We aimed to characterise the response of locally advanced basal cell carcinoma (BCC) to systemic treatment with Vismodegib, a Hedgehog pathway inhibitor, by changes in the expression levels of Hedgehog pathway genes. Data were collected prospectively on 12 patients treated systemically for locally advanced BCC. Biopsy samples taken on admission and after treatment cessation were analysed pathologically and with the NanoString nCounter system to quantify the expression of 40 Hedgehog signaling pathway genes. Findings were compared before and after treatment, between complete and partial responders, and with localised BCC samples from 22 patients. Sixteen Hedgehog pathway genes changed significantly from before to after treatment. GAS1 was the only gene with a significantly different expression at baseline between complete responders (6 patients) and partial responders (4 patients) to Vismodegib (P = 0.014). GAS, GLIS2 and PRKACG1 showed different expression before treatment between the locally advanced and localised BCCs. The baseline expression level of GAS1 appears to be predictive of the response of locally advanced BCC to systemic Vismodegib treatment. A change in expression of many Hedgehog pathway genes, albeit expected by the known activity of Vismodegib, may nevertheless serve as an indicator of the response potential of the tumour.Basal cell carcinoma (BCC) is the most common cancer in the world, with a lifetime risk of 20% and an incidence that has grown continuously over recent decades 1,2 . BCC accounts for 80% of all nonmelanoma skin cancers. It occurs with greatest frequency in Caucasian and elderly populations 1,2 . The tumours are generally slow-growing, rarely fatal (mortality rate, less than 0.1%), and seldom metastasise (up to 0.5% of all cases) 1,2 . For localised BCCs, surgical treatment has a 5-year cure rate of more than 95% 3,4 . However, for the minority of BCCs that are locally advanced (laBCC) or metastatic (metBCC), conventional treatment methods are inadequate, and systemic therapies are considered the appropriate approach 2 .The Hedgehog (Hh) signal transduction pathway is one of the key regulators of cell proliferation and differentiation during embryogenesis and plays a major role in ensuring proper embryonic development 5,6 . In adults, the Hh pathway is normally inactive except in stem and skin cells and hair follicles. However, studies have shown that aberrant uncontrolled activation of the Hh pathway is maintained in 95% of sporadic BCCs in addition to several other malignancies 7 .The Hh pathway is activated when the Hh ligand binds to and inhibits the Patched 1 (PTCH1) receptor, an inhibitor of the G-protein-coupled smoothed (SMO) transmembrane receptor. As a result, the activated SMO then inhibits the negative regulator Suppressor of Fused protein which binds glioma associated (GLI) transcription factors in the cytoplasm. The GLI transcription factors are then left free to enter the cell nucleus and promote cell division and tumourigenesis (Fig. 1A) 5,6,8 . Approximately 90% ...
