Single-cell gene expression profiling reveals functional heterogeneity of undifferentiated human epidermal cells
Keratinocytes
0301 basic medicine
610
Validation Studies as Topic
Models, Biological
Polymerase Chain Reaction
Genetic Heterogeneity
03 medical and health sciences
TERMINAL DIFFERENTIATION
Humans
MEMBRANE COFACTOR PROTEIN
TRANSIT-AMPLIFYING CELLS
CD46
Cells, Cultured
Gene Expression Profiling
Stem Cells
C-CBL
Development and Stem Cells
Cell Differentiation
Epithelial Cells
Microarray Analysis
Endocytosis
NOTCH
PROGENITOR CELLS
Epidermal Cells
Delta
Adhesion
OLIGONUCLEOTIDE MICROARRAY ANALYSIS
Epidermis
Single-Cell Analysis
GROWTH-FACTOR RECEPTOR
STEM-CELLS
CDNA AMPLIFICATION
Biomarkers
DOI:
10.1242/dev.087551
Publication Date:
2013-03-12T11:27:44Z
AUTHORS (6)
ABSTRACT
Human epidermal stem cells express high levels of β1 integrins, delta-like 1 (DLL1) and the EGFR antagonist LRIG1. However, there is cell-to-cell variation in the relative abundance of DLL1 and LRIG1 mRNA transcripts. Single-cell global gene expression profiling showed that undifferentiated cells fell into two clusters delineated by expression of DLL1 and its binding partner syntenin. The DLL1+ cluster had elevated expression of genes associated with endocytosis, integrin-mediated adhesion and receptor tyrosine kinase signalling. Differentially expressed genes were not independently regulated, as overexpression of DLL1 alone or together with LRIG1 led to the upregulation of other genes in the DLL1+ cluster. Overexpression of DLL1 and LRIG1 resulted in enhanced extracellular matrix adhesion and increased caveolin-dependent EGFR endocytosis. Further characterisation of CD46, one of the genes upregulated in the DLL1+ cluster, revealed it to be a novel cell surface marker of human epidermal stem cells. Cells with high endogenous levels of CD46 expressed high levels of β1 integrin and DLL1 and were highly adhesive and clonogenic. Knockdown of CD46 decreased proliferative potential and β1 integrin-mediated adhesion. Thus, the previously unknown heterogeneity revealed by our studies results in differences in the interaction of undifferentiated basal keratinocytes with their environment.
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