Human colon cancers often start as benign adenomas through loss of APC, leading to enhanced βCATENIN (βCAT)/TCF function. These early lesions are efficiently managed but often progress to invasive carcinomas and incurable metastases through additional changes, the nature of which is unclear. We find that epithelial cells of human colon carcinomas (CCs) and their stem cells of all stages harbour an active HH-GLI pathway. Unexpectedly, they acquire a high HEDGEHOG-GLI (HH-GLI) signature coincident with the development of metastases. We show that the growth of CC xenografts, their recurrence and metastases require HH-GLI function, which induces a robust epithelial-to-mesenchymal transition (EMT). Moreover, using a novel tumour cell competition assay we show that the self-renewal of CC stem cells in vivo relies on HH-GLI activity. Our results indicate a key and essential role of the HH-GLI1 pathway in promoting CC growth, stem cell self-renewal and metastatic behavior in advanced cancers. Targeting HH-GLI1, directly or indirectly, is thus predicted to decrease tumour bulk and eradicate CC stem cells and metastases.
Previous studies demonstrate the initiation of colon cancers through deregulation of WNT-TCF signalling. An accepted but untested extension of this finding is that incurable metastatic colon carcinomas (CCs) universally remain WNT-TCF-dependent, prompting the search for WNT-TCF inhibitors. CCs and their stem cells also require Hedgehog (HH)-GLI1 activity, but how these pathways interact is unclear. Here we define coincident high-to-low WNT-TCF and low-to-high HH-GLI transitions in patient CCs, most strikingly in their CD133+ stem cells, that mark the development of metastases. We find that enhanced HH-GLI mimics this transition, driving also an embryonic stem (ES)-like stemness signature and that GLI1 can be regulated by multiple CC oncogenes. The data support a model in which the metastatic transition involves the acquisition or enhancement of a more primitive ES-like phenotype, and the downregulation of the early WNT-TCF programme, driven by oncogene-regulated high GLI1 activity. Consistently, TCF blockade does not generally inhibit tumour growth; instead, it, like enhanced HH-GLI, promotes metastatic growth in vivo. Treatments for metastatic disease should therefore block HH-GLI1 but not WNT-TCF activities.
Several lines of evidence point to the central role of WNT signaling in the initiation of intestinal tumorigenesis, most often due to loss of APC, a negative regulator of the WNT-betaCATENIN/TCF pathway. Modeling human colon cancers in mice through loss of Apc has shown that inappropriate activation of Wnt signaling is sufficient to induce adenoma formation. More recent analyses have also demonstrated a key role for HEDGEHOG-GLI (HH-GLI) signaling in human colon cancers. However, how the WNT and HH pathways interact during intestinal development, homeostasis and cancer is not clear. Marker analyses suggest predominant paracrine signaling from rare Shh producing cells in the crypt's bottom to adjacent Gli1(+) mesenchymal cells in normal adult mice. Using conditional KO models, we show that inhibition of the function of the critical Hh mediator Smoothened (Smo) rescues the lethality and intestinal phenotypes of loss of Apc. The results uncover an essential role of the Hh pathway in tumors induced by hyperactive Wnt signaling, suggest the action of the Hh pathway in parallel or downstream of Wnt signaling, and validate this model for its use in preclinical work testing Hh pathway antagonists.
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