1 4666 114 NEW INSIGHTS AND OPTIONS INTO THE MECHANISMS AND EFFECTS OF COMBINED TARGETED THERAPY AND IMMUNOTHERAPY IN PROSTATE CANCER. CHRONIC INFLAMMATION IS BELIEVED TO DRIVE PROSTATE CARCINOGENESIS BY PRODUCING REACTIVE OXYGEN SPECIES OR REACTIVE NITROGEN SPECIES TO INDUCE DNA DAMAGE. THIS EFFECT MIGHT SUBSEQUENTLY CAUSE EPIGENETIC AND GENOMIC ALTERATIONS, LEADING TO MALIGNANT TRANSFORMATION. ALTHOUGH ESTABLISHED THERAPEUTIC ADVANCES HAVE EXTENDED OVERALL SURVIVAL, TUMORS IN PATIENTS WITH ADVANCED PROSTATE CANCER ARE PRONE TO METASTASIS, TRANSFORMATION INTO METASTATIC CASTRATION-RESISTANT PROSTATE CANCER, AND THERAPEUTIC RESISTANCE. THE TUMOR MICROENVIRONMENT (TME) OF PROSTATE CANCER IS INVOLVED IN CARCINOGENESIS, INVASION AND DRUG RESISTANCE. A PLETHORA OF PRECLINICAL STUDIES HAVE FOCUSED ON IMMUNE-BASED THERAPIES. UNDERSTANDING THE INTRICATE TME SYSTEM IN PROSTATE CANCER MAY HOLD MUCH PROMISE FOR DEVELOPING NOVEL THERAPIES, DESIGNING COMBINATIONAL THERAPEUTIC STRATEGIES, AND FURTHER OVERCOMING RESISTANCE TO ESTABLISHED TREATMENTS TO IMPROVE THE LIVES OF PROSTATE CANCER PATIENTS. IN THIS REVIEW, WE DISCUSS NONIMMUNE COMPONENTS AND VARIOUS IMMUNE CELLS WITHIN THE TME AND THEIR PUTATIVE ROLES DURING PROSTATE CANCER INITIATION, PROGRESSION, AND METASTASIS. WE ALSO OUTLINE THE UPDATED FUNDAMENTAL RESEARCH FOCUSING ON THERAPEUTIC ADVANCES OF TARGETED THERAPY AS WELL AS COMBINATIONAL OPTIONS FOR PROSTATE CANCER. 2023 2 5944 33 TARGETING SMALL MOLECULE TYROSINE KINASES BY POLYPHENOLS: NEW MOVE TOWARDS ANTI-TUMOR DRUG DISCOVERY. BACKGROUND: CANCER IS A COMPLEX DISEASE INVOLVING GENETIC AND EPIGENETIC ALTERATION THAT ALLOWS CELLS TO ESCAPE NORMAL HOMEOSTASIS. KINASES PLAY A CRUCIAL ROLE IN SIGNALING PATHWAYS THAT REGULATE CELL FUNCTIONS. DEREGULATION OF KINASES LEADS TO A VARIETY OF PATHOLOGICAL CHANGES, ACTIVATING CANCER CELL PROLIFERATION AND METASTASES. THE MOLECULAR MECHANISM OF CANCER IS COMPLEX AND THE DYSREGULATION OF TYROSINE KINASES LIKE ANAPLASTIC LYMPHOMA KINASE (ALK), BCR-ABL (FUSION GENE FOUND IN PATIENT WITH CHRONIC MYELOGENOUS LEUKEMIA (CML), JAK (JANUS ACTIVATED KINASE), SRC FAMILY KINASES (SFKS), ALK (ANAPLASTIC LYMPHOMA KINASE), C-MET (MESENCHYMAL- EPITHELIAL TRANSITION), EGFR (EPIDERMAL GROWTH FACTOR RECEPTOR), PDGFR (PLATELET-DERIVED GROWTH FACTOR RECEPTOR), RET (REARRANGED DURING TRANSFECTION) AND VEGFR (VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTOR) PLAYS MAJOR ROLE IN THE PROCESS OF CARCINOGENESIS. RECENTLY, KINASE INHIBITORS HAVE OVERCOME MANY PROBLEMS OF TRADITIONAL CANCER CHEMOTHERAPY AS THEY EFFECTIVELY SEPARATE OUT NORMAL, NON-CANCER CELLS AS WELL AS RAPIDLY MULTIPLYING CANCER CELLS. METHODS: ELECTRONIC DATABASES WERE SEARCHED TO EXPLORE THE SMALL MOLECULE TYROSINE KINASES BY POLYPHENOLS WITH THE HELP OF DOCKING STUDY (GLIDE-7.6 PROGRAM INTERFACED WITH MAESTRO-V11.3 OF SCHRODINGER 2017) TO SHOW THE BINDING ENERGIES OF POLYPHENOLS INHIBITOR WITH DIFFERENT TYROSINE KINASES IN ORDER TO DIFFERENTIATE BETWEEN THE TARGETS. RESULTS: FROM THE LITERATURE SURVEY, IT WAS OBSERVED THAT THE NUMBER OF POLYPHENOLS DERIVED FROM NATURAL SOURCES ALTERS THE EXPRESSION AND SIGNALING CASCADE OF TYROSINE KINASE IN VARIOUS TUMOR MODELS. THEREFORE, THE DEVELOPMENT OF POLYPHENOLS AS A TYROSINE KINASE INHIBITOR AGAINST TARGETED PROTEINS IS REGARDED AS AN UPCOMING TREND FOR CHEMOPREVENTION. CONCLUSION: IN THIS REVIEW, WE HAVE DISCUSSED THE ROLE OF POLYPHENOLS AS CHEMORECEPTIVE WHICH WILL HELP IN FUTURE FOR THE DEVELOPMENT AND DISCOVERY OF NOVEL SEMISYNTHETIC ANTICANCER AGENTS COUPLED WITH POLYPHENOLS. 2020 3 2189 26 EPIGENETIC MECHANISMS UNDERLYING THE THERAPEUTIC EFFECTS OF HDAC INHIBITORS IN CHRONIC MYELOID LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A HEMATOLOGICAL DISORDER CAUSED BY THE ONCOGENIC BCR-ABL FUSION PROTEIN IN MORE THAN 90% OF PATIENTS. DESPITE THE STRIKING IMPROVEMENTS IN THE MANAGEMENT OF CML PATIENTS SINCE THE INTRODUCTION OF TYROSINE KINASE INHIBITORS (TKIS), THE APPEARANCE OF TKI RESISTANCE AND SIDE EFFECTS LEAD TO TREATMENT FAILURE, JUSTIFYING THE NEED OF NOVEL THERAPEUTIC APPROACHES. HISTONE DEACETYLASE INHIBITORS (HDACIS), ABLE TO MODULATE GENE EXPRESSION PATTERNS AND IMPORTANT CELLULAR SIGNALING PATHWAYS THROUGH THE REGULATION OF THE ACETYLATION STATUS OF BOTH HISTONE AND NON-HISTONE PROTEIN TARGETS, HAVE BEEN REPORTED TO DISPLAY PROMISING ANTI-LEUKEMIC PROPERTIES ALONE OR IN COMBINATION WITH TKIS. THIS REVIEW SUMMARIZES PRE-CLINICAL AND CLINICAL STUDIES THAT INVESTIGATED THE MECHANISMS UNDERLYING THE ANTICANCER