1 2072 136 EPIGENETIC CONVERSION OF HUMAN ADULT BONE MESODERMAL STROMAL CELLS INTO NEUROECTODERMAL CELL TYPES FOR REPLACEMENT THERAPY OF NEURODEGENERATIVE DISORDERS. TISSUE-SPECIFIC STEM CELLS, SUCH AS BONE MARROW-DERIVED MESODERMAL STROMAL CELLS (MSCS), ARE THOUGHT TO BE LINEAGE RESTRICTED AND, THEREFORE, COULD ONLY BE DIFFERENTIATED INTO CELL TYPES OF THE TISSUE OF ORIGIN. SEVERAL RECENT STUDIES, HOWEVER, SUGGEST THAT THESE TYPES OF STEM CELLS MIGHT BE ABLE TO BREAK BARRIERS OF GERM LAYER COMMITMENT AND DIFFERENTIATE IN VITRO AND/OR IN VIVO INTO CELLS OF DIFFERENT TISSUES, SUCH AS NEUROECTODERMAL CELL TYPES. RECENTLY, PROTOCOLS FOR HIGH-YIELD GENERATION OF UNDIFFERENTIATED NEURAL STEM CELL (NSC)-LIKE CELLS FROM MSCS OF PRIMATE AND HUMAN ORIGIN WERE REPORTED. UNDIFFERENTIATED NSCS ARE COMMONLY USED AND ARE MORE SUITABLE FOR NEUROTRANSPLANTATION COMPARED WITH FULLY DIFFERENTIATED NEURAL CELLS, AS DIFFERENTIATED NEURAL CELLS ARE WELL KNOWN TO POORLY SURVIVE DETACHMENT AND SUBSEQUENT TRANSPLANTATION PROCEDURES. THESE HUMAN MSC-DERIVED NSC-LIKE CELLS (MSC-NSCS) GROW IN NEUROSPHERE-LIKE STRUCTURES AND EXPRESS HIGH LEVELS OF EARLY NEUROECTODERMAL MARKERS, BUT LOSE CHARACTERISTICS OF MSCS. IN THE PRESENCE OF SELECTED GROWTH FACTORS, HUMAN MSC-NSCS CAN BE DIFFERENTIATED INTO THE THREE MAIN NEURAL PHENOTYPES: ASTROGLIA, OLIGODENDROGLIA AND NEURONS. COMPARED WITH DIRECT DIFFERENTIATION OF HUMAN MSCS INTO MATURE NEURAL CELLS, THE CONVERSION STEP SEEMS TO BE ESSENTIAL TO GENERATE MATURE FUNCTIONAL NEUROECTODERMAL CELLS. THIS REVIEW DESCRIBES THE TECHNIQUES FOR THE CONVERSION OF HUMAN MSCS INTO NSCS AND SUMMARISES THE DATA ON EPIGENETIC CONVERSION OF HUMAN MSCS INTO IMMATURE NEUROECTODERMAL CELLS. THESE CELLS PROVIDE A POWERFUL TOOL FOR INVESTIGATING THE MOLECULAR MECHANISMS OF NEURAL DIFFERENTIATION, AND MIGHT SERVE AS AN AUTOLOGOUS CELL SOURCE TO TREAT ACUTE AND CHRONIC NEURODEGENERATIVE DISEASES. 2006 2 6758 23 WNT SIGNALING IN STEM CELL BIOLOGY AND REGENERATIVE MEDICINE. WNT FAMILY MEMBERS ARE SECRETED-TYPE GLYCOPROTEINS TO ORCHESTRATE EMBRYOGENESIS, TO MAINTAIN HOMEOSTASIS, AND TO INDUCE PATHOLOGICAL CONDITIONS. FZD1, FZD2, FZD3, FZD4, FZD5, FZD6, FZD7, FZD8, FZD9, FZD10, LRP5, LRP6, AND ROR2 ARE TRANSMEMBRANE RECEPTORS TRANSDUCING WNT SIGNALS BASED ON LIGAND-DEPENDENT PREFERENTIALITY FOR CAVEOLIN- OR CLATHRIN-MEDIATED ENDOCYTOSIS. WNT SIGNALS ARE TRANSDUCED TO CANONICAL PATHWAY FOR CELL FATE DETERMINATION, AND TO NON-CANONICAL PATHWAYS FOR REGULATION OF PLANAR CELL POLARITY, CELL ADHESION, AND MOTILITY. MYC, CCND1, AXIN2, FGF20, WISP1, JAG1, DKK1 AND GLUCAGON ARE TARGET GENES OF CANONICAL WNT SIGNALING CASCADE, WHILE CD44, VIMENTIN AND STX5 ARE TARGET GENES OF NON-CANONICAL WNT SIGNALING CASCADES. HOWEVER, TARGET GENES OF WNT SIGNALING CASCADES ARE DETERMINED IN A CONTEXT-DEPENDENT MANNER DUE TO EXPRESSION PROFILE OF TRANSCRIPTION FACTORS AND EPIGENETIC STATUS. WNT SIGNALING CASCADES NETWORK WITH NOTCH, FGF, BMP AND HEDGEHOG SIGNALING CASCADES TO REGULATE THE BALANCE OF STEM CELLS AND PROGENITOR CELLS. HERE WNT SIGNALING IN EMBRYONIC STEM CELLS, NEURAL STEM CELLS, MESENCHYMAL STEM CELLS, HEMATOPOIETIC STEM CELLS, AND INTESTINAL STEM CELLS WILL BE REVIEWED. WNT3, WNT5A AND WNT10B ARE EXPRESSED IN UNDIFFERENTIATED HUMAN EMBRYONIC STEM CELLS, WHILE WNT6, WNT8B AND WNT10B IN ENDODERM PRECURSOR CELLS. WNT6 IS EXPRESSED IN INTESTINAL CRYPT REGION FOR STEM OR PROGENITOR CELLS. TNF/ALPHA-WNT10B SIGNALING IS A NEGATIVE FEEDBACK LOOP TO MAINTAIN HOMEOSTASIS OF ADIPOSE TISSUE AND GASTROINTESTINAL MUCOSA WITH CHRONIC INFLAMMATION. RECOMBINANT WNT PROTEIN OR WNT MIMETIC (CIRCULAR PEPTIDE, SMALL MOLECULE COMPOUND, OR RNA APTAMER) IN COMBINATION WITH NOTCH MIMETIC, FGF PROTEIN, AND BMP PROTEIN OPENS A NEW WINDOW TO TISSUE ENGINEERING FOR REGENERATIVE MEDICINE. 2008 3 1116 67 COMPARATIVE ANALYSIS OF NEUROECTODERMAL DIFFERENTIATION CAPACITY OF HUMAN BONE MARROW STROMAL CELLS USING VARIOUS CONVERSION PROTOCOLS. HUMAN ADULT BONE MARROW-DERIVED MESODERMAL STROMAL CELLS (HMSCS) ARE ABLE TO DIFFERENTIATE INTO MULTIPLE MESODERMAL TISSUES, INCLUDING BONE AND CARTILAGE. THERE IS EVIDENCE THAT THESE CELLS ARE ABLE TO BREAK GERM LAYER COMMITMENT AND DIFFERENTIATE INTO CELLS EXPRESSING NEUROECTODERMAL PROPERTIES. THERE IS STILL DEBATE ABOUT WHETHER THIS RESULTS FROM CELL FUSION, ABERRANT MARKER GENE EXPRESSION OR REAL NEUROECTODERMAL DIFFERENTIATION. HERE WE EXTEND OUR WORK ON NEUROECTODERMAL CONVERSION OF ADULT HMSCS IN VITRO BY EVALUATING VARIOUS