1 4201 114 METABOLIC REWIRING AND REDOX ALTERATIONS IN MALIGNANT PLEURAL MESOTHELIOMA. MALIGNANT PLEURAL MESOTHELIOMA (MPM) IS A RARE MALIGNANCY OF MESOTHELIAL CELLS WITH INCREASING INCIDENCE, AND IN MANY CASES, DISMAL PROGNOSIS DUE TO ITS AGGRESSIVENESS AND LACK OF EFFECTIVE THERAPIES. ENVIRONMENTAL AND OCCUPATIONAL EXPOSURE TO ASBESTOS IS CONSIDERED THE MAIN AETIOLOGICAL FACTOR FOR MPM. INHALED ASBESTOS FIBRES ACCUMULATE IN THE LUNGS AND INDUCE THE GENERATION OF REACTIVE OXYGEN SPECIES (ROS) DUE TO THE PRESENCE OF IRON ASSOCIATED WITH THE FIBROUS SILICATES AND TO THE ACTIVATION OF MACROPHAGES AND INFLAMMATION. CHRONIC INFLAMMATION AND A ROS-ENRICHED MICROENVIRONMENT CAN FOSTER THE MALIGNANT TRANSFORMATION OF MESOTHELIAL CELLS. IN ADDITION, MPM CELLS HAVE A HIGHLY GLYCOLYTIC METABOLIC PROFILE AND ARE POSITIVE IN (18)F-FDG PET ANALYSIS. LOSS-OF-FUNCTION MUTATIONS OF BRCA-ASSOCIATED PROTEIN 1 (BAP1) ARE A MAJOR CONTRIBUTOR TO THE METABOLIC REWIRING OF MPM CELLS. A SUBSET OF MPM TUMOURS SHOW LOSS OF THE METHYLADENOSINE PHOSPHORYLASE (MTAP) LOCUS, RESULTING IN PROFOUND ALTERATIONS IN POLYAMINE METABOLISM, ATP AND METHIONINE SALVAGE PATHWAYS, AS WELL AS CHANGES IN EPIGENETIC CONTROL OF GENE EXPRESSION. THIS REVIEW PROVIDES AN OVERVIEW OF THE PERTURBATIONS IN METABOLISM AND ROS HOMOEOSTASIS OF MPM CELLS AND THE ROLE OF THESE ALTERATIONS IN MALIGNANT TRANSFORMATION AND TUMOUR PROGRESSION. 2020 2 5667 33 SFRP TUMOUR SUPPRESSOR GENES ARE POTENTIAL PLASMA-BASED EPIGENETIC BIOMARKERS FOR MALIGNANT PLEURAL MESOTHELIOMA. MALIGNANT PLEURAL MESOTHELIOMA (MPM) IS ASSOCIATED WITH ASBESTOS EXPOSURE. ASBESTOS CAN INDUCE CHRONIC INFLAMMATION WHICH IN TURN CAN LEAD TO SILENCING OF TUMOUR SUPPRESSOR GENES. WNT SIGNALING PATHWAY CAN BE AFFECTED BY CHRONIC INFLAMMATION AND IS ABERRANTLY ACTIVATED IN MANY CANCERS INCLUDING COLON AND MPM. SFRP GENES ARE ANTAGONISTS OF WNT PATHWAY, AND SFRPS ARE POTENTIAL TUMOUR SUPPRESSORS IN COLON, GASTRIC, BREAST, OVARIAN, AND LUNG CANCERS AND MESOTHELIOMA. THIS STUDY INVESTIGATED THE EXPRESSION AND DNA METHYLATION OF SFRP GENES IN MPM CELLS LINES WITH AND WITHOUT DEMETHYLATION TREATMENT. SIXTY-SIX PATIENT FFPE SAMPLES WERE ANALYSED AND HAVE SHOWED METHYLATION OF SFRP2 (56%) AND SFRP5 (70%) IN MPM. SFRP2 AND SFRP5 TUMOUR-SUPPRESSIVE ACTIVITY IN ELEVEN MPM LINES WAS CONFIRMED, AND LONG-TERM ASBESTOS EXPOSURE LED TO REDUCED EXPRESSION OF THE SFRP1 AND SFRP2 GENES IN THE MESOTHELIUM (MET-5A) VIA EPIGENETIC ALTERATIONS. FINALLY, DNA METHYLATION OF SFRPS IS DETECTABLE IN MPM PATIENT PLASMA SAMPLES, WITH METHYLATED SFRP2 AND SFRP5 SHOWING A TENDENCY TOWARDS GREATER ABUNDANCE IN PATIENTS. THESE DATA SUGGESTED THAT SFRP GENES HAVE TUMOUR-SUPPRESIVE ACTIVITY IN MPM AND THAT METHYLATED DNA FROM SFRP GENE PROMOTERS HAS THE POTENTIAL TO SERVE AS A BIOMARKER FOR MPM PATIENT PLASMA. 2017 3 1065 31 CLINICAL SIGNIFICANCE OF SERUM DRAM1 MRNA, ARSA MRNA, HSA-MIR-2053 AND LNCRNA-RP1-86D1.3 AXIS EXPRESSION IN MALIGNANT PLEURAL MESOTHELIOMA. AIM AND BACKGROUND: MALIGNANT PLEURAL MESOTHELIOMA (MPM) IS A LETHAL CANCER MAINLY CAUSED BY CHRONIC EXPOSURE OF ASBESTOS. IN THIS PILOT STUDY, WE AIMED TO ASSESS THE EXPRESSION OF SERUM RNA-BASED BIOMARKER PANEL EXPLORING THEIR CLINICAL UTILITY AS DIAGNOSTIC AND PROGNOSTIC BIOMARKERS FOR MPM. METHODS: WE HAVE SELECTED AN MPM-SPECIFIC RNA-BASED BIOMARKER PANEL THROUGH BIOINFORMATICS ANALYSIS BASED ON THE INTEGRATION OF DNA DAMAGE REGULATED AUTOPHAGY MODULATOR 1 (DRAM1) AND ARYLSULFATASE A ( ARSA) GENE