Contribution of cholinesterase to developmental decreases in the time course of synaptic potentials at an amphibian neuromuscular junction

1. The effects of the gamma-aminobutyric acid (GABA) uptake blocker tiagabine on inhibitory synaptic potentials (IPSPs) were examined with microelectrode and whole-cell recording from CA3 pyramidal cells in rat hippocampal slice cultures. 2. Tiagabine (10-25 microM) greatly prolonged the duration of monosynaptic IPSPs elicited in the presence of excitatory amino acid antagonists but had no effect on their amplitude. Part of the prolonged time course resulted from a GABAB receptor-mediated component that was not detectable under control conditions. 3. The mean decay time constant of the underlying GABAA receptor-mediated synaptic current was increased from 16 to 250 ms. Spontaneous miniature IPSPs recorded with whole-cell clamp were unaffected by tiagabine. Pentobarbital sodium, in contrast, increased the decay time constant of both evoked and spontaneous GABAA-mediated currents. 4. Tiagabine (25 microM) inhibited spontaneous and evoked epileptiform bursting induced by increasing the extracellular potassium concentration to 8 mM. 5. We conclude that GABA uptake plays a significant role in determining the time course of evoked IPSPs and also limits the likelihood that GABAB receptors are activated.

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Long-term facilitation alters transmitter releasing properties at the crayfish neuromuscular junction

Journal of Neurophysiology ◽

10.1152/jn.1986.55.3.484 ◽

1986 ◽

Vol 55 (3) ◽

pp. 484-498 ◽

Cited By ~ 40

Author(s):

J. M. Wojtowicz ◽

H. L. Atwood

Keyword(s):

Neuromuscular Junction ◽

Synaptic Transmission ◽

Time Course ◽

Muscle Fibers ◽

Low Frequencies ◽

Before And After ◽

Binomial Parameter ◽

Small Muscle ◽

Long Term Facilitation

Synaptic transmission at the neuromuscular junction of the excitatory axon supplying the crayfish opener muscle was examined before and after induction of long-term facilitation (LTF) by a 10-min period of stimulation at 20 Hz. Induction of LTF led to a period of enhanced synaptic transmission, which often persisted for many hours. The enhancement was entirely presynaptic in origin, since quantal unit size and time course were not altered, and quantal content of transmission (m) was increased. LTF was not associated with any persistent changes in action potential or presynaptic membrane potential recorded in the terminal region of the excitatory axon. The small muscle fibers of the walking-leg opener muscle were almost isopotential, and all quantal events could be recorded with an intracellular microelectrode. In addition, at low frequencies of stimulation, m was small. Thus it was possible to apply a binomial model of transmitter release to events recorded from individual muscle fibers and to calculate values for n (number of responding units involved in transmission) and p (probability of transmission for the population of responding units) before and after LTF. In the majority of preparations analyzed (6/10), amplitude histograms of evoked synaptic potentials could be described by a binomial distribution with a small n and moderately high p. LTF produced a significant increase in n, while p was slightly reduced. The results can be explained by a model in which the binomial parameter n represents the number of active synapses and parameter p the mean probability of release at a synapse. Provided that a pool of initially inactive synapses exists, one can postulate that LTF involves recruitment of synapses to the active state.

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Ca2+ Dependence of the Binomial Parameters p and n at the Mouse Neuromuscular Junction

Journal of Neurophysiology ◽

10.1152/jn.00708.2009 ◽

2010 ◽

Vol 103 (2) ◽

pp. 659-666 ◽

Cited By ~ 19

Author(s):

Xueyong Wang ◽

Martin J. Pinter ◽

Mark M. Rich

Keyword(s):