POTENTIAL OF HDACIS AND DISCUSSES THE RATIONALE FOR A COMBINATION OF HDACIS WITH TKIS AS A THERAPEUTIC OPTION IN CML. 2020 4 3571 32 IMPACT OF LOCAL ANESTHETICS ON EPIGENETICS IN CANCER. DEFECTIVE SILENCING OF TUMOR SUPPRESSOR GENES THROUGH EPIGENETIC ALTERATIONS CONTRIBUTES TO ONCOGENESIS BY PERTURBING CELL CYCLE REGULATION, DNA REPAIR OR CELL DEATH MECHANISMS. REVERSAL OF SUCH EPIGENETIC CHANGES INCLUDING DNA HYPERMETHYLATION PROVIDES A PROMISING ANTICANCER STRATEGY. UNTIL NOW, THE NUCLEOSIDE DERIVATIVES 5-AZACYTIDINE AND DECITABINE ARE THE SOLE DNA METHYLTRANSFERASE (DNMT) INHIBITORS APPROVED BY THE FDA FOR THE TREATMENT OF SPECIFIC HEMATOLOGICAL CANCERS. NEVERTHELESS, DUE TO THEIR NUCLEOSIDE STRUCTURE, THESE INHIBITORS DIRECTLY INCORPORATE INTO DNA, WHICH LEADS TO SEVERE SIDE EFFECTS AND COMPROMISES GENOMIC STABILITY. MUCH EMPHASIS HAS BEEN PLACED ON THE DEVELOPMENT OF LESS TOXIC EPIGENETIC MODIFIERS. RECENTLY, SEVERAL PRECLINICAL STUDIES DEMONSTRATED THE POTENT EPIGENETIC EFFECTS OF LOCAL ANESTHETICS, WHICH ARE ROUTINELY USED DURING PRIMARY TUMOR RESECTION TO RELIEF SURGICAL PAIN. THESE NON-NUCLEOSIDE MOLECULES INHIBIT DNMT ACTIVITY, AFFECT THE EXPRESSION OF MICRO-RNAS AND REPRESS HISTONE ACETYLATION, THUS EXERTING CYTOTOXIC EFFECTS ON MALIGNANT CELLS. THE IN-DEPTH MECHANISTIC COMPREHENSION OF THESE EPIGENETIC EFFECTS MIGHT PROMOTE THE USE OF LOCAL ANESTHETICS AS ANTICANCER DRUGS. 2022 5 740 39 CANCER/TESTIS ANTIGENS: EXPRESSION, REGULATION, TUMOR INVASION, AND USE IN IMMUNOTHERAPY OF CANCERS. CANCER/TESTIS ANTIGENS (CTAS) ARE NAMED BASED ON THEIR EXPRESSION PATTERN THAT IS RESTRICTED IN A NUMBER OF NORMAL AND ABNORMAL TISSUES. TUMOR CELLS FREQUENTLY EXPRESS ANTIGENS WHOSE EXPRESSION IS TYPICALLY RESTRICTED TO GERM CELLS. THEIR UNIQUE EXPRESSION PATTERN IS GUARANTEED BY PRECISE EPIGENETIC REGULATORY MECHANISMS. BECAUSE OF THEIR TUMOR-LIMITED, HIGH IMMUNOGENICITY, AND BIASED EXPRESSION, DISCOVERY OF THESE MOLECULES PROVIDES UNPRECEDENTED OPPORTUNITIES FOR FURTHER RESEARCH AND CLINICAL DEVELOPMENT IN THE FIELD OF CANCER DIAGNOSIS AND IMMUNOTHERAPY. EVOLVING EVIDENCE REVEALS THAT A NUMBER OF CTAS STIMULATE EPITHELIAL MESENCHYMAL TRANSITION (EMT) AND GENERATION OF CANCER STEM-LIKE CELLS, INTENSIFYING METASTASIS, INVASION, AND TUMORIGENESIS. BASED ON THESE FEATURES, CTAS ATTRACT ATTENTION TO BE CONSIDERED AS IDEAL TARGETS FOR DEVELOPING SEVERAL CLINICAL TRIALS, MANY OF THEM CONCENTRATING ON CTA VACCINE THERAPY. ACCORDING TO RECENT PRACTICAL CLINICAL INTEREST, MORE CHARACTERIZATIONS OF CTA REGULATION ARE IDENTIFIED. CTA EXPRESSION HAS BEEN DEMONSTRATED IN A VARIETY OF HUMAN CANCER TISSUES, AND SOME OF THEM HAVE BEEN FOUND TO ELICIT HUMORAL AND/OR CELLULAR IMMUNE RESPONSES IN CANCER PATIENTS. CTAS ARE BRILLIANT TARGETS FOR ANTICANCER DRUG DISCOVERY, TARGETED TUMOR THERAPY, AND DIAGNOSTIC BIOMARKERS, FURTHERMORE, VALUED GENES IN THE STUDY OF IMMUNOTHERAPY, PROMOTING TUMORIGENESIS, AND MALIGNANT PROGRESSION. THIS REVIEW OUTLINES AND CATEGORIZES OUR CURRENT UNDERSTANDING OF THE COMPLEX AND BIASED PROCESS OF CTAS MRNA AND PROTEIN EXPRESSION IN CANCER, AND SUPPLIES THE MOST RECENT INFORMATION ON THEIR REGULATION AND FUNCTION. BESIDES, A CONCISE SYNOPSIS OF THE MAJOR CLINICAL TRIALS INVOLVING CTAS, AS THERAPEUTIC AVENUES, IS DISCUSSED. ABBREVIATIONS: AIRE: AUTOIMMUNE REGULATOR; CAMP: CYCLIC ADENOSINE 3',5'-CYCLIC MONOPHOSPHATE; CEA: CARCINOEMBRYONIC ANTIGEN; CML: CHRONIC MYELOID LEUKEMIA; CREB: CYCLICAMP RESPONSE ELEMENT BINDING; CSCS: CANCER STEM CELLS; CTAS: CANCER/TESTIS ANTIGENS; CTL: CYTOTOXIC T LYMPHOCYTE; DCS: DENDRITIC CELLS; EMT: EPITHELIAL-MESENCHYMAL TRANSITION; ERK: EXTRACELLULAR SIGNAL-REGULATED KINASE; ESCC: ESOPHAGEAL SQUAMOUS CELL CARCINOMA; ETS: E26 TRANSFORMATION-SPECIFIC; HIS: HISTIDINE; HLA: HUMAN LEUKOCYTE ANTIGEN; HNSCC: HEAD AND NECK SQUAMOUS CELL CARCINOMA; IFN-GAMMA: INTERFERON-GAMMA; IHC: IMMUNOHISTOCHEMISTRY; IL-7: INTERLEUKIN7; MHC: MAJOR HISTOCOMPATIBILITY COMPLEX; MMP2: MATRIX METALLOPROTEINASE 2; MTECS: MEDULLARY THYMUS EPITHELIAL CELLS; MUC1: MUCIN 1; NSCLC: NON-SMALL CELL LUNG CANCER; PRAME: PREFERENTIALLY EXPRESSED ANTIGEN IN MELANOMA; RDA: REPRESENTATIONAL DIFFERENCE ANALYSIS; SEREX: SEROLOGICAL ANALYSIS OF CDNA EXPRESSION; SSX: SYNOVIAL SARCOMA X CHROMOSOME; TAAS: TUMOR-ASSOCIATED ANTIGENS; TCR: T-CELL RECEPTOR; TCGA: THE CANCER GENOME ATLAS; TGF-BETA: TRANSFORMING GROWTH FACTOR-BETA. 2016 6 261 30 ADVANCES IN TARGET THERAPY FOR LUNG CANCER. RECENT PROGRESS IN MOLECULAR BIOLOGY HAS SHOWN THAT CANCER CELLS ACQUIRE COMMON