EPIGENETIC CONVERSION PROTOCOLS USING QUANTITATIVE RT-PCR AND IMMUNOCYTOCHEMISTRY. UNDIFFERENTIATED HMSCS EXPRESSED HIGH LEVELS OF FIBRONECTIN AS WELL AS SEVERAL NEUROECTODERMAL GENES COMMONLY USED TO CHARACTERIZE NEURAL CELL TYPES, SUCH AS NESTIN, BETA-TUBULIN III, AND GFAP, SUGGESTING THAT HMSCS RETAIN THE ABILITY TO DIFFERENTIATE INTO NEUROECTODERMAL CELL TYPES. PROTOCOLS USING A DIRECT DIFFERENTIATION OF HMSCS INTO A NEURAL PHENOTYPE FAILED TO INDUCE SIGNIFICANT CHANGES IN MORPHOLOGY AND/OR EXPRESSION OF MARKERS OF EARLY AND MATURE GLIAL/NEURONAL CELLS TYPES. IN CONTRAST, A MULTISTEP PROTOCOL WITH CONVERSION OF HMSCS INTO A NEURAL STEM CELL-LIKE POPULATION AND SUBSEQUENT TERMINAL DIFFERENTIATION IN MATURE GLIA AND NEURONS GENERATED RELEVANT MORPHOLOGICAL CHANGES AS WELL AS SIGNIFICANT INCREASE OF EXPRESSION LEVELS OF MARKER GENES FOR EARLY AND LATE NEURAL CELL TYPES, SUCH AS NESTIN, NEUROGENIN2, MBP, AND MAP2AB, ACCOMPANIED BY A LOSS OF THEIR MESENCHYMAL PROPERTIES. OUR DATA PROVIDE AN IMPETUS FOR DIFFERENTIATING HMSCS IN VITRO INTO MATURE NEUROECTODERMAL CELLS. NEUROECTODERMALLY CONVERTED HMSCS MAY THEREFORE ULTIMATELY HELP IN TREATING ACUTE AND CHRONIC NEURODEGENERATIVE DISEASES. ANALYSIS OF MARKER GENE EXPRESSION FOR CHARACTERIZATION OF NEURAL CELLS DERIVED FROM MSCS HAS TO TAKE INTO ACCOUNT THAT SEVERAL EARLY AND LATE NEUROECTODERMAL GENES ARE ALREADY EXPRESSED IN UNDIFFERENTIATED MSCS. 2006 4 5523 29 RISKS AND MECHANISMS OF ONCOLOGICAL DISEASE FOLLOWING STEM CELL TRANSPLANTATION. UNIQUE BIOLOGICAL PROPERTIES OF STEM CELLS MAKE THEM A PRECIOUS SOURCE OF CELL MATERIAL FOR TREATMENT OF A NUMBER OF PATHOLOGICAL CONDITIONS. AMONG ISSUES INHIBITING TRANSITION OF STEM CELL TECHNOLOGIES TO THE CLINICS, THE RISK OF ONCOLOGICAL COMPLICATIONS OF STEM CELL-BASED THERAPIES IS THE MOST CRITICAL. A MASSIVE AMOUNT OF CLINICAL AND EXPERIMENTAL DATA DEMONSTRATES THAT BOTH HEMATOLOGICAL (INCLUDING ACUTE AND CHRONIC MYELOID LEUKEMIA) AND NON-HEMATOLOGICAL (INCLUDING TERATOMA AND NON-TERATOMA TUMORS) MALIGNANCIES COULD ARISE FROM DONOR STEM CELLS OF DIFFERENT TYPES. A WIDE SPECTRUM OF MECHANISMS COULD UNDERLIE THE DEVELOPMENT OF ONCOLOGICAL DISEASE IN RECIPIENTS, INCLUDING: I) BLAST TRANSFORMATION OF PROLIFERATING DONOR STEM CELLS UNDER PERSISTENT ACTION OF CERTAIN FACTORS IN THE RECIPIENT, THUS CAUSING DE NOVO MALIGNANCIES; II) CONTAMINATION OF DONOR CELL MATERIAL WITH MALIGNANT CELLS; III) TRANSMISSION OF PARTICULAR VIRAL SUBTYPES WITH DONOR STEM CELLS, COMBINED WITH IMMUNOSUPPRESSION THERAPY EFFECTS; IV) UNCONTROLLABLE PROLIFERATION OF RESIDUAL UNDIFFERENTIATED STEM CELLS OF VARIOUS PLASTICITY; AND V) KARYOTYPIC INSTABILITY IN STEM CELLS FOLLOWING PROLONGED CULTURING/EXPANSION IN VITRO. POTENTIAL PREVENTIVE STRATEGIES ARE DIVERSE AND INCLUDE I) HIGH-THROUGHPUT CELL SORTING-BASED STRATEGIES; II) INTRODUCTION OF SUICIDE GENES INTO THE DONOR STEM CELL GENOME; III) APPLICATION OF APOPTOSIS-INDUCING EPIGENETIC FACTORS; AND SOME OTHER OPTIONS. 2010 5 1445 26 DIFFUSE PEDIATRIC-TYPE HIGH-GRADE GLIOMA ARISING IN AN OVARIAN MATURE CYSTIC TERATOMA. IMMATURE NEUROECTODERMAL TISSUE CAN BE FOUND IN THE OVARY AS PART OF AN IMMATURE TERATOMA OR AS PART OF A TERATOMA WITH MALIGNANT NEUROECTODERMAL TRANSFORMATION. SUCH LESIONS MAY CLOSELY RESEMBLE CENTRAL NERVOUS SYSTEM TUMORS, BUT THEIR BIOLOGIC SIMILARITY IS UNCLEAR. WE DESCRIBE AN 18-YR-OLD FEMALE WHO PRESENTED WITH ABDOMINAL PAIN CAUSED BY AN OVARIAN MASS WITH WIDESPREAD METASTASES. HISTOLOGY SHOWED A PRIMITIVE, HIGH-GRADE TUMOR ARISING IN THE BACKGROUND OF A MATURE TERATOMA. THE TUMOR WAS SOX10 POSITIVE, WITH FOCAL EXPRESSION OF GFAP, S100, NSE, AND SYNAPTOPHYSIN. MOLECULAR ANALYSIS DEMONSTRATED CO-AMPLIFICATION OF PDGFRA AND KIT, ALTERATIONS COMMON IN HIGH-GRADE GLIOMAS. BY WHOLE-GENOME METHYLATION PROFILING, IT CLUSTERED INTO THE "DIFFUSE PEDIATRIC-TYPE HIGH-GRADE GLIOMA, RTK1 SUBTYPE, SUBCLASS C" GROUP. DESPITE PROGRESSING THROUGH 2 LINES OF CHEMOTHERAPY WITH WIDESPREAD METASTATIC DISEASE, SHE ACHIEVED AN EXCELLENT RESPONSE TO CHEMOTHERAPY DIRECTED TOWARD AGGRESSIVE GERM CELL TUMORS. THIS CASE EMPHASIZES THE IMPORTANCE OF IMMUNOHISTOCHEMICAL, GENOMIC, AND EPIGENETIC ANALYSES TO ACCURATELY CLASSIFY THESE EXCEEDINGLY RARE TUMORS AND DETERMINE THE OPTIMAL THERAPY. 