EXPRESSION WITH THEIR EPIGENETIC REGULATORS MICRORNA ( MIR-2053) AND LONG NONCODING RNA ( LNCRNA-RP1-86D1.3). THEN, QUANTITATIVE REAL-TIME POLYMERASE CHAIN REACTION (QPCR) VALIDATION IN SERA OF 60 MPM PATIENTS, 20 CHRONIC ASBESTOS EXPOSURE PATIENTS, AND 20 HEALTHY VOLUNTEERS WAS DONE. LASTLY, THE PROGNOSTIC POWER OF THE SELECTED PANEL WAS ASSESSED. RESULTS: THE EXPRESSION OF SERUM DRAM1 MESSENGER RNA (MRNA), ARSA MRNA, HSA-MIR-2053 AND LNCRNA-RP1-86D1.3 WERE POSITIVE IN 78.3%, 90%, 85%, AND 83.3% OF MPM PATIENTS, RESPECTIVELY. THE RNA-BASED BIOMARKER PANEL WAS ABLE TO DISCRIMINATE BETWEEN MPM PATIENTS AND CONTROLS WITH HIGH ACCURACY AND THEIR COMBINED SENSITIVITY REACHED 100% FOR THE DIAGNOSIS OF MPM. KAPLAN-MEIER ANALYSIS SHOWED THAT HSA-MIR-2053 IS AN INDEPENDENT PROGNOSTIC FACTOR OF MPM. CONCLUSION: OUR PRELIMINARY DATA REVEALED THAT THE CHOSEN RNAS PLAY AN IMPORTANT ROLE IN DRIVING MPM DEVELOPMENT AND PROGRESSION. 2019 4 2786 24 EZH2 RESTRICTS THE SMOOTH MUSCLE LINEAGE DURING MOUSE LUNG MESOTHELIAL DEVELOPMENT. DURING DEVELOPMENT, THE LUNG MESODERM GENERATES A VARIETY OF CELL LINEAGES, INCLUDING AIRWAY AND VASCULAR SMOOTH MUSCLE. EPIGENETIC CHANGES IN ADULT LUNG MESODERMAL LINEAGES ARE THOUGHT TO CONTRIBUTE TOWARDS DISEASES SUCH AS IDIOPATHIC PULMONARY FIBROSIS AND CHRONIC OBSTRUCTIVE PULMONARY DISEASE, ALTHOUGH THE FACTORS THAT REGULATE EARLY LUNG MESODERM DEVELOPMENT ARE UNKNOWN. WE SHOW IN MOUSE THAT THE PRC2 COMPONENT EZH2 IS REQUIRED TO RESTRICT SMOOTH MUSCLE DIFFERENTIATION IN THE DEVELOPING LUNG MESOTHELIUM. MESODERMAL LOSS OF EZH2 LEADS TO THE FORMATION OF ECTOPIC SMOOTH MUSCLE IN THE SUBMESOTHELIAL REGION OF THE DEVELOPING LUNG MESODERM. LOSS OF EZH2 SPECIFICALLY IN THE DEVELOPING MESOTHELIUM REVEALS A MESOTHELIAL CELL-AUTONOMOUS ROLE FOR EZH2 IN REPRESSION OF THE SMOOTH MUSCLE DIFFERENTIATION PROGRAM. LOSS OF EZH2 DEREPRESSES EXPRESSION OF MYOCARDIN AND TBX18, WHICH ARE IMPORTANT REGULATORS OF SMOOTH MUSCLE DIFFERENTIATION FROM THE MESOTHELIUM AND RELATED CELL LINEAGES. TOGETHER, THESE FINDINGS UNCOVER AN EZH2-DEPENDENT MECHANISM TO RESTRICT THE SMOOTH MUSCLE GENE EXPRESSION PROGRAM IN THE DEVELOPING MESOTHELIUM AND ALLOW APPROPRIATE CELL FATE DECISIONS TO OCCUR IN THIS MULTIPOTENT MESODERM LINEAGE. 2016 5 4005 23 LOSS OF THE TUMOR SUPPRESSOR BAP1 CAUSES MYELOID TRANSFORMATION. DE-UBIQUITINATING ENZYME BAP1 IS MUTATED IN A HEREDITARY CANCER SYNDROME WITH INCREASED RISK OF MESOTHELIOMA AND UVEAL MELANOMA. SOMATIC BAP1 MUTATIONS OCCUR IN VARIOUS MALIGNANCIES. WE SHOW THAT MOUSE BAP1 GENE DELETION IS LETHAL DURING EMBRYOGENESIS, BUT SYSTEMIC OR HEMATOPOIETIC-RESTRICTED DELETION IN ADULTS RECAPITULATES FEATURES OF HUMAN MYELODYSPLASTIC SYNDROME (MDS). KNOCKIN MICE EXPRESSING BAP1 WITH A 3XFLAG TAG REVEALED THAT BAP1 INTERACTS WITH HOST CELL FACTOR-1 (HCF-1), O-LINKED N-ACETYLGLUCOSAMINE TRANSFERASE (OGT), AND THE POLYCOMB GROUP PROTEINS ASXL1 AND ASXL2 IN VIVO. OGT AND HCF-1 LEVELS WERE DECREASED BY BAP1 DELETION, INDICATING A CRITICAL ROLE FOR BAP1 IN STABILIZING THESE EPIGENETIC REGULATORS. HUMAN ASXL1 IS MUTATED FREQUENTLY IN CHRONIC MYELOMONOCYTIC LEUKEMIA (CMML) SO AN ASXL/BAP1 COMPLEX MAY SUPPRESS CMML. A BAP1 CATALYTIC MUTATION FOUND IN A MDS PATIENT IMPLIES THAT BAP1 LOSS OF FUNCTION HAS SIMILAR CONSEQUENCES IN MICE AND HUMANS. 