非量子化乙酰胆碱在维持大鼠骨骼肌膜电位中的作用的证据。

Resting membrane potentials of rat diaphragm muscles cultured in Trowell T8 medium were measured in vitro. After 3 hr in culture the resting membrane potential of muscle fibres within 2.5 mm of nerve section (;near') was -68.3 +/- 0.4 mV (nineteen preparations). This was significantly lower (P < 0.001) than the resting potential (-74.0 +/- 0.4 mV) measured in muscle fibres 8-10 mm from the site of nerve section (;far') in the same preparations. A difference between the ;near' and the ;far' fibres was maintained in muscles cultured for 6 and 12 hr. Miniature end-plate potentials were present in both ;near' and ;far' fibres cultured for 3 and 6 hr and ceased after 12-15 hr.2. The presence of carbamylcholine (10(-7) or 10(-8) M) maintained the resting membrane potential of ;near' fibres close to that of ;far' fibres at 3, 6 and 12 hr. For example, at 3 hr in the presence of 10(-8) M-carbamylcholine the mean resting potential was 75.6 +/- 0.5 mV in ;near' fibres and 76.1 +/- 0.4 mV in ;far' fibres (four preparations). A similar effect was produced in preparations exposed to anticholinesterases: diisopropylphosphorofluoridate (DFP) (10(-7) M), neostigmine (10(-7) M) or physostigmine (10(-5) M).3. Agents that blocked acetylcholine receptors had the reverse effect. In the presence of alpha-bungarotoxin (1 mug/ml.) or d-tubocurarine (10(-5) M) the resting membrane potential of ;far' fibres was reduced to the level of ;near' fibres over the 24 hr period of observation. For example, at 3 hr in the presence of alpha-bungarotoxin the mean resting potential was 67.2 +/- 0.5 mV in ;near' fibres and 68.5 +/- 0.6 mV in ;far' fibres (six preparations). The effect of d-tubocurarine was reversible.4. When muscles were cultured in Ca(2+)-free medium containing 1 mM-EGTA and 10 mM-Mg(2+), there was no difference in membrane potential between ;near' and ;far' fibres and physostigmine (10(-5) M) was ineffective in raising the membrane potential of ;near' fibres.5. It is suggested that non-quantal acetylcholine released from nerve terminals maintains the membrane potential of muscle fibres through a Ca(2+)-dependent mechanism.

对培养于特罗韦尔T8培养基中的大鼠膈肌进行体外静息膜电位测量。培养3小时后，距神经切断处2.5毫米以内（“近”端）的肌纤维静息膜电位为-68.3±0.4毫伏（19个标本）。这显著低于（P<0.001）同一标本中距神经切断部位8 - 10毫米处（“远”端）肌纤维的静息电位（-74.0±0.4毫伏）。在培养6小时和12小时的肌肉中，“近”端和“远”端纤维之间的差异依然存在。培养3小时和6小时的“近”端和“远”端纤维均存在微小终板电位，12 - 15小时后消失。
卡巴胆碱（10⁻⁷或10⁻⁸摩尔/升）的存在使“近”端纤维的静息膜电位在培养3小时、6小时和12小时时维持在接近“远”端纤维的水平。例如，在10⁻⁸摩尔/升卡巴胆碱存在下培养3小时时，“近”端纤维的平均静息电位为75.6±0.5毫伏，“远”端纤维为76.1±0.4毫伏（4个标本）。暴露于抗胆碱酯酶的标本中也产生了类似效果：二异丙基氟磷酸酯（DFP）（10⁻⁷摩尔/升）、新斯的明（10⁻⁷摩尔/升）或毒扁豆碱（10⁻⁵摩尔/升）。
阻断乙酰胆碱受体的药物产生相反的效果。在α-银环蛇毒素（1微克/毫升）或d -筒箭毒碱（10⁻⁵摩尔/升）存在下，在24小时观察期内，“远”端纤维的静息膜电位降至“近”端纤维的水平。例如，在α-银环蛇毒素存在下培养3小时时，“近”端纤维的平均静息电位为67.2±0.5毫伏，“远”端纤维为68.5±0.6毫伏（6个标本）。d -筒箭毒碱的作用是可逆的。
当肌肉在含1毫摩尔乙二醇双四乙酸（EGTA）和10毫摩尔氯化镁（Mg²⁺）的无钙培养基中培养时，“近”端和“远”端纤维的膜电位没有差异，毒扁豆碱（10⁻⁵摩尔/升）对提高“近”端纤维的膜电位无效。
提示从神经末梢释放的非量子化乙酰胆碱通过钙依赖机制维持肌纤维的膜电位。

Evidence for the role of non-quantal acetylcholine in the maintenance of the membrane potential of rat skeletal muscle.

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