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Cholinergic transmission mechanisms for both excitation and inhibition in molluscan central synapses.软体动物中枢突触中兴奋和抑制的胆碱能传递机制。
Nature. 1961 Oct 28;192:366-7. doi: 10.1038/192366a0.
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Calcium currents in internally perfused nerve cell bodies of Limnea stagnalis.静水椎实螺内部灌注神经细胞体中的钙电流
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Patch and whole cell calcium currents recorded simultaneously in snail neurons.在蜗牛神经元中同时记录到的膜片钳和全细胞钙电流。
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Injection of protein kinase inhibitor into cultured heart cells blocks calcium slow channels.将蛋白激酶抑制剂注入培养的心肌细胞会阻断钙慢通道。
Am J Physiol. 1984 Apr;246(4 Pt 2):H630-4. doi: 10.1152/ajpheart.1984.246.4.H630.
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Intracellular protein kinase and calcium inward currents in perfused neurones of the snail Helix pomatia.蜗牛(Helix pomatia)灌流神经元中的细胞内蛋白激酶和钙内向电流。
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Injection of catalytic subunit of cAMP-dependent protein kinase into isolated cardiac myocytes.将环磷酸腺苷(cAMP)依赖性蛋白激酶的催化亚基注入分离的心肌细胞。
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cAMP-mediated decrease in K+ conductance evoked by serotonin and dopamine in the same neuron: a biochemical and physiological single-cell study.环磷酸腺苷介导的血清素和多巴胺在同一神经元中诱发的钾离子电导降低:一项生化和生理单细胞研究。
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Enhancement of calcium current during digitalis inotropy in mammalian heart: positive feed-back regulation by intracellular calcium?洋地黄增强哺乳动物心脏收缩力时钙电流的增强:细胞内钙的正反馈调节?
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Injection of subunits of cyclic AMP-dependent protein kinase into cardiac myocytes modulates Ca2+ current.将环磷酸腺苷依赖性蛋白激酶的亚基注射到心肌细胞中可调节钙离子电流。
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R 24571: a new powerful inhibitor of red blood cell Ca++-transport ATPase and of calmodulin-regulated functions.R 24571:一种新型强效红细胞钙离子转运ATP酶及钙调蛋白调节功能抑制剂。
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毒蕈碱对一种已鉴定的蜗牛神经元中电压依赖性钙电流的增强作用。

Muscarinic enhancement of the voltage-dependent calcium current in an identified snail neuron.

作者信息

Gerschenfeld H M, Paupardin-Tritsch D, Yakel J L

机构信息

Laboratoire de Neurobiologie (URA 295 CNRS), Ecole Normale Supérieure, Paris, France.

出版信息

J Physiol. 1991 Mar;434:85-105. doi: 10.1113/jphysiol.1991.sp018460.

DOI:10.1113/jphysiol.1991.sp018460
PMID:1850798
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1181408/
Abstract
  1. In the F1 neuron of the snail Helix aspersa bathed in a Ba2+ and 4-aminopyridine-containing saline, carbamylcholine (CCh) enhanced the inward current carried by Ba2+ through the voltage-dependent Ca2+ channels. 2. This effect of CCh on the F1 neuron was not affected by the nicotinic antagonists (+)-tubocurarine and hexamethonium, but it was mimicked by oxotremorine and blocked by both atropine and pirenzepine. 3. The intracellular injection of GTP gamma S (guanosine 5'-O-(3- thiotriphosphate] into the F1 neuron caused both a decrease in Ca2+ current and a blockade of the CCh-induced enhancement of the Ca2+ current. 4. Neither cyclic AMP, cyclic GMP nor arachidonic acid mimicked the effect of CCh on the Ca2+ current in the F1 neuron. In contrast, the intracellular injection of EGTA blocked the CCh-induced enhancement of the Ca2+ current thus suggesting that cytosolic Ca2+ is involved in the CCh-induced response. 5. We then investigated the possible role of inositol 1,4,5-trisphosphate (InsP3) and Ca(2+)-dependent protein kinases in the CCh-induced enhancement of the Ca2+ current. The intracellular injection of InsP3 in the F1 neuron elicited no consistent change in the Ca2+ current. Diacylglycerol analogues (OAG and DOG) decreased the Ca2+ current amplitude, i.e. an effect opposite to that produced by CCh. This effect of the diacylglycerol analogues resulted from the activation of protein kinase C (PKC) since it was blocked by staurosporine. In addition, staurosporine did not affect the CCh-induced increase in Ca2+ current. 6. The intracellular injection of either Ca(2+)-calmodulin-dependent protein kinase II (Ca(2+)-CaM-PK) or a peptide inhibitor of this enzyme into the F1 neuron affected neither the Ca2+ current nor its enhancement by CCh. 7. We conclude that the CCh-induced enhancement of the Ca2+ current in the snail F1 neuron involves the activation via muscarinic receptors of an intracellular transduction mechanism in which cytosolic Ca2+ plays a key role. However, InsP3, protein kinase C and Ca(2+)-CaM-PK do not appear to be directly involved in this CCh-induced response.
摘要
  1. 在浸泡于含Ba2+和4-氨基吡啶的盐溶液中的蜗牛(Helix aspersa)F1神经元中,氨甲酰胆碱(CCh)增强了Ba2+通过电压依赖性Ca2+通道所携带的内向电流。2. CCh对F1神经元的这种作用不受烟碱拮抗剂(+)-筒箭毒碱和六甲铵的影响,但可被氧化震颤素模拟,并被阿托品和哌仑西平阻断。3. 向F1神经元内注射GTPγS(鸟苷5'-O-(3-硫代三磷酸))导致Ca2+电流降低以及CCh诱导的Ca2+电流增强被阻断。4. 环磷酸腺苷、环磷酸鸟苷和花生四烯酸均未模拟CCh对F1神经元Ca2+电流的作用。相反,向细胞内注射乙二醇双四乙酸(EGTA)阻断了CCh诱导的Ca2+电流增强,因此提示胞质Ca2+参与了CCh诱导的反应。5. 然后我们研究了肌醇1,4,5-三磷酸(InsP3)和Ca2+依赖性蛋白激酶在CCh诱导的Ca2+电流增强中的可能作用。向F1神经元内注射InsP3未引起Ca2+电流一致的变化。二酰基甘油类似物(OAG和DOG)降低了Ca2+电流幅度,即与CCh产生的作用相反。二酰基甘油类似物的这种作用是由蛋白激酶C(PKC)的激活引起的,因为它可被星形孢菌素阻断。此外,星形孢菌素不影响CCh诱导的Ca2+电流增加。6. 向F1神经元内注射Ca2+ - 钙调蛋白依赖性蛋白激酶II(Ca2+ - CaM - PK)或该酶的一种肽抑制剂,对Ca2+电流及其被CCh增强均无影响。7. 我们得出结论,蜗牛F1神经元中CCh诱导的Ca2+电流增强涉及通过毒蕈碱受体激活一种细胞内转导机制,其中胞质Ca2+起关键作用。然而,InsP3、蛋白激酶C和Ca2+ - CaM - PK似乎未直接参与这种CCh诱导的反应。