2012 6 5526 22 RNA EDITING IN MESOTHELIOMA: A LOOK FORWARD. RNA EDITING IS A POST-TRANSCRIPTIONAL PROCESS INCREASING TRANSCRIPT DIVERSITY, THEREBY REGULATING DIFFERENT BIOLOGICAL PROCESSES. WE RECENTLY OBSERVED THAT MUTATIONS RESULTING FROM RNA EDITING DUE TO HYDROLYTIC DEAMINATION OF ADENOSINE INCREASE DURING THE DEVELOPMENT OF MESOTHELIOMA, A RARE CANCER LINKED TO CHRONIC EXPOSURE TO ASBESTOS. THIS REVIEW GATHERS INFORMATION FROM THE PUBLISHED LITERATURE AND PUBLIC DATA MINING TO EXPLORE SEVERAL ASPECTS OF RNA EDITING AND THEIR POSSIBLE IMPLICATIONS FOR CANCER GROWTH AND THERAPY. WE ADDRESS POSSIBLE LINKS BETWEEN RNA EDITING AND PARTICULAR TYPES OF MESOTHELIOMA GENETIC AND EPIGENETIC ALTERATIONS AND DISCUSS THE RELEVANCE OF AN EDITED SUBSTRATE IN THE CONTEXT OF CURRENT CHEMOTHERAPY OR IMMUNOTHERAPY. 2020 7 1484 26 DLEU2: A MEANINGFUL LONG NONCODING RNA IN ONCOGENESIS. BACKGROUND: LONG NON-CODING RNA (LNCRNA) WITH LITTLE OR NO CODING ABILITY HAS SHOWN A VARIETY OF BIOLOGICAL FUNCTIONS IN CANCER, INCLUDING EPIGENETIC REGULATION, DNA DAMAGE, REGULATION OF MICRORNAS, AND PARTICIPATION IN SIGNAL TRANSDUCTION PATHWAYS. LNCRNA CAN BE USED AS AN ONCOGENE AND TUMOR SUPPRESSOR GENE THROUGH TRANSCRIPTIONAL REGULATION IN CANCER. FOR EXAMPLE, THE OVER-EXPRESSED LNCRNA DLEU2 PROMOTES THE OCCURRENCE OF LARYNGEAL CANCER, LUNG CANCER, HEPATOCELLULAR CARCINOMA, ETC., AND INHIBITS THE PROGRESSION OF CHRONIC LYMPHOCYTIC LEUKEMIA. DELETED IN LYMPHOCYTIC LEUKEMIA 2 (DLEU2), AS ONE OF THE LONG NON-CODING RNAS, WAS FIRST FOUND IN CHRONIC LYMPHOBLASTIC LEUKEMIA AND DRAWN INTO THE PROGRESS OF INNUMERABLE CANCERS. THE MOLECULAR MECHANISM OF DLEU2 IN MULTIPLE TUMORS WILL BE REVEALED. METHODS: IN THIS REVIEW, CURRENT STUDIES ON THE BIOLOGICAL FUNCTIONS AND MECHANISMS OF DLEU2 IN TUMORS ARE SUMMARIZED AND ANALYZED; RELATED RESEARCHES ARE SYSTEMATICALLY RETRIEVED AND COLLECTED THROUGH PUBMED. RESULTS: DLEU2, A NOVEL CANCER-RELATED LNCRNA, HAS BEEN DEMONSTRATED TO BE ABNORMALLY EXPRESSED IN VARIOUS MALIGNANT TUMORS, INCLUDING LEUKEMIA, ESOPHAGEAL CANCER, LUNG CANCER, GLIOMA, HEPATOCELLULAR CARCINOMA, MALIGNANT PLEURAL MESOTHELIOMA, BLADDER CANCER, PANCREATIC CANCER, PHARYNX AND THROAT CANCER, RENAL CLEAR CELL CARCINOMA, BREAST CANCER, OSTEOSARCOMA. BESIDES, LNCRNA DLEU2 HAS BEEN SHOWN TO BE INVOLVED IN THE PROCESS OF PROLIFERATION, MIGRATION, INVASION AND INHIBITION OF APOPTOSIS OF CANCER CELLS. CONCLUSION: DUE TO THE BIOLOGICAL FUNCTIONS AND MECHANISMS INVOLVED IN DLEU2, IT MAY REPRESENT AN AVAILABLE BIOMARKER OR POTENTIAL THERAPEUTIC TARGET IN A VARIETY OF MALIGNANT TUMORS. 2021 8 4675 26 NEW INSIGHTS INTO UNDERSTANDING THE MECHANISMS, PATHOGENESIS, AND MANAGEMENT OF MALIGNANT MESOTHELIOMAS. MALIGNANT MESOTHELIOMA (MM) IS A RELATIVELY RARE BUT DEVASTATING TUMOR THAT IS INCREASING WORLDWIDE. YET, BECAUSE OF DIFFICULTIES IN EARLY DIAGNOSIS AND RESISTANCE TO CONVENTIONAL THERAPIES, MM REMAINS A CHALLENGE FOR PATHOLOGISTS AND CLINICIANS TO TREAT. IN RECENT YEARS, MUCH HAS BEEN REVEALED REGARDING THE MECHANISMS OF INTERACTIONS OF PATHOGENIC FIBERS WITH MESOTHELIAL CELLS, CRUCIAL SIGNALING PATHWAYS, AND GENETIC AND EPIGENETIC EVENTS THAT MAY OCCUR DURING THE PATHOGENESIS OF THESE UNUSUAL, PLEIOMORPHIC TUMORS. THESE OBSERVATIONS SUPPORT A SCENARIO WHEREBY MESOTHELIAL CELLS UNDERGO A SERIES OF CHRONIC INJURY, INFLAMMATION, AND PROLIFERATION IN THE LONG LATENCY PERIOD OF MM DEVELOPMENT THAT MAY BE PERPETUATED BY DURABLE FIBERS, THE TUMOR MICROENVIRONMENT, AND INFLAMMATORY STIMULI. ONE CULPRIT IN SUSTAINED INFLAMMATION IS THE ACTIVATED INFLAMMASOME, A COMPONENT OF MACROPHAGES OR MESOTHELIAL CELLS THAT LEADS TO PRODUCTION OF CHEMOTACTIC, GROWTH-PROMOTING, AND ANGIOGENIC CYTOKINES. THIS INFORMATION HAS BEEN VITAL TO DESIGNING NOVEL THERAPEUTIC APPROACHES FOR PATIENTS WITH MM THAT FOCUS ON IMMUNOTHERAPY, TARGETING GROWTH FACTOR RECEPTORS AND PATHWAYS, OVERCOMING RESISTANCE TO APOPTOSIS, AND MODIFYING EPIGENETIC CHANGES. 