Gilad Silberberg scite author profile

Mammals adapt to a rapidly changing world because of the sophisticated cognitive functions that are supported by the neocortex. The neocortex, which forms almost 80% of the human brain, seems to have arisen from repeated duplication of a stereotypical microcircuit template with subtle specializations for different brain regions and species. The quest to unravel the blueprint of this template started more than a century ago and has revealed an immensely intricate design. The largest obstacle is the daunting variety of inhibitory interneurons that are found in the circuit. This review focuses on the organizing principles that govern the diversity of inhibitory interneurons and their circuits.

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Reconstruction and Simulation of Neocortical Microcircuitry

Markram¹,

Müller²,

Ramaswamy³

et al. 2015

Cell

1,373

2,030

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Disynaptic Inhibition between Neocortical Pyramidal Cells Mediated by Martinotti Cells

Silberberg

Markram

2007

Neuron

727

872

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Reliable activation of inhibitory pathways is essential for maintaining the balance between excitation and inhibition during cortical activity. Little is known, however, about the activation of these pathways at the level of the local neocortical microcircuit. We report a disynaptic inhibitory pathway among neocortical pyramidal cells (PCs). Inhibitory responses were evoked in layer 5 PCs following stimulation of individual neighboring PCs with trains of action potentials. The probability for inhibition between PCs was more than twice that of direct excitation, and inhibitory responses increased as a function of rate and duration of presynaptic discharge. Simultaneous somatic and dendritic recordings indicated that inhibition originated from PC apical and tuft dendrites. Multineuron whole-cell recordings from PCs and interneurons combined with morphological reconstructions revealed the mediating interneurons as Martinotti cells. Martinotti cells received facilitating synapses from PCs and formed reliable inhibitory synapses onto dendrites of neighboring PCs. We describe this feedback pathway and propose it as a central mechanism for regulation of cortical activity.

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Anatomical, physiological and molecular properties of Martinotti cells in the somatosensory cortex of the juvenile rat

Wang

Toledo-Rodriguez

Gupta

et al. 2004

The Journal of Physiology

447

478

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The neocortex is vertically separated into six major layers that are specialized to receive input from the thalamus (layer IV and VI), provide feedback to the Y. Wang and M. Toledo-Rodriguez contributed equally to this work. thalamus (layer VI) (Staiger et al. 1996), associate cortical activity (layer II/III), and generate the output (layer V). The manner in which activity between layers is co-ordinated in general, and which inhibitory feedback loops operate in particular, are still not well C The Physiological Society 2004

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