Abstract
The Hedgehog pathway is a potent regulator of cellular growth and plays a central role in the development of many cancers including basal cell carcinoma (BCC). The majority of BCCs arise from mutations in the Patched receptor resulting in constitutive activation of the Hedgehog pathway. Secondary driver mutations promote BCC oncogenesis and occur frequently due to the high mutational burden resulting from sun exposure of the skin. Here, we uncover novel secondary mutations in Suppressor of Fused (SUFU), the major negative regulator of the Hedgehog pathway. SUFU normally binds to a Hedgehog transcriptional activator, GLI1, in order to prevent it from initiating transcription of Hedgehog target genes. We sequenced tumor-normal pairs from patients with early sporadic BCCs. This resulted in the discovery of nine mutations in SUFU, which were functionally investigated to determine whether they help drive BCC formation. Our results show that four of the SUFU mutations inappropriately activate the Hedgehog pathway, suggesting they may act as driver mutations for BCC development. Indeed, all four of the loss of function SUFU variants were found to disrupt its binding to GLI, leading to constitutive pathway activation. Our results from functional characterization of these mutations shed light on SUFU’s role in Hedgehog signaling, tumor progression, and highlight a way in which BCCs can arise.
Highlights
The Hedgehog (HH) pathway drives downstream proliferative and maintenance signaling programs in many developmental and tissue homeostasis processes and has been shown to play a pivotal role in the development of many cancers [1]
We compared Sufu-null mouse embryonic fibroblasts (MEFs) nucleofected with wild type Suppressor of Fused (SUFU):GFP or mock nucleofected with GFP
Our results show that clinically observed mutations in SUFU have the potential to drive tumor growth and further elucidates SUFU’s role in binding to and suppressing Glioma-associated homologue (GLI) function
Summary
The Hedgehog (HH) pathway drives downstream proliferative and maintenance signaling programs in many developmental and tissue homeostasis processes and has been shown to play a pivotal role in the development of many cancers [1]. Hedgehog pathway activation occurs upon binding of HH ligand to the receptor Patched (PTCH1) on the cell’s primary cilium, causing de-repression of the G-protein coupled receptor Smoothened (SMO) and resultant activation of Glioma-associated homologue (GLI) transcription factors. Suppressor of Fused (SUFU) serves as a key major negative HH pathway regulator, the loss of which results in ectopic high-level pathway activity [2]. The Stanford Cancer Institute Grant, and by the Dermatology Foundation Career Development Award (Kavita Sarin). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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