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加州海兔口腔神经节B31和B32神经元中模式启动与运动功能的区室化

Compartmentalization of pattern-initiation and motor functions in the B31 and B32 neurons of the buccal ganglia of Aplysia californica.

作者信息

Hurwitz I, Goldstein R S, Susswein A J

机构信息

Department of Life Sciences, Bar-Ilan University Ramat-Gan, Israel.

出版信息

J Neurophysiol. 1994 Apr;71(4):1514-27. doi: 10.1152/jn.1994.71.4.1514.

DOI:10.1152/jn.1994.71.4.1514
PMID:8035232
Abstract
  1. The B31 and B32 cells in the buccal ganglia of Aplysia californica have unusual electrophysiological features. The somata of these strongly coupled cells do not sustain conventional action potentials. Brief depolarization of the soma produces a complex, sustained regenerative slow depolarization that is followed by a hyperpolarization. This activity in B31/B32 is correlated with a patterned burst of activity expressed in many of the neurons of the buccal ganglia. 2. Intracellular fills of B31/B32 showed that they have many neurites adjacent to the soma, as well as peripheral axons leaving the buccal ganglia via the radular nerve and innervating the Intrinsic-2 (I2) muscle of the buccal mass. Varicosities of B31/B32 axons are seen within the muscle. Backfills from I2 filled two adjacent B31/B32 cells as well as two newly identified neurons: B61 and B62. 3. Intracellular recording from the B31/B32 axons shows that they sustain conventional action potentials. These are recorded in the soma as approximately 10-mV fast depolarizations. Failed spikes in B31/B32, and conventional spikes in B61/B62, are correlated one for one with end-junction potentials (EJPs) in the I2 muscle. The EJPs are present even when the ganglia and muscles are bathed in high-divalent cations seawater. Thus B31/B32 and B61/B62 are motor neurons to the I2 muscle. 4. To determine whether the ability of B31/B32 to initiate patterned bursts is mediated by spikes in the axon or by slow potentials in the soma, the B31/B32 axon was stimulated directly while recording from the B31/B32 soma. Patterned bursts were never seen in the absence of slow potentials in the soma. Thus the ability of B31/B32 to initiate patterned bursts is localized to the soma and adjacent neurites. Slow potentials influence and cause spiking in adjacent neurons even in the absence of axon spikes. 5. These data show that the B31/B32 cells serve two functions that are compartmentalized in different regions of the cell and are mediated via different electrical signaling mechanisms. The B31/B32 somata utilize slow, sustained potentials as part of a network initiating patterned activity in the buccal ganglia. The B31/B32 axons utilize conventional action potentials, and act as motor neurons to the I2 muscle.
摘要
  1. 加州海兔颊神经节中的B31和B32细胞具有不同寻常的电生理特征。这些紧密耦合细胞的胞体不能维持传统动作电位。胞体的短暂去极化会产生一个复杂的、持续的再生性慢去极化,随后是超极化。B31/B32中的这种活动与颊神经节中许多神经元所表现出的有模式的爆发性活动相关。2. 对B31/B32进行细胞内填充显示,它们在胞体附近有许多神经突,还有通过齿舌神经离开颊神经节并支配颊体固有-2(I2)肌肉的外周轴突。在肌肉内可见B31/B32轴突的膨体。对I2进行反向填充标记了两个相邻的B31/B32细胞以及两个新鉴定出的神经元:B61和B62。3. 对B31/B32轴突进行细胞内记录显示,它们能维持传统动作电位。这些动作电位在胞体中记录为约10 mV的快速去极化。B31/B32中的失活峰以及B61/B62中的传统峰与I2肌肉中的终末接头电位(EJP)一一对应。即使神经节和肌肉浸泡在高浓度二价阳离子海水中,EJP依然存在。因此,B31/B32和B61/B62是支配I2肌肉的运动神经元。4. 为了确定B31/B32启动有模式爆发的能力是由轴突中的峰电位介导还是由胞体中的慢电位介导,在从B31/B32胞体记录的同时直接刺激B31/B32轴突。在胞体中没有慢电位时从未观察到有模式的爆发。因此,B31/B32启动有模式爆发的能力定位于胞体和相邻的神经突。即使没有轴突峰电位,慢电位也会影响并导致相邻神经元产生峰电位。5. 这些数据表明,B31/B32细胞发挥两种功能,这两种功能在细胞的不同区域分隔,并通过不同的电信号机制介导。B31/B32胞体利用缓慢、持续的电位作为在颊神经节中启动有模式活动的网络的一部分。B31/B32轴突利用传统动作电位,并作为支配I2肌肉的运动神经元。

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