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Synaptic cooperation and competition are important components of synaptic plasticity that tune synapses for the formation of associative long‐term plasticity, a cellular correlate of associative long‐term memory. We have recently reported that coincidental activation of weak synapses within the vicinity of potentiated synapses will alter the cooperative state of synapses to a competitive state thus leading to the slow decay of long‐term plasticity, but the molecular mechanism underlying this is still unknown. Here, using acute hippocampal slices of rats, we have examined how increasing extracellular dopamine concentrations interact and/or affect electrically induced long‐term potentiation (LTP) in the neighboring synapses. We demonstrate that D1/D5‐receptor‐mediated potentiation at the CA1 Schaffer collateral synapses differentially regulates synaptic co‐operation and competition. Further investigating the molecular players involved, we reveal an important role for extracellular signal‐regulated kinases‐1 and 2 (ERK1/2) as signal integrators and dose‐sensors. Interestingly, a sustained activation of ERK1/2 pathway seems to be involved in the differential regulation of synaptic associativity. The concentration‐dependent effects of the modulatory transmitter, as demonstrated for dopaminergic signaling in the present study, might offer additional computational power by fine tuning synaptic associativity processes for establishing long‐term associative memory in neural networks. © 2015 The Authors Hippocampus Published by Wiley Periodicals, Inc.

hippocampus

Dopamine  D1/D5  receptor signaling regulates synaptic cooperation and competition in hippocampal  CA 1 pyramidal neurons via sustained  ERK 1/2 activation