1 6758 141 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 2 2811 32 FGFR2-RELATED PATHOGENESIS AND FGFR2-TARGETED THERAPEUTICS (REVIEW). FGFR2 GENE AT HUMAN CHROMOSOME 10Q26 ENCODES FGFR2B AND FGFR2C ISOFORMS FUNCTIONING AS FGF RECEPTORS WITH DISTINCT EXPRESSION DOMAIN AND LIGAND SPECIFICITY. FGFR2 PLAYS ONCOGENIC AND ANTI-ONCOGENIC ROLES IN A CONTEXT-DEPENDENT MANNER. SINGLE NUCLEOTIDE POLYMORPHISMS (SNPS) WITHIN INTRON 2 OF FGFR2 GENE ARE ASSOCIATED WITH BREAST CANCER THROUGH ALLELIC FGFR2 UPREGULATION. MISSENSE MUTATIONS OR COPY NUMBER GAINS OF FGFR2 GENE OCCUR IN BREAST CANCER AND GASTRIC CANCER TO ACTIVATE FGFR2 SIGNALING. ABERRANT FGFR2 SIGNALING ACTIVATION INDUCES PROLIFERATION AND SURVIVAL OF TUMOR CELLS. THE CLASS SWITCH FROM FGFR2B TO FGFR2C OCCURS DURING PROGRESSION OF PROSTATE CANCER AND BLADDER CANCER BECAUSE OF SPLICEOSOME DYSREGULATION. IN ADDITION, EPIDERMAL FGFR2B KNOCKOUT MICE SHOW INCREASED SENSITIVITY TO CHEMICAL CARCINOGENESIS PARTLY DUE TO THE FAILURE OF NFE2L2 (NRF2)-MEDIATED DETOXIFICATION OF REACTIVE OXYGEN SPECIES (ROS). LOSS OF FGFR2B SIGNALING INDUCES EPITHELIAL-TO-MESENCHYMAL TRANSITION (EMT) AND UNRULY ROS. FGFR2 SIGNALING DYSREGULATION DUE TO THE ACCUMULATION OF EPIGENETIC MODIFICATIONS AND GENETIC ALTERATIONS DURING CHRONIC INFLAMMATION, SMOKING, INCREASED CALORIC UPTAKE, AND DECREASED EXERCISE LEADS TO CARCINOGENESIS. PD173074, SU5402, AZD2171, AND KI23057 ARE SMALL-MOLECULE FGFR INHIBITORS. HUMAN ANTIBODY, PEPTIDE MIMETIC, RNA APTAMER, SIRNA, AND SYNTHETIC MICRORNA (MIRNA) ARE EMERGING TECHNOLOGIES TO BE APPLIED FOR CANCER THERAPEUTICS TARGETED TO FGFR2. BECAUSE NOVEL SEQUENCE TECHNOLOGY AND PETA-SCALE SUPER-COMPUTER ARE OPENING UP THE SEQUENCE ERA FOLLOWING THE GENOME ERA, PERSONALIZED MEDICINE PRESCRIBING TARGETED DRUGS BASED ON GERMLINE AND/OR SOMATIC GENOMIC INFORMATION IS COMING REALITY. APPLICATION OF FGFR2 INHIBITORS FOR CANCER TREATMENT IN PATIENTS WITH FGFR2 MUTATION OR GENE AMPLIFICATION IS BENEFICIAL; HOWEVER, THAT FOR CANCER PREVENTION IN PEOPLE WITH FGFR2 RISK ALLELE MIGHT BE DISADVANTAGEOUS DUE TO THE IMPEDIMENT OF A CYTOPROTECTIVE MECHANISM AGAINST OXIDATIVE STRESS. 2009 3 1730 46 DYSREGULATION OF STEM CELL SIGNALING NETWORK DUE TO GERMLINE MUTATION, SNP, HELICOBACTER PYLORI INFECTION, EPIGENETIC CHANGE AND GENETIC ALTERATION IN GASTRIC CANCER. GENETIC FACTORS, HELICOBACTER PYLORI INFECTION, SALT OVER-UPTAKE, DECREASED VEGETABLE/FRUIT CONSUMPTION, SMOKING, AND METABOLIC SYNDROME ARE RISK FACTORS OF HUMAN GASTRIC CANCER. GERMLINE MUTATIONS OF CDH1 GENE, AND SNPS OF PTPN11 (SHP2), TLR4, IL1B, TNFA, BMP6, GDF15 AND RUNX3 GENES ARE ASSOCIATED WITH GASTRIC CANCER. HELICOBACTER PYLORI ACTIVATES CAGA-SHP2-ERK AND PEPTIDOGLYCAN-NOD1-NFKAPPAB SIGNALING CASCADES IN GASTRIC EPITHELIAL CELLS USING TYPE IV SECRETION SYSTEM, AND ALSO TRAF6-MAP3K7-NFKAPPAB AND TRAF6-MAP3K7-AP-1 SIGNALING CASCADES IN EPITHELIAL AND IMMUNE CELLS THROUGH LIPOPOLYSACCHARIDE RECOGNITION BY TLR2 OR TLR4. IL-1BETA, IL-6, IL-8, TNFALPHA AND IFNGAMMA ARE ELEVATED IN GASTRIC MUCOSA WITH HELICOBACTER PYLORI INFECTION. IL-6 AND TNFALPHA INDUCE UPREGULATION OF WNT5A AND WNT10B, RESPECTIVELY. WNT SIGNALS ARE TRANSDUCED TO BETA-CATENIN-TCF/LEF, RHOA, JNK, PKC, NFAT, AND NLK SIGNALING CASCADES. WNT-BETA-CATENIN-TCF/LEF SIGNALING INDUCES UPREGULATION OF MYC, CCND1, WISP1, FGF20, JAG1 AND DKK1 GENES. NOTCH SIGNALS ARE TRANSDUCED TO CSL-NICD-MAML AND NFKAPPAB SIGNALING CASCADES. FGF SIGNALS ARE TRANSDUCED TO ERK, PI3K-AKT, PKC, AND NFAT SIGNALING CASCADES. HELICOBACTER PYLORI INFECTION INDUCES SHH UPREGULATION IN PARIETAL CELL LINEAGE, WHILE BMP SIGNALS INDUCE IHH UPREGULATION IN PIT CELL LINEAGE. HEDGEHOG SIGNALS INDUCE UPREGULATION OF GLI1, PTCH1, CCND2, FOXL1, JAG2 AND SFRP1 GENES. JAG1 AND JAG2 ACTIVATE NOTCH SIGNALING, WHILE DKK1 AND SFRP1 INHIBIT WNT SIGNALING. STEM CELL SIGNALING NETWORK, CONSISTING OF WNT, NOTCH, FGF, HEDGEHOG AND BMP SIGNALING PATHWAYS, IS ACTIVATED DURING CHRONIC HELICOBACTER PYLORI INFECTION. EPIGENETIC SILENCING OF SFRP1 GENE OCCURS IN THE EARLIER STAGE OF CARCINOGENESIS IN THE STOMACH, WHILE AMPLIFICATION AND OVEREXPRESSION OF FGFR2 GENE IN THE LATER STAGE. DYSREGULATION OF THE STEM CELL SIGNALING NETWORK DUE TO THE ACCUMULATION OF GERMLINE MUTATION, SNP, HELICOBACTER PYLORI INFECTION, EPIGENETIC CHANGE AND GENETIC ALTERATION GIVES RISE TO GASTRIC CANCER. SNP TYPING AND CUSTOM-MADE MICROARRAY ANALYSES ON GENES ENCODING STEM CELL SIGNALING MOLECULES COULD BE UTILIZED FOR THE PERSONALIZED MEDICINE. 