2023 6 6757 40 WNT SIGNALING IN LIVER FIBROSIS: PROGRESS, CHALLENGES AND POTENTIAL DIRECTIONS. LIVER FIBROSIS IS A COMMON WOUND-HEALING RESPONSE TO CHRONIC LIVER INJURIES, INCLUDING ALCOHOLIC OR DRUG TOXICITY, PERSISTENT VIRAL INFECTION, AND GENETIC FACTORS. MYOFIBROBLASTIC TRANSDIFFERENTIATION (MTD) IS THE PIVOTAL EVENT DURING LIVER FIBROGENESIS, AND RESEARCH IN THE PAST FEW YEARS HAS IDENTIFIED KEY MEDIATORS AND MOLECULAR MECHANISMS RESPONSIBLE FOR MTD OF HEPATIC STELLATE CELLS (HSCS). HSCS ARE UNDIFFERENTIATED CELLS WHICH PLAY AN IMPORTANT ROLE IN LIVER REGENERATION. RECENT EVIDENCE DEMONSTRATES THAT HSCS DERIVE FROM MESODERM AND AT LEAST IN PART VIA SEPTUM TRANSVERSUM AND MESOTHELIUM, AND HSCS EXPRESS MARKERS FOR DIFFERENT CELL TYPES WHICH DERIVE FROM MULTIPOTENT MESENCHYMAL PROGENITORS. THERE IS A REGULATORY COMMONALITY BETWEEN DIFFERENTIATION OF ADIPOCYTES AND THAT OF HSC, AND THE SHIFT FROM ADIPOGENIC TO MYOGENIC OR NEURONAL PHENOTYPE CHARACTERIZES HSC MTD. CENTRAL OF THIS SHIFT IS A LOSS OF EXPRESSION OF THE MASTER ADIPOGENIC REGULATOR PEROXISOME PROLIFERATOR ACTIVATED RECEPTOR GAMMA (PPARGAMMA). RESTORED EXPRESSION OF PPARGAMMA AND/OR OTHER ADIPOGENIC TRANSCRIPTION GENES CAN REVERSE MYOFIBROBLASTIC HSCS TO DIFFERENTIATED CELLS. VERTEBRATE WNT AND DROSOPHILA WINGLESS ARE HOMOLOGOUS GENES, AND THEIR TRANSLATED PROTEINS HAVE BEEN SHOWN TO PARTICIPATE IN THE REGULATION OF CELL PROLIFERATION, CELL POLARITY, CELL DIFFERENTIATION, AND OTHER BIOLOGICAL ROLES. MORE RECENTLY, WNT SIGNALING IS IMPLICATED IN HUMAN FIBROSING DISEASES, SUCH AS PULMONARY FIBROSIS, RENAL FIBROSIS, AND LIVER FIBROSIS. BLOCKING THE CANONICAL WNT SIGNAL PATHWAY WITH THE CO-RECEPTOR ANTAGONIST DICKKOPF-1 (DKK1) ABROGATES THESE EPIGENETIC REPRESSIONS AND RESTORES THE GENE PPARGAMMA EXPRESSION AND HSC DIFFERENTIATION. THE IDENTIFIED MORPHOGEN MEDIATED EPIGENETIC REGULATION OF PPARGAMMA AND HSC DIFFERENTIATION ALSO SERVES AS NOVEL THERAPEUTIC TARGETS FOR LIVER FIBROSIS AND LIVER REGENERATION. IN CONCLUSION, THE WNT SIGNALING PROMOTES LIVER FIBROSIS BY ENHANCING HSC ACTIVATION AND SURVIVAL, AND WE HEREIN DISCUSS WHAT WE CURRENTLY KNOW AND WHAT WE EXPECT WILL COME IN THIS FIELD IN THE NEXT FUTURE. 2013 7 2943 19 GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES IN GASTRIC CANCER. BOTH GENETIC AND EPIGENETIC ALTERATIONS OF TUMOR SUPPRESSOR AND TUMOR-RELATED GENES INVOLVED IN THE PATHOGENESIS OF GASTRIC CANCER ARE REVIEWED HERE, AND MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS ARE PROPOSED. GASTRIC CARCINOMAS ARE BELIEVED TO EVOLVE FROM NATIVE GASTRIC MUCOSA OR INTESTINAL METAPLASTIC MUCOSA THAT UNDERGOES GENETIC AND EPIGENETIC ALTERATIONS INVOLVING EITHER THE SUPPRESSOR PATHWAY (DEFECTS IN TUMOR SUPPRESSOR GENES) OR MUTATOR PATHWAY (DEFECTS IN DNA MISMATCH REPAIR GENES). METHYLATION OF E-CADHERIN IN NATIVE GASTRIC MUCOSA RESULTS IN UNDIFFERENTIATED CARCINOMAS (SUPPRESSOR PATHWAY), WHILE METHYLATION OF HMLHI RESULTS IN DIFFERENTIATED FOVEOLAR-TYPE CARCINOMAS (MUTATOR PATHWAY). THE MAJORITY OF DIFFERENTIATED GASTRIC CARCINOMAS HOWEVER, ARISE FROM INTESTINAL METAPLASTIC MUCOSA AND EXHIBIT STRUCTURAL ALTERATIONS OF TUMOR SUPPRESSOR GENES, ESPECIALLY P53. THEY APPEAR TO BE RELATED TO CHRONIC INJURY, PERHAPS DUE TO HELICOBACTER PYLORI INFECTION. APPROXIMATELY 20% OF DIFFERENTIATED CARCINOMAS (ORDINARY-TYPE) HAVE EVIDENCE OF MUTATOR PATHWAY TUMORIGENESIS. MUTATIONS OF E-CADHERIN ARE MAINLY INVOLVED IN THE PROGRESSION OF DIFFERENTIATED CARCINOMAS TO UNDIFFERENTIATED TUMORS. THE MOLECULAR PATHWAYS OF GASTRIC CARCINOGENESIS DEPEND ON THE HISTOLOGICAL BACKGROUND, AND GASTRIC CARCINOMAS SHOW DISTINCT BIOLOGICAL BEHAVIORS AS A RESULT OF DISCERNIBLE CELLULAR GENETIC AND EPIGENETIC ALTERATIONS. 2002 8 940 28 CHRONIC LYMPHOCYTIC LEUKEMIA AND MANTLE CELL LYMPHOMA: CROSSROADS OF GENETIC AND MICROENVIRONMENT INTERACTIONS. CHRONIC LYMPHOCYTIC LEUKEMIA (CLL) AND MANTLE CELL LYMPHOMA (MCL) ARE 2 WELL-DEFINED ENTITIES THAT DIVERGE IN THEIR BASIC PATHOGENIC MECHANISMS AND CLINICAL EVOLUTION BUT THEY SHARE EPIDEMIOLOGICAL CHARACTERISTICS, CELLS OF ORIGIN, MOLECULAR ALTERATIONS, AND CLINICAL FEATURES THAT DIFFER FROM OTHER LYMPHOID NEOPLASMS. CLL AND MCL ARE CLASSICALLY CONSIDERED INDOLENT AND AGGRESSIVE NEOPLASMS, RESPECTIVELY. HOWEVER, THE CLINICAL EVOLUTION OF BOTH TUMORS IS VERY HETEROGENEOUS, WITH SUBSETS OF PATIENTS HAVING STABLE DISEASE FOR A LONG TIME WHEREAS OTHERS REQUIRE IMMEDIATE INTERVENTION. BOTH CLL AND MCL INCLUDE 2 MAJOR MOLECULAR SUBTYPES THAT SEEM TO DERIVE FROM ANTIGEN-EXPERIENCED CD5(+) B CELLS THAT RETAIN A NAIVE OR MEMORY-LIKE EPIGENETIC SIGNATURE AND CARRY A VARIABLE LOAD OF IMMUNOGLOBULIN HEAVY-CHAIN VARIABLE REGION SOMATIC MUTATIONS FROM TRULY UNMUTATED