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Relationship of substance P to afferent characteristics of dorsal root ganglion neurones in guinea‐pig
Author(s) -
Lawson S. N.,
Crepps B. A.,
Perl E. R.
Publication year - 1997
Publication title -
the journal of physiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.802
H-Index - 240
eISSN - 1469-7793
pISSN - 0022-3751
DOI - 10.1111/j.1469-7793.1997.00177.x
Subject(s) - receptive field , nociceptor , substance p , nociception , dorsal root ganglion , anatomy , chemistry , ganglion , neuroscience , afferent , dorsum , biophysics , medicine , biology , neuropeptide , receptor , biochemistry
1 The relationship between the afferent properties and substance P‐like immunoreactivity (SP‐LI) of L6 and SI dorsal root ganglion (DRG) neuronal somata was examined in anaesthetized guinea‐pigs. Glass pipette microelectrodes filled with fluorescent dyes were used to make intracellular recordings and to label DRG somata. The dorsal root conduction velocity (CV) and the afferent receptive properties of each unit were categorized according to criteria established in other species. Categories included a variety of low threshold mechanoreceptive classes, innocuous thermoreceptive and several nociceptive classes. Nociceptive units were further subdivided on the basis of CV and the locus of the receptive field (superficial cutaneous, deep cutaneous or subcutaneous). 2 SP‐LI was determined using the avidin–biotin complex method and the relative staining intensity determined by image analysis. The possible significance of labelling intensity is discussed. Clear SP‐LI appeared in twenty‐nine of 117 dye‐labelled neurones. All SP‐LI positive units with identified receptive properties were nociceptive but not all categories of nociceptors were positive. The intensity of SP‐LI labelling varied, often systematically, in relation to afferent properties. There was a tendency for nociceptive neurones with slower CVs and/or smaller cell bodies to show SP‐LI. 3 Nineteen of fifty‐one C fibre neurones showed SP‐LI. Fewer than half the C polymodal nociceptors (CPMs) were positive. The most intensely labelled units were the deep cutaneous nociceptors and some of the CPMs in glabrous skin. C low threshold mechanoreceptors and cooling‐sensitive units did not show SP‐LI. 4 Ten of sixty‐six A fibre neurones exhibited SP‐LI, including eight of sixteen Aδ nociceptors and two of fifteen A α/β nociceptors. A fibre neurones exhibiting SP‐LI included seven of eight deep cutaneous mechanical nociceptors and some superficial cutaneous mechano‐heat nociceptors of hairy skin. In contrast, none of twenty superficial cutaneous A high threshold mechanoreceptor units or the thirty‐five A fibre low threshold units (D‐hair and other units) showed detectable SP‐LI. 5 We conclude that SP‐LI labelling in guinea‐pig DRG neurones is related to (a) afferent receptive properties, (b) the tissue in which the peripheral receptive terminals are located, (c) the CV and (d) the soma size.