A.S. Bohannon scite author profile

Sensory signals to fine-tune hand movement Skilled hand movements are modulated not only by signals from the motor system but also by sensory feedback. However, little is known about the circuits that regulate these feedback signals and how such regulation might influence movement. Conner et al . combined molecular, electrophysiological, and behavioral approaches in the mouse to identify and characterize inhibitory circuits in the brainstem cuneate nucleus. These circuits can enhance or suppress the transmission of tactile information, thereby affecting behaviors that require dexterous movement of the hand. In addition, there are descending cortical inputs that can inhibit or excite the cuneate nucleus. These findings indicate a new anatomical and functional circuit architecture for the adjustment of tactile feedback. —PRS

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A Role for PGC-1α in Transcription and Excitability of Neocortical and Hippocampal Excitatory Neurons

McMeekin

Bartley

Bohannon

et al. 2020

Neuroscience

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HCN Channel Modulation of Synaptic Integration in GABAergic Interneurons in Malformed Rat Neocortex

Albertson

Bohannon

Hablitz

2017

Front. Cell. Neurosci.

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Cortical malformations are often associated with pharmaco-resistant epilepsy. Alterations in hyperpolarization-activated, cyclic nucleotide-gated, non-specific cation (HCN) channels have been shown to contribute to malformation associated hyperexcitability. We have recently demonstrated that expression of HCN channels and Ih current amplitudes are reduced in layer (L) 5 pyramidal neurons of rats with freeze lesion induced malformations. These changes were associated with an increased EPSP temporal summation. Here, we examine the effects of HCN channel inhibition on synaptic responses in fast spiking, presumptive basket cells and accommodating, presumptive Martinotti, GABAergic interneurons in slices from freeze lesioned animals. In control animals, fast spiking cells showed small sag responses which were reduced by the HCN channel antagonist ZD7288. Fast spiking cells in lesioned animals showed absent or reduced sag responses. The amplitude of single evoked EPSPs in fast spiking cells in the control group was not affected by HCN channel inhibition with ZD7288. EPSP ratios during short stimulus trains at 25 Hz were not significantly different between control and lesion groups. ZD7288 produced an increase in EPSP ratios in the control but not lesion groups. Under voltage clamp conditions, ZD7288 did not affect EPSC ratios. In the control group, accommodating interneurons showed robust sag responses which were significantly reduced by ZD7288. HCN channel inhibition increased EPSP ratios and area in controls but not the lesioned group. The results indicate that HCN channels differentially modulate EPSPs in different classes of GABAergic interneurons and that this control is reduced in malformed rat neocortex.

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Optogenetic dissection of roles of specific cortical interneuron subtypes in GABAergic network synchronization

Bohannon

Hablitz

2018

The Journal of Physiology

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In the presence of the A-type K channel blocker 4-aminopyrdine, spontaneous synchronous network activity develops in the neocortex of mice of either sex. This aberrant synchrony persists in the presence of excitatory amino acid receptor antagonists (EAA blockers) and is considered to arise from synchronous firing of cortical interneurons (INs). Although much attention has been given to the mechanisms underlying this GABAergic synchrony, the contribution of specific IN subtypes to the generation of these long-lasting discharges (LLDs) is incompletely understood. We employed genetically-encoded channelrhodopsin and archaerhodopsin opsins to investigate the sufficiency and necessity, respectively, of activation of parvalbumin (PV), somatostatin (SST) and vasointestinal peptide (VIP)-expressing INs for the generation of synchronous neocortical GABAergic discharges. We found light-induced activation of PV or SST INs to be equally sufficient for the generation of LLDs, whereas activation of VIP INs was not. By contrast, light-induced inhibition of PV INs strongly reduced LLD initiation, whereas suppression of SST or VIP IN activity only partially attenuated LLD magnitude. These results suggest neocortical INs perform cell type-specific roles in the generation of aberrant GABAergic cortical network activity.

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A.S. Bohannon

Genome Sequencing as an Alternative to Cytogenetic Analysis in Myeloid Cancers

Modulation of tactile feedback for the execution of dexterous movement

A Role for PGC-1α in Transcription and Excitability of Neocortical and Hippocampal Excitatory Neurons

HCN Channel Modulation of Synaptic Integration in GABAergic Interneurons in Malformed Rat Neocortex

Optogenetic dissection of roles of specific cortical interneuron subtypes in GABAergic network synchronization

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