2013 9 6757 27 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 10 386 29 AN IN VIVO IMMUNOHISTOCHEMICAL STUDY ON MACROH2A.1 IN LUNG AND LYMPH-NODE TISSUES EXPOSED TO AN ASBESTIFORM FIBER. AIMS: THE AIM OF THIS STUDY WAS TO INVESTIGATE MACROH2A.1 IMMUNOEXPRESSION IN TISSUES OF SHEEP EXPOSED TO FE. BACKGROUND: THE CORRELATION BETWEEN ASBESTIFORM FIBERS, LUNG CANCER, PLEURAL MESOTHELIOMA, AND OTHER LUNG DISEASES IS ALREADY WELL ESTABLISHED AS THE PATHOPHISIOLOGICAL PATHOPHYSIOLOGICAL RESPIRATORY MECHANISMS INVOLVED BY INHALATION OF FLUORO-EDENITE (FE). THE LATTER IS REPRESENTED BY CELL PROLIFERATION AND INDUCING THE RELEASE OF GROWTH FACTORS, CYTOKINES, AND REACTIVE OXYGEN AND NITRITE SPECIES, WITH DNA DAMAGE THAT CAUSES CHRONIC INFLAMMATION AND CARCINOGENESIS. MACROH2A.1, AND HISTONE VARIANT, SEEMS TO PLAY A ROLE IN SENSING THE METABOLIC STATE OF THE CELL AND LINKING IT WITH CHROMATIN. PHYSIOLOGICALLY, MACROH2A.1 IS EXPRESSED AT LOW LEVELS IN STEM CELLS AND IT BECAME UPREGULATED DURING DIFFERENTIATION, PREVENTING REPROGRAMMING OF INDUCED PLURIPOTENT STEM CELLS AND AFTER NUCLEAR TRANSFER. IN PARTICULAR, MACROH2A.1 HAS BEEN SHOWN TO EXPLICATE A POTENT ANTITUMOR MECHANISM IN VIVO AS IT RESULTS UPREGULATED IN SENESCENT CELLS DETERMINING A PERMANENT GROWTH-ARREST. OBJECTIVE: EVALUATE THE POSSIBLE ROLE OF THE HISTONE VARIANT IN THE ORGANISM IN RESPONSE TO DEEP INSIGHT UNDERSTANDING THE MECHANISMS OF TOXICITY AND THE CELLULAR RESPONSE TO FE. METHODS: LUNG AND LYMPH NODES OF EXPOSED SHEEP WERE SELECTED. SAMPLES WERE PROCESSED FOR HISTOLOGICAL AND IMMUNIHISTOCHEMICAL IMMUNOHISTOCHEMICAL EVALUATIONS. DENSITOMETRIC, MORPHOMETRIC, AND STATISTICAL ANALYSIS ANALYSES WERE CONDUCTED. RESULTS: TISSUE SECTIONS OF FE EXPOSED SHEEP DEMONSTRATED OVEREXPRESSION OF MACROH2A.1 VS UNEXPOSED SAMPLES. THE DATA SUGGEST AN INVOLVEMENT OF THESE THIS MOLECULE IN THE CELLULAR RESPONSE TRIGGERED BY FE DIRECTED EXPOSURE. CONCLUSION: IN THIS CONTEST, MACROH2A.1 OVEREXPRESSION SUPPORTS ITS FUNCTION AS AN EPIGENETIC STABILIZER THAT HELPS TO ESTABLISH AND MAINTAIN DIFFERENTIATED STATES. 2020 11 3330 22 HISTONE DEACETYLASE INHIBITOR GIVINOSTAT ALLEVIATES LIVER FIBROSIS BY REGULATING HEPATIC STELLATE CELL ACTIVATION. HEPATIC FIBROSIS, A COMMON PATHOLOGICAL MANIFESTATION OF CHRONIC LIVER INJURY, IS GENERALLY CONSIDERED TO BE THE END RESULT OF AN INCREASE IN EXTRACELLULAR MATRIX PRODUCED BY ACTIVATED HEPATIC STELLATE CELLS (HSCS). THE AIM OF THE PRESENT STUDY WAS TO TARGET THE MECHANISMS UNDERLYING HSC ACTIVATION IN ORDER TO PROVIDE A POWERFUL THERAPEUTIC STRATEGY FOR THE PREVENTION AND TREATMENT OF LIVER FIBROSIS. IN THE PRESENT STUDY, A HIGH?THROUGHPUT SCREENING ASSAY WAS ESTABLISHED, AND THE HISTONE DEACETYLASE INHIBITOR GIVINOSTAT WAS IDENTIFIED AS A POTENT INHIBITOR OF HSC ACTIVATION IN VITRO. GIVINOSTAT SIGNIFICANTLY INHIBITED HSC ACTIVATION IN VIVO, AMELIORATED CARBON TETRACHLORIDE?INDUCED MOUSE LIVER FIBROSIS AND LOWERED PLASMA AMINOTRANSFERASES. TRANSCRIPTOMIC ANALYSIS REVEALED THE MOST SIGNIFICANTLY REGULATED GENES IN THE GIVINOSTAT TREATMENT GROUP IN COMPARISON WITH THOSE IN THE SOLVENT GROUP, AMONG WHICH, DERMOKINE (DMKN), MESOTHELIN (MSLN) AND UROPLAKIN?3B (UPK3B) WERE IDENTIFIED AS