Association of somatic action potential shape with sensory receptive properties in guinea-pig dorsal root ganglion neurones

Intracellular voltage recordings were made from the somata of L6 and S1 dorsal root ganglion (DRG) neurones at 28.5–31 °C in young guinea-pigs (150–300 g) anaesthetized with sodium pentobarbitone. Action potentials (APs) evoked by dorsal root stimulation were used to classify conduction velocit...

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Bibliographic Details
Published in:The Journal of physiology 1998-12, Vol.513 (3), p.857-872
Main Authors: Djouhri, L., Bleazard, L., Lawson, S. N.
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Animals
Electric Stimulation
Electrophysiology
Ganglia, Spinal - cytology
Ganglia, Spinal - physiology
Guinea Pigs
Mechanoreceptors - physiology
Membrane Potentials - physiology
Nerve Fibers - physiology
Nerve Fibers, Myelinated - physiology
Neural Conduction - physiology
Neurons - physiology
Neurons, Afferent - physiology
Nociceptors - physiology
Original
Sensory Receptor Cells - physiology
Space life sciences
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Summary:Intracellular voltage recordings were made from the somata of L6 and S1 dorsal root ganglion (DRG) neurones at 28.5–31 °C in young guinea-pigs (150–300 g) anaesthetized with sodium pentobarbitone. Action potentials (APs) evoked by dorsal root stimulation were used to classify conduction velocities (CVs) as C, Aδ or Aα/β. Units with overshooting APs and membrane potentials ( V m ) more negative than −40 mV were analysed: 40 C-, 45 Aδ- and 94 Aα/β-fibre units. Sensory receptive properties were characterized as: (a) low-threshold mechanoreceptive (LTM) units (5 C-, 10 Aδ- and 57 Aα/β-fibre units); (b) nociceptive units, responding to noxious mechanical stimuli, some also to noxious heat (40 C-, 27 Aδ- and 27 Aα/β-fibre units); (c) unresponsive units that failed to respond to a variety of tests; and (d) C-fibre cooling-sensitive units ( n = 4). LTM units made up about 8 % of identified C-fibre units, 36 % of identified Aδ-fibre units and > 73 % of identified Aα/β-fibre units. Compared with LTM units, the nociceptive units had APs that were longer on average by 3 times (C-fibre units), 1.7 times (Aδ-fibre units) and 1.4 times (Aα/β-fibre units). They also had significantly longer rise times (RTs) and fall times (FTs) in all CV ranges. Between Aα/β-nociceptors and Aα/β-LTMs there was a proportionately greater difference in RT than in FT. The duration of the afterhyperpolarization measured to 80 % recovery (AHP 80 ) was also significantly longer in nociceptive than LTM neurones in all CV ranges: by 3 times (C-fibre units), 6.3 times (Aδ-fibre units) and 3.6 times (Aα/β-fibre units). The mean values of these variables in unresponsive units were similar to those of nociceptive units in each CV range; in C- and Aδ-fibre groups their mean AHP duration was even longer than in nociceptive units. A-fibre LTM neurones were divided into Aδ- (D hair units, n = 8), and Aα/β- (G hair/field units, n = 22; T (tylotrich) hair units, n = 6; rapidly adapting (RA) glabrous units, n = 6; slowly adapting (SA) hairy and glabrous units, n = 2; and muscle spindle (MS) units n = 17). MS and SA units had the shortest duration APs, FTs and AHP 80 s of all these groups. The mean RT in D hair units was significantly longer than in all Aα/β LTM units combined. T hair units had the longest mean FT and AHP of all the A-LTM groups. The mean AHP was about 10 times longer in T hair units than in all other A-LTM units combined (significant), and was similar to
ISSN:0022-3751
1469-7793
DOI:10.1111/j.1469-7793.1998.857ba.x