Abstract
Mutations in the Hedgehog signaling pathway is responsible for the formation of various cancers, including some forms of basal cell carcinoma (BCC). Uncontrolled Hedgehog signaling leads to overexpression of the zinc-finger Gli transcription factors, among which Gli2 plays a central role. We found that high Gli2 expression induced the concomitant high expression of the caspase 8 inhibitor, cFlip, and thereby counteracts death-ligand-mediated apoptosis. By investigating the cFlip promoter, Gli2 binding sites were identified and confirmed. Gli2 gene silencing by RNA interference broke the apoptosis resistance via cFlip downregulation. The direct functional connection between Gli2 and cFlip was not only demonstrated in a keratinocytic cell line but also in BCC tissue. As cFlip and Bcl-2 are highly expressed in BCCs, as a consequence of high Gli2 expression, this may explain the marked resistance of the tumor to the extrinsic and intrinsic apoptotic pathway. We could now demonstrate that Gli2 gene silencing in BCC tissues made the tumor sensitive to TRAIL (tumor necrosis factor-related apoptosis-inducing ligand)-mediated cell death by downregulating cFlip. As Gli2 silencing does not only downregulate cFlip, but also Bcl-2, Gli2 could be a key target for a novel therapeutic approach in tumors with dysregulated Hedgehog signaling.
Highlights
Basal cell carcinoma (BCC) is the most common skin tumor and the most frequent malignancy in the Caucasian population (Diepgen and Mahler, 2002)
Results cFlip expression is upregulated by Gli2 The role of Gli2 in the apoptosis resistance was studied using a keratinocytic cell line, HaCaT NHis-Gli2
Gli2 protein expression as detected by western blots was only induced in tet-treated NHis-Gli2 but not in control cells (Figure 1b)
Summary
Basal cell carcinoma (BCC) is the most common skin tumor and the most frequent malignancy in the Caucasian population (Diepgen and Mahler, 2002). An important feature of BCC is its resistance to apoptosis, the detailed molecular mechanism is unclear. It was found that Gli or Gli overexpression upregulated Bcl-2, a key molecule involved in the prevention of the intrinsic apoptotic pathway (Bigelow et al, 2004; Regl et al, 2004b). Whether the dysregulated Shh signaling pathway influences resistance of BCC to the extrinsic, for example, death ligand/receptor-mediated apoptotic pathway has not been described so far. We report that Gli overexpression upregulates cFlip, which antagonizes death ligand/receptor-mediated apoptosis at the caspase 8 level. Gli gene silencing by RNA interference downregulated cFlip expression and reversed apoptosis resistance
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