2007 4 6756 44 WNT ANTAGONIST, SFRP1, IS HEDGEHOG SIGNALING TARGET. HEDGEHOG AND WNT SIGNALING PATHWAYS NETWORK TOGETHER DURING EMBRYOGENESIS AND CARCINOGENESIS. HEDGEHOG SIGNALING IN INTESTINAL EPITHELIUM REPRESSES CANONICAL WNT SIGNALING TO RESTRICT EXPRESSION OF WNT TARGET GENES TO STEM OR PROGENITOR CELLS; HOWEVER, THE MECHANISM REMAINS UNCLEAR. THE HEDGEHOG SIGNAL IS TRANSDUCED TO GLI FAMILY TRANSCRIPTION FACTORS THOUGH PATCHED RECEPTOR, SMOOTHENED SIGNAL TRANSDUCER, AND OTHER SIGNALING COMPONENTS, SUCH AS KIF27, KIF7, STK36, SUFU, AND DZIP1. HERE, WE SEARCHED FOR THE GLI-BINDING SITE WITHIN THE PROMOTER REGION OF GENES ENCODING SECRETED-TYPE WNT SIGNAL INHIBITORS, INCLUDING SFRP1, SFRP2, SFRP3, SFRP4, SFRP5, DKK1, DKK2, DKK3, DKK4, AND WIF1. THE GLI-BINDING SITE WAS IDENTIFIED WITHIN THE HUMAN SFRP1 PROMOTER BASED ON BIOINFORMATICS AND HUMAN INTELLIGENCE. THE CHIMPANZEE SFRP1 GENE WAS IDENTIFIED WITHIN THE NW_110515.1 GENOME SEQUENCE. THE GLI-BINDING SITE OF THE HUMAN SFRP1 PROMOTER WAS CONSERVED IN CHIMPANZEE SFRP1, MOUSE SFRP1, AND RAT SFRP1 PROMOTERS. SFRP1 IS THE EVOLUTIONARILY CONSERVED TARGET OF THE HEDGEHOG-GLI SIGNALING PATHWAY. EXPRESSION DOMAIN ANALYSES BASED ON TEXT MINING REVEALED THAT INDIAN HEDGEHOG (IHH), SFRP1, AND WNT6 ARE EXPRESSED IN DIFFERENTIATED INTESTINAL EPITHELIAL CELLS, MESENCHYMAL CELLS, AND STEM/PROGENITOR CELLS, RESPECTIVELY. HEDGEHOG IS SECRETED FROM DIFFERENTIATED EPITHELIAL CELLS TO INDUCE SFRP1 EXPRESSION IN MESENCHYMAL CELLS, WHICH KEEPS DIFFERENTIATED EPITHELIAL CELLS AWAY FROM THE EFFECTS OF CANONICAL WNT SIGNALING. THESE FACTS INDICATE THAT SFRP1 IS THE HEDGEHOG TARGET TO CONFINE CANONICAL WNT SIGNALING WITHIN STEM OR PROGENITOR CELLS. THEREFORE, EPIGENETIC CPG HYPERMETHYLATION OF THE SFRP1 PROMOTER DURING CHRONIC PERSISTENT INFLAMMATION AND AGING LEADS TO THE OCCURRENCE OF GASTROINTESTINAL CANCERS, SUCH AS COLORECTAL CANCER AND GASTRIC CANCER, THROUGH THE BREAKDOWN OF HEDGEHOG-DEPENDENT WNT SIGNAL INHIBITION. 2006 5 3216 49 HEDGEHOG SIGNALING PATHWAY AND GASTROINTESTINAL STEM CELL SIGNALING NETWORK (REVIEW). HEDGEHOG, BMP/TGFBETA, FGF, WNT AND NOTCH SIGNALING PATHWAYS CONSTITUTE THE STEM CELL SIGNALING NETWORK, WHICH PLAYS A KEY ROLE IN A VARIETY OF PROCESSES, SUCH AS EMBRYOGENESIS, MAINTENANCE OF ADULT TISSUE HOMEOSTASIS, TISSUE REPAIR DURING CHRONIC PERSISTENT INFLAMMATION, AND CARCINOGENESIS. SONIC HEDGEHOG (SHH), INDIAN HEDGEHOG (IHH) AND DESERT HEDGEHOG (DHH) BIND TO PTCH1/PTCH OR PTCH2 RECEPTOR TO RELEASE SMOOTHENED (SMO) SIGNAL TRANSDUCER FROM PATCHED-DEPENDENT SUPPRESSION. SMO THEN ACTIVATES STK36 SERINE/THREONINE KINASE TO STABILIZE GLI FAMILY MEMBERS AND TO PHOSPHORYLATE SUFU FOR NUCLEAR ACCUMULATION OF GLI. HEDGEHOG SIGNALING ACTIVATION LEADS TO GLI-DEPENDENT TRANSCRIPTIONAL ACTIVATION OF TARGET GENES, SUCH AS GLI1, PTCH1, CCND2, FOXL1, JAG2 AND SFRP1. GLI1-DEPENDENT POSITIVE FEEDBACK LOOP COMBINED WITH PTCH1-DEPENDENT NEGATIVE FEEDBACK LOOP GIVES RISE TO TRANSIENT PROLIFERATION OF HEDGEHOG TARGET CELLS. IGUANA HOMOLOGS (DZIP1 AND DZIP1L) AND COSTAL-2 HOMOLOGS (KIF7 AND KIF27) ARE IDENTIFIED BY COMPARATIVE INTEGROMICS. SHH-DEPENDENT PARIETAL CELL PROLIFERATION IS IMPLICATED IN GASTRIC MUCOSAL REPAIR DURING CHRONIC HELICOBACTER PYLORI INFECTION. BMP-RUNX3 SIGNALING INDUCES IHH EXPRESSION IN SURFACE DIFFERENTIATED EPITHELIAL CELLS OF STOMACH AND INTESTINE. HEDGEHOG SIGNALS FROM EPITHELIAL CELLS THEN INDUCES FOXL1-MEDIATED BMP4 UPREGULATION IN MESENCHYMAL CELLS. HEDGEHOG SIGNALING IS FREQUENTLY ACTIVATED IN ESOPHAGEAL CANCER, GASTRIC CANCER AND PANCREATIC CANCER DUE TO TRANSCRIPTIONAL UPREGULATION OF HEDGEHOG LIGANDS AND EPIGENETIC SILENCING OF HHIP1/HHIP GENE, ENCODING THE HEDGEHOG INHIBITOR. HOWEVER, HEDGEHOG SIGNALING IS RARELY ACTIVATED IN COLORECTAL CANCER DUE TO NEGATIVE REGULATION BY THE CANONICAL WNT SIGNALING PATHWAY. HEDGEHOG SIGNALING MOLECULES OR TARGETS, SUCH AS SHH, IHH, HHIP1, PTCH1 AND GLI1, ARE APPLIED AS BIOMARKERS FOR CANCER DIAGNOSTICS, PROGNOSTICS AND THERAPEUTICS. SMALL-MOLECULE INHIBITORS FOR SMO OR STK36 ARE SUITABLE TO BE USED FOR TREATMENT OF HEDGEHOG-DEPENDENT CANCER. 