Changes of calcium channel mRNA, protein and current in NG108-15 cells after cell differentiation

Liu, Jinxu; Tu, Huiyin; Zhang, Dongze; Li, Yu-Long

Changes of calcium channel mRNA, protein and current in NG108-15 cells after cell differentiation

2012

Liu, Jinxu | Tu, Huiyin | Zhang, Dongze | Li, Yu-Long

Based on the characteristics of differentiated NG108-15 cells (cell membrane excitability, acetylcholine release, and activities of choline acetyltransferase and acetylcholinesterase), NG108-15 cells are extensively used to explore neuronal functions as a cholinergic cell line. In the present study, differentiation-induced alterations of voltage-gated Ca²⁺ channel mRNA, protein, and current were investigated in the NG108-15 cells. Real-time PCR, Western blot, and whole-cell patch-clamp data showed that differentiation caused mRNA, protein, and ion current changes of all Ca²⁺ channel subunits. However, the changes of mRNA, protein, and ion current are inconsistent in all Ca²⁺ channel subunits. Especially, P/Q- and R-type Ca²⁺ channel proteins do not form the functional P/Q- and R-type Ca²⁺ channels even if the mRNA and protein of P/Q- and R-type Ca²⁺ channels can be detected in NG108-15 cells. These results indicate that differentiation can modulate gene transcription, protein translation, and post-translation of the Ca²⁺ channels to induce the alteration of the Ca²⁺ ion currents in NG108-15 cells. From these data, we understand that combining real-time PCR, Western blot, and patch-clamp techniques can comprehensively unveil the modulation of the Ca²⁺ channels.

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