POTENTIAL REGULATORS OF HSC ACTIVATION. GIVINOSTAT SIGNIFICANTLY REDUCED THE MRNA EXPRESSION OF DMKN, MSLN AND UPK3B IN BOTH A MOUSE LIVER FIBROSIS MODEL AND IN HSC?LX2 CELLS. KNOCKDOWN OF ANY OF THE AFOREMENTIONED GENES INHIBITED THE TGF?BETA1?INDUCED EXPRESSION OF ALPHA?SMOOTH MUSCLE ACTIN AND COLLAGEN TYPE I, INDICATING THAT THEY ARE CRUCIAL FOR HSC ACTIVATION. IN SUMMARY, USING A NOVEL STRATEGY TARGETING HSC ACTIVATION, THE PRESENT STUDY IDENTIFIED A POTENTIAL EPIGENETIC DRUG FOR THE TREATMENT OF HEPATIC FIBROSIS AND REVEALED NOVEL REGULATORS OF HSC ACTIVATION. 2021 12 6105 26 THE EMERGING ROLE OF LNCRNA FENDRR IN MULTIPLE CANCERS: A REVIEW. LONG NONCODING RNAS (LNCRNAS) ARE PROMINENT AS CRUCIAL REGULATORS OF TUMOR ESTABLISHMENT AND ARE REPEATEDLY DYSREGULATED IN MULTIPLE CANCERS. THEREFORE, LNCRNAS HAVE BEEN IDENTIFIED TO PLAY AN ESSENTIAL FUNCTION IN CARCINOGENESIS AND PROGRESSION OF CANCER AT GENETIC AND EPIGENETIC LEVELS. FENDRR (FETAL-LETHAL NONCODING DEVELOPMENTAL REGULATORY RNA) AS A LNCRNA IS A HALLMARK OF VARIOUS MALIGNANCIES. FENDRR IS CRUCIAL FOR MULTIPLE ORGANS' DEVELOPMENT, SUCH AS THE LUNG AND HEART. THE EFFECTS OF FENDRR UNDER SIGNALING PATHWAYS IN DIFFERENT CANCERS HAVE BEEN IDENTIFIED. IN ADDITION, IT HAS BEEN VERIFIED THAT FENDRR CAN AFFECT THE DEVELOPMENT AND PROGRESSION OF VARIOUS CANCERS. IN ADDITION, FENDRR EXPRESSION HAS BEEN ASSOCIATED WITH EPIGENETIC REGULATION OF TARGET GENES PARTICIPATING IN TUMOR IMMUNITY. FURTHERMORE, FENDRR DOWNREGULATION WAS OBSERVED IN VARIOUS TYPES OF CANCERS, INCLUDING COLORECTAL CANCER, GASTRIC CANCER, PANCREATIC CANCER, CHOLANGIOCARCINOMA, LIVER CANCER, GALLBLADDER CANCER, LUNG CANCER, BREAST CANCER, ENDOMETRIAL CANCER, PROSTATE CANCER, CHRONIC MYELOID LEUKEMIA, OSTEOSARCOMA, AND CUTANEOUS MALIGNANT MELANOMA CELLS. HERE, WE REVIEW THE BIOLOGICAL FUNCTIONS AND MOLECULAR MECHANISMS OF FENDRR IN SEVERAL CANCERS, AND WE WILL DISCUSS ITS POTENTIAL AS A CANCER BIOMARKER AND AS A PROBABLE OPTION FOR CANCER TREATMENT. 2023 13 2334 28 EPIGENETIC REGULATION OF INFLAMMATORY CYTOKINE-INDUCED EPITHELIAL-TO-MESENCHYMAL CELL TRANSITION AND CANCER STEM CELL GENERATION. THE NEOPLASTIC TRANSFORMATION OF NORMAL TO METASTATIC CANCER CELLS IS A COMPLEX MULTISTEP PROCESS INVOLVING THE PROGRESSIVE ACCUMULATION OF INTERACTING GENETIC AND EPIGENETIC CHANGES THAT ALTER GENE FUNCTION AND AFFECT CELL PHYSIOLOGY AND HOMEOSTASIS. EPIGENETIC CHANGES INCLUDING DNA METHYLATION, HISTONE MODIFICATIONS AND CHANGES IN NONCODING RNA EXPRESSION, AND DEREGULATION OF EPIGENETIC PROCESSES CAN ALTER GENE EXPRESSION DURING THE MULTISTEP PROCESS OF CARCINOGENESIS. CANCER PROGRESSION AND METASTASIS THROUGH AN 'INVASION-METASTASIS CASCADE' INVOLVING AN EPITHELIAL-TO-MESENCHYMAL CELL TRANSITION (EMT), THE GENERATION OF CANCER STEM CELLS (CSCS), INVASION OF ADJACENT TISSUES, AND DISSEMINATION ARE FUELED BY INFLAMMATION, WHICH IS CONSIDERED A HALLMARK OF CANCER. CHRONIC INFLAMMATION IS GENERATED BY INFLAMMATORY CYTOKINES SECRETED BY THE TUMOR AND THE TUMOR-ASSOCIATED CELLS WITHIN THE TUMOR MICROENVIRONMENT. INFLAMMATORY CYTOKINE SIGNALING INITIATES SIGNALING PATHWAYS LEADING TO THE ACTIVATION OF MASTER TRANSCRIPTION FACTORS (TFS) SUCH AS SMADS, STAT3, AND NF-KAPPAB. MOREOVER, THE SAME INFLAMMATORY RESPONSES ALSO ACTIVATE EMT-INDUCING TF (EMT-TF) FAMILIES SUCH AS SNAIL, TWIST, AND ZEB, AND EPIGENETIC REGULATORS INCLUDING DNA AND HISTONE MODIFYING ENZYMES AND MICORNAS, THROUGH COMPLEX INTERCONNECTED POSITIVE AND NEGATIVE FEEDBACK LOOPS TO REGULATE EMT AND CSC GENERATION. HERE, WE REVIEW THE MOLECULAR REGULATORY FEEDBACK LOOPS AND NETWORKS INVOLVED IN INFLAMMATORY CYTOKINE-INDUCED EMT AND CSC GENERATION. 