2006 6 1393 24 DIAGNOSTIC VALUE OF THE HYPOMETHYLATION OF THE WISP1 PROMOTER IN PATIENTS WITH HEPATOCELLULAR CARCINOMA ASSOCIATED WITH HEPATITIS B VIRUS. WNT1-INDUCIBLE SIGNALING PATHWAY PROTEIN 1 (WISP1) REGULATES CELL PROLIFERATION, DIFFERENTIATION, ADHESION, MIGRATION AND SURVIVAL. ABNORMAL WISP1 EXPRESSION IS ASSOCIATED WITH THE CARCINOGENESIS OF HEPATOCELLULAR CARCINOMA (HCC). ABERRANT DNA METHYLATION IS ONE OF THE MAJOR EPIGENETIC ALTERATIONS IN HCC. HOWEVER, THE METHYLATION STATUS OF THE WISP1 PROMOTER IS STILL UNCLEAR. WE THEREFORE AIMED TO DETERMINE THE METHYLATION STATUS OF THE WISP1 PROMOTER AND EVALUATE ITS CLINICAL VALUE IN HCC. THE STUDY ENROLLED 251 PARTICIPANTS, INCLUDING 123 PARTICIPANTS WITH HCC, 90 PARTICIPANTS WITH CHRONIC HEPATITIS B (CHB) AND 38 HEALTHY CONTROLS (HCS). WISP1 METHYLATION STATUS, MRNA LEVELS AND PLASMA SOLUBLE WISP1 WERE DETECTED BY METHYLATION-SPECIFIC POLYMERASE CHAIN REACTION (MSP), QUANTITATIVE REAL-TIME PCR (RT-QPCR) AND ENZYME-LINKED IMMUNOSORBENT ASSAY (ELISA), RESPECTIVELY. WE FOUND THAT THE METHYLATION FREQUENCY OF WISP1 IN PATIENTS WITH HCC WAS SIGNIFICANTLY LOWER THAN THAT IN PATIENTS WITH CHB AND HCS, WHILE THE RELATIVE EXPRESSION LEVELS OF WISP1 MRNA WERE MARKEDLY HIGHER IN PATIENTS WITH HCC THAN IN PATIENTS WITH CHB AND HCS. FURTHERMORE, THE PLASMA SOLUBLE WISP1 IN PATIENTS WITH HCC WAS OBVIOUSLY LOWER THAN IN THAT IN PATIENTS WITH CHB AND HCS. ALPHA-FETOPROTEIN (AFP) IS A WIDELY RECOGNIZED BIOMARKER TO DIAGNOSE HCC WHICH LACKS ENOUGH SENSITIVITY AND SPECIFICITY. WISP1 PROMOTER METHYLATION STATUS COMBINED WITH AFP SIGNIFICANTLY IMPROVED THE DIAGNOSTIC ABILITY IN DISCRIMINATING HCC FROM CHB COMPARED WITH AFP OR WISP1 METHYLATION STATUS ALONE. IN CONCLUSION, HYPOMETHYLATION OF THE WISP1 GENE PROMOTER MAY SERVE AS A NONINVASIVE BIOMARKER FOR DETECTING HBV-ASSOCIATED HCC. 2020 7 6662 23 UPREGULATION OF FZD5 IN EOSINOPHILIC CHRONIC RHINOSINUSITIS WITH NASAL POLYPS BY EPIGENETIC MODIFICATION. EOSINOPHILIC CHRONIC RHINOSINUSITIS WITH NASAL POLYPS (CRSWNP) IS ONE OF THE MOST CHALLENGING PROBLEMS IN CLINICAL RHINOLOGY. FZD5 IS A RECEPTOR FOR WNT5A, AND ITS COMPLEX WITH WNT5A CONTRIBUTES TO ACTIVATING INFLAMMATION AND TISSUE MODIFICATION. NASAL POLYPS AND EOSINOPHIL/NON-EOSINOPHIL COUNTS ARE REPORTED TO BE DIRECTLY CORRELATED. THIS STUDY INVESTIGATED THE EXPRESSION AND DISTRIBUTION OF FZD5, AND THE ROLE OF EOSINOPHIL INFILTRATION AND FZD5 IN EOSINOPHILIC CRSWNP PATHOGENESIS. THE PROGNOSTIC ROLE OF EOSINOPHIL LEVELS WAS EVALUATED IN SEVEN PATIENTS WITH CRSWNP. FIFTEEN PATIENTS WITH CRS WERE CLASSIFIED BASED ON THE PERCENTAGE OF EOSINOPHILS IN NASAL POLYP TISSUE. METHYLATED GENES WERE DETECTED USING METHYL-CPG-BINDING DOMAIN SEQUENCING, AND QRT-PCR AND IMMUNOHISTOCHEMISTRY WERE USED TO DETECT FZD5 EXPRESSION IN NASAL POLYP TISSUE SAMPLES. THE RESULTS SHOWED THAT MRNA EXPRESSION OF FZD5 WAS UPREGULATED IN NASAL POLYPS. FZD5 EXPRESSION WAS SIGNIFICANTLY HIGHER IN NASAL POLYP SAMPLES FROM PATIENTS WITH EOSINOPHILIC CRSWNP THAN IN THOSE FROM PATIENTS WITH NON-EOSINOPHILIC CRSWNP, AS INDICATED BY IMMUNOHISTOCHEMISTRY. FURTHERMORE, INFLAMMATORY CYTOKINE LEVELS WERE HIGHER IN EOSINOPHILIC CRSWNP-DERIVED EPITHELIAL CELLS THAN IN NORMAL TISSUES. IN CONCLUSION, FZD5 EXPRESSION IN NASAL MUCOSAL EPITHELIAL CELLS IS CORRELATED WITH INFLAMMATORY CELLS AND MIGHT PLAY A ROLE IN THE PATHOGENESIS OF EOSINOPHILIC CRSWNP. 2019 8 1483 20 DKK1 IS EPIGENETICALLY DOWNREGULATED BY PROMOTER METHYLATION AND INHIBITS BILE ACID-INDUCED GASTRIC INTESTINAL METAPLASIA. DICKKOPF-RELATED PROTEIN 1 (DKK1) IS ESSENTIAL TO GASTRIC CANCER AS AN INHIBITOR OF WNT SIGNALING. GASTRIC INTESTINAL METAPLASIA (GIM) IS AN IMPORTANT PRECANCEROUS LESION OF GASTRIC CANCER THAT CAN BE ACTIVATED BY BILE ACID REFLUX AND CHRONIC INFLAMMATION. HOWEVER, THE EXACT MECHANISM OF DKK1 IN BILE ACID-INDUCED GIM HAS NOT BEEN COMPLETELY ELUCIDATED. WE AIMED TO EXPLORE THE EPIGENETIC ALTERATIONS AND BIOLOGICAL FUNCTIONS OF DKK1 IN THE DEVELOPMENT OF GIM. IN THE PRESENT STUDY, BILE ACID WAS FOUND TO INDUCE THE EXPRESSION OF INTESTINAL MARKERS IN GASTRIC EPITHELIAL CELLS, WHEREAS