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豚鼠输精管中α-自身抑制及“3H”去甲肾上腺素分泌促进作用的位点及离子基础。

Site(s) and ionic basis of alpha-autoinhibition and facilitation of "3H'noradrenaline secretion in guinea-pig vas deferens.

作者信息

Alberts P, Bartfai T, Stjärne L

出版信息

J Physiol. 1981 Mar;312:297-334. doi: 10.1113/jphysiol.1981.sp013630.

DOI:10.1113/jphysiol.1981.sp013630
PMID:6267264
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1275555/
Abstract
  1. Mechanisms controlling the secretion of [(3)H]noradrenaline from the noradrenergic nerves of guinea-pig isolated vas deferens, prelabelled by incubation with [(3)H]noradrenaline, were studied using (a) different modes of (extramural or transmural) electrical nerve stimulation (a total of 300 shocks of varying strength, and a duration of 2 msec) at 1-30 Hz, or (b) depolarizing concentrations of K(+) (60-110 mm).2. The fractional rise in efflux of (3)H-labelled material (Deltat) was used to measure the secretion of [(3)H]noradrenaline.3. The dependence of [(3)H]noradrenaline secretion on the external Ca(2+) concentration (1-8 mm) was essentially hyperbolic. Double reciprocal plot analysis (1/Deltat vs. 1/Ca(2+)) of the data yields that blockade of alpha-autoinhibition (phentolamine 1 mum) does not increase the maximal secretory velocity, but does enhance the apparent affinity of the secretory mechanism for external Ca(2+). Exogenous noradrenaline has (qualitatively) opposite effects. The interaction between alpha-autoinhibition and external Ca(2+) thus shows a ;competitive' pattern, indicating that restriction of the utilization of external Ca(2+) is a major mechanism in alpha-autoinhibition of noradrenaline secretion, in this system.4. Phenoxybenzamine (10 mum) and phentolamine (1 mum) increased the secretion of [(3)H]noradrenaline evoked by depolarization with K(+) much less than that caused by electrical nerve stimulation (frequencies up to 10 Hz). Exogenous noradrenaline (1-5 mum) depressed the secretion evoked by both modes of stimulation. The results indicate that alpha-autoinhibition of [(3)H]noradrenaline secretion is mainly operative when the secretory stimulus requires conduction of nerve impulses between varicosities.5. The frequency dependence of [(3)H]noradrenaline secretion was hyperbolic, both in the presence and in the absence of alpha-autoinhibition; at each frequency the secretion (Deltat per shock) increased with the Ca(2+) concentration in the medium (0.6-8 mm). Double reciprocal plot analysis (1/Deltat vs. 1/frequency) of the data yields that the pattern of interaction between external Ca(2+) and facilitation depends on the presence or absence of alpha-autoinhibition (phentolamine 1 mum); in the former case it is ;non-competitive', in the latter ;competitive'. Similar analysis of the effect of facilitation by increasing the length of stimulus trains (from 5 to 300 pulses) at a constant frequency (5 Hz), on the Ca(2+) dependence of Deltat (1/Deltat vs. 1/Ca(2+)) in the absence of alpha-autoinhibition also yields that facilitation promotes utilization of external Ca(2+). These results apparently imply that a rise in external Ca(2+), in the presence of alpha-autoinhibition, augments the secretory response to electrical nerve stimulation mainly by promoting recruitment of active units (varicosities?), without markedly altering their ;affinity' for facilitation. In the absence of autoinhibition (when all units are already recruited?), the results seem to imply that facilitation promotes depolarization-secretion coupling in each, by more efficient utilization of external Ca(2+).6. The pattern of interaction between alpha-autoinhibition and facilitation depends on the Ca(2+)concentration in the medium. At or below the physiological level of Ca(2+) in extracellular fluid (1.2 mm) it is ;non-competitive', indicating that alpha-autoinhibition and facilitation act, at least in part, at separate targets under these conditions. At high (5.4 mm) external Ca(2+) the pattern becomes almost purely ;competitive', indicating that facilitation can, under suitable conditions, overcome all manifestations of alpha-autoinhibition.7. The secretion evoked by electrical nerve stimulation (Deltat per shock, at 1 or 10 Hz) increased with the strength of applied shocks, both when applied extra- or transmurally, in the presence or absence of alpha-autoinhibition. In the former case the rise in (Deltat per shock) vs. (current strength) was hyperbolic, in the latter it followed a biphasic pattern. Double reciprocal plot analysis (1/Deltat vs. 1/current) of the data yields a ;non-competitive' pattern of interaction between facilitation or alpha-autoinhibition, and exogenous current, when stimulation was extramural. When it was transmural the pattern is ;competitive'. The results seem to imply that hyperpolarization, or depolarization, of nerve terminals are major mechanisms whereby alpha-autoinhibition and facilitation, respectively, exert their effects on the secretory response to electrical nerve stimulation.8. Neither activation of Na(+), K(+)-ATPase, nor promotion of G(Cl) appear to be critically involved in alpha-autoinhibition. Experiments with known blockers of G(K) (tetraethylammonium, 4-aminopyridine and Rb(+)) did not give support to the notion that promotion of K(+) efflux is a mechanism whereby prejunctional alpha-adrenoceptors cause (hyperpolarization of nerve terminals and) autoinhibition of secretion. If alpha-autoinhibition does involve K(+) channels in the nerve terminal membrane, then these must be different from the (voltage-sensitive) K(+) channels blocked by the above mentioned inhibitors of K(+) efflux.9. The results are discussed in the context of a model that assumes that local control of noradrenaline secretion from noradrenergic nerves may be exerted both by control of invasion of terminals, and by control of depolarization-secretion coupling in each invaded varicosity. Under suitable conditions facilitation and alpha-autoinhibition may interact at both levels. It proposed that utilization of external Ca(2+) plays a pivotal role for both, and that restriction of invasion of nerve terminal varicosities is the main effect of alpha-autoinhibition, while promotion of depolarization-secretion coupling is the main effect of facilitation, at physiological concentrations of Ca(2+) in the medium. For the nerve the role of this dual control system is proposed to be to ensure ;rotational' activation of varicosities, and for the effector cell of noradrenergic junctions, to increase the signal/noise ratio.
摘要