Neuromuscular Junction ◽

Time Course ◽

Quantal Release ◽

Sequential Release ◽

Vesicular Release ◽

Wide Range ◽

Compound Binomial ◽

Graphical Technique ◽

Binomial Statistics

The Ca2+ dependence of synaptic quantal release is generally thought to be restricted to probability of vesicular release. However, some studies have suggested that the number of release sites ( n) at the neuromuscular junction (NMJ) is also Ca2+ dependent. In this study, we recorded endplate currents over a wide range of extracellular Ca2+ concentrations and found the expected Ca2+ dependency of release. A graphical technique was used to estimate p (probability of release) and n using standard binomial assumptions. The results suggested n was Ca2+ dependent. The data were simulated using compound binomial statistics with variable n (Ca2+ dependent) or fixed n (Ca2+ independent). With fixed n, successful simulation of increasing Ca2+ required that p increase abruptly at some sites from very low to high values. Successful simulation with variable n required the introduction of previously silent release sites ( p = 0) with high values of p. Thus the success of both simulations required abrupt, large increases of p at a subset of release sites with initially low or zero p. Estimates of the time course of release obtained by deconvolving evoked endplate currents with average miniature endplate currents decreased slightly as Ca2+ increased, thus arguing against sequential release of multiple quanta at higher Ca2+ levels. Our results suggest that the apparent Ca2+ dependence of n at the NMJ can be explained by an underlying Ca2+ dependence of a spatially variable p such that p increases abruptly at a subset of sites as Ca2+ is increased.

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Quantal Unit Populations at the DrosophilaLarval Neuromuscular Junction

Journal of Neurophysiology ◽

10.1152/jn.1999.82.3.1497 ◽

1999 ◽

Vol 82 (3) ◽

pp. 1497-1511 ◽

Cited By ~ 12

Author(s):

K. Wong ◽

S. Karunanithi ◽

H. L. Atwood

Keyword(s):

Neuromuscular Junction ◽

Time Course ◽

Extracellular Recording ◽

Intracellular Recordings ◽

Quantal Size ◽

Extracellular Signal ◽

Spontaneous Frequency ◽

The Individual ◽

High Level ◽

Larval Neuromuscular Junction

Focal extracellular recording at visualized boutons of the Drosophila larval neuromuscular junction was used to determine frequency and time course of the spontaneously occurring quantal events. When simultaneous intracellular recordings from the innervated muscle cell were made, more than one class of quantal event occurred at some of the individual boutons. “True” signals (arising at the bouton within the focal macropatch electrode) were often contaminated by additional signals generated outside the lumen of the focal electrode. Inclusion of these contaminating signals gave spuriously low values for relative amplitude, and spuriously high values for spontaneous quantal emission, for the synapses within the focal electrode. The contaminating signals, which appeared to be conducted along the subsynaptic reticulum surrounding the nerve terminals, generally were characterized by relatively small extracellular signals associated with normal intracellular events in the muscle fiber. From plots of simultaneous extracellular and intracellular recordings, the individual data points were classified according to the angles they subtended with the x axis (extracellular signal axis). Statistical procedures were developed to separate the true signals and contaminants with a high level of confidence. Populations of quantal events were found to be well described by Gaussian mixtures of two or three components, one of which could be characterized as the true signal population. Separation of signals from contaminants provides a basis for improving the estimates of quantal size and spontaneous frequency for the synapses sampled by the focal extracellular electrode.

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The amplitude, time course and charge of unitary excitatory post-synaptic potentials evoked in spinal motoneurone dendrites

The Journal of Physiology ◽

10.1113/jphysiol.1973.sp010366 ◽

1973 ◽

Vol 234 (3) ◽

pp. 665-688 ◽

Cited By ~ 80

Author(s):

R. Iansek ◽

S. J. Redman

Keyword(s):

Time Course ◽

Synaptic Potentials

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The effects of pH and curare on the time course of end-plate currents at the neuromuscular junction of the frog.

