The impact of S6K1 kinase on neuroblastoma cell proliferation is independent of GLI1 signaling.

[esophageal adenocarcinoma]

The crosstalk between Hedgehog (HH ) signaling and other signal transduction cascades has been extensively studied in different cancers . In neuroblastoma , mTOR /S 6 K 1 signaling is known to have a role in the development of this disease and recent evidence also implicates the HH pathway . Moreover , S 6 K 1 kinase has been shown to phosphorylate GLI 1 , the effector of HH signaling , promoting GLI 1 transcriptional activity and oncogenic function in esophageal adenocarcinoma . In this study , we examined the possible interplay of S 6 K 1 and GLI 1 signaling in neuroblastoma .siRNA knockdowns were used to suppress S 6 K 1 and GLI 1 expression , and the siRNA effects were validated by real-time PCR and Western blotting . Cell proliferation analysis was performed with the EdU incorporation assay . Cytotoxic analysis with increasing concentrations of PI 3 K /mTOR and GLI inhibitors , individually and in combination , was used to determine drug response .Although knockdown of either S 6 K 1 or GLI 1 reduces the cellular proliferation of neuroblastoma cells , there is little effect of S 6 K 1 on the expression of GLI 1 mRNA and protein and on the capacity of GLI 1 to activate target genes . No detectable phosphorylation of GLI 1 is observed prior or following S 6 K 1 knockdown . GLI 1 overexpression can not rescue the reduced proliferation elicited by S 6 K 1 knockdown . Moreover , inhibitors of PI 3 K /mTOR and GLI signaling reduced neuroblastoma cell growth , but no additional growth inhibitory effects were detected when the two classes of drugs were combined .Our results demonstrate that the impact of S 6 K 1 kinase on neuroblastoma cells is not mediated through modulation of GLI 1 expression /activity .