TO HIGHLY MUTATED, RESPECTIVELY. THESE 2 SUBTYPES OF TUMORS DIFFER IN THEIR MOLECULAR PATHWAYS, GENOMIC ALTERATIONS, AND CLINICAL BEHAVIOR, BEING MORE AGGRESSIVE IN NAIVE-LIKE THAN MEMORY-LIKE-DERIVED TUMORS IN BOTH CLL AND MCL. THE PATHOGENESIS OF THE 2 ENTITIES INTEGRATES THE RELEVANT INFLUENCE OF B-CELL RECEPTOR SIGNALING, TUMOR CELL MICROENVIRONMENT INTERACTIONS, GENOMIC ALTERATIONS, AND EPIGENOME MODIFICATIONS THAT CONFIGURE THE EVOLUTION OF THE TUMORS AND OFFER NEW POSSIBILITIES FOR THERAPEUTIC INTERVENTION. THIS REVIEW WILL FOCUS ON THE SIMILARITIES AND DIFFERENCES OF THESE 2 TUMORS BASED ON RECENT STUDIES THAT ARE ENHANCING THE UNDERSTANDING OF THEIR PATHOGENESIS AND CREATING SOLID BASES FOR NEW MANAGEMENT STRATEGIES. 2018 9 5405 31 REGULATED EXPRESSION OF P210 BCR-ABL DURING EMBRYONIC STEM CELL DIFFERENTIATION STIMULATES MULTIPOTENTIAL PROGENITOR EXPANSION AND MYELOID CELL FATE. P210 BCR-ABL IS AN ACTIVATED TYROSINE KINASE ONCOGENE ENCODED BY THE PHILADELPHIA CHROMOSOME ASSOCIATED WITH HUMAN CHRONIC MYELOGENOUS LEUKEMIA (CML). THE DISEASE REPRESENTS A CLONAL DISORDER ARISING IN THE PLURIPOTENT HEMATOPOIETIC STEM CELL. DURING THE CHRONIC PHASE, PATIENTS PRESENT WITH A DRAMATIC EXPANSION OF MYELOID CELLS AND A MILD ANEMIA. RETROVIRAL GENE TRANSFER AND TRANSGENIC EXPRESSION IN RODENTS HAVE DEMONSTRATED THE ABILITY OF BCR-ABL TO INDUCE VARIOUS TYPES OF LEUKEMIA. HOWEVER, STUDY OF HUMAN CML OR RODENT MODELS HAS NOT DETERMINED THE DIRECT AND IMMEDIATE EFFECTS OF BCR-ABL ON HEMATOPOIETIC CELLS FROM THOSE REQUIRING SECONDARY GENETIC OR EPIGENETIC CHANGES SELECTED DURING THE PATHOGENIC PROCESS. WE UTILIZED TETRACYCLINE-REGULATED EXPRESSION OF BCR-ABL FROM A PROMOTER ENGINEERED FOR ROBUST EXPRESSION IN PRIMITIVE STEM CELLS THROUGH MULTILINEAGE BLOOD CELL DEVELOPMENT IN COMBINATION WITH THE IN VITRO DIFFERENTIATION OF EMBRYONAL STEM CELLS INTO HEMATOPOIETIC ELEMENTS. OUR RESULTS DEMONSTRATE THAT BCR-ABL EXPRESSION ALONE IS SUFFICIENT TO INCREASE THE NUMBER OF MULTIPOTENT AND MYELOID LINEAGE COMMITTED PROGENITORS IN A DOSE-DEPENDENT MANNER WHILE SUPPRESSING THE DEVELOPMENT OF COMMITTED ERYTHROID PROGENITORS. THESE EFFECTS ARE REVERSIBLE UPON EXTINGUISHING BCR-ABL EXPRESSION. THESE FINDINGS ARE CONSISTENT WITH BCR-ABL BEING THE SOLE GENETIC CHANGE NEEDED FOR THE ESTABLISHMENT OF THE CHRONIC PHASE OF CML AND PROVIDE A POWERFUL SYSTEM FOR THE ANALYSIS OF ANY GENETIC CHANGE THAT ALTERS CELL GROWTH AND LINEAGE CHOICES OF THE HEMATOPOIETIC STEM CELL. 2000 10 2928 30 GENERATION OF IPSCS FROM CULTURED HUMAN MALIGNANT CELLS. INDUCED PLURIPOTENT STEM CELLS (IPSCS) CAN BE GENERATED FROM VARIOUS DIFFERENTIATED CELL TYPES BY THE EXPRESSION OF A SET OF DEFINED TRANSCRIPTION FACTORS. SO FAR, IPSCS HAVE BEEN GENERATED FROM PRIMARY CELLS, BUT IT IS UNCLEAR WHETHER HUMAN CANCER CELL LINES CAN BE REPROGRAMMED. HERE WE DESCRIBE THE GENERATION AND CHARACTERIZATION OF IPSCS DERIVED FROM HUMAN CHRONIC MYELOID LEUKEMIA CELLS. WE SHOW THAT, DESPITE THE PRESENCE OF ONCOGENIC MUTATIONS, THESE CELLS ACQUIRED PLURIPOTENCY BY THE EXPRESSION OF 4 TRANSCRIPTION FACTORS AND UNDERWENT DIFFERENTIATION INTO CELL TYPES DERIVED OF ALL 3 GERM LAYERS DURING TERATOMA FORMATION. INTERESTINGLY, ALTHOUGH THE PARENTAL CELL LINE WAS STRICTLY DEPENDENT ON CONTINUOUS SIGNALING OF THE BCR-ABL ONCOGENE, ALSO TERMED ONCOGENE ADDICTION, REPROGRAMMED CELLS LOST THIS DEPENDENCY AND BECAME RESISTANT TO THE BCR-ABL INHIBITOR IMATINIB. THIS FINDING INDICATES THAT THE THERAPEUTIC AGENT IMATINIB TARGETS CELLS IN A SPECIFIC EPIGENETIC DIFFERENTIATED CELL STATE, AND THIS MAY CONTRIBUTE TO ITS INABILITY TO FULLY ERADICATE DISEASE IN CHRONIC MYELOID LEUKEMIA PATIENTS. 2010 11 4963 37 PATHOGENESIS OF THYROID NODULES: HISTOLOGICAL CLASSIFICATION? THYROID NODULE GENESIS MAY BE CONSIDERED AS AN AMPLIFICATION OF THYROID HETEROGENEITY DUE TO GENETIC AND/OR EPIGENETIC MECHANISMS. WE CLASSIFIED THE THYROID NODULES IN FIVE TYPES WITH DISTINCT HISTOLOGICAL FEATURES: HYPERPLASTIC, NEOPLASTIC, COLLOID, CYSTIC AND THYROIDITIC NODULES. HYPERPLASTIC: THYROCYTE PROLIFERATION IS UNDER THE CONTROL OF TSH BUT SEVERAL OTHER PARACRINE AND AUTOCRINE FACTORS ARE SECRETED BY FOLLICULAR CELLS, THE STROMAL APPARATUS AND THE LYMPHOCYTES, WHICH ARE IMPLICATED IN INITIATION AND PERPETUATION OF THYROID HYPERPLASIA. GROWTH OCCURS MAINLY THROUGH TSHR, CAMP AND PKA. CONSTITUTIVE CAMP OVERPRODUCTION HAS BEEN SHOWN TO BE DUE TO POINT MUTATION OF THE TSHR OR GS PROTEIN, PRODUCING OVERGROWTH AND HYPERFUNCTION. NEOPLASTIC: