2023
71. Integrated genomic analysis of hepatocellular carcinoma using WES and aCGH
Chong M, Chai H, Hu Q, Li P. 71. Integrated genomic analysis of hepatocellular carcinoma using WES and aCGH. Cancer Genetics 2023, 278: 22. DOI: 10.1016/j.cancergen.2023.08.079.Peer-Reviewed Original ResearchWhole-exome sequencingTumor mutation burdenHepatocellular carcinomaGrade IIICNA burdenCase seriesClinicopathologic associationsArray comparative genomic hybridizationBarcelona Clinic Liver Cancer stageCopy number alterationsBCLC stage CLiver Cancer stageEdmondson-Steiner gradingLarge case seriesGenetic defectsHigher CNA burdenAdjacent nontumor tissuesΒ-catenin pathwayIntegrated genomic analysisBetter prognosisClinicopathologic findingsPoor prognosisRetrospective studyClinicopathologic classificationCancer stageIntegrated exome sequencing and microarray analyses detected genetic defects and underlying pathways of hepatocellular carcinoma
Chong M, Knight J, Peng G, Ji W, Chai H, Lu Y, Wu S, Li P, Hu Q. Integrated exome sequencing and microarray analyses detected genetic defects and underlying pathways of hepatocellular carcinoma. Cancer Genetics 2023, 276: 30-35. PMID: 37418972, DOI: 10.1016/j.cancergen.2023.06.002.Peer-Reviewed Original ResearchConceptsTumor mutation burdenWhole-exome sequencingGrade IIIHepatocellular carcinomaCNA burdenCase seriesBarcelona Clinic Liver Cancer stageExome sequencingBCLC stage CLiver Cancer stageEdmondson-Steiner gradingLarge case seriesGenetic defectsHigher CNA burdenAdjacent nontumor tissuesΒ-catenin pathwayBetter prognosisClinicopathologic findingsPoor prognosisClinicopathologic classificationCancer stageSurvival statusMutation burdenStage CPrognostic prediction
2021
Loss of endothelial glucocorticoid receptor promotes angiogenesis via upregulation of Wnt/β-catenin pathway
Liu B, Zhou H, Zhang T, Gao X, Tao B, Xing H, Zhuang Z, Dardik A, Kyriakides TR, Goodwin JE. Loss of endothelial glucocorticoid receptor promotes angiogenesis via upregulation of Wnt/β-catenin pathway. Angiogenesis 2021, 24: 631-645. PMID: 33650028, PMCID: PMC8292305, DOI: 10.1007/s10456-021-09773-x.Peer-Reviewed Original ResearchConceptsWnt/β-catenin signalingWnt/β-catenin pathwayΒ-catenin signalingΒ-catenin pathwayAutophagy fluxKey biological processesGlucocorticoid receptorNuclear receptor familyTube formation assaysEndothelial cellsBiological processesCanonical WntP62 degradationReceptor familyFormation assaysAbsence of GRCell viability assaysProcess of angiogenesisWntGR regulationSignalingVivo assaysQuantitative PCRKey receptorPathway
2020
Expression of lymphoid enhancer-binding factor 1 in breast fibroepithelial lesions
Chen PH, Bossuyt V, Reisenbichler E. Expression of lymphoid enhancer-binding factor 1 in breast fibroepithelial lesions. Human Pathology 2020, 108: 68-75. PMID: 33245988, DOI: 10.1016/j.humpath.2020.11.009.Peer-Reviewed Original ResearchConceptsMalignant phyllodes tumorPhyllodes tumorBenign tumorsLymphoid enhancer-binding factor 1Fibroepithelial lesionsTissue microarrayEnhancer-binding factor 1LEF-1 expressionMalignant tumorsBorderline/malignant phyllodes tumorsΒ-cateninStromal componentsNuclear expressionWorld Health Organization criteriaMetastatic phyllodes tumorWnt/β-catenin pathway activationAlternative treatment optionBorderline phyllodes tumorWnt/β-catenin pathwayFactor 1Β-catenin pathway activationE-cadherin immunohistochemistryWnt/β-catenin signalingΒ-catenin pathwayNuclear β-catenin staining
2017
Role of beta-catenin and endocannabinoids in the nucleus accumbens in extinction in rats exposed to shock and reminders
Korem N, Lange R, Hillard C, Akirav I. Role of beta-catenin and endocannabinoids in the nucleus accumbens in extinction in rats exposed to shock and reminders. Neuroscience 2017, 357: 285-294. PMID: 28624572, DOI: 10.1016/j.neuroscience.2017.06.015.Peer-Reviewed Original ResearchConceptsPost-traumatic stress disorderWnt/β-catenin pathwayNucleus accumbensΒ-catenin pathwayΒ-catenin levelsΒ-cateninCannabinoid CB1/2 receptor agonistCB1/2 receptor agonistEndocannabinoid N-arachidonylethanolamineStress-related disordersΒ-catenin expressionReceptor agonistEndocannabinoid systemTherapeutic effectN-arachidonylethanolamineDepressive symptomsDevelopment of psychopathologyImpaired extinctionRatsStress disorderFear memoryTrauma memoriesRapid recoveryReminders modelAccumbens