DKK1 WAS DOWNREGULATED IN RESPONSE TO BILE ACID STIMULATION. THE MRNA AND PROTEIN EXPRESSION LEVELS OF DKK1 WERE DECREASED IN GIM TISSUES AS EVIDENCED BY QRT-PCR AND IMMUNOHISTOCHEMICAL STAINING. SURPRISINGLY, THE METHYLATION OF THE DKK1 PROMOTER INCREASED IN GIM TISSUES, AND WE DISCOVERED 28 DIFFERENTIAL METHYLATION SITES OF THE DKK1 PROMOTER IN GIM TISSUES. BILE ACID WAS ABLE TO INDUCE THE PARTIAL METHYLATION OF THE DKK1 PROMOTER, WHILE 5-AZA COULD INCREASE DKK1 EXPRESSION AS WELL AS DECREASE INTESTINAL MARKERS EXPRESSION IN GASTRIC EPITHELIAL CELLS. IN CONCLUSION, THE PROMOTER METHYLATION AND DOWNREGULATION OF DKK1 MIGHT PLAY IMPORTANT ROLES IN THE DEVELOPMENT OF GIM, ESPECIALLY BILE ACID-INDUCED GIM. 2020 9 3642 22 INCREASED H3K4ME3 METHYLATION AND DECREASED MIR-7113-5P EXPRESSION LEAD TO ENHANCED WNT/BETA-CATENIN SIGNALING IN IMMUNE CELLS FROM PTSD PATIENTS LEADING TO INFLAMMATORY PHENOTYPE. BACKGROUND: POSTTRAUMATIC STRESS DISORDER (PTSD) IS A PSYCHIATRIC DISORDER ACCOMPANIED BY CHRONIC PERIPHERAL INFLAMMATION. WHAT TRIGGERS INFLAMMATION IN PTSD IS CURRENTLY UNCLEAR. IN THE PRESENT STUDY, WE IDENTIFIED POTENTIAL DEFECTS IN SIGNALING PATHWAYS IN PERIPHERAL BLOOD MONONUCLEAR CELLS (PBMCS) FROM INDIVIDUALS WITH PTSD. METHODS: RNASEQ (5 SAMPLES EACH FOR CONTROLS AND PTSD), CHIPSEQ (5 SAMPLES EACH) AND MIRNA ARRAY (6 SAMPLES EACH) WERE USED IN COMBINATION WITH BIOINFORMATICS TOOLS TO IDENTIFY DYSREGULATED GENES IN PBMCS. REAL TIME QRT-PCR (24 SAMPLES EACH) AND IN VITRO ASSAYS WERE EMPLOYED TO VALIDATE OUR PRIMARY FINDINGS AND HYPOTHESIS. RESULTS: BY RNA-SEQ ANALYSIS OF PBMCS, WE FOUND THAT WNT SIGNALING PATHWAY WAS UPREGULATED IN PTSD WHEN COMPARED TO NORMAL CONTROLS. SPECIFICALLY, WE FOUND INCREASED EXPRESSION OF WNT10B IN THE PTSD GROUP WHEN COMPARED TO CONTROLS. OUR FINDINGS WERE CONFIRMED USING NCBI'S GEO DATABASE INVOLVING A LARGER SAMPLE SIZE. ADDITIONALLY, IN VITRO ACTIVATION STUDIES REVEALED THAT ACTIVATED BUT NOT NAIVE PBMCS FROM CONTROL INDIVIDUALS EXPRESSED MORE IFNGAMMA IN THE PRESENCE OF RECOMBINANT WNT10B SUGGESTING THAT WNT SIGNALING PLAYED A CRUCIAL ROLE IN EXACERBATING INFLAMMATION. NEXT, WE INVESTIGATED THE MECHANISM OF INDUCTION OF WNT10B AND FOUND THAT INCREASED EXPRESSION OF WNT10B MAY RESULT FROM EPIGENETIC MODULATION INVOLVING DOWNREGULATION OF HSA-MIR-7113-5P WHICH TARGETED WNT10B. FURTHERMORE, WE ALSO OBSERVED THAT WNT10B OVEREXPRESSION WAS LINKED TO HIGHER EXPRESSION OF H3K4ME3 HISTONE MODIFICATION AROUND THE PROMOTOR OF WNT10B. ADDITIONALLY, KNOCKDOWN OF HISTONE DEMETHYLASE SPECIFIC TO H3K4ME3, USING SIRNA, LED TO INCREASED EXPRESSION OF WNT10B PROVIDING CONCLUSIVE EVIDENCE THAT H3K4ME3 INDEED CONTROLLED WNT10B EXPRESSION. CONCLUSIONS: IN SUMMARY, OUR DATA DEMONSTRATE FOR THE FIRST TIME THAT WNT SIGNALING PATHWAY IS UPREGULATED IN PBMCS OF PTSD PATIENTS RESULTING FROM EPIGENETIC CHANGES INVOLVING MICRORNA DYSREGULATION AND HISTONE MODIFICATIONS, WHICH IN TURN MAY PROMOTE THE INFLAMMATORY PHENOTYPE IN SUCH CELLS. 2020 10 4162 22 MECP2 REGULATES PTCH1 EXPRESSION THROUGH DNA METHYLATION IN RHEUMATOID ARTHRITIS. RHEUMATOID ARTHRITIS (RA) IS A CHRONIC AUTOIMMUNE INFLAMMATORY DISEASE, IN WHICH PATHOGENESIS IS NOT CLEAR. MANY RESEARCH DEMONSTRATED THAT FIBROBLAST-LIKE SYNOVIOCYTES (FLSS) PLAY A KEY ROLE IN RA PATHOGENESIS, JOIN IN THE CARTILAGE INJURY AND HYPERPLASIA OF THE SYNOVIUM, AND CONTRIBUTE TO THE RELEASE OF INFLAMMATORY CYTOKINES. WE USED ADJUVANT ARTHRITIS (AA) RATS AS RA ANIMAL MODELS. THE METHYL-CPG-BINDING PROTEIN 2 (MECP2) ENABLES THE SUPPRESSED CHROMATIN STRUCTURE TO BE SELECTIVELY DETECTED IN AA FLSS. OVEREXPRESSION OF THIS PROTEIN LEADS TO AN INCREASE OF INTEGRAL METHYLATION LEVELS. SOME RESEARCH HAS CONFIRMED THE HEDGEHOG (HH) SIGNALING PATHWAY PLAYS AN IMPORTANT ROLE IN RA PATHOGENESIS; FURTHERMORE, PATCHED 1 (PTCH1) IS A NEGATIVE FRACTION OF HH SIGNALING PATHWAY. WE USED 5-AZA-2'-DEOXYCYTIDINE (5-AZADC) AS DNA METHYLATION INHIBITOR. IN OUR RESEARCH, WE FOUND MECP2 REDUCED PTCH1 EXPRESSION IN AA FLSS; 5-AZADC OBSTRUCTED THE LOSS OF PTCH1 EXPRESSION. 