  1. 采用以下方法研究了豚鼠离体输精管去甲肾上腺素能神经分泌[³H]去甲肾上腺素的机制,该神经已通过与[³H]去甲肾上腺素孵育进行预标记:(a) 采用不同方式(壁外或透壁)的电神经刺激(共300次不同强度的电击,持续时间2毫秒),频率为1 - 30赫兹;(b) 采用去极化浓度的K⁺(60 - 110毫米)。

  2. [³H]标记物质流出量的分数增加(Δt)用于测量[³H]去甲肾上腺素的分泌。

  3. [³H]去甲肾上腺素分泌对外界Ca²⁺浓度(1 - 8毫米)的依赖性基本呈双曲线。对数据进行双倒数作图分析(1/Δt对1/Ca²⁺)得出,α - 自身抑制的阻断(酚妥拉明1微摩尔)不会增加最大分泌速度,但会增强分泌机制对外界Ca²⁺的表观亲和力。外源性去甲肾上腺素具有(定性上)相反的作用。因此,α - 自身抑制与外界Ca²⁺之间的相互作用呈现出“竞争性”模式,表明在该系统中,限制外界Ca²⁺的利用是α - 去甲肾上腺素分泌自身抑制的主要机制。

  4. 苯氧苄胺(10微摩尔)和酚妥拉明(1微摩尔)对K⁺去极化诱发的[³H]去甲肾上腺素分泌的增加幅度远小于对电神经刺激(频率高达10赫兹)引起的分泌增加幅度。外源性去甲肾上腺素(1 - 5微摩尔)抑制两种刺激方式诱发的分泌。结果表明,[³H]去甲肾上腺素分泌的α - 自身抑制主要在分泌刺激需要神经冲动在曲张体之间传导时起作用。

