Literature DB >> 34851292

Structure and function of axo-axonic inhibition.

Agnes L Bodor1, Forrest Collman1, Derrick Brittain1, Sven Dorkenwald2,3, Nicholas L Turner2,3, Thomas Macrina2,3, Kisuk Lee2,4, Ran Lu2, Jingpeng Wu2, Casey M Schneider-Mizell1, Adam Bleckert1, Jun Zhuang1, Anirban Nandi1, Brian Hu1, JoAnn Buchanan1, Marc M Takeno1, Russel Torres1, Gayathri Mahalingam1, Daniel J Bumbarger1, Yang Li1, Thomas Chartrand1, Nico Kemnitz2, William M Silversmith2, Dodam Ih2, Jonathan Zung2, Aleksandar Zlateski2, Ignacio Tartavull2, Sergiy Popovych2,3, William Wong2, Manuel Castro2, Chris S Jordan2, Emmanouil Froudarakis5,6, Lynne Becker1, Shelby Suckow1, Jacob Reimer5,6, Andreas S Tolias5,6,7, Costas A Anastassiou1,8, H Sebastian Seung2,3, R Clay Reid1, Nuno Maçarico da Costa1.   

Abstract

Inhibitory neurons in mammalian cortex exhibit diverse physiological, morphological, molecular, and connectivity signatures. While considerable work has measured the average connectivity of several interneuron classes, there remains a fundamental lack of understanding of the connectivity distribution of distinct inhibitory cell types with synaptic resolution, how it relates to properties of target cells, and how it affects function. Here, we used large-scale electron microscopy and functional imaging to address these questions for chandelier cells in layer 2/3 of the mouse visual cortex. With dense reconstructions from electron microscopy, we mapped the complete chandelier input onto 153 pyramidal neurons. We found that synapse number is highly variable across the population and is correlated with several structural features of the target neuron. This variability in the number of axo-axonic ChC synapses is higher than the variability seen in perisomatic inhibition. Biophysical simulations show that the observed pattern of axo-axonic inhibition is particularly effective in controlling excitatory output when excitation and inhibition are co-active. Finally, we measured chandelier cell activity in awake animals using a cell-type-specific calcium imaging approach and saw highly correlated activity across chandelier cells. In the same experiments, in vivo chandelier population activity correlated with pupil dilation, a proxy for arousal. Together, these results suggest that chandelier cells provide a circuit-wide signal whose strength is adjusted relative to the properties of target neurons.
© 2021, Schneider-Mizell et al.

Entities:  

Keywords:  axon initial segment; connectomics; inhibition; mouse; neuroscience; visual cortex

Mesh:

Year:  2021        PMID: 34851292      PMCID: PMC8758143          DOI: 10.7554/eLife.73783

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.713


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3.  Reconstruction of neocortex: Organelles, compartments, cells, circuits, and activity.

Authors:  Nicholas L Turner; Thomas Macrina; J Alexander Bae; Runzhe Yang; Alyssa M Wilson; Casey Schneider-Mizell; Kisuk Lee; Ran Lu; Jingpeng Wu; Agnes L Bodor; Adam A Bleckert; Derrick Brittain; Emmanouil Froudarakis; Sven Dorkenwald; Forrest Collman; Nico Kemnitz; Dodam Ih; William M Silversmith; Jonathan Zung; Aleksandar Zlateski; Ignacio Tartavull; Szi-Chieh Yu; Sergiy Popovych; Shang Mu; William Wong; Chris S Jordan; Manuel Castro; JoAnn Buchanan; Daniel J Bumbarger; Marc Takeno; Russel Torres; Gayathri Mahalingam; Leila Elabbady; Yang Li; Erick Cobos; Pengcheng Zhou; Shelby Suckow; Lynne Becker; Liam Paninski; Franck Polleux; Jacob Reimer; Andreas S Tolias; R Clay Reid; Nuno Maçarico da Costa; H Sebastian Seung
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4.  Structure and function of axo-axonic inhibition.

Authors:  Agnes L Bodor; Forrest Collman; Derrick Brittain; Sven Dorkenwald; Nicholas L Turner; Thomas Macrina; Kisuk Lee; Ran Lu; Jingpeng Wu; Casey M Schneider-Mizell; Adam Bleckert; Jun Zhuang; Anirban Nandi; Brian Hu; JoAnn Buchanan; Marc M Takeno; Russel Torres; Gayathri Mahalingam; Daniel J Bumbarger; Yang Li; Thomas Chartrand; Nico Kemnitz; William M Silversmith; Dodam Ih; Jonathan Zung; Aleksandar Zlateski; Ignacio Tartavull; Sergiy Popovych; William Wong; Manuel Castro; Chris S Jordan; Emmanouil Froudarakis; Lynne Becker; Shelby Suckow; Jacob Reimer; Andreas S Tolias; Costas A Anastassiou; H Sebastian Seung; R Clay Reid; Nuno Maçarico da Costa
Journal:  Elife       Date:  2021-12-01       Impact factor: 8.713

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