PHENOTYPES SUCH AS SELF-SUFFICIENCY OF GROWTH SIGNALS, RESISTANCE TO ANTI-PROLIFERATIVE AND APOPTOTIC SIGNALS THROUGH THE ACCUMULATION OF GENETIC AND EPIGENETIC CHANGES. RECENTLY DEVELOPED ANTICANCER DRUGS TARGET THESE MOLECULAR MECHANISMS AND GOOD RESULTS HAVE BEEN REPORTED FOR VARIOUS CANCER TYPES. IN LUNG CANCER, TYROSINE KINASE INHIBITORS SPECIFIC FOR THE EPIDERMAL GROWTH FACTOR RECEPTOR SUCH AS GEFITINIB AND ERLOTINIB HAVE CHANGED CLINICAL PRACTICE DRAMATICALLY. ABOUT HALF OF THE JAPANESE PATIENTS WITH LUNG CANCERS HARBOR AN ACTIVATING MUTATION OF THE EPIDERMAL GROWTH FACTOR RECEPTOR GENE AND THEY ARE VERY SENSITIVE TO EPIDERMAL GROWTH FACTOR RECEPTOR TYROSINE KINASE INHIBITORS. PROGRESSION-FREE SURVIVAL OF SUCH PATIENTS IS APPROXIMATELY 10 MONTHS WHEN TREATED WITH GEFITINIB, WHEREAS THE SURVIVAL FOR THOSE TREATED WITH PLATINUM DOUBLET THERAPY IS APPROXIMATELY 6 MONTHS. TARGET THERAPIES AGAINST ECHINODERM MICROTUBULE-ASSOCIATED PROTEIN-LIKE 4-ANAPLASTIC LYMPHOMA KINASE FUSION PROTEIN OR A MUTATED ERBB2 (V-ERB-B AVIAN ERYTHROBLASTIC LEUKEMIA VIRAL ONCOGENE HOMOLOGUE 2) PRESENT IN APPROXIMATELY 5% AND APPROXIMATELY 3% OF THE JAPANESE PATIENTS WITH ADENOCARCINOMAS, RESPECTIVELY, ARE CURRENTLY UNDER DEVELOPMENT. ADDITION OF AN ANTI-EPIDERMAL GROWTH FACTOR RECEPTOR ANTIBODY, CETUXIMAB, OR ANTI-VASCULAR ENDOTHELIAL GROWTH FACTOR ANTIBODY, BEVACIZUMAB, TO PLATINUM DOUBLET THERAPY SIGNIFICANTLY BUT MODESTLY PROLONGED THE SURVIVAL IN RECENT CLINICAL TRIALS. HOWEVER, CLINICAL DEVELOPMENT OF SMALL MOLECULE MULTI-KINASE INHIBITORS INCLUDING THOSE TARGETING VASCULAR ENDOTHELIAL GROWTH FACTOR RECEPTORS, SUCH AS VANDETANIB, SUNITINIB AND SORAFENIB, HAS NOT BEEN VERY SUCCESSFUL. THROUGH THESE COLLABORATIONS AMONG CLINICIANS, BASIC RESEARCHERS AND PHARMACEUTICAL COMPANIES, IT SHOULD BE POSSIBLE TO INDIVIDUALIZE LUNG CANCER TREATMENT TO TURN THIS FATAL DISEASE INTO A CHRONIC DISORDER AND, EVENTUALLY, TO CURE IT. 2010 7 1621 42 DNA METHYLTRANSFERASES AS TARGETS FOR CANCER THERAPY. METHYLATION OF DNA AT 5-POSITION OF CYTOSINE, CATALYZED BY DNA METHYLTRANSFERASES, IS THE PREDOMINANT EPIGENETIC MODIFICATION IN MAMMALS. ABERRATIONS IN METHYLATION PLAY A CAUSAL ROLE IN A VARIETY OF DISEASES, INCLUDING CANCER. RECENT STUDIES HAVE ESTABLISHED THAT LIKE MUTATION, METHYLATION-MEDIATED GENE SILENCING OFTEN LEADS TO TUMORIGENESIS. PARADOXICALLY, GENOME-WIDE DNA HYPOMETHYLATION MAY ALSO PLAY A CAUSAL ROLE IN CARCINOGENESIS BY INDUCING CHROMOSOMAL INSTABILITY AND SPURIOUS GENE EXPRESSION. SINCE METHYLATION DOES NOT ALTER DNA BASE SEQUENCE, MUCH ATTENTION HAS BEEN FOCUSED RECENTLY ON DEVELOPING SMALL MOLECULE INHIBITORS OF DNA METHYLTRANSFERASES THAT CAN POTENTIALLY BE USED AS ANTICANCER AGENTS. VIDAZA (5-AZACYTIDINE), MARKETED BY PHARMION (BOULDER, CO, USA), WAS THE FIRST DNA METHYLTRANSFERASE INHIBITOR APPROVED BY THE U.S. FOOD AND DRUG ADMINISTRATION (FDA) FOR CHEMOTHERAPY AGAINST MYELODYSPLASTIC SYNDROME (MDS), A HETEROGENEOUS BONE MARROW DISORDER. RECENTLY MGI PHARMA INC. (BLOOMINGTON, MN, USA) GOT FDA APPROVAL TO MARKET DACOGEN (5-AZA-2'-DEOXYCYTIDINE, OR DECITABINE) FOR TREATING MDS PATIENTS. THESE DRUGS WERE USED EARLIER AGAINST CERTAIN ANEMIAS TO INDUCE EXPRESSION OF FETAL GLOBIN GENES. INTEREST IN CLINICAL TRIALS OF THESE DRUGS AS ANTICANCER AGENTS HAS BEEN RENEWED ONLY RECENTLY BECAUSE OF REVERSAL OF METHYLATION-MEDIATED SILENCING OF CRITICAL GENES IN CANCER. CLINICAL TRIALS HAVE SHOWN THAT BOTH DRUGS HAVE THERAPEUTIC POTENTIAL AGAINST LEUKEMIA SUCH AS MDS, ACUTE MYELOID LEUKEMIA, CHRONIC MYELOGENOUS LEUKEMIA AND CHRONIC MYELOMONOCYTIC LEUKEMIA. IN CONTRAST, THEIR EFFECTIVENESS WITH SOLID TUMORS APPEARS TO BE LESS PROMISING, WHICH CHALLENGES RESEARCHERS TO DEVELOP INHIBITORS WITH MORE EFFICACY AND LESS TOXICITY. THE MAJOR HINDRANCE OF THEIR USAGE AS ANTICANCER AGENTS IS THEIR INSTABILITY IN VIVO AS WELL AS THE TOXICITY SECONDARY TO THEIR EXCESSIVE INCORPORATION INTO DNA, WHICH CAUSES CELL CYCLE ARREST. GENE EXPRESSION PROFILING IN CANCER CELLS REVEALED THAT ANTINEOPLASTIC PROPERTY OF THESE DRUGS IS MEDIATED THROUGH BOTH METHYLATION-DEPENDENT AND -INDEPENDENT PATHWAYS. RECENTLY, WE HAVE SHOWN THAT TREATMENT OF CANCER CELLS WITH THESE CYTIDINE ANALOGUES ALSO INDUCES PROTEASOMAL DEGRADATION OF DNA METHYLTRANSFERASE 1, THE UBIQUITOUSLY EXPRESSED ENZYME UPREGULATED IN ALMOST ALL CANCER CELLS. DEVELOPMENT OF RELATED STABLE DRUGS THAT CAN FACILITATE GENE ACTIVATION IN CANCER CELLS BY ENHANCING DEGRADATION OF DNA METHYLTRANSFERASES WITHOUT BEING INCORPORATED INTO DNA WOULD BE IDEAL FOR CHEMOTHERAPY. IN THIS MONOGRAPH WE REVIEW HISTORICAL PERSPECTIVE AND RECENT ADVANCES ON THE MOLECULAR MECHANISMS OF ACTION AND CLINICAL APPLICATIONS OF THESE DNA HYPOMETHYLATING AGENTS. 