Notch3 signaling-mediated melanoma–endothelial crosstalk regulates melanoma stem-like cell homeostasis and niche morphogenesis

Melanoma is among the most virulent cancers, owing to its propensity to metastasize and its resistance to current therapies. The treatment failure is largely attributed to tumor heterogeneity, particularly subpopulations possessing stem cell-like properties, ie, melanoma stem-like cells (MSLCs). Evi...

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Bibliographic Details
Published in:Laboratory investigation 2017-06, Vol.97 (6), p.725-736
Main Authors: Hsu, Mei-Yu, Yang, Moon Hee, Schnegg, Caroline I, Hwang, Soonyean, Ryu, Byungwoo, Alani, Rhoda M
Format: Article
Language:English
Subjects:
631/67/1813/1634
Animals
Cell Line, Tumor
Coculture Techniques
Human Umbilical Vein Endothelial Cells
Humans
Laboratory Medicine
Medicine
Medicine & Public Health
Melanoma - metabolism
Mice
Neoplastic Stem Cells - metabolism
Pathology
Receptor, Notch3 - metabolism
research-article
Signal Transduction
Stem Cell Niche - physiology
Tumor Microenvironment - physiology
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Summary:Melanoma is among the most virulent cancers, owing to its propensity to metastasize and its resistance to current therapies. The treatment failure is largely attributed to tumor heterogeneity, particularly subpopulations possessing stem cell-like properties, ie, melanoma stem-like cells (MSLCs). Evidence indicates that the MSLC phenotype is malleable and may be acquired by non-MSLCs through phenotypic switching upon appropriate stimuli, the so–called ‘dynamic stemness'. Since the phenotypic characteristics and functional integrity of MSLCs depend on their vascular niche, using a two-dimensional (2D) melanoma–endothelium co-culture model, where the MSLC niche is recapitulated in vitro, we identified Notch3 signaling pathway as a micro-environmental cue governing MSLC phenotypic plasticity via pathway-specific gene expression arrays. Accordingly, lentiviral shRNA-mediated Notch3 knockdown (KD) in melanoma cell lines exhibiting high levels of endogenous Notch3 led to retarded/abolished tumorigenicity in vivo through both depleting MSLC fractions, evinced by MSLC marker downregulation (eg, CD133 and CD271); and impeding the MSLC niche, corroborated by the attenuated tumor angiogenesis as well as vasculogenic mimicry. In contrast, Notch3 KD affected neither tumor growth nor MSLC subsets in a melanoma cell line with relatively low endogenous Notch3 expression. Thus, Notch3 signaling may facilitate MSLC plasticity and niche morphogenesis in a cell context-dependent manner. Our findings illustrate Notch3 as a molecular switch driving melanoma heterogeneity, and provide the biological rationale for Notch inhibition as a promising therapeutic option.
ISSN:0023-6837
1530-0307
DOI:10.1038/labinvest.2017.1