMOR STAGE MAY BE AFFECTED BY THE UNDERLYING INFLAMMATORY PROCESS. IN THIS REVIEW, WE FOCUS ON THE INTERACTION BETWEEN CHRONIC INFLAMMATION, TUMOR STEM CELLS AND THE TUMOR MICROENVIRONMENT. WE SUMMARIZE THE PROPOSED MECHANISMS THAT LEAD TO THE RECRUITMENT OF BONE MARROW DERIVED CELLS AND EXPLORE THE GENETIC AND EPIGENETIC ALTERATIONS THAT MAY OCCUR IN INFLAMMATION ASSOCIATED CANCERS. 2009 14 2335 29 EPIGENETIC REGULATION OF INFLAMMATORY CYTOKINES AND ASSOCIATED GENES IN HUMAN MALIGNANCIES. INFLAMMATION IS A MULTIFACETED DEFENSE RESPONSE OF IMMUNE SYSTEM AGAINST INFECTION. CHRONIC INFLAMMATION HAS BEEN IMPLICATED AS AN IMMINENT THREAT FOR MAJOR HUMAN MALIGNANCIES AND IS DIRECTLY LINKED TO VARIOUS STEPS INVOLVED IN TUMORIGENESIS. INFLAMMATORY CYTOKINES, INTERLEUKINS, INTERFERONS, TRANSFORMING GROWTH FACTORS, CHEMOKINES, AND ADHESION MOLECULES HAVE BEEN ASSOCIATED WITH CHRONIC INFLAMMATION. NUMEROUS CYTOKINES ARE REPORTED TO BE ABERRANTLY REGULATED BY DIFFERENT EPIGENETIC MECHANISMS LIKE DNA METHYLATION AND HISTONE MODIFICATIONS IN TUMOR TISSUES, CONTRIBUTING TO PATHOGENESIS OF TUMOR IN MULTIPLE WAYS. SOME OF THESE CYTOKINES ALSO WORK AS EPIGENETIC REGULATORS OF OTHER CRUCIAL GENES IN TUMOR BIOLOGY, EITHER DIRECTLY OR INDIRECTLY. SUCH REGULATIONS ARE REPORTED IN LUNG, BREAST, CERVICAL, GASTRIC, COLORECTAL, PANCREATIC, PROSTATE, AND HEAD AND NECK CANCERS. EPIGENETICS OF INFLAMMATORY MEDIATORS IN CANCER IS CURRENTLY SUBJECT OF EXTENSIVE RESEARCH. THESE INVESTIGATIONS MAY HELP IN UNDERSTANDING CANCER BIOLOGY AND TO DEVELOP EFFECTIVE THERAPEUTIC STRATEGIES. THE PURPOSE OF THIS PAPER IS TO HAVE A BRIEF VIEW OF THE ABERRANT REGULATION OF INFLAMMATORY CYTOKINES IN HUMAN MALIGNANCIES. 2015 15 1180 25 CONVERGENCE OF GENETIC, NUTRITIONAL AND INFLAMMATORY FACTORS IN GASTROINTESTINAL CANCERS. GASTROINTESTINAL CANCERS ACCOUNT FOR 20% OF ALL CANCER INCIDENCES WORLDWIDE. COLORECTAL CANCER IS THE SECOND MOST COMMON CAUSE OF ALL CANCER-RELATED MORTALITY AND IS INCREASING IN WESTERN SOCIETIES. INFECTION AND INFLAMMATION CONTRIBUTE TO 15-20% OF ALL MALIGNANCIES, AND ARE PREDISPOSING RISK FACTORS FOR GASTROINTESTINAL CANCERS. HELICOBACTER PYLORI INFECTION IS COMMONLY ASSOCIATED WITH GASTRIC CANCERS, AND CHRONIC INFLAMMATION INCREASES THE RISK OF COLORECTAL CANCER BY 1% PER YEAR. MICRONUTRIENT STATUS AND COMMON GENETIC VARIATIONS IN HUMAN POPULATIONS MODIFY RISK FOR GASTROINTESTINAL CANCER. CHRONIC INFLAMMATION PROMOTES CARCINOGENESIS BY INDUCING GENE MUTATIONS, INHIBITING APOPTOSIS, AND STIMULATING ANGIOGENESIS AND CELL PROLIFERATION. INFLAMMATION ALSO INDUCES EPIGENETIC ALTERATIONS THAT ARE ASSOCIATED WITH CANCER DEVELOPMENT. TWO KEY GENES IN THE INFLAMMATORY PROCESS, CYCLOOXYGENASE-2 (COX-2) AND NUCLEAR FACTOR-KAPPA B (NF-KAPPAB), PROVIDE A