2020
Kahounová, Zuzana; Remšík, Ján; Fedr, Radek; Bouchal, Jan; Mičková, Alena; Slabáková, Eva; Binó, Lucia; Hampl, Aleš; Souček, Karel
Slug-expressing mouse prostate epithelial cells have increased stem cell potential. Journal Article
In: Stem cell research, vol. 46, pp. 101844, 2020, ISSN: 1876-7753 1873-5061, (Place: England).
Abstract | Links | BibTeX | Tags: *Epithelial-Mesenchymal Transition, *Prostate, Animals, Cell Line, Cell Movement, Epithelial Cells, epithelial-to-mesenchymal transition, Male, Mice, Organoids, Prostate stem cells, Snai2/Slug, Snail Family Transcription Factors/genetics, stemness, Tumor
@article{kahounova_slug-expressing_2020,
title = {Slug-expressing mouse prostate epithelial cells have increased stem cell potential.},
author = {Zuzana Kahounová and Ján Remšík and Radek Fedr and Jan Bouchal and Alena Mičková and Eva Slabáková and Lucia Binó and Aleš Hampl and Karel Souček},
doi = {10.1016/j.scr.2020.101844},
issn = {1876-7753 1873-5061},
year = {2020},
date = {2020-07-01},
journal = {Stem cell research},
volume = {46},
pages = {101844},
abstract = {Deciphering the properties of adult stem cells is crucial for understanding of their role in healthy tissue and in cancer progression as well. Both stem cells and cancer stem cells have shown association with epithelial-to-mesenchymal transition (EMT) in various tissue types. Aiming to investigate the epithelial and mesenchymal phenotypic traits in adult mouse prostate, we sorted subpopulations of basal prostate stem cells (mPSCs) and assessed the expression levels of EMT regulators and markers with custom-designed gene expression array. The population of mPSCs defined by a Lin(-)/Sca-1(+)CD49f(hi)/Trop-2(+) (LSC Trop-2(+)) surface phenotype was enriched in mesenchymal markers, especially EMT master regulator Slug, encoded by the Snai2 gene. To further dissect the role of Slug in mPSCs, we used transgenic Snai2(tm1.1Wbg) reporter mouse strain. Using this model, we confirmed the presence of mesenchymal traits and increase of organoid forming capacity in Slug(+) population of mPSCs. The Slug(+)-derived organoids comprised all prostate epithelial cell types - basal, luminal, and neuroendocrine. Collectively, these data uncover the important role of Slug expression in the physiology of mouse prostate stem cells.},
note = {Place: England},
keywords = {*Epithelial-Mesenchymal Transition, *Prostate, Animals, Cell Line, Cell Movement, Epithelial Cells, epithelial-to-mesenchymal transition, Male, Mice, Organoids, Prostate stem cells, Snai2/Slug, Snail Family Transcription Factors/genetics, stemness, Tumor},
pubstate = {published},
tppubtype = {article}
}
Deciphering the properties of adult stem cells is crucial for understanding of their role in healthy tissue and in cancer progression as well. Both stem cells and cancer stem cells have shown association with epithelial-to-mesenchymal transition (EMT) in various tissue types. Aiming to investigate the epithelial and mesenchymal phenotypic traits in adult mouse prostate, we sorted subpopulations of basal prostate stem cells (mPSCs) and assessed the expression levels of EMT regulators and markers with custom-designed gene expression array. The population of mPSCs defined by a Lin(-)/Sca-1(+)CD49f(hi)/Trop-2(+) (LSC Trop-2(+)) surface phenotype was enriched in mesenchymal markers, especially EMT master regulator Slug, encoded by the Snai2 gene. To further dissect the role of Slug in mPSCs, we used transgenic Snai2(tm1.1Wbg) reporter mouse strain. Using this model, we confirmed the presence of mesenchymal traits and increase of organoid forming capacity in Slug(+) population of mPSCs. The Slug(+)-derived organoids comprised all prostate epithelial cell types - basal, luminal, and neuroendocrine. Collectively, these data uncover the important role of Slug expression in the physiology of mouse prostate stem cells.
2015
Slabáková, Eva; Kharaishvili, Gvantsa; Smějová, Monika; Pernicová, Zuzana; Suchánková, Tereza; Remšík, Ján; Lerch, Stanislav; Straková, Nicol; Bouchal, Jan; Král, Milan; Culig, Zoran; Kozubík, Alois; Souček, Karel
Opposite regulation of MDM2 and MDMX expression in acquisition of mesenchymal phenotype in benign and cancer cells. Journal Article
In: Oncotarget, vol. 6, no. 34, pp. 36156–36171, 2015, ISSN: 1949-2553, (Place: United States).