5-AZADC, TREATMENT OF AA FLSS, ALSO BLOCKS THE RELEASE OF INFLAMMATORY CYTOKINES. IN ORDER TO PROBE THE POTENTIAL MOLECULAR MECHANISM, WE ASSUMED THE EPIGENETIC PARTICIPATION IN THE REGULATION OF PTCH1. RESULTS DEMONSTRATED THAT PTCH1 HYPERMETHYLATION IS RELATED TO THE PERSISTENT FLS ACTIVATION AND INFLAMMATION IN AA RATS. KNOCKDOWN OF MECP2 USING SMALL-INTERFERING RNA TECHNIQUE ADDED PTCH1 EXPRESSION IN AA FLSS. OUR RESULTS INDICATE THAT DNA METHYLATION MAY OFFER MOLECULE MECHANISMS, AND THE REDUCED PTCH1 METHYLATION LEVEL COULD REGULATE INFLAMMATION THROUGH KNOCKDOWN OF MECP2. GRAPHICAL ABSTRACT PTCH1 IS AN INHIBITORY PROTEIN OF THE HEDGEHOG SIGNALING PATHWAY. INCREASED EXPRESSION OF PTCH1 CAN INHIBIT THE EXPRESSION OF GLI1 AND SHH, THEREBY INHIBITING THE ACTIVATION OF HEDGEHOG SIGNALING PATHWAY. INACTIVATED HEDGEHOG SIGNALING PATHWAY INHIBITS THE SECRETION OF IL-6 AND TNF-ALPHA. MECP2 MEDIATES HYPERMETHYLATION OF PTCH1 GENE AND DECREASES THE EXPRESSION OF PTCH1 PROTEIN, THUS ACTIVATING HEDGEHOG SIGNALING PATHWAY AND INCREASING SECRETION OF IL-6 AND TNF-ALPHA. 2017 11 6529 24 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 12 3396 19 HOST SHP1 PHOSPHATASE ANTAGONIZES HELICOBACTER PYLORI CAGA AND CAN BE DOWNREGULATED BY EPSTEIN-BARR VIRUS. MOST IF NOT ALL GASTRIC CANCERS ARE ASSOCIATED WITH CHRONIC INFECTION OF THE STOMACH MUCOSA WITH HELICOBACTER PYLORI CAGA-POSITIVE STRAINS(1-4). APPROXIMATELY 10% OF GASTRIC CANCERS ALSO HARBOUR EPSTEIN-BARR VIRUS (EBV) IN THE CANCER CELLS(5,6). FOLLOWING DELIVERY INTO GASTRIC EPITHELIAL CELLS VIA TYPE IV SECRETION(7,8), THE CAGA-ENCODED CAGA PROTEIN UNDERGOES TYROSINE PHOSPHORYLATION ON THE GLU-PRO-ILE-TYR-ALA (EPIYA) MOTIFS INITIALLY BY SRC FAMILY KINASES (SFKS) AND THEN BY C-ABL(9,10). TYROSINE-PHOSPHORYLATED CAGA BINDS TO THE PRO-ONCOGENIC PROTEIN TYROSINE PHOSPHATASE SHP2 AND THEREBY DEREGULATES THE PHOSPHATASE ACTIVITY(11,12), WHICH HAS BEEN CONSIDERED TO PLAY AN IMPORTANT ROLE IN GASTRIC CARCINOGENESIS(13). HERE WE SHOW THAT THE SHP2 HOMOLOGUE SHP1 INTERACTS WITH CAGA INDEPENDENTLY OF THE EPIYA MOTIF. THE INTERACTION POTENTIATES THE PHOSPHATASE ACTIVITY OF SHP1 THAT DAMPENS THE ONCOGENIC ACTION OF CAGA BY DEPHOSPHORYLATING THE CAGA EPIYA MOTIFS. IN VITRO INFECTION OF GASTRIC EPITHELIAL CELLS WITH EBV INDUCES SHP1 PROMOTER HYPERMETHYLATION, WHICH STRENGTHENS PHOSPHORYLATION-DEPENDENT CAGA ACTION VIA EPIGENETIC DOWNREGULATION OF SHP1 EXPRESSION. CLINICAL SPECIMENS OF EBV-POSITIVE GASTRIC CANCERS ALSO EXHIBIT SHP1 HYPERMETHYLATION WITH REDUCED SHP1 EXPRESSION. THE RESULTS REVEAL THAT SHP1 IS THE LONG-SOUGHT PHOSPHATASE THAT CAN ANTAGONIZE CAGA. AUGMENTED H. PYLORI CAGA ACTIVITY, VIA SHP1 INHIBITION, MIGHT ALSO CONTRIBUTE TO THE DEVELOPMENT OF EBV-POSITIVE GASTRIC CANCER. 2016 13 5083 30 PICKING A BONE WITH WISP1 (CCN4): NEW STRATEGIES AGAINST DEGENERATIVE JOINT DISEASE. AS THE WORLD'S POPULATION CONTINUES TO AGE, IT IS ESTIMATED THAT DEGENERATIVE JOINT DISEASE DISORDERS SUCH AS OSTEOARTHRITIS WILL IMPACT AT LEAST 130 MILLION INDIVIDUALS THROUGHOUT THE GLOBE BY THE YEAR 2050. ADVANCED AGE, OBESITY, GENETICS, GENDER, BONE DENSITY, TRAUMA, AND A POOR LEVEL OF PHYSICAL ACTIVITY CAN LEAD TO THE ONSET AND PROGRESSION OF OSTEOARTHRITIS. HOWEVER, FACTORS THAT LEAD TO DEGENERATIVE JOINT DISEASE AND INVOLVE GENDER, GENETICS, EPIGENETIC MECHANISMS, AND ADVANCED AGE ARE NOT WITHIN THE CONTROL OF AN INDIVIDUAL. FURTHERMORE, CURRENT THERAPIES INCLUDING PAIN MANAGEMENT, IMPROVED NUTRITION, AND REGULAR PROGRAMS FOR EXERCISE DO NOT LEAD TO THE RESOLUTION OF OSTEOARTHRITIS. AS A RESULT, NEW AVENUES FOR TARGETING THE TREATMENT OF OSTEOARTHRITIS ARE DESPERATELY NEEDED. WNT1 INDUCIBLE SIGNALING PATHWAY PROTEIN 1 (WISP1), A MATRICELLULAR PROTEIN AND A DOWNSTREAM TARGET OF THE WINGLESS PATHWAY WNT1, IS ONE SUCH TARGET TO CONSIDER THAT GOVERNS CELLULAR PROTECTION, STEM CELL PROLIFERATION, AND TISSUE REGENERATION IN A NUMBER OF DISORDERS INCLUDING BONE DEGENERATION. HOWEVER, INCREASED WISP1 EXPRESSION ALSO HAS BEEN ASSOCIATED WITH THE PROGRESSION OF OSTEOARTHRITIS. WISP1 HAS AN INTRICATE RELATIONSHIP WITH A NUMBER OF PROLIFERATIVE AND PROTECTIVE PATHWAYS THAT INCLUDE PHOSPHOINOSITIDE 3-KINASE (PI 3-K), PROTEIN KINASE B (AKT), NUCLEAR FACTOR KAPPA-LIGHT-CHAIN-ENHANCER OF ACTIVATED B CELLS (NF-KAPPAB), INTERLEUKIN -6 (IL-6), TRANSFORMING GROWTH FACTOR-BETA, MATRIX METALLOPROTEINASE, SMALL NON-CODING RIBONUCLEIC ACIDS (RNAS), SIRTUIN SILENT MATING TYPE INFORMATION REGULATION 2 HOMOLOG 1 (SACCHAROMYCES CEREVISIAE) (SIRT1), AND THE MECHANISTIC TARGET OF RAPAMYCIN (MTOR). TAKEN TOGETHER, THIS COMPLEX ASSOCIATION WISP1 HOLDS WITH THESE SIGNALING PATHWAYS NECESSITATES A FINE BIOLOGICAL REGULATION OF WISP1 ACTIVITY THAT CAN OFFSET THE PROGRESSION OF DEGENERATIVE JOINT DISEASE, BUT NOT LIMIT THE CELLULAR PROTECTIVE CAPABILITIES OF THE WISP1 PATHWAY. 