MECHANISTIC LINK BETWEEN INFLAMMATION AND CANCER AND ARE TARGETS FOR CHEMOPREVENTION. DIETARY COMPONENTS, AND HUMAN GENETIC VARIATION THAT AFFECTS NUTRIENT UTILIZATION, CAN DIRECTLY MODIFY INFLAMMATORY PROCESSES AND/OR SUPPRESS GENOMIC ALTERATIONS THAT ARE THE MOLECULAR ANTECEDENTS OF CANCERS. THE PRESENT REPORT FOCUSES ON THE CONVERGENCE OF GENETIC, NUTRITIONAL, AND INFLAMMATORY FACTORS IN THE INITIATION AND PROGRESSION OF GASTROINTESTINAL CANCERS, AND THE EMERGING DIETARY STRATEGIES FOR CANCER PREVENTION. 2007 16 3964 31 LONG NONCODING RNAS IN LUNG CANCER. DESPITE GREAT PROGRESS IN RESEARCH AND TREATMENT OPTIONS, LUNG CANCER REMAINS THE LEADING CAUSE OF CANCER-RELATED DEATHS WORLDWIDE. ONCOGENIC DRIVER MUTATIONS IN PROTEIN-ENCODING GENES WERE DEFINED AND ALLOW FOR PERSONALIZED THERAPIES BASED ON GENETIC DIAGNOSES. NONETHELESS, DIAGNOSIS OF LUNG CANCER MOSTLY OCCURS AT LATE STAGES, AND CHRONIC TREATMENT IS FOLLOWED BY A FAST ONSET OF CHEMORESISTANCE. HENCE, THERE IS AN URGENT NEED FOR RELIABLE BIOMARKERS AND ALTERNATIVE TREATMENT OPTIONS. WITH THE ERA OF WHOLE GENOME AND TRANSCRIPTOME SEQUENCING TECHNOLOGIES, LONG NONCODING RNAS EMERGED AS A NOVEL CLASS OF VERSATILE, FUNCTIONAL RNA MOLECULES. ALTHOUGH FOR MOST OF THEM THE MECHANISM OF ACTION REMAINS TO BE DEFINED, ACCUMULATING EVIDENCE CONFIRMS THEIR INVOLVEMENT IN VARIOUS ASPECTS OF LUNG TUMORIGENESIS. THEY ARE FUNCTIONAL ON THE EPIGENETIC, TRANSCRIPTIONAL, AND POSTTRANSCRIPTIONAL LEVEL AND ARE REGULATORS OF PATHOPHYSIOLOGICAL KEY PATHWAYS INCLUDING CELL GROWTH, APOPTOSIS, AND METASTASIS. LONG NONCODING RNAS ARE GAINING INCREASING ATTENTION AS POTENTIAL BIOMARKERS AND A NOVEL CLASS OF DRUGGABLE MOLECULES. IT HAS BECOME CLEAR THAT WE ARE ONLY BEGINNING TO UNDERSTAND THE COMPLEXITY OF TUMORIGENIC PROCESSES. THE CLINICAL INTEGRATION OF LONG NONCODING RNAS IN TERMS OF PROGNOSTIC AND PREDICTIVE BIOMARKER SIGNATURES AND ADDITIONAL CANCER TARGETS COULD PROVIDE A CHANCE TO INCREASE THE THERAPEUTIC BENEFIT. HERE, WE REVIEW THE CURRENT KNOWLEDGE ABOUT THE EXPRESSION, REGULATION, BIOLOGICAL FUNCTION, AND CLINICAL RELEVANCE OF LONG NONCODING RNAS IN LUNG CANCER. 2016 17 4481 31 MOLECULAR PROFILING OF CHRONIC LYMPHOCYTIC LEUKAEMIA: GENETICS MEETS EPIGENETICS TO IDENTIFY PREDISPOSING GENES. MOLECULAR PROFILING MAY LEAD TO A BETTER UNDERSTANDING OF A DISEASE. THIS KNOWLEDGE IS ESPECIALLY IMPORTANT IN MALIGNANCIES, WHERE MULTIPLE ALTERATIONS ARE REQUIRED DURING THE PROGRESSION FROM PREMALIGNANT TO MALIGNANT STAGES. SUCH INFORMATION CAN BE USEFUL FOR THE DEVELOPMENT OF NOVEL BIOMARKERS THAT ALLOW THE PREDICTION OF A CLINICAL COURSE, RESPONSE TO TREATMENT OR EARLY DETECTION. MOLECULAR DATA IS ALSO UTILIZED TO DEVELOP TARGETED THERAPIES. MOREOVER, GENE DEFECTS IDENTIFIED IN PROFILING STUDIES WILL