ABSTRACT
The transient receptor potential vanilloid type 1 (TRPV1) channel is a non-selective cation channel expressed with transient receptor potential ankyrin type 1 (TRPA1) in small and medial size neurons of the dorsal root ganglions and trigeminal ganglions. TRPV1 is activated by capsaicin, thermal stimuli higher than 43°C, mechanical stress, and protons (H+). Although the TRPV1 channel does not have positively charged residues at regular intervals on its transmembrane segments, alterations in membrane potential also affect the state of TRPV1 channel. In the presence of capsaicin, voltage-dependent probability of opening of the TRPV1 channel and its kinetics have been examined, but the characteristics in the low pH remain unclear. To understand the voltage-dependency of the TRPV1 channel activation, we recorded capsaicin- and proton-induced mouse TRPV1 channel currents in a heterologous expression system. Outward current evoked by depolarizing square pulses in the presence of capsaicin or protons was fitted to a two-exponential function with a time-independent component. The voltage-dependent changes in amplitude of the three components displayed shallow curves and the changes in their ratio to the total current display similar tendencies in the presence of capsaicin and under the low pH. However, the fast and slow time constants in the presence of capsaicin were respectively 5- and 8-fold lower than those obtained under low pH conditions. These results suggest that the TRPV1 channel slowly drives the feed-forward cycle of pain sensation, and capsaicin and protons differently modulate the voltage-dependent TRPV1 channel gating.
ABSTRACT
OBJECTIVES: Oncogene addiction has provided therapeutic opportunities in many human malignancies, but molecular targeted therapy for oral squamous cell carcinoma (OSCC) is not yet available. In this study, we attempted to identify an appropriate target molecule for treatment of patients with OSCC. MATERIALS AND METHODS: Microarray analysis was performed to determine the gene expression profiles in nine human OSCC cell lines and a non-neoplastic keratinocyte cell line. The expression levels of Aurora kinase A (AURKA) mRNA and protein in human OSCC cells and tissues were examined. We investigated the effect of small interfering RNAs specific for AURKA (siAURKAs) and MLN8237, an AURKA selective inhibitor on the growth of OSCC cells in vitro and in vivo. We also analyzed clinical significance in AURKA mRNA expression levels in OSCC. RESULTS: AURKA was overexpressed in human OSCC cell lines and tissues. All siAURKAs almost completely suppressed the expression of AURKA protein, and significantly inhibited the growth of OSCC cells by 31-89%. MLN8237 also reduced the cellular growth rate by 38-74%. Both siAURKA and MLN8237 significantly reduced the size of subcutaneously xenografted OSCC tumors by 66% and 40%. Knockdown of AURKA expression and MLN8237 induced the growth inhibition of primary cultured cells established from patients' OSCC tumors. Furthermore, we found a significant association between AURKA mRNA expression levels and histological differentiation and lymph node metastasis. CONCLUSIONS: AURKA plays a critical role in the growth of human OSCC cells and targeting AURKA may be a useful therapeutic strategy for OSCC.
