Properties of neurons in the superficial laminae of trigeminal nucleus caudalis

Autor:	Bruno Pradier, Samuel J. McCormick, Ayumi C. Tsuda, Rudy W. Chen, Abigail L. Atkinson, Mollie R. Westrick, Caroline L. Buckholtz, Julie A. Kauer
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	Craniofacial electrophysiological properties neuronal classification trigeminal waveform Physiology QP1-981
Zdroj:	Physiological Reports, Vol 7, Iss 12, Pp n/a-n/a (2019)
Druh dokumentu:	article
ISSN:	2051-817X
DOI:	10.14814/phy2.14112
Popis:	Abstract The trigeminal nucleus caudalis (TNc) receives extensive afferent innervation from peripheral sensory neurons of the trigeminal ganglion (TG), and is the first central relay in the circuitry underpinning orofacial pain. Despite the initial characterization of the neurons in the superficial laminae, many questions remain. Here we report on electrophysiological properties of 535 superficial lamina I/II TNc neurons. Based on their firing pattern, we assigned these cells to five main groups, including (1) tonic, (2) phasic, (3) delayed, (4) H‐current, and (5) tonic‐phasic neurons, groups that exhibit distinct intrinsic properties and share some similarity with groups identified in the spinal dorsal horn. Driving predominantly nociceptive TG primary afferents using optogenetic stimulation in TRPV1/ChR2 animals, we found that tonic and H‐current cells are most likely to receive pure monosynaptic input, whereas delayed neurons are more likely to exhibit inputs that appear polysynaptic. Finally, for the first time in TNc neurons, we used unsupervised clustering analysis methods and found that the kinetics of the action potentials and other intrinsic properties of these groups differ significantly from one another. Unsupervised spectral clustering based solely on a single voltage response to rheobase current was sufficient to group cells with shared properties independent of action potential discharge pattern, indicating that this approach can be effectively applied to identify functional neuronal subclasses. Together, our data illustrate that cells in the TNc with distinct patterns of TRPV1/ChR2 afferent innervation are physiologically diverse, but can be understood as a few major groups of cells having shared functional properties.
Databáze:	Directory of Open Access Journals
Externí odkaz:	https://doaj.org/article/37ebe2be67b746909e7c5a1b34df82ea Zobrazit plný text záznamu View record in DOAJ Plný text ve formátu PDF Plný text ve formátu HTML
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