2019 14 6759 25 WNT SIGNALLING PATHWAY IN ORAL LESIONS. WINGLESS-INTEGRATED/BETA-CATENIN (WNT/?-CATENIN) SIGNALLING PATHWAY IS ONE OF THE PRINCIPAL INTERCELLULAR SIGNALLING PATHWAYS IN HUMANS. IT PLAYS AN INTRINSIC ROLE IN THE CELLULAR PROLIFERATION, DIFFERENTIATION AND REGENERATION ALONG WITH MANY OTHER CELLULAR FUNCTIONS. EPIGENETIC DEOXYRIBONUCLEIC ACID METHYLATIONS AND SILENCING OF WNT SIGNALLING PATHWAY GENES HAVE A SIGNIFICANT ROLE IN MALIGNANT TRANSFORMATION OF ORAL LESIONS SUCH AS ORAL SUBMUCOUS FIBROSIS, ORAL LEUKOPLAKIA, ORAL LICHEN PLANUS AND ERYTHROPLAKIA. THE INCREASE IN WNT INHIBITORY PROTEINS ALONG WITH INFLAMMATORY FACTORS CAUSE BONE LOSS IN PERIAPICAL LESIONS, SUCH AS CHRONIC APICAL PERIODONTITIS. THIS REVIEW DISCUSSES THE MOLECULAR GENETICS OF POTENTIALLY MALIGNANT ORAL LESIONS, SHEDS LIGHT ON OUR UNDERSTANDING OF WNT/?-CATENIN SIGNALLING IN BONE LOSS PERTAINING TO PERIAPICAL LESIONS, AND ALTERATION OF THIS PATHWAY FOR THERAPEUTIC BENEFITS. 2019 15 2867 23 FUNCTIONAL AND CANCER GENOMICS OF ASXL FAMILY MEMBERS. ADDITIONAL SEX COMBS-LIKE (ASXL)1, ASXL2 AND ASXL3 ARE HUMAN HOMOLOGUES OF THE DROSOPHILA ASX GENE THAT ARE INVOLVED IN THE REGULATION OR RECRUITMENT OF THE POLYCOMB-GROUP REPRESSOR COMPLEX (PRC) AND TRITHORAX-GROUP (TRXG) ACTIVATOR COMPLEX. ASXL PROTEINS CONSIST OF ASXN, ASXH, ASXM1, ASXM2 AND PHD DOMAINS. ASXL1 DIRECTLY INTERACTS WITH BAP1, KDM1A (LSD1), NCOA1 AND NUCLEAR HORMONE RECEPTORS (NHRS), SUCH AS RETINOIC ACID RECEPTORS, OESTROGEN RECEPTOR AND ANDROGEN RECEPTOR. ASXL FAMILY MEMBERS ARE EPIGENETIC SCAFFOLDING PROTEINS THAT ASSEMBLE EPIGENETIC REGULATORS AND TRANSCRIPTION FACTORS TO SPECIFIC GENOMIC LOCI WITH HISTONE MODIFICATIONS. ASXL1 IS INVOLVED IN TRANSCRIPTIONAL REPRESSION THROUGH AN INTERACTION WITH PRC2 AND ALSO CONTRIBUTES TO TRANSCRIPTIONAL REGULATION THROUGH INTERACTIONS WITH BAP1 AND/OR NHR COMPLEXES. GERM-LINE MUTATIONS OF HUMAN ASXL1 AND ASXL3 OCCUR IN BOHRING-OPITZ AND RELATED SYNDROMES. AMPLIFICATION AND OVEREXPRESSION OF ASXL1 OCCUR IN CERVICAL CANCER. TRUNCATION MUTATIONS OF ASXL1 OCCUR IN COLORECTAL CANCERS WITH MICROSATELLITE INSTABILITY (MSI), MALIGNANT MYELOID DISEASES, CHRONIC LYMPHOCYTIC LEUKAEMIA, HEAD AND NECK SQUAMOUS CELL CARCINOMA, AND LIVER, PROSTATE AND BREAST CANCERS; THOSE OF ASXL2 OCCUR IN PROSTATE CANCER, PANCREATIC CANCER AND BREAST CANCER AND THOSE OF ASXL3 ARE OBSERVED IN MELANOMA. EPC1-ASXL2 GENE FUSION OCCURS IN ADULT T-CELL LEUKAEMIA/LYMPHOMA. THE PROGNOSIS OF MYELOID MALIGNANCIES WITH MISREGULATING TRUNCATION MUTATIONS OF ASXL1 IS POOR. ASXL FAMILY MEMBERS ARE ASSUMED TO BE TUMOUR SUPPRESSIVE OR ONCOGENIC IN A CONTEXT-DEPENDENT MANNER. 2013 16 6470 24 TLR7 AND TLR8 EXPRESSION INCREASES TUMOR CELL PROLIFERATION AND PROMOTES CHEMORESISTANCE IN HUMAN PANCREATIC CANCER. CHRONIC INFLAMMATION AS AN IMPORTANT EPIGENETIC AND ENVIRONMENTAL FACTOR FOR PUTATIVE TUMORIGENESIS AND TUMOR PROGRESSION MAY BE ASSOCIATED WITH SPECIFIC ACTIVATION OF TOLL-LIKE RECEPTORS (TLR). RECENTLY, CARCINOGENESIS HAS BEEN SUGGESTED TO BE DEPENDENT ON TLR7 SIGNALING. IN THE PRESENT STUDY, WE DETERMINED THE ROLE OF BOTH TLR7 AND TLR8 EXPRESSION AND SIGNALING IN TUMOR CELL PROLIFERATION AND CHEMORESISTANCE IN PANCREATIC CANCER. EXPRESSION OF TLR7/TLR8 IN UICC STAGE I-IV PANCREATIC CANCER, CHRONIC PANCREATITIS, NORMAL