Hypoxic regulation of the klk4 gene in two different prostate cancer cells treated with TGF- β

Abstract

The human kallikrein-related peptidase (KLK) family which consists of 15 members is associated with prostate cancer and other cancers. It has been reported that overexpression of KLK4 in prostate cancer correlates with bone metastasis or advanced stage. Hypoxia occurs in the early stages of prostate cancer due to the accumulation of acidic metabolites or reactive oxygen species (ROS). In our study, KLK4 gene expression in hypoxic conditions in PC-3 and LNCaP cells which are treated with TGF-β was evaluated with mRNA, protein, and promoter activity levels. A chemical hypoxia model was created and confirmed at mRNA and protein level. No statistically significant cytotoxic effect of CoCl2 and TGF-β was observed in PC-3 and LNCaP cells with the MTT test. Four different truncated KLK4 gene promoter constructs were cloned in pmetLuc expression vector and basal activities of all promoter fragments were analyzed. The activities of P1 (−447/ + 657), P2 (−103/ + 657), and P3 (−267/ + 657) promoter fragments increased in hypoxic conditions except P4 (+555/ + 657), which does not contain the SMAD and HRE region. KLK4 mRNA levels in both PC-3 and LNCaP cells increased in the hypoxia and hypoxia/TGF groups compared to the non-treated groups. The stimulating effect of TGF-β is correlated with the increase in SMAD2/3 mRNA levels. KLK4 expression is up-regulated by TGF-β, especially under hypoxic conditions, and its interaction with the SMAD pathway is determined with different inhibitor experiments. HIF-1α and SMAD transcription factors bind to the KLK4 promoter showing the direct interaction of HIF-1α (−80/−52) and SMAD (+163/+194) regions with EMSA.