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find Keyword "membrane potential" 3 results
  • Role of Mitochondria in Apoptosis Induced by Rapamycin of Hepatocellular Carcinoma Bel-7402 Cells

    Objective To investigate the cell growth inhibition and apoptosis induced by rapamycin on human hepatocellular carcinoma Bel-7402 cells and to study the role of mitochondrium membrane potential in the process of apoptosis. Methods Bel-7402 cells in vitro were given 5, 10, 20, 30, 40 and 50 nmol/L different concentrations of rapamycin, and the cell growth inhibiting ratio of Bel-7402 was assessed by MTT assay. The changes of morphology of Bel-7402 were observed by Hoechst 33258 staining and flow cytometry (FCM), respectively; The cell mitochondrial membrane potential was detected by using JC-1 staining method. Results Rapamycin could inhibit the growth of Bel-7402 cells significantly by inducing apoptosis, and the growth suppression and the cell apoptosis both presented time-effect relationship and were also dose-dependent. The rates of inhibiting and cell apoptosis after 72 h exposure to 50 nmol/L rapamycin were significantly higher that those of other groups (P<0.01). Typical morphological changes of cell apoptosis were observed very clearly after the Bel-7402 cells had been exposed to rapamycin for 48 hours using Hoechst 33258 staining method, and it was also observed that the mitochondrial membrane potential decreased when apoptosis occured (P<0.01). Conclusion Rapamycin could inhibit the growth of Bel-7402 cells by inducing cell apoptosis, and the descent of mitochondrial membrane potential may play an important role in the process of cell apoptosis.

    Release date:2016-09-08 11:49 Export PDF Favorites Scan
  • Effect of Fast Capacitance Compensation Method on Improving the Action Potential Firing Accuracy of Nerve Cell

    Patch-clamp is used to study all sorts of ionic channels and their regulations with measuring pA current of cell ionic channel, but the fast capacitance (C-fast) compensation and slow capacitance (C-slow) compensation transient currents are caused by measuring objects and measuring instruments themselves which will change the properties of action potentials. The present paper firstly discusses the C-Fast transient currents affecting membrane capacitance and membrane potential, and then draws a conclusion that the changes of membrane potential affect the properties of action potential through analyzing the changes of membrane potential in H-H model. Based on this conclusion, we discuss the influence mechanisms mainly through the analysis of traditional C-fast compensation errors, and focus discussion on the shape of electrode capacitance affecting C-fast. This method can not only improve the compensation speed greatly, but also improve the compensation precision from the electrode shape as much as possible.

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  • Repetitive transcranial magnetic stimulation significantly improves cognitive impairment and neuronal excitability during aging in mice

    Repetitive transcranial magnetic stimulation (rTMS) is a noninvasive brain stimulation technique that has been paid attention to with increasing interests as a therapeutic neural rehabilitative tool. Studies confirmed that high-frequency rTMS could improve the cognitive performance in behavioral test as well as the excitability of the neuron in animals. This study aimes to investigate the effects of rTMS on the cognition and neuronal excitability of Kunming mice during the natural aging. Twelve young mice, 12 adult mice, and 12 aged mice were used, and each age group were randomly divided into rTMS group and control group. rTMS-treated groups were subjected to high-frequency rTMS treatment for 15 days, and control groups were treated with sham stimulation for 15 days. Then, novel object recognition and step-down tests were performed to examine cognition of learning and memory. Whole-cell patch clamp technique was used to record and analyze resting membrane potential, action potential (AP), and related electrical properties of AP of hippocampal dentate gyrus (DG) granule neurons. Data analysis showed that cognition of mice and neuronal excitability of DG granule neurons were degenerated significantly as the age increased. Cognitive damage and degeneration of some electrical properties were alleviated under the condition of high-frequency rTMS. It may be one of the mechanisms of rTMS to alleviate cognitive damage and improve cognitive ability by changing the electrophysiological properties of DG granule neurons and increasing neuronal excitability.

    Release date:2020-08-21 07:07 Export PDF Favorites Scan
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