SEVERAL ACTIVATED ONCOGENES HAVE BEEN IDENTIFIED IN THYROID MALIGNANCIES. ONCOGENES RELEVANT TO THE THYROID CARCINOGENESIS ARE: MUTATED TSHR AND GSP (CONSTITUTIVE ACTIVATION OF CAMP); TRK (RECEPTOR FOR NGF); RET/PTC (PHOSPHORYLATION OF TYROSINE KINASE RECEPTOR)--AN ISOFORM OF THIS ONCOGENE IS INDUCED BY RADIATION: RAS (IT ENCODES GS PROTEINS TRANSDUCING MITOGENIC SIGNALS); AND C-MET (RECEPTOR FOR HEPATOCYTE GROWTH FACTOR). THE EVOLUTION OF A DIFFERENTIATED THYROID CANCER TOWARDS AN UNDIFFERENTIATED CANCER IS DUE TO A MUTATION OF A FAMILY OF PROTEINS (I.E., P53), WHICH ACTS AS A BRAKE, PREVENTING THE GENOMIC INSTABILITY OF CANCER. IT IS SUGGESTED THAT A TUMOR INITIATES BY RET OR RAS AND POSSIBLY PROGRESSES--AS A RESULT OF ADDITIONAL MUTATIONS AND BY P53 MUTATION--TO ANAPLASTIC CARCINOMA. COLLOID: FLATTENING OF THE EPITHELIUM AND DILATATION OF FOLLICLES CONTAINING VISCOUS MATERIAL--MADE UP BY A CONCENTRATED SOLUTION OF THYROGLOBULIN (HTG)--IS THE CHARACTERISTIC OF THE COLLOID NODULE. A DEFECT OF INTRALUMINAL REABSORPTION OF HTG HAS BEEN SUGGESTED BUT NOT PROVEN. EXPERIMENTALLY, A LOAD OF IODINE IS ABLE TO CHANGE THYROID HYPERPLASIA TO A COLLOID FEATURE; HOWEVER, A LOAD OF IODINE IS RARELY FOUND IN THE CLINICAL HISTORY OF PATIENTS. A NEW CLUE TO THE PATHOGENESIS COMES FROM THE FINDING THAT A RELEVANT PART OF THE COLLOID (10-20%) IS MADE UP OF INSOLUBLE GLOBULES, WHERE HTG IS COMPACTED IN A POLYMERIC FORM. IT IS SUGGESTED THAT STOCKING HTG INTO GLOBULES IS DEFECTIVE IN COLLOID NODULES, LEADING TO ENORMOUS ENLARGEMENT OF THE FOLLICLE. CYSTIC: IT IS ESTIMATED THAT BETWEEN 15 AND 40% OF THYROID NODULES ARE PARTLY OR ENTIRELY CYSTIC. THE 'TRUE CYST' IS RARE; MOST OF THE SO-CALLED CYSTIC NODULES ARE 'PSEUDOCYSTS', WHICH FOLLOW NECROSIS AND COLLIQUATION. NECROSIS ISSUES AS AN IMBALANCE BETWEEN GROWTH AND THE PRECISELY REGULATED PROCESS OF ANGIOGENESIS. MORE RECENTLY, THE VEGF/VPF HAS BEEN FOUND TO BE AT THE ORIGIN OF RECENT AND RECURRENT CYSTS. IMMUNOTOXIC AND APOPTOTIC MECHANISMS HAVE ALSO BEEN SUGGESTED. CHEMICAL ANALYSIS OF CYSTIC FLUID SHOWED A 'DENATURED' AND 'SERUM-LIKE' PATTERN SUGGESTING DIFFERENT MECHANISMS IN THE PATHOGENESIS OF THE PSEUDOCYSTIC THYROID NODULES. THYROIDITIC: NODULAR LYMPHOCYTIC THYROIDITIS (NLT) INCLUDES TWO DIFFERENT ENTITIES: 1) LYMPHOCYTE THYROIDITIS GROWING AS A NODULE IN A HYPERPLASTIC OR NORMAL GLAND, AND 2) LYMPHOCYTE THYROIDITIS ASSOCIATED IN THE SAME NODULE WITH OTHER NODULAR DISEASES OF THE THYROID: PAPILLARY THYROID CARCINOMA AND LYMPHOMA HAVE BEEN FOUND TO BE ASSOCIATED TO CHRONIC LYMPHOCYTIC THYROIDITIS. 2001 12 2277 32 EPIGENETIC REGULATION BY ASXL1 IN MYELOID MALIGNANCIES. MYELOID MALIGNANCIES ARE CLONAL HEMATOPOIETIC DISORDERS THAT ARE COMPRISED OF A SPECTRUM OF GENETICALLY HETEROGENEOUS DISORDERS, INCLUDING MYELODYSPLASTIC SYNDROMES (MDS), MYELOPROLIFERATIVE NEOPLASMS (MPN), CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML), AND ACUTE MYELOID LEUKEMIA (AML). MYELOID MALIGNANCIES ARE CHARACTERIZED BY EXCESSIVE PROLIFERATION, ABNORMAL SELF-RENEWAL, AND/OR DIFFERENTIATION DEFECTS OF HEMATOPOIETIC STEM CELLS (HSCS) AND MYELOID PROGENITOR CELLS HEMATOPOIETIC STEM/PROGENITOR CELLS (HSPCS). MYELOID MALIGNANCIES CAN BE CAUSED BY GENETIC AND EPIGENETIC ALTERATIONS THAT PROVOKE KEY CELLULAR FUNCTIONS, SUCH AS SELF-RENEWAL, PROLIFERATION, BIASED LINEAGE COMMITMENT, AND DIFFERENTIATION. ADVANCES IN NEXT-GENERATION SEQUENCING LED TO THE IDENTIFICATION OF MULTIPLE MUTATIONS IN MYELOID NEOPLASMS, AND MANY NEW GENE MUTATIONS WERE IDENTIFIED AS KEY FACTORS IN DRIVING THE PATHOGENESIS OF MYELOID MALIGNANCIES. THE POLYCOMB PROTEIN ASXL1 WAS IDENTIFIED TO BE FREQUENTLY MUTATED IN ALL FORMS OF MYELOID MALIGNANCIES, WITH MUTATIONAL FREQUENCIES OF 20%, 43%, 10%, AND 20% IN MDS, CMML, MPN, AND AML, RESPECTIVELY. SIGNIFICANTLY, ASXL1 MUTATIONS ARE ASSOCIATED WITH A POOR PROGNOSIS IN ALL FORMS OF MYELOID MALIGNANCIES. THE FACT THAT ASXL1 MUTATIONS ARE ASSOCIATED WITH POOR PROGNOSIS IN PATIENTS WITH CMML, MDS, AND AML, POINTS TO THE POSSIBILITY THAT ASXL1 MUTATION IS A KEY FACTOR IN THE DEVELOPMENT OF MYELOID MALIGNANCIES. THIS REVIEW SUMMARIZES THE RECENT ADVANCES IN UNDERSTANDING MYELOID MALIGNANCIES WITH A SPECIFIC FOCUS ON ASXL1 MUTATIONS. 