2016 14 2379 27 EPIGENETIC REGULATION OF WNT PATHWAY ANTAGONISTS IN HUMAN GLIOBLASTOMA MULTIFORME. EPIGENETIC INACTIVATION OF TUMOR SUPPRESSOR GENES IS COMMON IN HUMAN CANCER. USING A LARGE-SCALE WHOLE-GENOME APPROACH IN AN EARLIER STUDY, THE AUTHORS IDENTIFIED EPIGENETICALLY SILENCED GENES WITH POTENTIAL TUMOR SUPPRESSOR FUNCTION IN GLIOBLASTOMA (GBM). THREE GENES IDENTIFIED IN THIS ANALYSIS-DKK1, SFRP1, AND WIF1-ARE POTENT INHIBITORS OF THE WNT SIGNAL TRANSDUCTION PATHWAY. HERE, THE AUTHORS CONFIRM DECREASED EXPRESSION OF THESE GENES IN GBM TUMOR TISSUE SAMPLES RELATIVE TO NONTUMOR BRAIN TISSUE SAMPLES USING REAL-TIME PCR. THEY THEN SHOW THAT EXPRESSION OF ALL 3 GENES IS RESTORED IN T98 GBM CELLS BY TREATMENT WITH THE HISTONE DEACETYLASE INHIBITOR TRICHOSTATIN A (TSA), BUT ONLY DKK1 EXPRESSION IS RESTORED BY TREATMENT WITH THE DEMETHYLATING AGENT 5-AZACYTIDINE. BISULFITE SEQUENCING DID NOT REVEAL SIGNIFICANT METHYLATION IN THE PROMOTER REGION OF DKK1, WHEREAS HISTONE ACETYLATION AND CHROMATIN ACCESSIBILITY INCREASED SIGNIFICANTLY FOR ALL 3 GENES AFTER TSA TREATMENT. ECTOPIC EXPRESSION OF DKK1 SIGNIFICANTLY REDUCES COLONY FORMATION AND INCREASES CHEMOTHERAPY-INDUCED APOPTOSIS IN T98 CELLS. ECTOPIC EXPRESSION OF THE CANONICAL WNT PATHWAY INHIBITORS WIF1 AND SFRP1 SHOWS A RELATIVE LACK OF RESPONSE. CHRONIC WNT3A STIMULATION ONLY PARTIALLY REVERSES GROWTH SUPPRESSION AFTER DKK1 REEXPRESSION, WHEREAS A SPECIFIC INHIBITOR OF THE JNK PATHWAY SIGNIFICANTLY REVERSES THE EFFECT OF DKK1 REEXPRESSION ON COLONY FORMATION AND APOPTOSIS IN T98 CELLS. THESE RESULTS SUPPORT A POTENTIAL GROWTH-SUPPRESSIVE FUNCTION FOR EPIGENETICALLY SILENCED DKK1 IN GBM AND SUGGEST THAT DKK1 RESTORATION COULD MODULATE WNT SIGNALING THROUGH BOTH CANONICAL AND NONCANONICAL PATHWAYS. 2010 15 234 24 ADDICTION OF CANCER STEM CELLS TO MUC1-C IN TRIPLE-NEGATIVE BREAST CANCER PROGRESSION. TRIPLE-NEGATIVE BREAST CANCER (TNBC) IS AN AGGRESSIVE MALIGNANCY WITH LIMITED TREATMENT OPTIONS. TNBC PROGRESSION IS ASSOCIATED WITH EXPANSION OF CANCER STEM CELLS (CSCS). FEW INSIGHTS ARE AVAILABLE REGARDING DRUGGABLE TARGETS THAT DRIVE THE TNBC CSC STATE. THIS REVIEW SUMMARIZES THE LITERATURE ON TNBC CSCS AND THE COMPELLING EVIDENCE THAT THEY ARE ADDICTED TO THE MUC1-C TRANSMEMBRANE PROTEIN. IN NORMAL EPITHELIA, MUC1-C IS ACTIVATED BY LOSS OF HOMEOSTASIS AND INDUCES REVERSIBLE WOUND-HEALING RESPONSES OF INFLAMMATION AND REPAIR. HOWEVER, IN SETTINGS OF CHRONIC INFLAMMATION, MUC1-C PROMOTES CARCINOGENESIS. MUC1-C INDUCES EMT, EPIGENETIC REPROGRAMMING AND CHROMATIN REMODELING IN TNBC CSCS, WHICH ARE DEPENDENT ON MUC1-C FOR SELF-RENEWAL AND TUMORIGENICITY. MUC1-C-INDUCED LINEAGE PLASTICITY IN TNBC CSCS CONFERS DNA DAMAGE RESISTANCE AND IMMUNE EVASION BY CHRONIC ACTIVATION OF INFLAMMATORY PATHWAYS AND GLOBAL CHANGES IN CHROMATIN ARCHITECTURE. OF THERAPEUTIC SIGNIFICANCE, AN ANTIBODY GENERATED AGAINST THE MUC1-C EXTRACELLULAR DOMAIN HAS BEEN ADVANCED IN A CLINICAL TRIAL OF ANTI-MUC1-C CAR T CELLS AND IN IND-ENABLING STUDIES FOR DEVELOPMENT AS AN ANTIBODY-DRUG CONJUGATE (ADC). AGENTS TARGETING THE MUC1-C CYTOPLASMIC DOMAIN HAVE ALSO ENTERED THE CLINIC AND ARE UNDERGOING FURTHER DEVELOPMENT AS CANDIDATES FOR ADVANCING TNBC TREATMENT. ELIMINATING TNBC CSCS WILL BE NECESSARY FOR CURING THIS RECALCITRANT CANCER AND MUC1-C REPRESENTS A PROMISING DRUGGABLE TARGET FOR ACHIEVING THAT GOAL. 2022 16 6263 39 THE MULTIPLE WAYS WNT SIGNALING CONTRIBUTES TO ACUTE LEUKEMIA PATHOGENESIS. WNT PROTEINS CONSTITUTE A VERY CONSERVED FAMILY OF SECRETED GLYCOPROTEINS THAT ACT AS SHORT-RANGE LIGANDS FOR SIGNALING WITH CRITICAL ROLES IN HEMATOPOIESIS, EMBRYONIC DEVELOPMENT, AND TISSUE HOMEOSTASIS. THESE PROTEINS TRANSDUCE SIGNALS VIA THE CANONICAL PATHWAY, WHICH IS BETA-CATENIN-MEDIATED AND BETTER-CHARACTERIZED, OR VIA MORE DIVERSE NONCANONICAL PATHWAYS THAT ARE