HELP TO UNDERSTAND THE MOLECULAR PATHWAYS DISRUPTED IN THE DISEASE. THIS REVIEW PROVIDES AN OVERVIEW OF MOLECULAR PROFILING APPROACHES IN CHRONIC LYMPHOCYTIC LEUKAEMIA (CLL). WE WILL DESCRIBE OUR CURRENT UNDERSTANDING OF GENETIC ALTERATIONS IN CLL, THE USE OF FAMILIAL CLL FOR THE IDENTIFICATION OF PREDISPOSING MUTATIONS, AND THE SEARCH FOR EPIGENETIC ALTERATIONS IN CLL. 2007 18 2852 31 FROM GASTRIC INFLAMMATION TO GASTRIC CANCER. THE MAJORITY OF GASTRIC ADENOCARCINOMAS ARE RELATED TO CHRONIC INFLAMMATION INDUCED BY HELICOBACTER PYLORI INFECTION. FOR INTESTINAL-TYPE GASTRIC CANCER, A MULTISTEP PROCESS OF MUCOSAL ALTERATIONS LEADING FROM GASTRITIS VIA GLANDULAR ATROPHY, INTESTINAL METAPLASIA AND DYSPLASIA TO INVASIVE CARCINOMA IS WELL RECOGNIZED. ONGOING CLINICAL STUDIES FOCUS ON A 'POINT OF NO RETURN'. IT IS DEFINED AS A SITUATION WHEN CERTAIN ALTERATIONS ARE NO LONGER REVERSIBLE BY H. PYLORI ERADICATION AND PROGRESSION TO GASTRIC CANCER MAY CONTINUE. H. PYLORI AFFECTS THE MUCOSAL AS WELL AS THE SYSTEMIC IMMUNE RESPONSE BY SECRETION OF CYTOKINES AND THE RECRUITMENT OF DISTINCT INFLAMMATORY CELLS. THE IMMUNE RESPONSE IS CHARACTERIZED BY A BALANCE BETWEEN A TH1-DOMINATED RESPONSE AND THE RECRUITMENT OF ANTIGEN-SPECIFIC REGULATORY T CELLS THAT ALLOW THE BACTERIA TO PERSIST IN HUMAN GASTRIC MUCOSA. BESIDES IMMUNE-MEDIATED EFFECTS, H. PYLORI INDUCES CELLULAR ALTERATIONS AS WELL AS GENETIC ALTERATIONS IN GENES THAT ARE ESSENTIAL FOR THE EPIGENETIC INTEGRITY AND MUCOSAL HOMEOSTASIS. THESE GENETIC ALTERATIONS DURING GASTRIC CANCER DEVELOPMENT ARE IN FOCUS OF INTENSIVE RESEARCH AND SHOULD ULTIMATELY ALLOW THE IDENTIFICATION OF RISK FACTORS INVOLVED IN GASTRIC CARCINOGENESIS. THE DETECTION OF INDIVIDUALS AT HIGH RISK FOR GASTRIC CANCER WOULD HELP TO DESIGN APPROPRIATE STRATEGIES FOR PREVENTION AND SURVEILLANCE. 2010 19 4539 23 MULTISTAGE CARCINOGENESIS IN MOUSE SKIN. THE MOUSE SKIN MODEL OF MULTISTAGE CARCINOGENESIS HAS FOR MANY YEARS PROVIDED A CONCEPTUAL FRAMEWORK FOR STUDYING CARCINOGENESIS MECHANISMS AND POTENTIAL MEANS FOR INHIBITING SPECIFIC STAGES OF CARCINOGENESIS. THE PROCESS OF SKIN CARCINOGENESIS INVOLVES THE STEPWISE ACCUMULATION OF GENETIC CHANGE ULTIMATELY LEADING TO MALIGNANCY. INITIATION, THE FIRST STEP IN MULTISTAGE SKIN CARCINOGENESIS INVOLVES CARCINOGEN-INDUCED GENETIC CHANGES. A TARGET GENE IDENTIFIED FOR SOME SKIN TUMOR INITIATORS IS C-HA-RAS. THE SECOND STEP, THE PROMOTION STAGE, INVOLVES PROCESSES WHEREBY INITIATED CELLS UNDERGO SELECTIVE CLONAL EXPANSION TO FORM VISIBLE PREMALIGNANT LESIONS TERMED PAPILLOMAS. THE PROCESS OF TUMOR PROMOTION INVOLVES THE PRODUCTION AND MAINTENANCE OF A SPECIFIC AND CHRONIC HYPERPLASIA CHARACTERIZED BY A SUSTAINED CELLULAR PROLIFERATION OF EPIDERMAL CELLS. THESE CHANGES ARE BELIEVED