2007 8 6198 41 THE IMPLICATION OF CANCER PROGENITOR CELLS AND THE ROLE OF EPIGENETICS IN THE DEVELOPMENT OF NOVEL THERAPEUTIC STRATEGIES FOR CHRONIC MYELOID LEUKEMIA. SIGNIFICANCE: CHRONIC MYELOID LEUKEMIA (CML) INVOLVES THE MALIGNANT TRANSFORMATION OF HEMATOPOIETIC STEM CELLS, DEFINED LARGELY BY THE PHILADELPHIA CHROMOSOME AND EXPRESSION OF THE BREAKPOINT CLUSTER REGION-ABELSON (BCR-ABL) ONCOPROTEIN. PHARMACOLOGICAL TYROSINE KINASE INHIBITORS (TKIS), INCLUDING IMATINIB MESYLATE, HAVE OVERCOME LIMITATIONS IN CONVENTIONAL TREATMENT FOR THE IMPROVED CLINICAL MANAGEMENT OF CML. RECENT ADVANCES: ACCUMULATED EVIDENCE HAS LED TO THE IDENTIFICATION OF A SUBPOPULATION OF QUIESCENT LEUKEMIA PROGENITOR CELLS WITH STEM-LIKE SELF RENEWAL PROPERTIES THAT MAY INITIATE LEUKEMOGENESIS, WHICH ARE ALSO SHOWN TO BE PRESENT IN RESIDUAL DISEASE DUE TO THEIR INSENSITIVITY TO TYROSINE KINASE INHIBITION. CRITICAL ISSUES: THE CHARACTERIZATION OF QUIESCENT LEUKEMIA PROGENITOR CELLS AS A UNIQUE CELL POPULATION IN CML PATHOGENESIS HAS BECOME CRITICAL WITH THE COMPLETE ELUCIDATION OF MECHANISMS INVOLVED IN THEIR SURVIVAL INDEPENDENT OF BCR-ABL THAT IS IMPORTANT IN THE DEVELOPMENT OF NOVEL ANTICANCER STRATEGIES. UNDERSTANDING OF THESE FUNCTIONAL PATHWAYS IN CML PROGENITOR CELLS WILL ALLOW FOR THEIR SELECTIVE THERAPEUTIC TARGETING. IN ADDITION, DISEASE PATHOGENESIS AND DRUG RESPONSIVENESS IS ALSO THOUGHT TO BE MODULATED BY EPIGENETIC REGULATORY MECHANISMS SUCH AS DNA METHYLATION, HISTONE ACETYLATION, AND MICRORNA EXPRESSION, WITH A CAPACITY TO CONTROL CML-ASSOCIATED GENE TRANSCRIPTION. FUTURE DIRECTIONS: A NUMBER OF COMPOUNDS IN COMBINATION WITH TKIS ARE UNDER PRECLINICAL AND CLINICAL INVESTIGATION TO ASSESS THEIR SYNERGISTIC POTENTIAL IN TARGETING LEUKEMIC PROGENITOR CELLS AND/OR THE EPIGENOME IN CML. DESPITE THE COLLECTIVE PROMISE, FURTHER RESEARCH IS REQUIRED IN ORDER TO REFINE UNDERSTANDING, AND, ULTIMATELY, ADVANCE ANTILEUKEMIC THERAPEUTIC STRATEGIES. 2015 9 1397 30 DIET PHYTOCHEMICALS AND CUTANEOUS CARCINOMA CHEMOPREVENTION: A REVIEW. CUTANEOUS CARCINOMA, WHICH HAS OCCUPIED A PECULIAR PLACE AMONG WORLDWIDE POPULATIONS, IS COMMONLY RESPONSIBLE FOR THE CONSIDERABLY INCREASING MORBIDITY AND MORTALITY RATES. CURRENTLY AVAILABLE MEDICAL PROCEDURES FAIL TO COMPLETELY AVOID CUTANEOUS CARCINOMA DEVELOPMENT OR TO PREVENT MORTALITY. CANCER CHEMOPREVENTION, AS AN ALTERNATIVE STRATEGY, IS BEING CONSIDERED TO REDUCE THE INCIDENCE AND BURDEN OF CANCERS THROUGH CHEMICAL AGENTS. DERIVED FROM DIETARY FOODS, PHYTOCHEMICALS HAVE BECOME SAFE AND RELIABLE COMPOUNDS FOR THE CHEMOPREVENTION OF CUTANEOUS CARCINOMA BY RELIEVING MULTIPLE PATHOLOGICAL PROCESSES, INCLUDING OXIDATIVE DAMAGE, EPIGENETIC ALTERATION, CHRONIC INFLAMMATION, ANGIOGENESIS, ETC. IN THIS REVIEW, WE PRESENTED COMPREHENSIVE KNOWLEDGES, MAIN MOLECULAR MECHANISMS FOR THE INITIATION AND DEVELOPMENT OF CUTANEOUS CARCINOMA AS WELL AS EFFECTS OF VARIOUS DIET PHYTOCHEMICALS ON CHEMOPREVENTION. 2017 10 4533 32 MULTIPLE GENE KNOCKDOWN STRATEGIES FOR INVESTIGATING THE PROPERTIES OF HUMAN LEUKEMIA STEM CELLS AND EXPLORING NEW THERAPIES. THE PAST TWO DECADES HAVE WITNESSED SIGNIFICANT STRIDES IN LEUKEMIA THERAPIES THROUGH APPROVAL OF THERAPEUTIC INHIBITORS TARGETING ONCOGENE-DRIVING DYSREGULATED TYROSINE KINASE ACTIVITIES AND KEY EPIGENETIC AND APOPTOSIS REGULATORS. ALTHOUGH THESE DRUGS HAVE BROUGHT ABOUT COMPLETE REMISSION IN THE MAJORITY OF PATIENTS, MANY PATIENTS FACE RELAPSE OR HAVE REFRACTORY DISEASE. THE MAIN FACTOR CONTRIBUTING TO RELAPSE IS THE PRESENCE OF A SMALL SUBPOPULATION OF DORMANT DRUG-RESISTANT LEUKEMIA CELLS THAT POSSESS STEM CELL FEATURES (TERMED AS LEUKEMIA STEM CELLS OR LSCS). THUS, OVERCOMING DRUG RESISTANCE AND TARGETING LSCS REMAIN MAJOR CHALLENGES FOR CURATIVE TREATMENT OF HUMAN LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A GOOD EXAMPLE, WITH RARE, PROPAGATING LSCS AND DRUG-RESISTANT CELLS THAT CANNOT BE ERADICATED BY BCR-ABL-DIRECTED TYROSINE KINASE INHIBITOR (TKI) MONOTHERAPY AND THAT ARE RESPONSIBLE FOR DISEASE RELAPSE/PROGRESSION. THEREFORE, IT IS IMPERATIVE TO IDENTIFY KEY PLAYERS IN REGULATING BCR-ABL1-DEPENDENT AND INDEPENDENT DRUG-RESISTANCE MECHANISMS, AND THEIR KEY PATHWAYS, SO THAT CML LSCS CAN BE SELECTIVELY TARGETED OR SENSITIZED TO TKIS. HERE, WE DESCRIBE SEVERAL EASILY ADAPTABLE GENE KNOCKDOWN APPROACHES IN CD34(+) CML STEM/PROGENITOR CELLS THAT CAN BE USED TO INVESTIGATE THE BIOLOGICAL PROPERTIES OF LSCS AND MOLECULAR EFFECTS OF GENES OF INTEREST (GOI), WHICH CAN BE FURTHER EXPLORED AS THERAPEUTIC MODALITIES AGAINST LSCS IN THE CONTEXT OF HUMAN LEUKEMIA. 