Large identified pyramidal cells in macaque motor and premotor cortex exhibit "thin spikes": implications for cell type classification
Large identified pyramidal cells in macaque motor and premotor cortex exhibit "thin spikes": implications for cell type classification
Recent studies have suggested that extracellular recordings of putative cortical interneurons have briefer spikes than those of pyramidal neurons, providing a means of identifying cortical cell types in recordings from awake monkeys. To test this, we investigated the spike duration of antidromically identified pyramidal tract neurons (PTNs) recorded from primary motor (M1) or ventral premotor cortex (area F5) in 4 awake macaque monkeys. M1 antidromic latencies (ADLs) were skewed toward short ADLs (151 PTNs; 0.5-5.5 ms, median 1.1 ms) and significantly different from that of F5 ADLs (54 PTNs; 1.0-6.9 ms, median 2.6 ms). The duration of PTN spikes, recorded with a high-pass filter of 300 Hz and measured from the negative trough to the positive peak of the spike waveform, ranged from 0.15 to 0.71 ms. Importantly, we found a positive linear correlation between ADL and spike duration in both M1 (R(2) = 0.40, p < 0.001) and F5 (R(2) = 0.57, p < 0.001). Thus PTNs with the shortest ADL (fastest axons) had the briefest spikes, and since PTN soma size is correlated with axon size and conduction velocity, it is likely that the largest pyramidal neurons (Betz cells in M1) have spikes with short durations (0.15-0.45 ms), which overlap heavily with those reported for putative interneurons in previous studies in non-primates. In summary, one class of physiologically identified cortical pyramidal neuron exhibits a wide variety of spike durations and the results suggest that spike duration alone may not be a reliable indicator of cell type.
Action Potentials/physiology, Animals, Eukaryotic Cells/classification, Female, Macaca mulatta, Male, Motor Cortex/cytology, Pyramidal Cells/cytology, Reaction Time/physiology
14235-14242
Vigneswaran, Ganesh
4e3865ad-1a15-4a27-b810-55348e7baceb
Kraskov, Alexander
10cac203-e863-445f-a201-11bd2e62274a
Lemon, Roger N
b1bff74a-af36-4b2c-aa68-a9737793d5f2
5 October 2011
Vigneswaran, Ganesh
4e3865ad-1a15-4a27-b810-55348e7baceb
Kraskov, Alexander
10cac203-e863-445f-a201-11bd2e62274a
Lemon, Roger N
b1bff74a-af36-4b2c-aa68-a9737793d5f2
Vigneswaran, Ganesh, Kraskov, Alexander and Lemon, Roger N
(2011)
Large identified pyramidal cells in macaque motor and premotor cortex exhibit "thin spikes": implications for cell type classification.
Journal of Neuroscience, 31 (40), .
(doi:10.1523/JNEUROSCI.3142-11.2011).
Abstract
Recent studies have suggested that extracellular recordings of putative cortical interneurons have briefer spikes than those of pyramidal neurons, providing a means of identifying cortical cell types in recordings from awake monkeys. To test this, we investigated the spike duration of antidromically identified pyramidal tract neurons (PTNs) recorded from primary motor (M1) or ventral premotor cortex (area F5) in 4 awake macaque monkeys. M1 antidromic latencies (ADLs) were skewed toward short ADLs (151 PTNs; 0.5-5.5 ms, median 1.1 ms) and significantly different from that of F5 ADLs (54 PTNs; 1.0-6.9 ms, median 2.6 ms). The duration of PTN spikes, recorded with a high-pass filter of 300 Hz and measured from the negative trough to the positive peak of the spike waveform, ranged from 0.15 to 0.71 ms. Importantly, we found a positive linear correlation between ADL and spike duration in both M1 (R(2) = 0.40, p < 0.001) and F5 (R(2) = 0.57, p < 0.001). Thus PTNs with the shortest ADL (fastest axons) had the briefest spikes, and since PTN soma size is correlated with axon size and conduction velocity, it is likely that the largest pyramidal neurons (Betz cells in M1) have spikes with short durations (0.15-0.45 ms), which overlap heavily with those reported for putative interneurons in previous studies in non-primates. In summary, one class of physiologically identified cortical pyramidal neuron exhibits a wide variety of spike durations and the results suggest that spike duration alone may not be a reliable indicator of cell type.
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Published date: 5 October 2011
Keywords:
Action Potentials/physiology, Animals, Eukaryotic Cells/classification, Female, Macaca mulatta, Male, Motor Cortex/cytology, Pyramidal Cells/cytology, Reaction Time/physiology
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Local EPrints ID: 448607
URI: http://eprints.soton.ac.uk/id/eprint/448607
ISSN: 0270-6474
PURE UUID: 76521ea8-808b-4398-bc41-3c657f04f0ea
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Date deposited: 28 Apr 2021 16:31
Last modified: 17 Mar 2024 04:06
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Author:
Alexander Kraskov
Author:
Roger N Lemon
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