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加利福尼亚海兔神经元中内源性神经肽对钙电流的抑制作用。

Suppression of calcium current by an endogenous neuropeptide in neurones of Aplysia californica.

作者信息

Brezina V, Eckert R, Erxleben C

机构信息

Department of Biology, University of California, Los Angeles 90024.

出版信息

J Physiol. 1987 Jul;388:565-95. doi: 10.1113/jphysiol.1987.sp016632.

DOI:10.1113/jphysiol.1987.sp016632
PMID:2443695
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1192566/
Abstract
  1. Actions of the neuropeptide FMRFamide (Phe-Met-Arg-Phe-NH2) and its derivative YGG-FMRFamide (Tyr-Gly-Gly-Phe-Met-Arg-Phe-NH2) on Ca2+ current were examined in identified, voltage-clamped neurones in the abdominal ganglion of Aplysia californica. 2. 'Puffed' application of either peptide at concentrations of 1-50 microM was followed by a transient partial suppression of pharmacologically isolated inward Ca2+ current elicited by a depolarizing step. At 20 degrees C, suppression was maximal 10-25 s following the brief puff of peptide, and lasted up to 90 s. Bath application of peptide had a steady suppressing effect, showing little if any desensitization. 3. Alternative sources of inward current suppression were ruled out, indicating that application of FMRFamide or YGG-FMRFamide produces a true decrease in Ca2+ current, rather than enhancement of possible contaminating outward (K+, H+ or Cl-) currents. 4. FMRFamide and YGG-FMRFamide were equally effective in suppressing Ca2+ current (apparent dissociation constant, KD* approximately 10 microM). However, only 30-50% of the total Ca2+ current elicited by voltage steps to above +10 mV appeared to be susceptible to suppression by even saturating concentrations of peptide. This, as well as a reduced effect of the peptides on Ca2+ current which was observed at potentials below +10 mV, may perhaps result from the presence of more than one class of Ca2+ channels, only one of which is sensitive to FMRFamide. 5. FMRFamide eliminated a constant fraction of Ca2+ current at all potentials above +10 mV, and had no direct effect on activation or inactivation of the remaining current. This behaviour is consistent with reduction in the number of functional Ca2+ channels by the peptide. 6. Suppression of Ca2+ current produced a concomitant depression of Ca2+-dependent K+ current, which was shown previously to be insensitive to FMRFamide when activated by direct ionophoretic injection of Ca2+ into the cell. 7. The effect of FMRFamide on Ca2+ current was normal following interference with or activation of known second-messenger systems, those involving adenosine 3',5'-cyclic monophosphate (cyclic AMP), cyclic GMP, Ca2+, inositol trisphosphate and protein kinase C. 8. Suppression of Ca2+ current by FMRFamide appeared to be mediated by the same receptor as enhancement by the peptide of K+ current resembling IK(S) (K+ current suppressed by serotonin), an effect seen in most of the same cells. Both effects of FMRFamide were mimicked by injection of guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S) into the cell, suggesting that the peptide may exert its effects by activating a guanosine 5'-triphosphate (GTP)-binding protein
摘要
  1. 在加州海兔腹神经节中已鉴定的、电压钳制的神经元上,研究了神经肽FMRF酰胺(苯丙氨酸-甲硫氨酸-精氨酸-苯丙氨酸-酰胺,Phe-Met-Arg-Phe-NH2)及其衍生物YGG-FMRF酰胺(酪氨酸-甘氨酸-甘氨酸-苯丙氨酸-甲硫氨酸-精氨酸-苯丙氨酸-酰胺,Tyr-Gly-Gly-Phe-Met-Arg-Phe-NH2)对钙离子电流的作用。2. 以1 - 50微摩尔/升的浓度“吹入”任一肽后,由去极化步骤引发의药理学分离的内向钙离子电流会出现短暂的部分抑制。在20摄氏度时,肽短暂吹入后10 - 25秒抑制作用最大,持续长达90秒。浴槽施加肽具有稳定的抑制作用,几乎没有脱敏现象。3. 排除了内向电流抑制的其他来源,表明施加FMRF酰胺或YGG-FMRF酰胺会使钙离子电流真正降低,而非增强可能存在的污染性外向(钾离子、氢离子或氯离子)电流。4. FMRF酰胺和YGG-FMRF酰胺在抑制钙离子电流方面同样有效(表观解离常数KD*约为10微摩尔/升)。然而,即使在饱和浓度的肽作用下,电压阶跃至高于 +10毫伏引发의总钙离子电流中,似乎只有30 - 50%易受抑制。这一点,以及在低于 +10毫伏的电位下观察到의肽对钙离子电流의作用减弱,可能是由于存在不止一类钙离子通道,其中只有一类对FMRF酰胺敏感。5. FMRF酰胺在高于 +10毫伏의所有电位下都会消除一定比例의钙离子电流,并且对剩余电流의激活或失活没有直接影响。这种行为与该肽减少功能性钙离子通道의数量一致。6. 钙离子电流의抑制伴随着钙离子依赖性钾离子电流의抑制,先前已表明,当通过直接离子电泳将钙离子注入细胞激活时,该钾离子电流对FMRF酰胺不敏感。7. 在干扰或激活已知의第二信使系统后,FMRF酰胺对钙离子电流의作用正常,这些系统涉及腺苷3',5'-环磷酸(环磷酸腺苷,cAMP)、环磷酸鸟苷(cGMP)、钙离子、肌醇三磷酸和蛋白激酶C。8. FMRF酰胺对钙离子电流의抑制似乎与该肽增强类似IK(S)(被血清素抑制의钾离子电流)의钾离子电流由同一受体介导,在大多数相同细胞中都能观察到这种作用。FMRF酰胺의这两种作用都可通过向细胞内注射鸟苷5'-O-(3-硫代三磷酸)(GTP-γ-S)来模拟,表明该肽可能通过激活鸟苷5'-三磷酸(GTP)结合蛋白发挥其作用

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