Abstract | Links | BibTeX | Tags: Animals, Breast Neoplasms/genetics/*metabolism/pathology, Cell Cycle Proteins, Cell Line, Epithelial-Mesenchymal Transition, Epithelial-Mesenchymal Transition/*physiology, Female, Heterografts, Humans, Male, MDM2/MDMX, Mice, Nuclear Proteins/*biosynthesis, Nude, Phenotype, prostate/breast cancer, Prostatic Neoplasms/genetics/*metabolism/pathology, Proto-Oncogene Proteins c-mdm2/*biosynthesis, Proto-Oncogene Proteins/*biosynthesis, Snai2/Slug, Transfection, Tumor, TWIST
@article{slabakova_opposite_2015,
title = {Opposite regulation of MDM2 and MDMX expression in acquisition of mesenchymal phenotype in benign and cancer cells.},
author = {Eva Slabáková and Gvantsa Kharaishvili and Monika Smějová and Zuzana Pernicová and Tereza Suchánková and Ján Remšík and Stanislav Lerch and Nicol Straková and Jan Bouchal and Milan Král and Zoran Culig and Alois Kozubík and Karel Souček},
doi = {10.18632/oncotarget.5392},
issn = {1949-2553},
year = {2015},
date = {2015-11-01},
journal = {Oncotarget},
volume = {6},
number = {34},
pages = {36156–36171},
abstract = {Plasticity of cancer cells, manifested by transitions between epithelial and mesenchymal phenotypes, represents a challenging issue in the treatment of neoplasias. Both epithelial-mesenchymal transition (EMT) and mesenchymal-epithelial transition (MET) are implicated in the processes of metastasis formation and acquisition of stem cell-like properties. Mouse double minute (MDM) 2 and MDMX are important players in cancer progression, as they act as regulators of p53, but their function in EMT and metastasis may be contradictory. Here, we show that the EMT phenotype in multiple cellular models and in clinical prostate and breast cancer samples is associated with a decrease in MDM2 and increase in MDMX expression. Modulation of EMT-accompanying changes in MDM2 expression in benign and transformed prostate epithelial cells influences their migration capacity and sensitivity to docetaxel. Analysis of putative mechanisms of MDM2 expression control demonstrates that in the context of defective p53 function, MDM2 expression is regulated by EMT-inducing transcription factors Slug and Twist. These results provide an alternative context-specific role of MDM2 in EMT, cell migration, metastasis, and therapy resistance.},
note = {Place: United States},
keywords = {Animals, Breast Neoplasms/genetics/*metabolism/pathology, Cell Cycle Proteins, Cell Line, Epithelial-Mesenchymal Transition, Epithelial-Mesenchymal Transition/*physiology, Female, Heterografts, Humans, Male, MDM2/MDMX, Mice, Nuclear Proteins/*biosynthesis, Nude, Phenotype, prostate/breast cancer, Prostatic Neoplasms/genetics/*metabolism/pathology, Proto-Oncogene Proteins c-mdm2/*biosynthesis, Proto-Oncogene Proteins/*biosynthesis, Snai2/Slug, Transfection, Tumor, TWIST},
pubstate = {published},
tppubtype = {article}
}
Plasticity of cancer cells, manifested by transitions between epithelial and mesenchymal phenotypes, represents a challenging issue in the treatment of neoplasias. Both epithelial-mesenchymal transition (EMT) and mesenchymal-epithelial transition (MET) are implicated in the processes of metastasis formation and acquisition of stem cell-like properties. Mouse double minute (MDM) 2 and MDMX are important players in cancer progression, as they act as regulators of p53, but their function in EMT and metastasis may be contradictory. Here, we show that the EMT phenotype in multiple cellular models and in clinical prostate and breast cancer samples is associated with a decrease in MDM2 and increase in MDMX expression. Modulation of EMT-accompanying changes in MDM2 expression in benign and transformed prostate epithelial cells influences their migration capacity and sensitivity to docetaxel. Analysis of putative mechanisms of MDM2 expression control demonstrates that in the context of defective p53 function, MDM2 expression is regulated by EMT-inducing transcription factors Slug and Twist. These results provide an alternative context-specific role of MDM2 in EMT, cell migration, metastasis, and therapy resistance.