小鼠吸气神经元中的L型Ca2+通道及其对缺氧的调节。
L-type Ca2+ channels in inspiratory neurones of mice and their modulation by hypoxia.
作者信息
Mironov S L, Richter D W
机构信息
II Department of Physiology, University of Gottingen, Humboldtallee 23, 37075 Gottingen, Germany.
出版信息
J Physiol. 1998 Oct 1;512 ( Pt 1)(Pt 1):75-87. doi: 10.1111/j.1469-7793.1998.075bf.x.
Abstract
- Whole-cell (ICa) and single Ca2+ channel currents were measured in inspiratory neurones of neonatal mice (4-12 days old). During whole-cell recordings, ICa slowly declined and disappeared within 10-20 min. The run-down was delayed during hypoxia, indicating ICa potentiation. 2. Ca2+ channels were recorded in cell-attached patches using pipettes which contained 110 mM Ba2+. L-type Ca2+ channels exhibited a non-ohmic I-V relationship. The slope conductance was 24 pS below and 50 pS above their null potential. The open probability of the channels increased during oxygen depletion, reaching a maximum 2 min after the onset of hypoxia. Restoration of the oxygen supply brought the channel activity back to initial levels. 3. The channel activity was enhanced by 3-30 microM S(-)Bay K 8644, an agonist of L-type Ca2+ channels. The open probability was increased about 3-fold and the activation curve was shifted by 20 mV in the hyperpolarizing direction. In the presence of the agonist, channel open time increased and long openings appeared. Agonist-modulated channels were also potentiated during oxygen depletion. The effect was due to an increase in open time and a decrease in closed time. The channels were inhibited by bath application of nifedipine (10 microM) and nitrendipine (20 microM). 4. Weak bases such as NH4Cl and TMA increased and weak acids such as sodium acetate and propionate decreased activity of the channels, indicating that they are modulated by intracellular pH. Bath application of 1 microM forskolin enhanced the channel activity, whereas 500 microM NaF suppressed it. 5. L-type Ca2+ channels were modulated by an agonist for mGluR1/5 receptors, (S)-3, 5-dihydrophenylglycine (DHPG, 5 microM). In its presence, the hypoxic facilitation of channels was abolished. 6. After blockade of L-type Ca2+ channels, the respiratory response to hypoxia was modified. The transient enhancement of the respiratory rhythm (augmentation) was no longer evident and the secondary depression occurred earlier. 7. We suggest that L-type Ca2+ channels contribute to the early hypoxic response of the respiratory centre. Glutamate release during hypoxia stimulates postsynaptic metabotropic glutamate receptors, which activate the Ca2+ channels.
摘要
- 在新生小鼠(4 - 12日龄)的吸气神经元中测量了全细胞(ICa)电流和单个Ca2+通道电流。在全细胞记录过程中,ICa缓慢下降并在10 - 20分钟内消失。在缺氧期间,这种衰减延迟,表明ICa增强。2. 使用含有110 mM Ba2+的移液管在细胞贴附膜片上记录Ca2+通道。L型Ca2+通道表现出非欧姆I-V关系。在其零电位以下斜率电导为24 pS,以上为50 pS。在缺氧期间通道的开放概率增加,在缺氧开始后2分钟达到最大值。恢复氧气供应使通道活性恢复到初始水平。3. L型Ca2+通道的激动剂S(-)Bay K 8644(3 - 30 microM)增强了通道活性。开放概率增加约3倍,激活曲线在超极化方向上移动20 mV。在激动剂存在下,通道开放时间增加并出现长时间开放。在缺氧期间激动剂调节的通道也增强。这种效应是由于开放时间增加和关闭时间减少。通道被浴加硝苯地平(10 microM)和尼群地平(20 microM)抑制。4. 弱碱如NH4Cl和TMA增加通道活性,弱酸如乙酸钠和丙酸钠降低通道活性,表明它们受细胞内pH调节。浴加1 microM福斯可林增强通道活性,而500 microM NaF抑制它。5. L型Ca2+通道受mGluR1/5受体激动剂(S)-3, 5-二氢苯基甘氨酸(DHPG,5 microM)调节。在其存在下,通道的缺氧易化作用被消除。6. 在L型Ca2+通道被阻断后,对缺氧的呼吸反应发生改变。呼吸节律的短暂增强(增强)不再明显,继发性抑制更早出现。7. 我们认为L型Ca2+通道参与呼吸中枢的早期缺氧反应。缺氧期间谷氨酸释放刺激突触后代谢型谷氨酸受体,后者激活Ca2+通道。
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