TO RESULT FROM EPIGENETIC MECHANISMS SUCH AS ACTIVATION OF THE CELLULAR RECEPTOR, PROTEIN KINASE C, BY SOME CLASSES OF TUMOR PROMOTERS. THE PROGRESSION STAGE INVOLVES THE CONVERSION OF PAPILLOMAS TO MALIGNANT TUMORS, SQUAMOUS CELL CARCINOMAS. THE ACCUMULATION OF ADDITIONAL GENETIC CHANGES IN CELLS COMPRISING PAPILLOMAS HAS BEEN CORRELATED WITH TUMOR PROGRESSION, INCLUDING TRISOMIES OF CHROMOSOMES 6 AND 7 AND LOSS OF HETEROZYGOSITY. THE CURRENT REVIEW FOCUSES ON THE MECHANISMS INVOLVED IN MULTISTAGE SKIN CARCINOGENESIS, A SUMMARY OF KNOWN INHIBITORS OF SPECIFIC STAGES AND THEIR PROPOSED MECHANISMS OF ACTION, AND THE RELEVANCE OF THIS MODEL SYSTEM TO HUMAN CANCER. 1992 20 3220 34 HELICOBACTER PYLORI AND MICRORNAS: RELATION WITH INNATE IMMUNITY AND PROGRESSION OF PRENEOPLASTIC CONDITIONS. THE ACCEPTED PARADIGM FOR INTESTINAL-TYPE GASTRIC CANCER PATHOGENESIS IS A MULTISTEP PROGRESSION FROM CHRONIC GASTRITIS INDUCED BY HELICOBACTER PYLORI (H. PYLORI) TO GASTRIC ATROPHY, INTESTINAL METAPLASIA, DYSPLASIA AND ULTIMATELY GASTRIC CANCER. THE GENETIC AND MOLECULAR MECHANISMS UNDERLYING DISEASE PROGRESSION ARE STILL NOT COMPLETELY UNDERSTOOD AS ONLY A FRACTION OF COLONIZED INDIVIDUALS EVER DEVELOP NEOPLASIA SUGGESTING THAT BACTERIAL, HOST AND ENVIRONMENTAL FACTORS ARE INVOLVED. MICRORNAS ARE NONCODING RNAS THAT MAY INFLUENCE H. PYLORI-RELATED PATHOLOGY THROUGH THE REGULATION OF THE TRANSCRIPTION AND EXPRESSION OF VARIOUS GENES, PLAYING AN IMPORTANT ROLE IN INFLAMMATION, CELL PROLIFERATION, APOPTOSIS AND DIFFERENTIATION. INDEED, H. PYLORI HAVE BEEN SHOWN TO MODIFY MICRORNA EXPRESSION IN THE GASTRIC MUCOSA AND MICRORNAS ARE INVOLVED IN THE IMMUNE HOST RESPONSE TO THE BACTERIA AND IN THE REGULATION OF THE INFLAMMATORY RESPONSE. MICRORNAS HAVE A KEY ROLE IN THE REGULATION OF INFLAMMATORY PATHWAYS AND H. PYLORI MAY INFLUENCE INFLAMMATION-MEDIATED GASTRIC CARCINOGENESIS POSSIBLY THROUGH DNA METHYLATION AND EPIGENETIC SILENCING OF TUMOR SUPPRESSOR MICRORNAS. FURTHERMORE, MICRORNAS INFLUENCED BY H. PYLORI ALSO HAVE BEEN FOUND TO BE INVOLVED IN CELL CYCLE REGULATION, APOPTOSIS AND EPITHELIAL-MESENCHYMAL TRANSITION. ALTOGETHER, MICRORNAS SEEM TO HAVE AN IMPORTANT ROLE IN THE PROGRESSION FROM GASTRITIS TO PRENEOPLASTIC CONDITIONS AND NEOPLASTIC LESIONS AND SINCE EACH MICRORNA CAN CONTROL THE EXPRESSION OF HUNDREDS TO THOUSANDS OF GENES, KNOWLEDGE OF MICRORNAS TARGET GENES AND THEIR FUNCTIONS ARE OF PARAMOUNT IMPORTANCE. IN THIS ARTICLE WE PRESENT A COMPREHENSIVE REVIEW ABOUT THE ROLE OF MICRORNAS IN H. PYLORI GASTRIC CARCINOGENESIS, IDENTIFYING THE MICRORNAS DOWNREGULATED AND UPREGULATED IN THE INFECTION AND CLARIFYING THEIR BIOLOGICAL ROLE IN THE LINK BETWEEN IMMUNE HOST RESPONSE, INFLAMMATION, DNA METHYLATION AND GASTRIC CARCINOGENESIS. 2015