Add to ORKGAdult stem cells self-renew and replenish differentiated cells in various organs and tissues throughout a mammal's life. Over the last 25 years an ever-growing body of knowledge has unraveled the essential regulation of adult mammalian epithelia by the canonical Wnt signaling with its key intracellular effector β-catenin. In this review, we discuss the principles of the signaling pathway and its role in adult epithelial stem cells of the intestine and skin during homeostasis and tumorigenesis. We further highlight the research that led to the identification of new stem cell markers and methods to study adult stem cells ex vivo
The WNT signal transduction cascade is a main regulator of development throughout the animal kingdom...
The term "Wnt signaling" does not refer to one uniform signal transduction cascade. Instead, it desc...
The intestinal epithelium is a self-renewing tissue that represents a unique model for studying inte...
Adult stem cells self-renew and replenish differentiated cells in various organs and tissues through...
AbstractSignaling initiated by secreted glycoproteins of the Wnt family regulates many aspects of em...
The intestinal epithelium is a self-renewing tissue which represents a unique model for studying int...
In mammals, Wnt/β-catenin signaling features prominently in stem cells and cancers, but how and for ...
The intestinal epithelium represents a very attractive experimental model for the study of integrate...
The ability of Wnt ligands to initiate a signaling cascade that results in cytoplasmic stabilization...
Cooperating with other signaling pathways, Wnt signaling controls cell proliferation, morphology, mo...
Targeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequences of ...
SummaryTargeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequen...
The Wnt signaling pathway is deregulated in over 90% of human colorectal cancers. beta-Catenin, the ...
Targeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequences of ...
Canonical Wnt signaling support the formation and maintenance of stem and cancer stem cells. Recent ...
The WNT signal transduction cascade is a main regulator of development throughout the animal kingdom...
The term "Wnt signaling" does not refer to one uniform signal transduction cascade. Instead, it desc...
The intestinal epithelium is a self-renewing tissue that represents a unique model for studying inte...
Adult stem cells self-renew and replenish differentiated cells in various organs and tissues through...
AbstractSignaling initiated by secreted glycoproteins of the Wnt family regulates many aspects of em...
The intestinal epithelium is a self-renewing tissue which represents a unique model for studying int...
In mammals, Wnt/β-catenin signaling features prominently in stem cells and cancers, but how and for ...
The intestinal epithelium represents a very attractive experimental model for the study of integrate...
The ability of Wnt ligands to initiate a signaling cascade that results in cytoplasmic stabilization...
Cooperating with other signaling pathways, Wnt signaling controls cell proliferation, morphology, mo...
Targeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequences of ...
SummaryTargeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequen...
The Wnt signaling pathway is deregulated in over 90% of human colorectal cancers. beta-Catenin, the ...
Targeting of Wnt signaling represents a promising anti-cancer therapy. However, the consequences of ...
Canonical Wnt signaling support the formation and maintenance of stem and cancer stem cells. Recent ...
The WNT signal transduction cascade is a main regulator of development throughout the animal kingdom...
The term "Wnt signaling" does not refer to one uniform signal transduction cascade. Instead, it desc...
The intestinal epithelium is a self-renewing tissue that represents a unique model for studying inte...