2015
Angiotensin II receptor blockade promotes repair of skeletal muscle through down-regulation of aging-promoting C1q expression
Yabumoto C, Akazawa H, Yamamoto R, Yano M, Kudo-Sakamoto Y, Sumida T, Kamo T, Yagi H, Shimizu Y, Saga-Kamo A, Naito AT, Oka T, Lee JK, Suzuki J, Sakata Y, Uejima E, Komuro I. Angiotensin II receptor blockade promotes repair of skeletal muscle through down-regulation of aging-promoting C1q expression. Scientific Reports 2015, 5: 14453. PMID: 26571361, PMCID: PMC4585890, DOI: 10.1038/srep14453.Peer-Reviewed Original ResearchMeSH KeywordsAdministration, TopicalAgingAngiotensin II Type 1 Receptor BlockersAnimalsAxin ProteinBiphenyl CompoundsCell LineComplement C1qDown-RegulationImmunohistochemistryIrbesartanMacrophagesMaleMiceMice, Inbred C57BLMice, KnockoutMuscle, SkeletalPAX7 Transcription FactorReceptor, Angiotensin, Type 1RegenerationTetrazolesWnt Signaling PathwayConceptsC1q expressionReceptor blockadeAge-related declineAngiotensin II receptor blockadeAT1 receptor blocker irbesartanAngiotensin II type 1 receptorII type 1 receptorAT1 receptor blockadeFunctional muscle recoveryII receptor blockadeSkeletal muscleReceptor blocker irbesartanType 1 receptorWnt/β-catenin pathwaySkeletal muscle functionWnt/β-catenin signalingMuscle regenerationΒ-catenin pathwayCultured macrophage cellsΒ-catenin signalingAT1 receptorMuscle recoveryM2 polarizationMuscle functionTopical administration
2013
Clinical Significance of Wnt/β-Catenin Signalling and Androgen Receptor Expression in Prostate Cancer
Jung S, Oh S, Lee G, Chung J, Min K, Yoon J, Kim W, Ryu D, Kim I, Kang D. Clinical Significance of Wnt/β-Catenin Signalling and Androgen Receptor Expression in Prostate Cancer. The World Journal Of Men's Health 2013, 31: 36-46. PMID: 23658864, PMCID: PMC3640151, DOI: 10.5534/wjmh.2013.31.1.36.Peer-Reviewed Original ResearchWnt/β-catenin pathwayMatrix metalloproteinase-7Hormone-naïve prostate cancerΒ-catenin pathwayMMP-7 expressionAndrogen receptorProstate cancerPSA progressionHormone therapyΒ-cateninSerum prostate-specific antigen levelProstate-specific antigen levelPrimary androgen deprivationPrimary hormone therapyAndrogen receptor expressionKaplan-Meier curvesProstate cancer patientsShorter response durationHigh Gleason gradeMMP-7 proteinWnt/β-catenin signalingΒ-catenin signalingAndrogen deprivationClinicopathological factorsAdvanced cancer
2012
Profibrotic Role of miR-154 in Pulmonary Fibrosis
Milosevic J, Pandit K, Magister M, Rabinovich E, Ellwanger DC, Yu G, Vuga LJ, Weksler B, Benos PV, Gibson KF, McMillan M, Kahn M, Kaminski N. Profibrotic Role of miR-154 in Pulmonary Fibrosis. American Journal Of Respiratory Cell And Molecular Biology 2012, 47: 879-887. PMID: 23043088, PMCID: PMC3547095, DOI: 10.1165/rcmb.2011-0377oc.Peer-Reviewed Original ResearchMeSH KeywordsCase-Control StudiesCell MovementCell ProliferationCells, CulturedChromosomes, Human, Pair 14Cyclin-Dependent Kinase Inhibitor p15FibroblastsGene ExpressionHumansLungMicroRNAsMultigene FamilyOligonucleotide Array Sequence AnalysisPulmonary FibrosisRNA InterferenceTranscriptomeTransforming Growth Factor beta1Wnt Signaling PathwayConceptsIdiopathic pulmonary fibrosisNormal human lung fibroblastsMiR-154IPF lungsPulmonary fibrosisIPF fibroblastsProgressive interstitial lung diseaseInterstitial lung diseaseWnt/β-catenin pathwayHuman lung fibroblastsΒ-catenin pathwayTGF-β1 stimulationBinding of Smad3Quantitative RT-PCRLung diseaseProfibrotic roleExpression of microRNAsICG-001MiR-134Unknown originMiR-382MiR-487bProliferative effectLung fibroblastsMiR-410
2007
The Renewal and Differentiation of Isl1 + Cardiovascular Progenitors Are Controlled by a Wnt/β-Catenin Pathway
Qyang Y, Martin-Puig S, Chiravuri M, Chen S, Xu H, Bu L, Jiang X, Lin L, Granger A, Moretti A, Caron L, Wu X, Clarke J, Taketo MM, Laugwitz KL, Moon RT, Gruber P, Evans SM, Ding S, Chien KR. The Renewal and Differentiation of Isl1 + Cardiovascular Progenitors Are Controlled by a Wnt/β-Catenin Pathway. Cell Stem Cell 2007, 1: 165-179. PMID: 18371348, DOI: 10.1016/j.stem.2007.05.018.Peer-Reviewed Original Research
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