2022
Utility of TRPS-1 immunohistochemistry in diagnosis of metastatic breast carcinoma in cytology specimens
Abdelwahed M, Yurtsever N, Savant D, Karam P, Gimenez C, Das K, Sheikh-Fayyaz S, Khutti S. Utility of TRPS-1 immunohistochemistry in diagnosis of metastatic breast carcinoma in cytology specimens. Journal Of The American Society Of Cytopathology 2022, 11: 345-351. PMID: 36055933, DOI: 10.1016/j.jasc.2022.06.007.Peer-Reviewed Original ResearchConceptsTriple-negative BCPercentage of positive tumor cellsDiagnostic IHC markersMetastatic BCPositive tumor cellsBreast carcinomaCytology specimensSOX-10GATA-3Tumor cellsIHC markersCell blocksTRPS-1Diagnosis of metastatic breast carcinomaClusters of tumor cellsSOX-10 expressionTRPS-1 expressionGATA binding protein 3Metastatic breast carcinomaSRY-box transcription factor 10Trichorhinophalangeal syndrome type 1GATA-3 expressionBinding protein-3Intensity of reactivityPositive rate
2010
Bone marrow-derived mesenchymal stem cells undergo JCV T-antigen mediated transformation and generate tumors with neuroectodermal characteristics
Del Valle L, Piña-Oviedo S, Perez-Liz G, Augelli B, Azizi S, Khalili K, Gordon J, Krynska B. Bone marrow-derived mesenchymal stem cells undergo JCV T-antigen mediated transformation and generate tumors with neuroectodermal characteristics. Cancer Biology & Therapy 2010, 9: 286-294. PMID: 20190567, PMCID: PMC2921558, DOI: 10.4161/cbt.9.4.10653.Peer-Reviewed Original ResearchConceptsMarrow-derived mesenchymal stem cellsAdult stem cellsStem cellsBone marrow-derived mesenchymal stem cellsTumor cellsT antigenMesenchymal stem cellsPopulation of tumor cellsPositive tumor cellsNeural crest marker p75Ki-67 labelingAdult bone marrow-derived mesenchymal stem cellsCancer stem cellsAssociation of JCVPrimitive neuroectodermal cellsCo-expressing CD133Multipotent differentiation capacityHuman polyomavirus JCVKi-67Neural crest characteristicsProliferation indexSOX-10Nude miceS-100Human tumors
2008
A population of human brain cells expressing phenotypic markers of more than one lineage can be induced in vitro to differentiate into mesenchymal cells
Rieske P, Augelli B, Stawski R, Gaughan J, Azizi S, Krynska B. A population of human brain cells expressing phenotypic markers of more than one lineage can be induced in vitro to differentiate into mesenchymal cells. Experimental Cell Research 2008, 315: 462-473. PMID: 19061885, DOI: 10.1016/j.yexcr.2008.11.004.Peer-Reviewed Original ResearchConceptsNormal human astrocytesMesenchymal-like cellsNeural crest cellsCollagen 1Mesenchymal-like derivativesFetal human brain cellsFetal brain cellsCrest cellsMesenchymal markers fibronectinNeural stem/progenitor cellsAstrocytes in vitroBrain cellsExpression of vimentinInduced in vitroSerum-containing mediumMarkers of neural crest cellsExtracellular matrixSOX-10Stem/progenitor cellsNeuronal markersHuman brain cellsBetaIII-tubulinMarkers fibronectinBrain parenchymaMesenchymal lineages
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