Mamiya Akira, Manor Yair, Nadim Farzan
Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, New Jersey 07102, USA.
J Neurosci. 2003 Oct 22;23(29):9557-64. doi: 10.1523/JNEUROSCI.23-29-09557.2003.
In the rhythmically active pyloric circuit of the spiny lobster, the synapse between the lateral pyloric (LP) neuron and pyloric constrictor (PY) neuron has an inhibitory depressing chemical and an electrical component. To understand how the dynamics of the LP-->PY synapse affect the relative firing times between these two neurons in an ongoing rhythm, we characterized the dynamics of the LP-->PY synapse after a pharmacological block of ongoing activity. When a train of voltage pulses was applied to the voltage-clamped LP neuron, the inhibitory chemical component of the postsynaptic potential (PSP) in the PY neuron rapidly depressed. Thus, after the first few pulses, the PSP was either hyperpolarizing or depolarizing, depending on the interpulse duration, with shorter interpulse durations producing depolarizing PSPs. To characterize the synaptic response during rhythmic activity, we played back prerecorded realistic waveforms in the voltage-clamped LP neuron. After an initial transient, the resulting PSP in PY was always depolarizing, suggesting that in an ongoing rhythm, the electrical component of the synapse is dominant. However, our results indicate that the chemical component of the synapse acts to delay the peak time of the PSP and to reduce its amplitude, and that these effects become more important at slower cycle periods.
在多刺龙虾有节律活动的幽门回路中,外侧幽门(LP)神经元与幽门收缩肌(PY)神经元之间的突触具有抑制性衰减的化学和电成分。为了理解LP→PY突触的动力学如何在持续的节律中影响这两个神经元之间的相对放电时间,我们在药理学阻断持续活动后对LP→PY突触的动力学进行了表征。当向电压钳制的LP神经元施加一串电压脉冲时,PY神经元中突触后电位(PSP)的抑制性化学成分迅速衰减。因此,在最初的几个脉冲之后,PSP是超极化还是去极化,取决于脉冲间隔持续时间,脉冲间隔持续时间越短,产生的去极化PSP。为了表征节律活动期间的突触反应,我们在电压钳制的LP神经元中回放预先记录的真实波形。在最初的瞬态之后,PY中产生的PSP总是去极化的,这表明在持续的节律中,突触的电成分占主导地位。然而,我们的结果表明,突触的化学成分起到延迟PSP峰值时间并降低其幅度的作用,并且这些作用在较慢的周期中变得更加重要。