PANCREATIC TISSUE AND HUMAN PANCREATIC (PANC1) CANCER CELL LINE WAS EXAMINED. FOR IN VITRO/IN VIVO STUDIES TLR7/TLR8 OVEREXPRESSING PANC1 CELL LINES WERE GENERATED AND ANALYZED FOR EFFECTS OF (UN-)STIMULATED TLR EXPRESSION ON TUMOR CELL PROLIFERATION AND CHEMORESISTANCE. TLR EXPRESSION WAS INCREASED IN PANCREATIC CANCER, WITH STAGE-DEPENDENT UPREGULATION IN ADVANCED TUMORS, COMPARED TO EARLIER STAGES AND CHRONIC PANCREATITIS. STIMULATION OF TLR7/TLR8 OVEREXPRESSING PANC1 CELLS RESULTED IN ELEVATED NF-KAPPAB AND COX-2 EXPRESSION, INCREASED CANCER CELL PROLIFERATION AND REDUCED CHEMOSENSITIVITY. MORE IMPORTANTLY, TLR7/TLR8 EXPRESSION INCREASED TUMOR GROWTH IN VIVO. OUR DATA DEMONSTRATE A STAGE-DEPENDENT UPREGULATION OF BOTH TLR7 AND TLR8 EXPRESSION IN PANCREATIC CANCER. FUNCTIONAL ANALYSIS IN HUMAN PANCREATIC CANCER CELLS POINT TO A SIGNIFICANT ROLE OF BOTH TLRS IN CHRONIC INFLAMMATION-MEDIATED TLR7/TLR8 SIGNALING LEADING TO TUMOR CELL PROLIFERATION AND CHEMORESISTANCE. 2015 17 4501 22 MORPHOGENS AND HEPATIC STELLATE CELL FATE REGULATION IN CHRONIC LIVER DISEASE. HEPATIC STELLATE CELLS (HSC) ARE THE LIVER MESENCHYMAL CELL TYPE WHICH RESPONDS TO HEPATOCELLULAR DAMAGE AND PARTICIPATES IN WOUND HEALING. ALTHOUGH HSC MYOFIBROBLASTIC TRANS-DIFFERENTIATION (ACTIVATION) IS IMPLICATED IN EXCESSIVE EXTRACELLULAR MATRIX DEPOSITION, MOLECULAR UNDERSTANDING OF THIS PHENOTYPIC SWITCH FROM THE VIEWPOINT OF CELL FATE REGULATION IS LIMITED. RECENT STUDIES DEMONSTRATE THE ROLES OF ANTI-ADIPOGENIC MORPHOGENS (WNT, NECDIN, SHH) IN EPIGENETIC REPRESSION OF THE HSC DIFFERENTIATION GENE PPARGAMMA AS A CAUSAL EVENT IN HSC ACTIVATION. THESE MORPHOGENS HAVE POSITIVE CROSS-INTERACTIONS WHICH CONVERGE TO EPIGENETIC REPRESSION OF PPARGAMMA INVOLVING THE METHYL-CPG BINDING PROTEIN MECP2. HOWEVER, THESE MORPHOGENS EXPRESSED BY ACTIVATED HSC MAY ALSO PARTICIPATE IN CROSS-TALK BETWEEN HSC AND HEPATOBLASTS/HEPATOCYTES TO SUPPORT LIVER REGENERATION, AND THEIR ABERRANT REGULATION MAY CONTRIBUTE TO LIVER TUMORIGENESIS. IMPLICATIONS OF HSC-DERIVED MORPHOGENS IN THESE POSSIBILITIES ARE DISCUSSED. 2012 18 4867 25 OSSIFYING FIBROMA TUMOR STEM CELLS ARE MAINTAINED BY EPIGENETIC REGULATION OF A TSP1/TGF-BETA/SMAD3 AUTOCRINE LOOP. ABNORMAL STEM CELL FUNCTION MAKES A KNOWN CONTRIBUTION TO MANY MALIGNANT TUMORS, BUT THE ROLE OF STEM CELLS IN BENIGN TUMORS IS NOT WELL UNDERSTOOD. HERE, WE SHOW THAT OSSIFYING FIBROMA (OF) CONTAINS A STEM CELL POPULATION THAT RESEMBLES MESENCHYMAL STEM CELLS (OFMSCS) AND IS CAPABLE OF GENERATING OF-LIKE TUMOR XENOGRAFTS. MECHANISTICALLY, OFMSCS SHOW ENHANCED TGF-BETA SIGNALING THAT INDUCES ABERRANT PROLIFERATION AND DEFICIENT OSTEOGENESIS VIA NOTCH AND BMP SIGNALING PATHWAYS, RESPECTIVELY. THE ELEVATED TGF-BETA ACTIVITY IS TIGHTLY REGULATED BY JHDM1D-MEDIATED EPIGENETIC REGULATION OF THROMBOSPONDIN-1 (TSP1), FORMING A JHDM1D/TSP1/TGF-BETA/SMAD3 AUTOCRINE LOOP. INHIBITION OF TGF-BETA SIGNALING IN OFMSCS CAN RESCUE THEIR ABNORMAL OSTEOGENIC DIFFERENTIATION AND ELEVATED PROLIFERATION RATE. FURTHERMORE, CHRONIC ACTIVATION OF TGF-BETA CAN CONVERT NORMAL MSCS INTO OF-LIKE MSCS VIA ESTABLISHMENT OF THIS JHDM1D/TSP1/TGF-BETA/SMAD3 AUTOCRINE LOOP. THESE RESULTS REVEAL THAT EPIGENETIC REGULATION OF TGF-BETA SIGNALING IN MSCS GOVERNS THE BENIGN TUMOR PHENOTYPE IN OF AND HIGHLIGHT TGF-BETA SIGNALING AS A CANDIDATE THERAPEUTIC TARGET. 