一氧化氮和花生四烯酸对鸡胚睫状神经节培养的节后神经元钙电流的调节作用
Nitric oxide and arachidonic acid modulation of calcium currents in postganglionic neurones of avian cultured ciliary ganglia.
作者信息
Khurana G, Bennett M R
机构信息
Physiology Department, University of Sydney, N.S.W. Australia.
出版信息
Br J Pharmacol. 1993 Jun;109(2):480-5. doi: 10.1111/j.1476-5381.1993.tb13594.x.
Abstract
- A study has been made of the modulation of high-voltage activated transient and sustained calcium currents in cultured neurones of avian ciliary ganglia by nitric oxide (NO) and arachidonic acid. 2. Sodium nitroprusside (100 microM) reduced the transient calcium current (ICa) on average by 31% and the sustained ICa by 32% during a test depolarization to +20 mV from a holding potential of -100 mV. This reduction was maintained for at least 30 min following a single application of sodium nitroprusside. 3. L-Arginine (270 microM) reduced the transient ICa on average by 28% and the sustained ICa by 22% and these effects were prevented by the presence of the NO-synthase competitive blocker NG-nitro-L-arginine methylester (L-NAME; 100 microM) in the bathing solution. 4. Arachidonic acid (50 microM) reduced the transient ICa on average by 28% and the sustained ICa by 33%. When added together, arachidonic acid (50 microM) and L-arginine (270 microM) produced the same effects as arachidonic acid alone. 5. Blocking the conversion of arachidonic acid to prostaglandins by addition of indomethacin (20 microM) to the bathing solution did not prevent the depression of either the transient or the sustained calcium current during application of arachidonic acid (50 microM). The effects of arachidonic acid were also not occluded by L-NAME (100 microM) when present in the bathing solution. 6. Inhibiting the biosynthesis of leukotrienes by applying L-663,536 (MK-886; 3 microM) to the bathing solution prevented the depression of both components of ICa during application of arachidonic acid (50 microM). 7. These results indicate that endogenous NO and arachidonic acid pathways are present in parasympathetic ciliary neurones, and that both act to depress high-voltage, gated, calcium channel activity.
摘要
- 一项关于一氧化氮(NO)和花生四烯酸对禽睫状神经节培养神经元中高压激活的瞬态和持续性钙电流调节作用的研究。2. 在从 -100 mV 的钳制电位测试去极化至 +20 mV 期间,硝普钠(100 μM)使瞬态钙电流(ICa)平均降低 31%,持续性 ICa 降低 32%。单次应用硝普钠后,这种降低至少维持 30 分钟。3. L - 精氨酸(270 μM)使瞬态 ICa 平均降低 28%,持续性 ICa 降低 22%,且这些作用可被浴液中一氧化氮合酶竞争性阻滞剂 NG - 硝基 - L - 精氨酸甲酯(L - NAME;100 μM)的存在所阻止。4. 花生四烯酸(50 μM)使瞬态 ICa 平均降低 28%,持续性 ICa 降低 33%。当一起添加时,花生四烯酸(50 μM)和 L - 精氨酸(270 μM)产生与单独使用花生四烯酸相同的效果。5. 通过向浴液中添加吲哚美辛(20 μM)来阻断花生四烯酸向前列腺素的转化,并不能防止在应用花生四烯酸(50 μM)期间瞬态或持续性钙电流的降低。当浴液中存在 L - NAME(100 μM)时,花生四烯酸的作用也不会被其阻断。6. 通过向浴液中应用 L - 663,536(MK - 886;3 μM)来抑制白三烯的生物合成,可防止在应用花生四烯酸(50 μM)期间 ICa 的两个成分的降低。7. 这些结果表明,内源性 NO 和花生四烯酸途径存在于副交感睫状神经元中,且两者均作用于降低高压门控钙通道活性。
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