The Journal of Physiology ◽

10.1113/jphysiol.1978.sp012238 ◽

1978 ◽

Vol 276 (1) ◽

pp. 343-352 ◽

Cited By ~ 21

Author(s):

A Mallart ◽

J Molgó

Keyword(s):

Neuromuscular Junction ◽

Time Course ◽

End Plate ◽

Effects Of Ph

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The time course of synaptic potentials evoked in cat spinal motoneurones at identified group Ia synapses.

The Journal of Physiology ◽

10.1113/jphysiol.1983.sp014884 ◽

1983 ◽

Vol 343 (1) ◽

pp. 117-133 ◽

Cited By ~ 69

Author(s):

S Redman ◽

B Walmsley

Keyword(s):

Time Course ◽

Synaptic Potentials ◽

Spinal Motoneurones

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An attempt at an analysis of the factors determining the time course of the glutamate response in the crayfish neuromuscular junction.

Journal of Pharmacobio-Dynamics ◽

10.1248/bpb1978.4.483 ◽

1981 ◽

Vol 4 (7) ◽

pp. 483-489 ◽

Cited By ~ 2

Author(s):

HARUHIKO SHINOZAKI ◽

MICHIKO ISHIDA

Keyword(s):

Neuromuscular Junction ◽

Time Course ◽

Crayfish Neuromuscular Junction

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Presynaptic facilitation at the crayfish neuromuscular junction. Role of calcium-activated potassium conductance.

The Journal of General Physiology ◽

10.1085/jgp.98.6.1181 ◽

1991 ◽

Vol 98 (6) ◽

pp. 1181-1196 ◽

Cited By ~ 11

Author(s):

S Sivaramakrishnan ◽

M S Brodwick ◽

G D Bittner

Keyword(s):

Neuromuscular Junction ◽

Transmitter Release ◽

Time Course ◽

Potassium Conductance ◽

Early Time ◽

Release Mechanism ◽

Free Calcium ◽

Test Pulse ◽

Current Pulses ◽

Calcium Activated Potassium Conductance

Membrane potential was recorded intracellularly near presynaptic terminals of the excitor axon of the crayfish opener neuromuscular junction (NMJ), while transmitter release was recorded postsynaptically. This study focused on the effects of a presynaptic calcium-activated potassium conductance, gK(Ca), on the transmitter release evoked by single and paired depolarizing current pulses. Blocking gK(Ca) by adding tetraethylammonium ion (TEA; 5-20 mM) to a solution containing tetrodotoxin and aminopyridines caused the relation between presynaptic potential and transmitter release to steepen and shift to less depolarized potentials. When two depolarizing current pulses were applied at 20-ms intervals with gK(Ca) not blocked, the presynaptic voltage change to the second (test) pulse was inversely related to the amplitude of the first (conditioning) pulse. This effect of the conditioning prepulse on the response to the test pulse was eliminated by 20 mM TEA and by solutions containing 0 mM Ca2+/1 mM EGTA, suggesting that the reduction in the amplitude of the test pulse was due to activation of gK(Ca) by calcium remaining from the conditioning pulse. In the absence of TEA, facilitation of transmitter release evoked by a test pulse increased as the conditioning pulse grew from -40 to -20 mV, but then decreased with further increase in the conditioning depolarization. A similar nonmonotonic relationship between facilitation and the amplitude of the conditioning depolarization was reported in previous studies using extracellular recording, and interpreted as supporting an additional voltage-dependent step in the activation of transmitter release. We suggest that this result was due instead to activation of a gK(Ca) by the conditioning depolarization, since facilitation of transmitter release increased monotonically with the amplitude of the conditioning depolarization, and the early time course of the decay of facilitation was prolonged when gK(Ca) was blocked. The different time courses for decay of the presynaptic potential (20 ms) and facilitation (greater than 50 ms) suggest either that residual free calcium does not account for facilitation at the crayfish NMJ or that the transmitter release mechanism has a markedly higher affinity or stoichiometry for internal free calcium than does gK(Ca). Finally, our data suggest that the calcium channels responsible for transmitter release at the crayfish NMJ are not of the L, N, or T type.

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