缺氧和氰化物可诱导豚鼠分散嗜铬细胞发生去极化并释放儿茶酚胺。
Hypoxia and cyanide induce depolarization and catecholamine release in dispersed guinea-pig chromaffin cells.
作者信息
Inoue M, Fujishiro N, Imanaga I
机构信息
Department of Physiology, School of Medicine, Fukuoka University, Fukuoka 814-01, Japan.
出版信息
J Physiol. 1998 Mar 15;507 ( Pt 3)(Pt 3):807-18. doi: 10.1111/j.1469-7793.1998.807bs.x.
Abstract
- The perforated patch method and amperometry were used to determine whether the adrenal medullary cell itself is capable of sensing hypoxia and, if so, how such sensation is transduced to secretion of catecholamines (CA). 2. Exposure to hypoxia, cyanide (CN), or muscarine facilitated CA secretion from dissociated chromaffin cells. The CN-induced secretion was not affected by removal of glucose, indicating that the CN release is due to chemical hypoxia. 3. The secretions induced by CN and muscarine were markedly diminished by removal of Ca2+ ions or by application of Cd2+ or methoxyverapamil (D-600). 4. Cyanide and muscarine produced depolarizations with generation of action potentials and increased intracellular Ca2+ concentrations determined using the acetoxymethyl (AM) ester form of fluo-3 in the presence of external Ca2+ ions, but not in their absence. 5. Hypoxia and CN produced inward currents at an equilibrium potential for Cl- ions, irrespective of whether or not Na+ ions were present in the cells, and substitution of N-methyl-D-glucamine for 134 mM Na+ ions in the perfusate inhibited the CN current by 71 %. The reversal potential for the CN current was -24 mV in the standard perfusate. 6. The hypoxia-, CN- and muscarine-induced currents decreased in parallel with hyperpolarizations, and exposure to CN prevented muscarine, but not nicotine, from inducing a further inward current. 7. We conclude that hypoxia and CN induce CA secretion through depolarization and the subsequent activation of voltage-dependent Ca2+ channels and that this depolarization is due to opening of cation channels, which are possibly identical to muscarinic cation channels.
摘要
- 采用穿孔膜片钳技术和安培测量法来确定肾上腺髓质细胞自身是否能够感知缺氧,若能感知,那么这种感知是如何转化为儿茶酚胺(CA)分泌的。2. 将离体嗜铬细胞暴露于缺氧、氰化物(CN)或毒蕈碱环境中会促进CA分泌。CN诱导的分泌不受葡萄糖去除的影响,表明CN释放是由化学性缺氧所致。3. 去除Ca2+离子或应用Cd2+或甲氧基维拉帕米(D - 600)可显著减少CN和毒蕈碱诱导的分泌。4. 在细胞外存在Ca2+离子时,氰化物和毒蕈碱会产生去极化并引发动作电位,同时使用fluo - 3的乙酰氧甲酯(AM)形式测定的细胞内Ca2+浓度会升高,但在不存在Ca2+离子时则不会。5. 无论细胞内是否存在Na+离子,缺氧和CN在Cl-离子的平衡电位处都会产生内向电流,用N - 甲基 - D - 葡糖胺替代灌流液中的134 mM Na+离子可使CN电流抑制71%。在标准灌流液中,CN电流的反转电位为 - 24 mV。6. 缺氧、CN和毒蕈碱诱导的电流与超极化呈平行下降,暴露于CN可阻止毒蕈碱而非尼古丁诱导进一步的内向电流。7. 我们得出结论,缺氧和CN通过去极化以及随后电压依赖性Ca2+通道的激活来诱导CA分泌,并且这种去极化是由于阳离子通道开放所致,这些阳离子通道可能与毒蕈碱阳离子通道相同。
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