BETA-CATENIN INDEPENDENT AND COMPRISE THE PLANAR CELL POLARITY (PCP) PATHWAY AND THE WNT/CA(++) PATHWAYS. SEVERAL PROTEINS REGULATE WNT SIGNALING THROUGH A VARIETY OF SOPHISTICATED MECHANISMS. DISORDERS WITHIN THE PATHWAY CAN CONTRIBUTE TO VARIOUS HUMAN DISEASES, AND THE DYSREGULATION OF WNT PATHWAYS BY DIFFERENT MOLECULAR MECHANISMS IS IMPLICATED IN THE PATHOGENESIS OF MANY TYPES OF CANCER, INCLUDING THE HEMATOLOGICAL MALIGNANCIES. THE TYPES OF LEUKEMIA DIFFER CONSIDERABLY AND CAN BE SUBDIVIDED INTO CHRONIC, MYELOID OR LYMPHOCYTIC, AND ACUTE, MYELOID OR LYMPHOCYTIC, LEUKEMIA, ACCORDING TO THE DIFFERENTIATION STAGE OF THE PREDOMINANT CELLS, THE PROGENITOR LINEAGE, THE DIAGNOSTIC AGE STRATA, AND THE SPECIFIC MOLECULAR DRIVERS BEHIND THEIR DEVELOPMENT. HERE, WE REVIEW THE ROLE OF WNT SIGNALING IN NORMAL HEMATOPOIESIS AND DISCUSS IN DETAIL THE MULTIPLE WAYS CANONICAL WNT SIGNALING CAN BE DYSREGULATED IN ACUTE LEUKEMIA, INCLUDING ALTERATIONS IN GENE EXPRESSION AND PROTEIN LEVELS, EPIGENETIC REGULATION, AND MUTATIONS. FURTHERMORE, WE HIGHLIGHT THE DIFFERENT IMPACTS OF THESE ALTERATIONS, CONSIDERING THE DISTINCT FORMS OF THE DISEASE, AND THE THERAPEUTIC POTENTIAL OF TARGETING WNT SIGNALING. 2020 17 4296 22 MICRORNA-1 MODULATES CHONDROCYTE PHENOTYPE BY REGULATING FZD7 OF WNT/ BETA-CATENIN SIGNALING PATHWAY. OBJECTIVE: OSTEOARTHRITIS (OA) IS AN INCURABLE JOINT DISEASE CHARACTERIZED BY PRONOUNCED PAIN. MICRORNAS CONSTITUTE EPIGENETIC MECHANISMS THAT MAY AFFECT OA PROGRESSION BY CONTRIBUTING TO CHANGES IN CHONDROCYTE PHENOTYPE. THIS STUDY INVESTIGATES FOR THE FIRST TIME WHETHER THERE IS A LINK BETWEEN MIRNA-1 (MIR-1) AND OA PATHOGENESIS, AND THE MOLECULAR MECHANISMS INVOLVED. DESIGN: OA-ASSOCIATED GENE EXPRESSION, INCLUDING MMP-13, ADAMTS5, AND COL2A1 WAS COMPARED IN CHONDROCYTES FROM NON-OA AND OA CARTILAGE, AND IN SW1353 CELLS OVER- AND UNDEREXPRESSING MIR-1. BIOINFORMATICS AND LUCIFERASE REPORTER ASSAY WERE CONDUCTED TO CONFIRM WHETHER FZD7 WAS A TARGET OF MIR-1. THE EFFECTS OF MIR-1 ON FZD7 EXPRESSION AND DOWNSTREAM WNT/BETA-CATENIN SIGNALLING WERE INVESTIGATED. RESULTS: NON-OA AND OA CHONDROCYTES DIFFERED SIGNIFICANTLY IN THE EXPRESSION OF MIR-1 AND OA-ASSOCIATED GENES. MIR-1 OVER- AND UNDEREXPRESSION IN SW1353 CELLS, RESPECTIVELY, REDUCED AND ENHANCED GENE EXPRESSION ASSOCIATED WITH CARTILAGE CATABOLISM. FZD7, WHICH HAS AN IMPORTANT ROLE IN THE WNT/BETA-CATENIN SIGNALING PATHWAY, WAS SHOWN TO BE A POTENTIAL TARGET OF MIR-1. MIR-1 BINDING TO FZD7 INCREASED THE LEVELS OF PHOSPHORYLATED (INACTIVATED) BETA-CATENIN, THEREBY PREVENTING DOWNSTREAM BETA-CATENIN SIGNALING. CONCLUSIONS: INHIBITION OF WNT/BETA-CATENIN SIGNALING BY MIR-1 IN CHONDROCYTES MAY ATTENUATE THE EXPRESSION OF GENES THAT REGULATE THE ACTIVITY OF CATABOLIC ENZYMES. THIS FINDING MAY BE USEFUL FOR FUTURE INVESTIGATIONS OF MOLECULAR TARGETS FOR OA TREATMENT. 2021 18 4304 25 MICRORNA-223 PROTECTS NEURONS FROM DEGENERATION IN EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS. MULTIPLE SCLEROSIS IS A CHRONIC INFLAMMATORY, DEMYELINATING, AND NEURODEGENERATIVE DISEASE AFFECTING THE BRAIN, SPINAL CORD AND OPTIC NERVES. NEURONAL DAMAGE IS TRIGGERED BY VARIOUS HARMFUL FACTORS THAT ENGAGE DIVERSE SIGNALLING CASCADES IN NEURONS; THUS, THERAPEUTIC APPROACHES TO PROTECT NEURONS WILL NEED TO FOCUS ON AGENTS THAT CAN TARGET MULTIPLE BIOLOGICAL PROCESSES. WE HAVE THEREFORE FOCUSED OUR ATTENTION ON MICRORNAS: SMALL NON-CODING RNAS THAT PRIMARILY FUNCTION AS POST-TRANSCRIPTIONAL REGULATORS THAT TARGET MESSENGER RNAS AND REPRESS THEIR TRANSLATION INTO PROTEINS. A SINGLE MICRORNA CAN TARGET MANY FUNCTIONALLY RELATED MESSENGER RNAS MAKING MICRORNAS POWERFUL EPIGENETIC REGULATORS. DYSREGULATION OF MICRORNAS HAS BEEN DESCRIBED IN MANY NEURODEGENERATIVE DISEASES INCLUDING MULTIPLE SCLEROSIS. HERE, WE REPORT THAT TWO MICRORNAS, MIR-223-3P AND MIR-27A-3P, ARE UPREGULATED IN NEURONS IN THE EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS MOUSE MODEL OF CNS INFLAMMATION AND IN GREY MATTER-CONTAINING MULTIPLE SCLEROSIS LESIONS. PRIOR WORK HAS SHOWN PERIPHERAL BLOOD MONONUCLEAR CELL CONDITIONED MEDIA CAUSES SUBLETHAL DEGENERATION OF NEURONS IN CULTURE. WE FIND OVEREXPRESSION OF MIR-27A-3P OR MIR-223-3P PROTECTS DISSOCIATED CORTICAL