Reciprocal effects of NNK and SLURP-1 on oncogene expression in target epithelial cells

Abstract

AimsTo elucidate how the nicotinic acetylcholine receptors expressed on bronchial and oral epithelial cells targeted by the tobacco nitrosamine (4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone) (NNK) facilitate carcinogenic transformation. Main methodsSince NNK-dependent transformation can be abolished by the nicotinergic secreted mammalian Ly-6/urokinase plasminogen activator receptor related protein-1 (SLURP-1), we compared effects of NNK and recombinant (r)SLURP-1 on the expression of genes related to tumorigenesis in human immortalized bronchial and oral epithelial cell lines BEP2D and Het-1A, respectively. Key findingsNNK stimulated expression of oncogenic genes, including MYB and PIK3CA in BEP2D, ETS1, NRAS and SRC in Het-1A, and AKT1, KIT and RB1 in both cell types, which could be abolished in the presence of rSLURP-1. Other cancer-related genes whose upregulation by NNK was abolishable by rSLURP-1 were the growth factors EGF in BEP2D cells and HGF in Het-1A cells, and the transcription factors CDKN2A and STAT3 (Het-1A only). NNK also upregulated the anti-apoptotic BCL2 (Het-1A) and downregulated the pro-apoptotic TNF (Het-1A), BAX and CASP8 (BEP2D), all of which could be abolished, in part, by rSLURP-1. NNK decreased expression of the CTNNB1 gene encoding the intercellular adhesion molecule β-catenin (BEP2D), as well as tumor suppressors CDKN3 and FOXD3 in BEP2D cells and SERPINB5 in Het-1A cells. These pro-oncogenic effects of NNK were abolished by rSLURP-1 that also upregulated RUNX3. SignificanceThe obtained results identified target genes for both NNK and SLURP-1 and shed light on the molecular mechanism of their reciprocal effects on tumorigenic transformation of bronchial and oral epithelial cells.