2014
DOI: 10.3389/fncel.2014.00290
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A synaptic mechanism for network synchrony

Abstract: Within neural networks, synchronization of activity is dependent upon the synaptic connectivity of embedded microcircuits and the intrinsic membrane properties of their constituent neurons. Synaptic integration, dendritic Ca2+ signaling, and non-linear interactions are crucial cellular attributes that dictate single neuron computation, but their roles promoting synchrony and the generation of network oscillations are not well understood, especially within the context of a defined behavior. In this regard, the … Show more

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Cited by 11 publications
(5 citation statements)
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References 229 publications
(388 reference statements)
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“…Importantly, neuronal network synchrony alterations occur in NDDs, including ASD, SZ, and epilepsy (Mathalon and Sohal, 2015;McCormick and Contreras, 2001). Although the exact mechanisms remain obscure, synchronized network events are thought to arise from the interplay between synaptic connectivity, intrinsic excitability, and cell-type composition of the network (Alford and Alpert, 2014;Iida et al, 2018;Wong et al, 1984). We show that the effect of CNTNAP2-ecto on network activity depends on PMCA2.…”
Section: Discussionmentioning
confidence: 84%
“…Importantly, neuronal network synchrony alterations occur in NDDs, including ASD, SZ, and epilepsy (Mathalon and Sohal, 2015;McCormick and Contreras, 2001). Although the exact mechanisms remain obscure, synchronized network events are thought to arise from the interplay between synaptic connectivity, intrinsic excitability, and cell-type composition of the network (Alford and Alpert, 2014;Iida et al, 2018;Wong et al, 1984). We show that the effect of CNTNAP2-ecto on network activity depends on PMCA2.…”
Section: Discussionmentioning
confidence: 84%
“…Hippocampus-dependent brain functions rely on neuronal oscillations in hippocampal networks [1][2][3][4]. To understand the neural mechanism underlying the generation of oscillation, previous studies have extensively investigated the roles of various types of chemical synapses and ion channels [5][6][7][8][9]. More recently, growing attention has also been paid to the contribution of electrical synapses, i.e., Cx36 (connexin 36) gap junctions, which bridge neuronal membranes and allow electrical coupling and the transfer of small molecules between neurons [10].…”
Section: Introductionmentioning
confidence: 99%
“…Calcium homeostasis is important for virtually all neuronal functions. Synchronous calcium oscillations (SCOs) are ubiquitous signaling mechanisms whose frequency and amplitude encode information in both individual neurons (eg, regulating physiologic metabolic and transcriptional responses) and at the level of networks (eg, regulating synaptic connectivity and circadian rhythms) ( Alford and Alpert, 2014 ; Cavieres-Lepe and Ewer, 2021 ; Tokumitsu and Sakagami, 2022 ). SCO patterns encode frequency and amplitude signals that provide a means to control a wide range of cellular physiological functions ( Smedler and Uhlen, 2014 ; Sneyd et al , 2017 ).…”
mentioning
confidence: 99%