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Autori principali: Mahrach, Alexandre, Chen, Guang, Li, Nuo, van Vreeswijk, Carl, Hansel, David
Natura: Preprint
Pubblicazione: 2019
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Accesso online:https://arxiv.org/abs/1907.00816
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author Mahrach, Alexandre
Chen, Guang
Li, Nuo
van Vreeswijk, Carl
Hansel, David
author_facet Mahrach, Alexandre
Chen, Guang
Li, Nuo
van Vreeswijk, Carl
Hansel, David
contents GABAergic interneurons can be subdivided into three subclasses: parvalbumin positive (PV), somatostatin positive (SOM) and serotonin positive neurons. With principal cells (PCs) they form complex networks. We examine PCs and PV responses in mouse anterior lateral motor cortex (ALM) and barrel cortex (S1) upon PV photostimulation in vivo. In layer 5, the PV response is paradoxical: photoexcitation reduces their activity. This is not the case in ALM layer 2/3. We combine analytical calculations and numerical simulations to investigate how these results constrain the architecture. Two-population models cannot account for the results. Networks with three inhibitory populations and V1-like architecture account for the data in ALM layer 2/3. Our data in layer 5 can be accounted for if SOM neurons receive inputs only from PCs and PV neurons. In both four-population models, the paradoxical effect implies not too strong recurrent excitation. It is not evidence for stabilization by inhibition.
format Preprint
id arxiv_https___arxiv_org_abs_1907_00816
institution arXiv
publishDate 2019
record_format arxiv
spellingShingle Mechanisms underlying the response of mouse cortical networks to optogenetic manipulation
Mahrach, Alexandre
Chen, Guang
Li, Nuo
van Vreeswijk, Carl
Hansel, David
Neurons and Cognition
Disordered Systems and Neural Networks
GABAergic interneurons can be subdivided into three subclasses: parvalbumin positive (PV), somatostatin positive (SOM) and serotonin positive neurons. With principal cells (PCs) they form complex networks. We examine PCs and PV responses in mouse anterior lateral motor cortex (ALM) and barrel cortex (S1) upon PV photostimulation in vivo. In layer 5, the PV response is paradoxical: photoexcitation reduces their activity. This is not the case in ALM layer 2/3. We combine analytical calculations and numerical simulations to investigate how these results constrain the architecture. Two-population models cannot account for the results. Networks with three inhibitory populations and V1-like architecture account for the data in ALM layer 2/3. Our data in layer 5 can be accounted for if SOM neurons receive inputs only from PCs and PV neurons. In both four-population models, the paradoxical effect implies not too strong recurrent excitation. It is not evidence for stabilization by inhibition.
title Mechanisms underlying the response of mouse cortical networks to optogenetic manipulation
topic Neurons and Cognition
Disordered Systems and Neural Networks
url https://arxiv.org/abs/1907.00816