Mitf is the key molecular switch between mouse or human melanoma initiating cells and their differentiated progeny
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P. Bahadoran | C. Bertolotto | R. Ballotti | S. Rocchi | P. Hofman | V. Hofman | T. Botton | Y. Cheli | S. Guiliano | Paul Hofman | Philippe Bahadoran | P. Hofman
[1] K. Hoek,et al. Cancer stem cells versus phenotype‐switching in melanoma , 2010, Pigment cell & melanoma research.
[2] Alexander Roesch,et al. A Temporarily Distinct Subpopulation of Slow-Cycling Melanoma Cells Is Required for Continuous Tumor Growth , 2010, Cell.
[3] J. Roes,et al. Key roles for transforming growth factor beta in melanocyte stem cell maintenance. , 2010, Cell stem cell.
[4] C. Bertolotto,et al. Fifteen‐year quest for microphthalmia‐associated transcription factor target genes , 2010, Pigment cell & melanoma research.
[5] E. Sahai,et al. Intravital imaging reveals transient changes in pigment production and Brn2 expression during metastatic melanoma dissemination. , 2009, Cancer research.
[6] G. Smyth,et al. ELDA: extreme limiting dilution analysis for comparing depleted and enriched populations in stem cell and other assays. , 2009, Journal of immunological methods.
[7] Eric S. Lander,et al. Identification of Selective Inhibitors of Cancer Stem Cells by High-Throughput Screening , 2009, Cell.
[8] P. Bahadoran,et al. In vitro and in vivo anti-melanoma effects of ciglitazone. , 2009, The Journal of investigative dermatology.
[9] Yinshi Guo,et al. Inhibition of PAX3 by TGF-beta modulates melanocyte viability. , 2008, Molecular cell.
[10] P. Nuciforo,et al. Brn-2 represses microphthalmia-associated transcription factor expression and marks a distinct subpopulation of microphthalmia-associated transcription factor-negative melanoma cells. , 2008, Cancer research.
[11] M. Hendrix,et al. Potential for Cripto-1 in defining stem cell-like characteristics in human malignant melanoma , 2008, Cell cycle.
[12] Friedrich Beermann,et al. The Notch pathway: hair graying and pigment cell homeostasis. , 2008, Histology and histopathology.
[13] R. Dummer,et al. In vivo switching of human melanoma cells between proliferative and invasive states. , 2008, Cancer research.
[14] Mark Shackleton,et al. Efficient tumour formation by single human melanoma cells , 2008 .
[15] M. Clarke,et al. Cancer stem cells and tumor metastasis: first steps into uncharted territory. , 2007, Cell stem cell.
[16] James M. Roberts,et al. Discovery of an oncogenic activity in p27Kip1 that causes stem cell expansion and a multiple tumor phenotype. , 2007, Genes & development.
[17] Barbara Stecca,et al. Melanomas require HEDGEHOG-GLI signaling regulated by interactions between GLI1 and the RAS-MEK/AKT pathways , 2007, Proceedings of the National Academy of Sciences.
[18] Jane Goodall,et al. Mitf regulation of Dia1 controls melanoma proliferation and invasiveness. , 2006, Genes & development.
[19] L. Larue,et al. The WNT/Beta-catenin pathway in melanoma. , 2006, Frontiers in bioscience : a journal and virtual library.
[20] D. Elder,et al. A tumorigenic subpopulation with stem cell properties in melanomas. , 2005, Cancer research.
[21] M. Khaled,et al. The cleavage of microphthalmia-associated transcription factor, MITF, by caspases plays an essential role in melanocyte and melanoma cell apoptosis. , 2005, Genes & development.
[22] T. Golub,et al. Critical role of CDK2 for melanoma growth linked to its melanocyte-specific transcriptional regulation by MITF. , 2004, Cancer cell.
[23] M. Khaled,et al. PI3K mediates protection against TRAIL-induced apoptosis in primary human melanocytes , 2004, Cell Death and Differentiation.
[24] M. Carducci,et al. Differentiation therapy. , 2020, Current opinion in pharmacology.
[25] A. B. Lyons,et al. Flow cytometric analysis of cell division history using dilution of carboxyfluorescein diacetate succinimidyl ester, a stably integrated fluorescent probe. , 2001, Methods in cell biology.
[26] R. Buscà,et al. Cyclic AMP a key messenger in the regulation of skin pigmentation. , 2000, Pigment cell research.
[27] D. Fisher,et al. Microphthalmia Gene Product as a Signal Transducer in cAMP-Induced Differentiation of Melanocytes , 1998, The Journal of cell biology.
[28] P. Nowell. The clonal evolution of tumor cell populations. , 1976, Science.