AI Article Synopsis
- The study investigates how short-term depression and facilitation interact at calyx of Held synapses, revealing that low-frequency stimulation (10-20 Hz) leads to synaptic depression.
- When stimulation frequency is suddenly increased to 100-200 Hz, significant facilitation occurs, which is short-lived (around 30 ms) and relies on leftover presynaptic calcium.
- Analysis shows that low-frequency stimulation decreases the available fast-releasable vesicle pool and alters their release speed, indicating an intrinsic variability among vesicles that aids in stabilizing neurotransmitter release during high-frequency activity.
Article Abstract
The two fundamental forms of short-term plasticity, short-term depression and facilitation, coexist at most synapses, but little is known about their interaction. Here, we studied the interplay between short-term depression and facilitation at calyx of Held synapses. Stimulation at a "low" frequency of 10 or 20 Hz, which is in the range of the spontaneous activity of these auditory neurons in vivo, induced synaptic depression. Surprisingly, an instantaneous increase of the stimulation frequency to 100 or 200 Hz following the low-frequency train uncovered a robust facilitation of EPSCs relative to the predepressed amplitude level. This facilitation decayed rapidly ( approximately 30 ms) and depended on presynaptic residual Ca(2+), but it was not caused by Ca(2+) current facilitation. To probe the release probability of the remaining readily releasable vesicles following the low-frequency train we made presynaptic Ca(2+) uncaging experiments in the predepressed state of the synapse. We found that low-frequency stimulation depletes the fast-releasable vesicle pool (FRP) down to approximately 40% of control and that the remaining FRP vesicles are released with approximately 2-fold slower release kinetics, indicating a hitherto unknown intrinsic heterogeneity among FRP vesicles. Thus, vesicles with an intrinsically lower release probability predominate after low frequency stimulation and undergo facilitation during the onset of subsequent high-frequency trains. Facilitation in the predepressed state of the synapse might help to stabilize the amount of transmitter release at the onset of high-frequency firing at these auditory synapses.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6634054 | PMC |
| http://dx.doi.org/10.1523/JNEUROSCI.4378-09.2010 | DOI Listing |
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