NEURONS FROM CONDITION MEDIA MEDIATED DEGENERATION. INTRODUCTION OF MIR-223-3P IN VIVO IN MOUSE RETINAL GANGLION CELLS PROTECTS THEIR AXONS FROM DEGENERATION IN EXPERIMENTAL AUTOIMMUNE ENCEPHALOMYELITIS. IN SILICO ANALYSIS REVEALED THAT MESSENGER RNAS INVOLVED IN GLUTAMATE RECEPTOR SIGNALLING ARE ENRICHED AS MIR-27A-3P AND MIR-223-3P TARGETS. WE OBSERVE THAT ANTAGONISM OF NMDA AND AMPA TYPE GLUTAMATE RECEPTORS PROTECTS NEURONS FROM CONDITION MEDIA DEPENDENT DEGENERATION. OUR RESULTS SUGGEST THAT MIR-223-3P AND MIR-27A-3P ARE UPREGULATED IN RESPONSE TO INFLAMMATION TO MEDIATE A COMPENSATORY NEUROPROTECTIVE GENE EXPRESSION PROGRAM THAT DESENSITIZES NEURONS TO GLUTAMATE BY TARGETING MESSENGER RNAS INVOLVED IN GLUTAMATE RECEPTOR SIGNALLING. 2019 19 866 24 CHRONIC ACTIVATION OF MUC1-C IN WOUND REPAIR PROMOTES PROGRESSION TO CANCER STEM CELLS. THE MUCIN 1 (MUC1) GENE EMERGED IN MAMMALS TO AFFORD PROTECTION OF BARRIER EPITHELIAL TISSUES FROM THE EXTERNAL ENVIRONMENT. MUC1 ENCODES A TRANSMEMBRANE C-TERMINAL (MUC1-C) SUBUNIT THAT IS ACTIVATED BY LOSS OF HOMEOSTASIS AND INDUCES INFLAMMATORY, PROLIFERATIVE, AND REMODELING PATHWAYS ASSOCIATED WITH WOUND REPAIR. AS A CONSEQUENCE, CHRONIC ACTIVATION OF MUC1-C PROMOTES LINEAGE PLASTICITY, EPIGENETIC REPROGRAMMING, AND CARCINOGENESIS. IN DRIVING CANCER PROGRESSION, MUC1-C IS IMPORTED INTO THE NUCLEUS, WHERE IT INDUCES NF-KAPPAB INFLAMMATORY SIGNALING AND THE EPITHELIAL-MESENCHYMAL TRANSITION (EMT). MUC1-C REPRESSES GENE EXPRESSION BY ACTIVATING (I) DNA METHYLTRANSFERASE 1 (DNMT1) AND DNMT3B, (II) POLYCOMB REPRESSIVE COMPLEX 1 (PRC1) AND PRC2, AND (III) THE NUCLEOSOME REMODELING AND DEACETYLASE (NURD) COMPLEX. PRC1/2-MEDIATED GENE REPRESSION IS COUNTERACTED BY THE SWI/SNF CHROMATIN REMODELING COMPLEXES. MUC1-C ACTIVATES THE SWI/SNF BAF AND PBAF COMPLEXES IN CANCER STEM CELL (CSC) MODELS WITH THE INDUCTION OF GENOME-WIDE DIFFERENTIALLY ACCESSIBLE REGIONS AND EXPRESSED GENES. MUC1-C REGULATES CHROMATIN ACCESSIBILITY OF ENHANCER-LIKE SIGNATURES IN ASSOCIATION WITH THE INDUCTION OF THE YAMANAKA PLURIPOTENCY FACTORS AND RECRUITMENT OF JUN AND BAF, WHICH PROMOTE INCREASES IN HISTONE ACTIVATION MARKS AND OPENING OF CHROMATIN. THESE AND OTHER FINDINGS DESCRIBED IN THIS REVIEW HAVE UNCOVERED A PIVOTAL ROLE FOR MUC1-C IN INTEGRATING LINEAGE PLASTICITY AND EPIGENETIC REPROGRAMMING, WHICH ARE TRANSIENT IN WOUND REPAIR AND SUSTAINED IN PROMOTING CSC PROGRESSION. 2022 20 4303 24 MICRORNA-223 INHIBITS TISSUE FACTOR EXPRESSION IN VASCULAR ENDOTHELIAL CELLS. OBJECTIVE: ATHEROSCLEROSIS IS A CHRONIC INFLAMMATORY PROCESS, IN WHICH VASCULAR ENDOTHELIAL CELLS (ECS) BECOME DYSFUNCTIONAL OWING TO THE EFFECTS OF CHEMICAL SUBSTANCES, SUCH AS INFLAMMATORY FACTOR AND GROWTH FACTORS. TISSUE FACTOR (TF) EXPRESSION IS INDUCED BY THE ABOVE CHEMICAL SUBSTANCES IN ACTIVATED ECS. TF INITIATES THROMBOSIS ON DISRUPTED ATHEROSCLEROTIC PLAQUES WHICH PLAYS AN ESSENTIAL ROLE DURING THE ONSET OF ACUTE CORONARY SYNDROMES (ACS). INCREASING EVIDENCES SUGGEST THE IMPORTANT ROLE OF MICRORNAS AS EPIGENETIC REGULATORS OF ATHEROSCLEROTIC DISEASE. THE AIM OF OUR STUDY IS TO IDENTIFY IF MICRORNA-223 (MIR-223) TARGETS TF IN ECS. METHODS AND RESULTS: BIOINFORMATIC ANALYSIS SHOWED THAT TF IS A TARGET CANDIDATE OF MIR-223. WESTERN BLOTTING ANALYSIS REVEALED THAT TUMOR NECROSIS FACTOR ALPHA (TNF-ALPHA) INCREASED TF EXPRESSION IN AORTA OF C57BL/6J MICE AND CULTURED ECS (EA.HY926 CELLS AND HUVEC) AFTER 4 H TREATMENT. IN TNF-ALPHA TREATED ECS, TF MRNA WAS ALSO INCREASED MEASURED BY REAL-TIME PCR. REAL-TIME PCR RESULTS SHOWED THAT MIR-223 LEVELS WERE DOWNREGULATED IN TNF-ALPHA-TREATED AORTA OF C57BL/6J MICE AND CULTURED ECS. TRANSFECTION OF ECS WITH MIR-223 MIMIC OR MIR-223 INHIBITOR MODIFIED TF EXPRESSION BOTH IN MRNA AND PROTEIN LEVELS. LUCIFERASE ASSAYS CONFIRMED THAT MIR-223 SUPPRESSED TF EXPRESSION BY BINDING TO THE SEQUENCE OF TF 3'-UNTRANSLATED REGIONS (3'UTR). TF PROCOAGULANT ACTIVITY WAS INHIBITED BY OVEREXPRESSING MIR-223 WITH OR WITHOUT TNF-ALPHA STIMULATION. CONCLUSIONS: MIR-223-MEDIATED SUPPRESSION OF TF EXPRESSION PROVIDES A NOVEL MOLECULAR MECHANISM FOR THE REGULATION OF COAGULATION CASCADE, AND SUGGESTS A CLUE AGAINST THROMBOGENESIS DURING THE PROCESS OF ATHEROSCLEROTIC PLAQUE RUPTURE. 2014