2023 13 3444 27 HYPERMETHYLATION OF E-CADHERIN IN LEUKEMIA. E-CADHERIN GENE IS OFTEN TERMED A "METASTASIS SUPPRESSOR" GENE BECAUSE THE E-CADHERIN PROTEIN CAN SUPPRESS TUMOR CELL INVASION AND METASTASIS. INACTIVATION OF THE E-CADHERIN GENE OCCURS IN UNDIFFERENTIATED SOLID TUMORS BY BOTH GENETIC AND EPIGENETIC MECHANISMS; HOWEVER, THE ROLE OF E-CADHERIN IN HEMATOLOGIC MALIGNANCIES IS ONLY NOW BEING RECOGNIZED. E-CADHERIN EXPRESSION IS ESSENTIAL FOR ERYTHROBLAST AND NORMOBLAST MATURATION, YET EXPRESSION IS REDUCED OR ABSENT IN LEUKEMIC BLAST CELLS. THIS STUDY EXAMINED THE MESSENGER RNA (MRNA) AND PROTEIN EXPRESSION OF THE E-CADHERIN GENE IN BONE MARROW AND BLOOD SAMPLES FROM NORMAL DONORS AND PATIENTS WITH LEUKEMIA. WE FOUND THAT ALL NORMAL DONOR SAMPLES EXPRESSED E-CADHERIN MRNA, WHEREAS BOTH SAMPLES OF ACUTE MYELOGENOUS LEUKEMIA AND CHRONIC LYMPHOCYTIC LEUKEMIA HAD A SIGNIFICANT REDUCTION OR ABSENCE OF EXPRESSION. HOWEVER, NORMAL BLAST COUNTERPARTS EXPRESSED ONLY A LOW LEVEL OF E-CADHERIN SURFACE PROTEIN. SODIUM BISULPHITE GENOMIC SEQUENCING WAS USED TO FULLY CHARACTERIZE THE METHYLATION PATTERNS OF THE CPG ISLAND ASSOCIATED WITH THE E-CADHERIN GENE PROMOTER IN THOSE SAMPLES WITH MATCHED DNA. ALL OF THE NORMAL CONTROL SAMPLES WERE ESSENTIALLY UNMETHYLATED; HOWEVER, 14 OF 18 (78%) OF THE LEUKEMIA SAMPLES HAD ABNORMAL HYPERMETHYLATION OF THE E-CADHERIN CPG ISLAND. IN FACT BOTH ALLELES OF THE E-CADHERIN GENE WERE OFTEN HYPERMETHYLATED. WE CONCLUDE THE E-CADHERIN GENE IS A COMMON TARGET FOR HYPERMETHYLATION IN HEMATOLOGIC MALIGNANCIES. 2000 14 3003 41 GENETIC, EPIGENETIC AND STEM CELL ALTERATIONS IN ENDOMETRIOSIS: NEW INSIGHTS AND POTENTIAL THERAPEUTIC PERSPECTIVES. HUMAN ENDOMETRIUM IS A HIGHLY DYNAMIC TISSUE, UNDERGOING PERIODIC GROWTH AND REGRESSION AT EACH MENSTRUAL CYCLE. ENDOMETRIOSIS IS A FREQUENT CHRONIC PATHOLOGICAL STATUS CHARACTERIZED BY ENDOMETRIAL TISSUE WITH AN ECTOPIC LOCALIZATION, CAUSING PELVIC PAIN AND INFERTILITY AND A VARIABLE CLINICAL PRESENTATION. IN ADDITION, THERE IS WELL-ESTABLISHED EVIDENCE THAT, ALTHOUGH ENDOMETRIOSIS IS CONSIDERED BENIGN, IT IS ASSOCIATED WITH AN INCREASED RISK OF MALIGNANT TRANSFORMATION IN APPROXIMATELY 1.0% OF AFFECTED WOMEN, WITH THE INVOLVEMENT OF MULTIPLE PATHWAYS OF DEVELOPMENT. INCREASING EVIDENCE SUPPORTS A KEY CONTRIBUTION OF DIFFERENT STEM/PROGENITOR CELL POPULATIONS NOT ONLY IN THE CYCLIC REGENERATION OF EUTOPIC ENDOMETRIUM, BUT ALSO IN THE PATHOGENESIS OF AT LEAST SOME TYPES OF ENDOMETRIOSIS. EVIDENCE HAS ARISEN FROM EXPERIMENTS IN ANIMAL MODELS OF DISEASE THROUGH DIFFERENT KINDS OF ASSAYS (INCLUDING CLONOGENICITY, THE LABEL-RETAINING CELL APPROACH, THE ANALYSIS OF UNDIFFERENTIATION MARKERS), AS WELL AS FROM DESCRIPTIVE STUDIES ON ECTOPIC AND EUTOPIC TISSUE SAMPLES HARVESTED FROM AFFECTED WOMEN. CHANGES IN STEM CELL POPULATIONS IN ENDOMETRIOTIC LESIONS ARE ASSOCIATED WITH GENETIC AND EPIGENETIC ALTERATIONS, INCLUDING IMBALANCE OF MIRNA EXPRESSION, HISTONE AND DNA MODIFICATIONS AND CHROMOSOMAL ABERRATIONS. THE PRESENT SHORT REVIEW MAINLY SUMMARIZES THE LATEST OBSERVATIONS CONTRIBUTING TO THE CURRENT KNOWLEDGE REGARDING THE PRESENCE AND THE POTENTIAL CONTRIBUTION OF STEM/PROGENITOR CELLS IN EUTOPIC ENDOMETRIUM AND THE AETIOLOGY OF ENDOMETRIOSIS, TOGETHER WITH A REPORT OF THE MOST RECENTLY IDENTIFIED GENETIC AND EPIGENETIC ALTERATIONS IN ENDOMETRIOSIS. WE ALSO DESCRIBE THE POTENTIAL ADVANTAGES OF SINGLE CELL MOLECULAR PROFILING IN ENDOMETRIUM AND IN ENDOMETRIOTIC LESIONS. ALL THESE DATA CAN HAVE CLINICAL IMPLICATIONS AND PROVIDE A BASIS FOR NEW POTENTIAL THERAPEUTIC APPLICATIONS. 2014 15 957 27 CHRONIC MYELOMONOCYTIC LEUKAEMIA: A CONCISE CLINICAL AND PATHOPHYSIOLOGICAL REVIEW. CHRONIC MYELOMONOCYTIC LEUKAEMIA (CMML) IS A CLONAL HAEMATOPOIETIC STEM CELL DISORDER WITH MYELODYSPLASTIC AND MYELOPROLIFERATIVE OVERLAP FEATURES, AND AN INHERENT TENDENCY TO TRANSFORM TO ACUTE MYELOID LEUKAEMIA. APPROXIMATELY 30% OF PATIENTS PRESENT WITH CLONAL CYTOGENETIC ABNORMALITIES, WHILE ALMOST 90% HAVE MOLECULAR ABERRATIONS INVOLVING EPIGENETIC REGULATION, THE SPLICEOSOME COMPONENT MACHINERY, TUMOUR SUPPRESSOR GENES AND TRANSCRIPTION FACTORS/REGULATORS. NUMEROUS PROGNOSTIC MODELS EXIST FOR CMML, WITH MORE RECENT MODELS INCORPORATING PROGNOSTIC MUTATIONS, SUCH AS THOSE INVOLVING ASXL1. OTHER VARIABLES THAT SEEM TO CONSISTENTLY AFFECT OUTCOMES INCLUDE THE DEGREE OF LEUCOCYTOSIS/MONOCYTOSIS, ANAEMIA AND THROMBOCYTOPENIA. ALLOGENEIC STEM CELL TRANSPLANT REMAINS THE ONLY CURATIVE OPTION FOR CMML, WHILE HYPOMETHYLATING AGENTS CAN BE USED FOR TRANSPLANT-INELIGIBLE PATIENTS OR THOSE WITHOUT SUITABLE STEM CELL SOURCES. TARGETING BIOLOGICAL PATHWAYS ACTIVATED IN CMML OFFERS POTENTIAL HOPE FOR MORE EFFECTIVE AND LESS TOXIC THERAPIES. 