  5. [³H]去甲肾上腺素分泌的频率依赖性呈双曲线,无论有无α - 自身抑制;在每个频率下,分泌(每次电击的Δt)随培养基中Ca²⁺浓度(0.6 - 8毫米)的增加而增加。对数据进行双倒数作图分析(1/Δt对1/频率)得出,外界Ca²⁺与易化作用之间的相互作用模式取决于有无α - 自身抑制(酚妥拉明1微摩尔);在前一种情况下为“非竞争性”,在后一种情况下为“竞争性”。对在无α - 自身抑制时,通过在恒定频率(5赫兹)下增加刺激串长度(从5到300个脉冲)实现的易化作用对Δt的Ca²⁺依赖性(1/Δt对1/Ca²⁺)的类似分析也得出,易化作用促进外界Ca²⁺的利用。这些结果显然意味着,在存在α - 自身抑制的情况下,外界Ca²⁺的升高主要通过促进活性单位(曲张体?)的募集来增强对电神经刺激的分泌反应,而不会显著改变它们对易化作用的“亲和力”。在无自身抑制的情况下(当所有单位都已被募集时?),结果似乎意味着易化作用通过更有效地利用外界Ca²⁺促进每个单位中的去极化 - 分泌偶联。

  6. α - 自身抑制与易化作用之间的相互作用模式取决于培养基中的Ca²⁺浓度。在细胞外液中Ca²⁺的生理水平(1.2毫米)或以下时,其为“非竞争性”,表明在这些条件下,α - 自身抑制和易化作用至少部分作用于不同的靶点。在高(5.4毫米)外界Ca²⁺时,模式几乎变为纯粹的“竞争性”,表明在合适的条件下,易化作用可以克服α - 自身抑制的所有表现。

  7. 电神经刺激诱发的分泌(每次电击的Δt,频率为1或10赫兹)随施加电击的强度增加而增加,无论是壁外还是透壁施加,无论有无α - 自身抑制。在前一种情况下,(每次电击的Δt)对(电流强度)的增加呈双曲线,在后一种情况下呈双相模式。对数据进行双倒数作图分析(1/Δt对1/电流)得出,当刺激为壁外时,易化作用或α - 自身抑制与外源电流之间的相互作用模式为“非竞争性”。当为透壁时,模式为“竞争性”。结果似乎意味着神经末梢的超极化或去极化分别是α - 自身抑制和易化作用对电神经刺激分泌反应发挥作用的主要机制。

  8. Na⁺,K⁺ - ATP酶的激活或G(Cl)的促进似乎都与α - 自身抑制无关。用已知的G(K)阻滞剂(四乙铵、4 - 氨基吡啶和Rb⁺)进行的实验不支持K⁺外流促进是节前α - 肾上腺素能受体引起(神经末梢超极化和)分泌自身抑制的机制这一观点。如果α - 自身抑制确实涉及神经末梢膜中的K⁺通道,那么这些通道必定不同于上述K⁺外流抑制剂所阻断的(电压敏感)K⁺通道。

  9. 在一个假设的模型背景下讨论了这些结果,该模型认为去甲肾上腺素能神经去甲肾上腺素分泌的局部控制可能通过对末梢入侵的控制以及对每个被入侵曲张体中去极化 - 分泌偶联的控制来实现。在合适的条件下,易化作用和α - 自身抑制可能在两个层面上相互作用。提出外界Ca²⁺的利用对两者都起着关键作用,并且在培养基中Ca²⁺的生理浓度下,限制神经末梢曲张体的入侵是α - 自身抑制的主要作用,而促进去极化 - 分泌偶联是易化作用的主要作用。对于神经,提出这种双重控制系统的作用是确保曲张体的“轮流”激活,对于去甲肾上腺素能突触的效应细胞,是增加信号/噪声比。

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