2013 19 5668 24 SFRP1 EXPRESSION REGULATES WNT SIGNALING IN CHRONIC MYELOID LEUKEMIA K562 CELLS. BACKGROUND: WNT SIGNALING CASCADES PLAY IMPORTANT ROLES IN CELL FATE DECISIONS AND THEIR DEREGULATION HAS BEEN DOCUMENTED IN MANY DISEASES, INCLUDING MALIGNANT TUMORS AND LEUKEMIA. ONE MECHANISM OF ABERRANT WNT SIGNALING IS THE SILENCING OF WNT INHIBITORS THROUGH EPIGENETIC MECHANISMS. THE SFRPS ARE ONE OF THE MOST STUDIED WNT INHIBITORS; AND THE SFRP1 LOSS IS KNOWN IN MANY HEMATOLOGICAL MALIGNANCIES. THEREFORE, WE AIMED TO COMPARE THE EXPRESSION OF WNT RELATED GENES IN THE PRESENCE AND ABSENCE OF SFRP1 IN A CHRONIC MYELOID LEUKEMIA (CML) CELL LINE. OBJECTIVE: IT IS IMPORTANT TO UNDERSTAND HOW SFRP1 AND SFRP1 PERFORM THEIR EFFECTS ON CML TO DESIGN NEW AGENTS AND STRATEGIES FOR RESISTANT AND ADVANCED FORMS OF CML. MATERIALS AND METHODS: WE USED K562 CELLS, WHICH NORMALLY DO NOT EXPRESS SFRP1 AND ITS SFRP1 EXPRESSING SUBCLONE K562S. TOTAL RNA WAS ISOLATED FROM K562 AND K562S CELL LINES AND CONVERTED TO CDNA. PCR ARRAY EXPERIMENTS WERE PERFORMED USING HUMAN WNT SIGNALING PATHWAY PLUS RT2 PROFILER KIT. WNT SIGNALING PATHWAY ACTIVATION WAS STUDIED BY WESTERN BLOT FOR DOWNSTREAM SIGNALING TARGETS. RESULTS: THE WNT3, LRP6, PRICKLE1 AND BTRC EXPRESSIONS WERE SIGNIFICANTLY DECREASED IN THE PRESENCE OF SFRP1; WHILE WNT5B INCREASED. THE SFRP1 EXPRESSION INHIBITED STABILIZATION OF TOTAL BETA-CATENIN PROTEIN AND DOWNSTREAM EFFECTOR PHOSPHORYLATION OF NONCANONICAL WNT/PCP SIGNALING; WHEREAS CA2+/PKC SIGNALING REMAINED ACTIVE. CONCLUSION: THE RESULTS SUGGEST THAT SFRP1 COULD BE A PROMISING THERAPEUTIC ANTICANCER AGENT. DEFINING THESE PATHWAY INTERACTIONS IS CRUCIAL FOR DESIGNING NEW AGENTS RESISTANT AND ADVANCED FORMS OF CML. 2022 20 3165 20 GRIK1-AS1 DEFICIENCY ACCELERATES ENDOMETRIOSIS PROGRESSION BY BOOSTING DNMT1-DEPENDENT SFRP1 PROMOTER METHYLATION IN ENDOMETRIAL STROMAL CELLS. BACKGROUND: ENDOMETRIOSIS, A GYNECOLOGICAL DISEASE THAT AFFECTS UP TO 10% OF WOMEN, IS A MAJOR CAUSE OF PAIN AND INFERTILITY. DEREGULATION OF THE EPIGENOME IS ACCOUNTABLE FOR THE ONSET AND PROGRESSION OF ENDOMETRIOSIS, ALTHOUGH ITS EXACT MECHANISM IS UNKNOWN. THE PURPOSE OF THE CURRENT STUDY IS TO EXAMINE THE ROLE OF THE LONG NON-CODING RNA (LNCRNA) GRIK1-AS1 IN THE EPIGENETIC REGULATION OF ENDOMETRIAL STROMAL CELL PROLIFERATION AND THE DEVELOPMENT OF ENDOMETRIOSIS. METHODS: ENDOMETRIOSIS DATASETS WERE SCREENED TO IDENTIFY GRIKI-AS1 AS DRAMATICALLY DECLINING IN ENDOMETRIOSIS. GAIN OR LOSS OF FUNCTION ENDOMETRIAL STROMAL CELL (ESC) MODELS WERE ESTABLISHED. THE ANTI-PROLIFERATION PHENOTYPE WAS INVESTIGATED USING IN VITRO AND IN VIVO EXPERIMENTS. EPIGENETIC REGULATORY NETWORK ANALYSES WERE CONDUCTED TO SUGGEST THE INTRINSIC MOLECULAR MECHANISM. RESULTS: WITH BIOINFORMATIC AND CLINICAL DATA, WE OBSERVED THAT GRIK1-AS1 AND SFRP1 WERE EXPRESSED AT LOW LEVELS IN ENDOMETRIOSIS. OVEREXPRESSED GRIK1-AS1 INHIBITED ESC PROLIFERATION, WHILE SFRP1 KNOCKDOWN RESCUED THE ANTIPROLIFERATIVE ABILITY OF GRIK1-AS1. SPECIFICALLY, METHYLATION-DEPENDENT EXPRESSION INHIBITION OF SFRP1 WAS REVEALED IN ESCS. MECHANISTICALLY, GRIK1-AS1 HAMPERS THE OCCUPANCY OF DNMT1 IN SRFP1 PROMOTER, LEADING TO HYPOMETHYLATION OF SFRP1 AND UPREGULATED SFRP1 EXPRESSION, THEREBY POTENTIALLY SUPPRESSING WNT SIGNALING AND ITS ADVERSE PROLIFERATIVE EFFECT. THERAPEUTICALLY, LENTIVIRUS-MEDIATED UPREGULATION OF GRIK1-AS1 INHIBITED ENDOMETRIOSIS DISEASE PROGRESSION IN VIVO. CONCLUSIONS: OUR STUDY IS A PROOF-OF-CONCEPT DEMONSTRATION FOR GRIKI-AS1-ASSOCIATED ENDOMETRIOSIS PATHOGENESIS AND HIGHLIGHTS A POTENTIAL INTERVENTION TARGET. 2023