2014 16 737 36 CANCER STEM CELLS. THERE IS AN INCREASING EVIDENCE SUPPORTING THE CANCER STEM CELL HYPOTHESIS. NORMAL STEM CELLS IN THE ADULT ORGANISM ARE RESPONSIBLE FOR TISSUE RENEWAL AND REPAIR OF AGED OR DAMAGED TISSUE. A SUBSTANTIAL CHARACTERISTIC OF STEM CELLS IS THEIR ABILITY FOR SELF-RENEWAL WITHOUT LOSS OF PROLIFERATION CAPACITY WITH EACH CELL DIVISION. THE STEM CELLS ARE IMMORTAL, AND RATHER RESISTANT TO ACTION OF DRUGS. THEY ARE ABLE TO DIFFERENTIATE AND FORM SPECIFIC TYPES OF TISSUE DUE TO THE INFLUENCE OF MICROENVIRONMENTAL AND SOME OTHER FACTORS. STEM CELLS DIVIDE ASYMMETRICALLY PRODUCING TWO DAUGHTER CELLS -- ONE IS A NEW STEM CELL AND THE SECOND IS PROGENITOR CELL, WHICH HAS THE ABILITY FOR DIFFERENTIATION AND PROLIFERATION, BUT NOT THE CAPABILITY FOR SELF-RENEWAL. CANCER STEM CELLS ARE IN MANY ASPECTS SIMILAR TO THE STEM CELLS. IT HAS BEEN PROVEN THAT TUMOR CELLS ARE HETEROGENEOUS COMPRISING RARE TUMOR INITIATING CELLS AND ABUNDANT NON-TUMOR INITIATING CELLS. TUMOR INITIATING CELLS -- CANCER STEM CELLS HAVE THE ABILITY OF SELF-RENEWAL AND PROLIFERATION, ARE RESISTANT TO DRUGS, AND EXPRESS TYPICAL MARKERS OF STEM CELLS. IT IS NOT CLEAR WHETHER CANCER STEM CELLS ORIGINATE FROM NORMAL STEM CELLS IN CONSEQUENCE OF GENETIC AND EPIGENETIC CHANGES AND/OR BY REDIFFERENTIATION FROM SOMATIC TUMOR CELLS TO THE STEM-LIKE CELLS. PROBABLY BOTH MECHANISMS ARE INVOLVED IN THE ORIGIN OF CANCER STEM CELLS. DYSREGULATION OF STEM CELL SELF-RENEWAL IS A LIKELY REQUIREMENT FOR THE DEVELOPMENT OF CANCER. ISOLATION AND IDENTIFICATION OF CANCER STEM CELLS IN HUMAN TUMORS AND IN TUMOR CELL LINES HAS BEEN SUCCESSFUL. TO DATE, THE EXISTENCE OF CANCER STEM CELLS HAS BEEN PROVEN IN ACUTE AND CHRONIC MYELOID LEUKEMIA, IN BREAST CANCER, IN BRAIN TUMORS, IN LUNG CANCER AND GASTROINTESTINAL TUMORS. CANCER STEM CELL MODEL IS ALSO CONSISTENT WITH SOME CLINICAL OBSERVATIONS. ALTHOUGH STANDARD CHEMOTHERAPY KILLS MOST CELLS IN A TUMOR, CANCER STEM CELLS REMAIN VIABLE. DESPITE THE SMALL NUMBER OF SUCH CELLS, THEY MIGHT BE THE CAUSE OF TUMOR RECURRENCE, SOMETIMES MANY YEARS AFTER THE "SUCCESSFUL" TREATMENT OF PRIMARY TUMOR. GROWTH OF METASTASES IN DISTINCT AREAS OF BODY AND THEIR CELLULAR HETEROGENEITY MIGHT BE CONSEQUENCE OF CANCER STEM CELL DIFFERENTIATION AND/OR DEDIFFERENTIATION AND ASYMMETRIC DIVISION OF CANCER STEM CELLS. FURTHER CHARACTERIZATION OF CANCER STEM CELLS IS NEEDED IN ORDER TO FIND WAYS TO DESTROY THEM, WHICH MIGHT CONTRIBUTE SIGNIFICANTLY TO THE THERAPEUTIC MANAGEMENT OF MALIGNANT TUMORS. 2005 17 6529 30 TRANSCRIPTIONAL DOWN-REGULATION OF THE WNT ANTAGONIST SFRP1 IN HAEMATOPOIETIC CELLS OF PATIENTS WITH DIFFERENT RISK TYPES OF MDS. SECRETED FRIZZLED RELATED PROTEIN 1 (SFRP1) IS AN EXTRACELLULAR ANTAGONIST OF THE WNT SIGNALLING PATHWAY THAT PLAYS AN IMPORTANT ROLE IN THE PATHOGENESIS OF SOLID TUMOURS AND HAEMATOPOIETIC MALIGNANCIES. SFRP1 HAS BEEN OBSERVED TO BE TRANSCRIPTIONALLY DOWN-REGULATED DUE TO HYPERMETHYLATION IN ACUTE AND CHRONIC LEUKAEMIA, BUT SO FAR NOT IN MYELODYSPLASTIC SYNDROME (MDS). MOREOVER, IT HAS BEEN SHOWN THAT THE EPIGENETIC INACTIVATION OF SFRP1 CORRELATES WITH AN OVEREXPRESSION OF THE WNT RECEPTOR FRIZZLED 3 (FZD3) IN ACUTE LEUKAEMIA. USING REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION (RT-PCR) WE EXAMINED MRNA EXPRESSION OF SFRP1 AND FZD3 IN BONE MARROW CELLS DERIVED FROM 121 PATIENTS WITH DIFFERENT RISK TYPES OF MDS, ACUTE MYELOID LEUKAEMIA (AML) AND ACUTE LYMPHOBLASTIC LEUKAEMIA (ALL). WE EMPLOYED PYROSEQUENCING TO QUANTIFY PROMOTER DNA METHYLATION IN MDS AND ACUTE LEUKAEMIA. WE DETECTED SIGNIFICANT LOWER MRNA TRANSCRIPTION OF SFRP1 IN MDS COMPARED TO HEALTHY INDIVIDUALS. HOWEVER, DNA SEQUENCE MUTATIONS OR FREQUENT ELEVATED DNA METHYLATION LEVELS OF THE SFRP1 PROMOTER COULD NOT BE OBSERVED IN MDS BUT IN AML AND ALL AS PREVIOUSLY REPORTED. THE EXPRESSION LEVELS OF FZD3 WERE UP-REGULATED IN BOTH ACUTE LEUKAEMIA AND MDS. OUR DATA SHOW A SIGNIFICANT TRANSCRIPTIONAL DOWN-REGULATION OF SFRP1 AS A COMMON EVENT IN AML, ALL AND - AS DEMONSTRATED FOR THE FIRST TIME - IN MDS. AN INACTIVATION OF SFRP1 AND THE TRANSCRIPTIONAL UP-REGULATION OF FZD3 SEEM TO BE ASSOCIATED WITH AN ACTIVATION OF THE WNT SIGNALLING PATHWAY IN THESE HAEMATOPOIETIC DISEASES. 