2022 11 1685 28 DRUGGABLE BIOCHEMICAL PATHWAYS AND POTENTIAL THERAPEUTIC ALTERNATIVES TO TARGET LEUKEMIC STEM CELLS AND ELIMINATE THE RESIDUAL DISEASE IN CHRONIC MYELOID LEUKEMIA. CHRONIC MYELOID LEUKEMIA (CML) IS A DISEASE ARISING IN STEM CELLS EXPRESSING THE BCR-ABL ONCOGENIC TYROSINE KINASE THAT TRANSFORMS ONE HEMATOPOIETIC STEM/PROGENITOR CELL INTO A LEUKEMIC STEM CELL (LSC) AT THE ORIGIN OF DIFFERENTIATED AND PROLIFERATING LEUKEMIC CELLS IN THE BONE MARROW (BM). CML-LSCS ARE RECOGNIZED AS BEING RESPONSIBLE FOR RESISTANCES AND RELAPSES THAT OCCUR DESPITE THE ADVENT OF BCR-ABL-TARGETING THERAPIES WITH TYROSINE KINASE INHIBITORS (TKIS). LSCS SHARE A LOT OF FUNCTIONAL PROPERTIES WITH HEMATOPOIETIC STEM CELLS (HSCS) ALTHOUGH SOME PHENOTYPICAL AND FUNCTIONAL DIFFERENCES HAVE BEEN DESCRIBED DURING THE LAST TWO DECADES. SUBVERTED MECHANISMS AFFECTING EPIGENETIC PROCESSES, APOPTOSIS, AUTOPHAGY AND MORE RECENTLY METABOLISM AND IMMUNOLOGY IN THE BONE MARROW MICROENVIRONMENT (BMM) HAVE BEEN REPORTED. THE AIM OF THIS REVIEW IS TO BRING TOGETHER THE MODIFICATIONS AND MOLECULAR MECHANISMS THAT ARE KNOWN TO ACCOUNT FOR TKI RESISTANCE IN PRIMARY CML-LSCS AND TO FOCUS ON THE POTENTIAL SOLUTIONS THAT CAN CIRCUMVENT THESE RESISTANCES, IN PARTICULAR THOSE THAT HAVE BEEN, OR WILL BE TESTED IN CLINICAL TRIALS. 2019 12 2823 32 FLAVONOIDS AS EPIGENETIC MODULATORS FOR PROSTATE CANCER PREVENTION. PROSTATE CANCER (PCA) IS A MULTIFACTORIAL DISEASE WITH AN UNCLEAR ETIOLOGY. DUE TO ITS HIGH PREVALENCE, LONG LATENCY, AND SLOW PROGRESSION, PCA IS AN IDEAL TARGET FOR CHEMOPREVENTION STRATEGIES. MANY RESEARCH STUDIES HAVE HIGHLIGHTED THE POSITIVE EFFECTS OF NATURAL FLAVONOIDS ON CHRONIC DISEASES, INCLUDING PCA. DIFFERENT CLASSES OF DIETARY FLAVONOIDS EXHIBIT ANTI-OXIDATIVE, ANTI-INFLAMMATORY, ANTI-MUTAGENIC, ANTI-AGING, CARDIOPROTECTIVE, ANTI-VIRAL/BACTERIAL AND ANTI-CARCINOGENIC PROPERTIES. WE OVERVIEWED THE MOST RECENT EVIDENCE OF THE ANTITUMORAL EFFECTS EXERTED BY DIETARY FLAVONOIDS, WITH A SPECIAL FOCUS ON THEIR EPIGENETIC ACTION IN PCA. EPIGENETIC ALTERATIONS HAVE BEEN IDENTIFIED AS KEY INITIATING EVENTS IN SEVERAL KINDS OF CANCER. MANY DIETARY FLAVONOIDS HAVE BEEN FOUND TO REVERSE DNA ABERRATIONS THAT PROMOTE NEOPLASTIC TRANSFORMATION, PARTICULARLY FOR PCA. THE EPIGENETIC TARGETS OF THE ACTIONS OF FLAVONOIDS INCLUDE ONCOGENES AND TUMOR SUPPRESSOR GENES, INDIRECTLY CONTROLLED THROUGH THE REGULATION OF EPIGENETIC ENZYMES SUCH AS DNA METHYLTRANSFERASE (DNMT), HISTONE ACETYLTRANSFERASE (HAT), AND HISTONE DEACETYLASE (HDAC). IN ADDITION, FLAVONOIDS WERE FOUND CAPABLE OF RESTORING MIRNA AND LNCRNA EXPRESSION THAT IS ALTERED DURING DISEASES. THE OPTIMIZATION OF THE USE OF FLAVONOIDS AS NATURAL EPIGENETIC MODULATORS FOR CHEMOPREVENTION AND AS A POSSIBLE TREATMENT OF PCA AND OTHER KINDS OF CANCERS COULD REPRESENT A PROMISING AND VALID STRATEGY TO INHIBIT CARCINOGENESIS AND FIGHT CANCER. 2020 13 2983 45 GENETIC DETERMINANTS OF CANCER COAGULOPATHY, ANGIOGENESIS AND DISEASE PROGRESSION. PROGRESSION OF HUMAN MALIGNANCIES IS ACCOMPANIED BY VASCULAR EVENTS, SUCH AS FORMATION AND REMODELING OF BLOOD VESSELS AND SYSTEMIC COAGULOPATHY. THOUGH LONG APPRECIATED AS COMORBIDITY OF CANCER (TROUSSEAU SYNDROME), VASCULAR INVOLVEMENT IS INCREASINGLY RECOGNIZED AS A CENTRAL PATHOGENETIC MECHANISM OF TUMOR GROWTH, INVASION AND METASTASIS. THE MAJOR OUTSTANDING QUESTION IN RELATION TO THIS ROLE HAS BEEN, WHETHER VASCULAR PERTURBATIONS ARE SIMPLY A REACTION TO THE CONDITIONS OF THE TUMOR MICROENVIRONMENT, OR ARE LINKED TO THE KNOWN GENETIC LESIONS CAUSAL FOR THE ONSET AND PROGRESSION OF MALIGNANCY. IN THIS REGARD, WE HAVE PREVIOUSLY HYPOTHESIZED, AND RECENTLY DEMONSTRATED EXPERIMENTALLY THAT DEREGULATION OF CERTAIN HEMOSTATIC MECHANISMS, NAMELY UPREGULATION OF TISSUE FACTOR (TF) AND POSSIBLY OTHER CHANGES (E.G. EXPRESSION OF THROMBIN RECEPTOR - PAR-1) ARE CONTROLLED BY CANCER-ASSOCIATED ONCOGENIC EVENTS, SUCH AS ACTIVATION OF K-RAS, EPIDERMAL GROWTH FACTOR RECEPTOR (EGFR), OR INACTIVATION OF THE P53 TUMOR SUPPRESSOR GENE IN VARIOUS HUMAN CANCER CELLS. IT APPEARS THAT THESE RESPECTIVE TRANSFORMING ALTERATIONS EXERT THEIR IMPACT ON BOTH, CELL-ASSOCIATED AND SOLUBLE/CIRCULATING (MICROVESICLE- ASSOCIATED) TF, I.E. MAY CAUSE A SYSTEMIC HYPERCOAGULABLE STATE. OTHER