Annoni J M, Cochran S L, Precht W
J Neurosci. 1984 Aug;4(8):2106-16. doi: 10.1523/JNEUROSCI.04-08-02106.1984.
The isolated, intact, membranous labyrinth of the frog (Rana temporaria) has been investigated electrophysiologically in vitro to determine the nature of the transmitter substance at the synapse between the vestibular hair cells and afferent fibers. Spontaneous synaptic activity can be monitored with intra-axonal recordings from the afferents. Increased K+ in the bath results in an increase in frequency of presynaptic release, as indicated by an increased frequency of spontaneous synaptic potentials. Adding Mg2+ and lowering Ca2+ results in a decrease in synaptic potential frequency (often to zero) with no change in their mean amplitude, indicating pre-synaptic blockade. Extracellular recordings from individual vestibular afferents indicate that bath-applied glutamate and related acidic amino acids consistently increase the firing rates of these afferents in a dose-dependent manner with no evidence of desensitization. In the presence of presynaptic blockade (high Mg2+/low Ca2+), bath application of glutamate and its agonists results in a reversible depolarization of vestibular afferents, suggesting a postsynaptic action of these substances. 2-Amino-5-phosphonovaleric acid, kynurenic acid, and other acidic amino acid antagonists reversibly decrease the amplitudes of spontaneously occurring synaptic potentials without affecting their frequency, indicating subsynaptic blockade. These antagonists also block the postsynaptic depolarizations due to glutamate and its agonists. GABA and its agonists and antagonists have no consistent effect upon afferent activity. These findings suggest that glutamate, aspartate, or a related compound is the transmitter at this synapse. However, the antagonists used, or the receptors themselves, are not selective enough to discriminate adequately between the agonists. Therefore, which of these glutamate agonists are actually involved in synaptic transmission remains to be determined.
为了确定前庭毛细胞与传入纤维之间突触处的递质性质,对青蛙(林蛙)分离的完整膜迷路进行了体外电生理研究。可以通过传入纤维的轴突内记录来监测自发突触活动。浴槽中钾离子增加会导致突触前释放频率增加,这表现为自发突触电位频率增加。添加镁离子并降低钙离子会导致突触电位频率降低(通常降至零),而其平均幅度不变,表明存在突触前阻滞。对单个前庭传入纤维的细胞外记录表明,浴槽中施加的谷氨酸和相关酸性氨基酸会以剂量依赖性方式持续增加这些传入纤维的放电率,且没有脱敏迹象。在存在突触前阻滞(高镁离子/低钙离子)的情况下,浴槽中施加谷氨酸及其激动剂会导致前庭传入纤维发生可逆性去极化,这表明这些物质具有突触后作用。2-氨基-5-磷酸戊酸、犬尿氨酸和其他酸性氨基酸拮抗剂会可逆性降低自发出现的突触电位幅度,而不影响其频率,表明存在突触下阻滞。这些拮抗剂还会阻断由谷氨酸及其激动剂引起的突触后去极化。γ-氨基丁酸及其激动剂和拮抗剂对传入活动没有一致的影响。这些发现表明,谷氨酸、天冬氨酸或相关化合物是该突触处的递质。然而,所使用的拮抗剂或受体本身的选择性不足以充分区分激动剂。因此,这些谷氨酸激动剂中究竟哪一种实际参与突触传递仍有待确定。