2010 18 3839 33 IPSC-DERIVED NEURAL PRECURSOR CELLS: POTENTIAL FOR CELL TRANSPLANTATION THERAPY IN SPINAL CORD INJURY. A NUMBER OF STUDIES HAVE DEMONSTRATED THAT TRANSPLANTATION OF NEURAL PRECURSOR CELLS (NPCS) PROMOTES FUNCTIONAL RECOVERY AFTER SPINAL CORD INJURY (SCI). HOWEVER, THE NPCS HAD BEEN MOSTLY HARVESTED FROM EMBRYONIC STEM CELLS OR FETAL TISSUE, RAISING THE ETHICAL CONCERN. YAMANAKA AND HIS COLLEAGUES ESTABLISHED INDUCED PLURIPOTENT STEM CELLS (IPSCS) WHICH COULD BE GENERATED FROM SOMATIC CELLS, AND THIS INNOVATIVE DEVELOPMENT HAS MADE RAPID PROGRESSION IN THE FIELD OF SCI REGENERATION. WE AND OTHER GROUPS SUCCEEDED IN PRODUCING NPCS FROM IPSCS, AND DEMONSTRATED BENEFICIAL EFFECTS AFTER TRANSPLANTATION FOR ANIMAL MODELS OF SCI. IN PARTICULAR, EFFICACY OF HUMAN IPSC-NPCS IN NON-HUMAN PRIMATE SCI MODELS FOSTERED MOMENTUM OF CLINICAL APPLICATION FOR SCI PATIENTS. AT THE SAME TIME, HOWEVER, ARTIFICIAL INDUCTION METHODS IN IPSC TECHNOLOGY CREATED ALTERNATIVE ISSUES INCLUDING GENETIC AND EPIGENETIC ABNORMALITIES, AND TUMORIGENICITY AFTER TRANSPLANTATION. TO OVERCOME THESE PROBLEMS, IT IS CRITICALLY IMPORTANT TO SELECT ORIGINS OF SOMATIC CELLS, USE INTEGRATION-FREE SYSTEM DURING TRANSFECTION OF REPROGRAMMING FACTORS, AND THOROUGHLY INVESTIGATE THE CHARACTERISTICS OF IPSC-NPCS WITH RESPECT TO QUALITY MANAGEMENT. MOREOVER, SINCE MOST OF THE PREVIOUS STUDIES HAVE FOCUSED ON SUBACUTE PHASE OF SCI, ESTABLISHMENT OF EFFECTIVE NPC TRANSPLANTATION SHOULD BE EVALUATED FOR CHRONIC PHASE HEREAFTER. OUR GROUP IS CURRENTLY PREPARING CLINICAL-GRADE HUMAN IPSC-NPCS, AND WILL MOVE FORWARD TOWARD CLINICAL STUDY FOR SUBACUTE SCI PATIENTS SOON IN THE NEAR FUTURE. 2018 19 2697 31 EX VIVO MODELS OF CHRONIC GRANULOMATOUS DISEASE. INDUCED PLURIPOTENT STEM CELLS (IPSCS) ARE PLURIPOTENT STEM CELLS THAT CAN BE ESTABLISHED FROM DEDIFFERENTIATION OF ALL SOMATIC CELL TYPES BY EPIGENETIC PHENOMENA. IPSCS CAN BE DIFFERENTIATED INTO ANY MATURE CELLS LIKE NEURONS, HEPATOCYTES, OR PANCREATIC CELLS THAT HAVE NOT BEEN EASILY AVAILABLE TO DATE. THUS, IPSCS ARE WIDELY USED FOR DISEASE MODELING, DRUG DISCOVERY, AND CELL THERAPY DEVELOPMENT. HERE, WE DESCRIBE A PROTOCOL TO OBTAIN HUMAN MATURE AND FUNCTIONAL NEUTROPHILS AND MACROPHAGES AS EX VIVO MODELS OF X-LINKED CHRONIC GRANULOMATOUS DISEASE (X-CGD). THIS METHOD CAN BE APPLIED TO MODEL THE OTHER GENETIC FORMS OF CGD. WE ALSO DESCRIBE METHODS FOR TESTING THE CHARACTERISTICS AND FUNCTIONS OF NEUTROPHILS AND MACROPHAGES BY MORPHOLOGY, PHAGOCYTOSIS ASSAY, RELEASE OF GRANULE MARKERS OR CYTOKINES, CELL SURFACE MARKERS, AND NADPH OXIDASE ACTIVITY. 2019 20 454 38 APPLICATIONS OF INDUCED PLURIPOTENT STEM CELL TECHNOLOGIES IN SPINAL CORD INJURY. NUMEROUS BASIC RESEARCH STUDIES HAVE SUGGESTED THE POTENTIAL EFFICACY OF NEURAL PRECURSOR CELL (NPC) TRANSPLANTATION IN SPINAL CORD INJURY (SCI). HOWEVER, IN MOST SUCH STUDIES, THE ORIGIN OF THE CELLS USED WAS MAINLY FETAL TISSUE OR EMBRYONIC STEM CELLS, BOTH OF WHICH CARRY POTENTIAL ETHICAL CONCERNS WITH RESPECT TO CLINICAL USE. THE DEVELOPMENT OF INDUCED PLURIPOTENT STEM CELLS (IPSCS) OPENED A NEW PATH TOWARD REGENERATIVE MEDICINE FOR SCI. IPSCS CAN BE GENERATED FROM SOMATIC CELLS BY INDUCTION OF TRANSCRIPTION FACTORS, AND INDUCED TO DIFFERENTIATE INTO NPCS WITH CHARACTERISTICS OF CELLS OF THE CENTRAL NERVOUS SYSTEM. THE BENEFICIAL EFFECT OF IPSC-DERIVED NPC TRANSPLANTATION HAS BEEN REPORTED FROM OUR GROUP AND OTHERS WORKING IN RODENT AND NON-HUMAN PRIMATE MODELS. THESE PROMISING RESULTS FACILITATE THE APPLICATION OF IPSCS FOR CLINICAL APPLICATIONS IN SCI PATIENTS. HOWEVER, IPSCS ALSO HAVE ISSUES, SUCH AS GENETIC/EPIGENETIC ABNORMALITIES AND TUMORIGENESIS BECAUSE OF THE ARTIFICIAL INDUCTION METHOD, THAT MUST BE ADDRESSED PRIOR TO CLINICAL USE. THE SELECTION OF SOMATIC CELLS, GENERATION OF INTEGRATION-FREE IPSCS, AND CHARACTERIZATION OF DIFFERENTIATED NPCS WITH THOROUGH QUALITY MANAGEMENT ARE ALL NEEDED TO ADDRESS THESE POTENTIAL RISKS. TO ENHANCE THE EFFICACY OF THE TRANSPLANTED IPSC-NPCS, ESPECIALLY AT CHRONIC PHASE OF SCI, ADMINISTRATION OF A CHONDROITINASE OR SEMAPHORIN3A INHIBITOR REPRESENTS A POTENTIALLY IMPORTANT MEANS OF PROMOTING AXONAL REGENERATION THROUGH THE LESION SITE. THE COMBINED USE OF REHABILITATION WITH SUCH CELL THERAPY APPROACHES IS ALSO IMPORTANT, AS REPETITIVE TRAINING ENHANCES NEURITE OUTGROWTH OF TRANSPLANTED CELLS AND STRENGTHENS NEURAL CIRCUITS AT CENTRAL PATTERN GENERATORS. OUR GROUP HAS ALREADY EVALUATED CLINICAL GRADE IPSC-DERIVED NPCS, AND WE LOOK FORWARD TO INITIATING CLINICAL TESTING AS THE NEXT STEP TOWARD DETERMINING WHETHER THIS APPROACH IS SAFE AND EFFECTIVE FOR CLINICAL USE. THIS ARTICLE IS PART OF THE MINI REVIEW SERIES "60TH ANNIVERSARY OF THE JAPANESE SOCIETY FOR NEUROCHEMISTRY". 2017