Robert C. Froemke scite author profile

The strength of the connection between two neurons can be modified by activity, in a way that depends on the timing of neuronal firing on either side of the synapse. This spike-timing-dependent plasticity (STDP) has been studied by systematically varying the intervals between pre- and postsynaptic spikes. Here we studied how STDP operates in the context of more natural spike trains. We found that in visual cortical slices the contribution of each pre-/postsynaptic spike pair to synaptic modification depends not only on the interval between the pair, but also on the timing of preceding spikes. The efficacy of each spike in synaptic modification was suppressed by the preceding spike in the same neuron, occurring within several tens of milliseconds. The direction and magnitude of synaptic modifications induced by spike patterns recorded in vivo in response to natural visual stimuli were well predicted by incorporating the suppressive inter-spike interaction within each neuron. Thus, activity-induced synaptic modification depends not only on the relative spike timing between the neurons, but also on the spiking pattern within each neuron. For natural spike trains, the timing of the first spike in each burst is dominant in synaptic modification.

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Oxytocin enables maternal behaviour by balancing cortical inhibition

Marlin

Mitre

D'Amour

et al. 2015

Nature

633

710

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Oxytocin is important for social interactions and maternal behavior. However, little is known about when, where, and how oxytocin modulates neural circuits to improve social cognition. Here we show how oxytocin enables pup retrieval behavior in female mice by enhancing auditory cortical pup call responses. Retrieval behavior required left but not right auditory cortex, was accelerated by oxytocin in left auditory cortex, and oxytocin receptors were preferentially expressed in left auditory cortex. Neural responses to pup calls were lateralized, with co-tuned and temporally-precise excitatory and inhibitory responses in left cortex of maternal but not pup-naive adults. Finally, pairing calls with oxytocin enhanced responses by balancing the magnitude and timing of inhibition with excitation. Our results describe fundamental synaptic mechanisms by which oxytocin increases the salience of acoustic social stimuli. Furthermore, oxytocin-induced plasticity provides a biological basis for lateralization of auditory cortical processing.

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A synaptic memory trace for cortical receptive field plasticity

Froemke

Merzenich

Schreiner

2007

Nature

576

580

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A synaptic memory trace for cortical receptive field plasticity. Neuromodulation is required for cortical plasticity, but it is uncertain how subcortical neuromodulatory systems, such as the cholinergic nucleus basalis ( A major subcortical nucleus critical for receptive field plasticity is NB, the main source of cortical acetylcholine (ACh) 4,9,[14][15][16][17][19][20][21] . How are neuromodulators such as ACh involved in plasticity, and what circuit elements do they act upon? One possibility is that neuromodulation creates a cellular tag or memory trace for synaptic events that occurred in conjunction with neuromodulator release. However, the effects of ACh on cortical

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Robert C. Froemke

Spike-timing-dependent synaptic modification induced by natural spike trains

Oxytocin enables maternal behaviour by balancing cortical inhibition

A synaptic memory trace for cortical receptive field plasticity

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