Featured Publications
Subcellular progression of mesenchymal transition identified by two discrete synchronous cell lines derived from the same glioblastoma
Kim S, Park S, Chowdhury T, Hong J, Ahn J, Jeong T, Yu H, Shin Y, Ku J, Park J, Hur J, Lee H, Kim K, Park C. Subcellular progression of mesenchymal transition identified by two discrete synchronous cell lines derived from the same glioblastoma. Cellular And Molecular Life Sciences 2022, 79: 181. PMID: 35278143, PMCID: PMC8918182, DOI: 10.1007/s00018-022-04188-3.Peer-Reviewed Original ResearchConceptsMesenchymal transitionCell linesAvailable single-cell RNA-seq dataMesenchymal transition (EMT) processCancer cell linesSame tissue samplesTherapeutic implicationsTumor samplesRecurrent samplesDriver mutationsGlioblastomaTissue samplesDistinct cancer cell linesGBM samplesIntratumoral heterogeneityTranscriptomic characteristics
2020
Inhibition of MUC1 exerts cell-cycle arrest and telomerase suppression in glioblastoma cells
Kim S, Seo Y, Chowdhury T, Yu H, Lee C, Kim K, Kang H, Kim H, Park S, Kim K, Park C. Inhibition of MUC1 exerts cell-cycle arrest and telomerase suppression in glioblastoma cells. Scientific Reports 2020, 10: 18238. PMID: 33106534, PMCID: PMC7589558, DOI: 10.1038/s41598-020-75457-z.Peer-Reviewed Original ResearchConceptsRole of MUC1Epithelial-mesenchymal transitionMucin 1Cell cycle arrestMUC1 knockdownNormal brain tissueExpression levelsGrowth factor betaTERT expression levelsGBM cell linesOverall survivalTherapeutic targetOncological processHuman gliomasBrain tissueFactor betaMesenchymal transitionPhosphorylation of RB1Diverse cancersGlioblastomaTelomere maintenance mechanismAnticancer mechanismCell proliferationCycle arrestGlioblastoma cells