Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit

Peng Y, Bjelde A, Aceituno PV, Mittermaier FX, Planert H, Grosser S, Onken J, Faust K, Kalbhenn T, Simon M, Radbruch H, et al. (2024)
Science 384(6693): 338-343.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
Autor*in
Peng, Yangfan; Bjelde, Antje; Aceituno, Pau Vilimelis; Mittermaier, Franz X; Planert, Henrike; Grosser, Sabine; Onken, Julia; Faust, Katharina; Kalbhenn, Thilo; Simon, MatthiasUniBi; Radbruch, Helena; Fidzinski, Pawel
Alle
Einrichtung
Medizinische Fakultät OWL > AG 109 Neurochirurgie
Abstract / Bemerkung
The computational capabilities of neuronal networks are fundamentally constrained by their specific connectivity. Previous studies of cortical connectivity have mostly been carried out in rodents; whether the principles established therein also apply to the evolutionarily expanded human cortex is unclear. We studied network properties within the human temporal cortex using samples obtained from brain surgery. We analyzed multineuron patch-clamp recordings in layer 2-3 pyramidal neurons and identified substantial differences compared with rodents. Reciprocity showed random distribution, synaptic strength was independent from connection probability, and connectivity of the supragranular temporal cortex followed a directed and mostly acyclic graph topology. Application of these principles in neuronal models increased dimensionality of network dynamics, suggesting a critical role for cortical computation.
Erscheinungsjahr
2024
Zeitschriftentitel
Science
Band
384
Ausgabe
6693
Seite(n)
338-343
eISSN
1095-9203
Page URI
https://pub.uni-bielefeld.de/record/2988668

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Peng Y, Bjelde A, Aceituno PV, et al. Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit. Science . 2024;384(6693):338-343.
Peng, Y., Bjelde, A., Aceituno, P. V., Mittermaier, F. X., Planert, H., Grosser, S., Onken, J., et al. (2024). Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit. Science , 384(6693), 338-343. https://doi.org/10.1126/science.adg8828
Peng, Yangfan, Bjelde, Antje, Aceituno, Pau Vilimelis, Mittermaier, Franz X, Planert, Henrike, Grosser, Sabine, Onken, Julia, et al. 2024. “Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit”. Science 384 (6693): 338-343.
Peng, Y., Bjelde, A., Aceituno, P. V., Mittermaier, F. X., Planert, H., Grosser, S., Onken, J., Faust, K., Kalbhenn, T., Simon, M., et al. (2024). Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit. Science 384, 338-343.
Peng, Y., et al., 2024. Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit. Science , 384(6693), p 338-343.
Y. Peng, et al., “Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit”, Science , vol. 384, 2024, pp. 338-343.
Peng, Y., Bjelde, A., Aceituno, P.V., Mittermaier, F.X., Planert, H., Grosser, S., Onken, J., Faust, K., Kalbhenn, T., Simon, M., Radbruch, H., Fidzinski, P., Schmitz, D., Alle, H., Holtkamp, M., Vida, I., Grewe, B.F., Geiger, J.R.P.: Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit. Science . 384, 338-343 (2024).
Peng, Yangfan, Bjelde, Antje, Aceituno, Pau Vilimelis, Mittermaier, Franz X, Planert, Henrike, Grosser, Sabine, Onken, Julia, Faust, Katharina, Kalbhenn, Thilo, Simon, Matthias, Radbruch, Helena, Fidzinski, Pawel, Schmitz, Dietmar, Alle, Henrik, Holtkamp, Martin, Vida, Imre, Grewe, Benjamin F, and Geiger, Jorg R P. “Directed and acyclic synaptic connectivity in the human layer 2-3 cortical microcircuit”. Science 384.6693 (2024): 338-343.
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