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Proc Natl Acad Sci U S A. 2013 Nov 19;110(47):E4510-9. doi: 10.1073/pnas.1315926110. Epub 2013 Nov 4.

Long-term depression triggers the selective elimination of weakly integrated synapses.

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Institute for Synaptic Physiology, Center for Molecular Neurobiology Hamburg, D-20251 Hamburg, Germany.


Long-term depression (LTD) weakens synaptic transmission in an activity-dependent manner. It is not clear, however, whether individual synapses are able to maintain a depressed state indefinitely, as intracellular recordings rarely exceed 1 h. Here, we combine optogenetic stimulation of identified Schaffer collateral axons with two-photon imaging of postsynaptic calcium signals and follow the fate of individual synapses for 7 d after LTD induction. Optogenetic stimulation of CA3 pyramidal cells at 1 Hz led to strong and reliable depression of postsynaptic calcium transients in CA1. NMDA receptor activation was necessary for successful induction of LTD. We found that, in the days following LTD, many depressed synapses and their "neighbors" were eliminated from the hippocampal circuit. The average lifetime of synapses on nonstimulated dendritic branches of the same neurons remained unaffected. Persistence of individual depressed synapses was highly correlated with reliability of synaptic transmission, but not with spine size or the amplitude of spine calcium transients. Our data suggest that LTD initially leads to homogeneous depression of synaptic function, followed by selective removal of unreliable synapses and recovery of function in the persistent fraction.


calcium imaging; channelrhodopsin; dendritic spines; long-term plasticity; transmitter release

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