GENES, WHICH MORE RECENTLY EMERGED AS REGULATORS OF CANCER COAGULOPATHY INCLUDE: PML-RARALPHA, PTEN, AND MET. WHILE THE SPECTRUM OF PROCOAGULANT TARGETS OF THESE GENES MAY VARY SOMEWHAT IT INCLUDES: TF, PAI-1, COX-2 AND POSSIBLY OTHER HEMOSTATIC PROTEINS. IT IS NOTEWORTHY THAT THESE PROTHROMBOTIC CHANGES MAY IMPACT THE MALIGNANT PROCESS DIRECTLY (E.G. STIMULATE ANGIOGENESIS, TUMOR GROWTH OR METASTASIS) AS A CONSEQUENCE OF BOTH COAGULATION-DEPENDENT AND -INDEPENDENT EFFECTS. THE LATTER ARE MOSTLY RELATED TO CELLULAR SIGNALING EVENTS AND CHANGES IN GENE EXPRESSION WHICH ARE NOW KNOWN TO BE INDUCED BY THE TF/FVIIA/XA COMPLEX, THROMBIN AND PARS, EXPRESSED ON THE SURFACE OF CANCER CELLS, AS WELL AS TUMOR-ASSOCIATED ENDOTHELIUM. INTERESTINGLY, CERTAIN ANTICOAGULANTS POSSESS ANTIMETASTATIC AND ANTICANCER PROPERTIES (E.G. LMWH), AN OBSERVATION THAT FURTHER SUGGESTS THAT HYPERCOAGULABILITY MAY ACT AS AN EFFECTOR MECHANISM OF GENETICALLY DRIVEN TUMOR PROGRESSION. CONVERSELY, WE SUGGEST THAT ONCOGENE-DIRECTED (TARGETED) ANTICANCER AGENTS COULD, AT LEAST IN SOME CASES, AMELIORATE NOT ONLY CELLULAR TRANSFORMATION ITSELF, BUT ALSO SOME OF THE CHRONIC COMPONENTS OF THE CANCER-RELATED COAGULOPATHY, SOMETHING THAT MAY BE RELEVANT TO THERAPEUTIC EFFICACY OF THESE DRUGS. WE ALSO POSTULATE THAT SINCE TF IS THE ONCOGENE TARGET, CIRCULATING TF (MICROPARTICLES) COULD SERVE AS SURROGATE MARKER OF THE BIOLOGICAL ACTIVITY ONCOGENE-DIRECTED AGENTS EXERT IN VIVO. THUS, BOTH GENETIC AND EPIGENETIC FACTORS APPEAR TO CONSPIRE TO ACTIVATE VARIOUS COMPONENTS OF THE HEMOSTATIC SYSTEM IN CANCER PATIENTS, BOTH LOCALLY AND SYSTEMICALLY. THESE ACTIVITIES ACT AS MEDIATORS OF CANCER COAGULOPATHY, ANGIOGENESIS, METASTASIS AND OTHER EVENTS INVOLVED IN DISEASE PROGRESSION AND SHOULD BE RECOGNIZED IN DESIGNING BETTER ANTICANCER THERAPIES. 2006 14 306 33 AKT TARGETING AS A STRATEGY TO BOOST CHEMOTHERAPY EFFICACY IN NON-SMALL CELL LUNG CANCER THROUGH METABOLISM SUPPRESSION. METABOLIC REPROGRAMMING IS A HALLMARK OF CANCER DEVELOPMENT, MEDIATED BY GENETIC AND EPIGENETIC ALTERATIONS THAT MAY BE PHARMACOLOGICALLY TARGETED. AMONG ONCOGENES, THE KINASE AKT IS COMMONLY OVEREXPRESSED IN TUMORS AND FAVORS GLYCOLYSIS, PROVIDING A RATIONALE FOR USING AKT INHIBITORS. HERE, WE ADDRESSED THE QUESTION OF WHETHER AND HOW INHIBITING AKT ACTIVITY COULD IMPROVE THERAPY OF NON-SMALL CELL LUNG CANCER (NSCLC) THAT REPRESENTS MORE THAN 80% OF ALL LUNG CANCER CASES. FIRST, WE DEMONSTRATED THAT AKT INHIBITORS INTERACTED SYNERGISTICALLY WITH MICROTUBULE-TARGETING AGENTS (MTAS) AND SPECIFICALLY IN CANCER CELL LINES, INCLUDING THOSE RESISTANT TO CHEMOTHERAPY AGENTS AND ANTI-EGFR TARGETED THERAPIES. IN VIVO, WE FURTHER REVEALED THAT THE CHRONIC ADMINISTRATION OF LOW-DOSES OF PACLITAXEL - I.E. METRONOMIC SCHEDULING - AND THE ANTI-AKT PERIFOSINE WAS THE MOST EFFICIENT AND THE BEST TOLERATED TREATMENT AGAINST NSCLC. REGARDING DRUG MECHANISM OF ACTION, PERIFOSINE POTENTIATED THE PRO-APOPTOTIC EFFECTS OF PACLITAXEL, INDEPENDENTLY OF CELL CYCLE ARREST, AND COMBINING PACLITAXEL/PERIFOSINE RESULTED IN A SUSTAINED SUPPRESSION OF GLYCOLYTIC AND MITOCHONDRIAL METABOLISM. THIS STUDY POINTS OUT THAT TARGETING CANCER CELL BIOENERGETICS MAY REPRESENT A NOVEL THERAPEUTIC AVENUE IN NSCLC, AND PROVIDES A STRONG FOUNDATION FOR FUTURE CLINICAL TRIALS OF METRONOMIC MTAS COMBINED WITH AKT INHIBITORS. 2017 15 6609 27 TYROSINE KINASE INHIBITORS IN PH+ CHRONIC MYELOID LEUKEMIA THERAPY: A REVIEW. CHRONIC MYELOID LEUKAEMIA (CML) IS A CLONAL MYELOPROLIFERATIVE HEMATOPOIETIC STEM CELL DISORDER. DEREGULATED BCRABL FUSION TYROSINE KINASE ACTIVITY IS THE MAIN CAUSE OF CML DISEASE PATHOGENESIS, MAKING BCRABL AN IDEAL TARGET FOR INHIBITION. CURRENT TYROSINE KINASE INHIBITORS (TKIS) DESIGNED TO INHIBIT BCRABL ONCOPROTEIN ACTIVITY, HAVE COMPLETELY TRANSFORMED THE PROGNOSIS OF CML. INTERRUPTION OF TKI TREATMENT LEADS TO MINIMAL RESIDUAL DISEASE RESIDE (MRD), THOUGHT TO RESIDE IN TKIINSENSITIVE LEUKAEMIA STEM CELLS WHICH REMAIN A POTENTIAL RESERVOIR FOR DISEASE RELAPSE. THIS HIGHLIGHTS THE NEED TO DEVELOP NEW THERAPEUTIC STRATEGIES FOR CML EITHER AS SMALL MOLECULE MASTER TKIS OR PHYTOPHARMACEUTICALS DERIVED FROM NATURE TO ACHIEVE CHRONIC MOLECULAR REMISSION. THIS REVIEW OUTLINES THE PAST, PRESENT AND FUTURE THERAPEUTIC APPROACHES FOR CML INCLUDING COVERAGE OF RELEVANT MECHANISMS, WHETHER ABL DEPENDENT OR INDEPENDENT, AND EPIGENETIC FACTORS RESPONSIBLE FOR DEVELOPING RESISTANCE AGAINST TKIS. APPEARANCE OF MUTANT CLONES ALONG THE COURSE OF THERAPY EITHER PREEXISTING OR INDUCED DUE TO THERAPY IS STILL A CHALLENGE FOR THE CLINICIAN. A PROPOSED INVITRO MODEL OF GENERATING COLONY FORMING UNITS FROM CML STEM CELLS DERIVED FROM DIAGNOSTIC SAMPLES SEEMS TO BE ACHIEVABLE IN THE ERA OF HIGH THROUGHPUT TECHNOLOGY WHICH CAN TAKE CARE OF SINGLE CELL GENOMIC PROFILING. 2016 16 5352 44 RE-ESTABLISHING THE COMPREHENSION OF PHYTOMEDICINE AND NANOMEDICINE IN INFLAMMATION-MEDIATED CANCER SIGNALING. RECENT MOUNTING EVIDENCE HAS REVEALED EXTENSIVE GENETIC HETEROGENEITY WITHIN TUMORS THAT DRIVE PHENOTYPIC VARIATION AFFECTING KEY CANCER PATHWAYS, MAKING CANCER TREATMENT EXTREMELY CHALLENGING. DIVERSE CANCER TYPES DISPLAY RESISTANCE TO TREATMENT AND SHOW PATTERNS OF RELAPSE FOLLOWING THERAPY. THEREFORE, EFFORTS ARE REQUIRED TO ADDRESS TUMOR HETEROGENEITY BY DEVELOPING A BROAD-SPECTRUM THERAPEUTIC APPROACH THAT COMBINES TARGETED THERAPIES. INFLAMMATION HAS BEEN PROGRESSIVELY DOCUMENTED AS A VITAL FACTOR IN TUMOR ADVANCEMENT AND HAS CONSEQUENCES IN EPIGENETIC VARIATIONS THAT SUPPORT TUMOR INSTIGATION, ENCOURAGING ALL THE TUMORIGENESIS PHASES. INCREASED DNA DAMAGE, DISRUPTED DNA REPAIR MECHANISMS, CELLULAR PROLIFERATION, APOPTOSIS, ANGIOGENESIS, AND ITS INCURSION ARE A FEW PRO-CANCEROUS OUTCOMES OF CHRONIC INFLAMMATION. A CLEAR UNDERSTANDING OF THE CELLULAR AND MOLECULAR SIGNALING MECHANISMS OF TUMOR-ENDORSING INFLAMMATION IS NECESSARY FOR FURTHER EXPANSION OF ANTI-CANCER THERAPEUTICS TARGETING THE CROSSTALK BETWEEN TUMOR DEVELOPMENT AND INFLAMMATORY PROCESSES. MULTIPLE INFLAMMATORY SIGNALING PATHWAYS, SUCH AS THE NF-KAPPAB SIGNALING PATHWAY, JAK-STAT SIGNALING PATHWAY, MAPK SIGNALING, PI3K/AKT/MTOR SIGNALING, WNT SIGNALING CASCADE, AND TGF-BETA/SMAD SIGNALING, HAVE BEEN FOUND TO REGULATE INFLAMMATION, WHICH CAN BE MODULATED USING VARIOUS FACTORS SUCH AS SMALL MOLECULE INHIBITORS, PHYTOCHEMICALS, RECOMBINANT CYTOKINES, AND NANOPARTICLES (NPS) IN CONJUGATION TO PHYTOCHEMICALS TO TREAT CANCER. RESEARCHERS HAVE IDENTIFIED MULTIPLE TARGETS TO SPECIFICALLY ALTER INFLAMMATION IN CANCER THERAPY TO RESTRICT MALIGNANT PROGRESSION AND IMPROVE THE EFFICACY OF CANCER THERAPY. SIRNA-AND SHRNA-LOADED NPS HAVE BEEN OBSERVED TO DOWNREGULATE STAT3 SIGNALING PATHWAYS AND HAVE BEEN EMPLOYED IN STUDIES TO TARGET TUMOR MALIGNANCIES. THIS REVIEW HIGHLIGHTS THE PATHWAYS INVOLVED IN THE INTERACTION BETWEEN TUMOR ADVANCEMENT AND INFLAMMATORY PROGRESSION, ALONG WITH THE NOVEL APPROACHES OF NANOTECHNOLOGY-BASED DRUG DELIVERY SYSTEMS CURRENTLY USED TO TARGET INFLAMMATORY SIGNALING PATHWAYS TO COMBAT CANCER. 2022 17 109 40 A REVIEW ON THE THERAPEUTIC ROLE OF TKIS IN CASE OF CML IN COMBINATION WITH EPIGENETIC DRUGS. CHRONIC MYELOID LEUKEMIA IS A MALIGNANCY OF BONE MARROW THAT AFFECTS WHITE BLOOD CELLS. THERE IS STRONG EVIDENCE THAT DISEASE PROGRESSION, TREATMENT RESPONSES, AND OVERALL CLINICAL OUTCOMES OF CML PATIENTS ARE INFLUENCED BY THE ACCUMULATION OF OTHER GENETIC AND EPIGENETIC ABNORMALITIES, RATHER THAN ONLY THE BCR/ABL1 ONCOPROTEIN. BOTH GENETIC AND EPIGENETIC FACTORS INFLUENCE THE EFFICACY OF CML TREATMENT STRATEGIES. TARGETED MEDICINES KNOWN AS TYROSINE-KINASE INHIBITORS HAVE DRAMATICALLY IMPROVED LONG-TERM SURVIVAL RATES IN CML PATIENTS DURING THE PREVIOUS 2 DECADES. WHEN COMPARED TO EARLIER CHEMOTHERAPY TREATMENTS, THESE DRUGS HAVE REVOLUTIONIZED CML TREATMENT AND ALLOWED MOST PEOPLE TO LIVE LONGER LIVES. ALTHOUGH EPIGENETIC INHIBITORS' ACTIVITY IS DISRUPTED IN MANY CANCERS, INCLUDING CML, BUT WHEN COMBINED WITH TKI, THEY MAY OFFER POTENTIAL THERAPEUTIC STRATEGIES FOR THE TREATMENT OF CML CELLS. THE EPIGENETICS OF TYROSINE KINASE INHIBITORS AND RESISTANCE TO THEM IS BEING STUDIED, WITH A PARTICULAR FOCUS ON IMATINIB, WHICH IS USED TO TREAT CML. IN ADDITION, THE USE OF EPIGENETIC DRUGS IN CONJUNCTION WITH TKIS HAS BEEN DISCUSSED. RESISTANCE TO TKIS IS STILL A PROBLEM IN CURING THE DISEASE, NECESSITATING THE DEVELOPMENT OF NEW THERAPIES. THIS STUDY FOCUSED ON EPIGENETIC PATHWAYS INVOLVED IN CML PATHOGENESIS AND TUMOR CELL RESISTANCE TO TKIS, BOTH OF WHICH CONTRIBUTE TO LEUKEMIC CLONE BREAKOUT AND PROLIFERATION. 2021 18 6592 37 TUMOR-ASSOCIATED MACROPHAGES IN HEPATOCELLULAR CARCINOMA PATHOGENESIS, PROGNOSIS AND THERAPY. HEPATOCELLULAR CARCINOMA (HCC) CONSTITUTES A MAJOR HEALTH BURDEN GLOBALLY, AND IT IS CAUSED BY INTRINSIC GENETIC MUTATIONS ACTING IN CONCERT WITH A MULTITUDE OF EPIGENETIC AND EXTRINSIC RISK FACTORS. CANCER INDUCES MYELOPOIESIS IN THE BONE MARROW, AS WELL AS THE MOBILIZATION OF HEMATOPOIETIC STEM AND PROGENITOR CELLS, WHICH RESIDE IN THE SPLEEN. MONOCYTES PRODUCED IN THE BONE MARROW AND THE SPLEEN FURTHER INFILTRATE TUMORS, WHERE THEY DIFFERENTIATE INTO TUMOR-ASSOCIATED MACROPHAGES (TAMS). THE RELATIONSHIP BETWEEN CHRONIC INFLAMMATION AND HEPATOCARCINOGENESIS HAS BEEN THOROUGHLY INVESTIGATED OVER THE PAST DECADE; HOWEVER, SEVERAL ASPECTS OF THE ROLE OF TAMS IN HCC DEVELOPMENT ARE YET TO BE DETERMINED. IN RESPONSE TO CERTAIN STIMULI AND SIGNALING, MONOCYTES DIFFERENTIATE INTO MACROPHAGES WITH ANTITUMOR PROPERTIES, WHICH ARE CLASSIFIED AS M1-LIKE. ON THE OTHER HAND, UNDER DIFFERENT STIMULI AND SIGNALING, THE POLARIZATION OF MACROPHAGES SHIFTS TOWARDS AN M2-LIKE PHENOTYPE WITH A TUMOR PROMOTING CAPACITY. M2-LIKE MACROPHAGES DRIVE TUMOR GROWTH BOTH DIRECTLY AND INDIRECTLY, VIA THE SUPPRESSION OF CYTOTOXIC CELL POPULATIONS, INCLUDING CD8+ T CELLS AND NK CELLS. THE TUMOR MICROENVIRONMENT AFFECTS THE RESPONSE TO IMMUNOTHERAPIES. THEREFORE, AN ENHANCED UNDERSTANDING OF ITS IMMUNOBIOLOGY IS ESSENTIAL FOR THE DEVELOPMENT OF NEXT-GENERATION IMMUNOTHERAPIES. THE UTILIZATION OF VARIOUS MONOCYTE-CENTERED ANTICANCER TREATMENT MODALITIES HAS BEEN UNDER CLINICAL INVESTIGATION, SELECTIVELY TARGETING AND MODULATING THE PROCESSES OF MONOCYTE RECRUITMENT, ACTIVATION AND MIGRATION. THIS REVIEW SUMMARIZES THE CURRENT EVIDENCE ON THE ROLE OF TAMS IN HCC PATHOGENESIS AND PROGRESSION, AS WELL AS IN THEIR POTENTIAL INVOLVEMENT IN TUMOR THERAPY, SHEDDING LIGHT ON EMERGING ANTICANCER TREATMENT METHODS TARGETING MONOCYTES. 2022 19 1142 29 CONCISE REVIEW: CHRONIC MYELOID LEUKEMIA: STEM CELL NICHE AND RESPONSE TO PHARMACOLOGIC TREATMENT. NOWADAYS, MORE THAN 90% OF PATIENTS AFFECTED BY CHRONIC MYELOID LEUKEMIA (CML) SURVIVE WITH A GOOD QUALITY OF LIFE, THANKS TO THE CLINICAL EFFICACY OF TYROSINE KINASE INHIBITORS (TKIS). NEVERTHELESS, POINT MUTATIONS OF THE ABL1 POCKET OCCURRING DURING TREATMENT MAY REDUCE BINDING OF TKIS, BEING RESPONSIBLE OF ABOUT 20% OF CASES OF RESISTANCE AMONG CML PATIENTS. IN ADDITION, THE PRESENCE OF LEUKEMIC STEM CELLS (LSCS) REPRESENTS THE MOST IMPORTANT EVENT IN LEUKEMIA PROGRESSION RELATED TO TKI RESISTANCE. LSCS EXPRESS STEM CELL MARKERS, INCLUDING ACTIVE EFFLUX PUMPS AND GENETIC AND EPIGENETIC ALTERATIONS TOGETHER WITH DEREGULATED CELL SIGNALING PATHWAYS INVOLVED IN SELF-RENEWAL, SUCH AS WNT/BETA-CATENIN, NOTCH, AND HEDGEHOG. MOREOVER, THE INTERACTION WITH THE BONE MARROW MICROENVIRONMENT, ALSO KNOWN AS HEMATOPOIETIC NICHE, MAY INFLUENCE THE PHENOTYPE OF SURROUNDING CELLS, WHICH EVADE MECHANISMS CONTROLLING CELL PROLIFERATION AND ARE LESS SENSITIVE OR FRANKLY RESISTANT TO TKIS. THIS REVIEW FOCUSES ON THE ROLE OF LSCS AND STEM CELL NICHE IN RELATION TO RESPONSE TO PHARMACOLOGICAL TREATMENTS. A LITERATURE SEARCH FROM PUBMED DATABASE WAS PERFORMED UNTIL APRIL 30, 2017, AND IT HAS BEEN ANALYZED ACCORDING TO KEYWORDS SUCH AS CHRONIC MYELOID LEUKEMIA, STEM CELL, LEUKEMIC STEM CELLS, HEMATOPOIETIC NICHE, TYROSINE KINASE INHIBITORS, AND DRUG RESISTANCE. STEM CELLS TRANSLATIONAL MEDICINE 2018;7:305-314. 2018 20 5447 32 REPOSITIONING LIDOCAINE AS AN ANTICANCER DRUG: THE ROLE BEYOND ANESTHESIA. WHILE CANCER TREATMENT HAS IMPROVED DRAMATICALLY, IT HAS ALSO ENCOUNTERED MANY CRITICAL CHALLENGES, SUCH AS DISEASE RECURRENCE, METASTASIS, AND DRUG RESISTANCE, MAKING NEW DRUGS WITH NOVEL MECHANISMS AN URGENT CLINICAL NEED. THE TERM "DRUG REPOSITIONING," ALSO KNOWN AS OLD DRUGS FOR NEW USES, HAS EMERGED AS ONE PRACTICAL STRATEGY TO DEVELOP NEW ANTICANCER DRUGS. ANESTHETICS HAVE BEEN WIDELY USED IN SURGICAL PROCEDURES TO REDUCE THE EXCRUCIATING PAIN. LIDOCAINE, ONE OF THE MOST-USED LOCAL ANESTHETICS IN CLINICAL SETTINGS, HAS BEEN FOUND TO SHOW MULTI-ACTIVITIES, INCLUDING POTENTIAL IN CANCER TREATMENT. GROWING EVIDENCE SHOWS THAT LIDOCAINE MAY NOT ONLY WORK AS A CHEMOSENSITIZER THAT SENSITIZES OTHER CONVENTIONAL CHEMOTHERAPEUTICS TO CERTAIN RESISTANT CANCER CELLS, BUT ALSO COULD SUPPRESS CANCER CELLS GROWTH BY SINGLE USE AT DIFFERENT DOSES OR CONCENTRATIONS. LIDOCAINE COULD SUPPRESS CANCER CELL GROWTH IN VITRO AND IN VIVO VIA MULTIPLE MECHANISMS, SUCH AS REGULATING EPIGENETIC CHANGES AND PROMOTING PRO-APOPTOSIS PATHWAYS, AS WELL AS REGULATING ABC TRANSPORTERS, METASTASIS, AND ANGIOGENESIS, ETC., PROVIDING VALUABLE INFORMATION FOR ITS FURTHER APPLICATION IN CANCER TREATMENT AND FOR NEW DRUG DISCOVERY. IN ADDITION, LIDOCAINE IS NOW UNDER CLINICAL TRIALS TO TREAT CERTAIN TYPES OF CANCER. IN THE CURRENT REVIEW, WE SUMMARIZE THE RESEARCH AND ANALYZE THE UNDERLYING MECHANISMS, AND ADDRESS KEY ISSUES IN THIS AREA. 2020