Although nicotinic agonists can modulate sensory transmission, particularly
nociceptive signaling, remarkably little is known about the functional exp
ression of nicotinic acetylcholine receptors (nAChRs) on primary sensory ne
urons. We have utilized molecular and electrophysiological techniques to ch
aracterize the functional diversity of nAChR expression on mammalian dorsal
root ganglion (DRG) neurons. RT-PCR analysis of subunit mRNA in DRG tissue
revealed the presence of nAChR subunits alpha2-7 and beta2-beta4. Using wh
ole cell patch-clamp recording and rapid application of nicotinic agonists,
four pharmacologically distinct categories of nicotinic responses were ide
ntified in cultured DRG neurons. Capacitance measurements were used to divi
de neurons into populations of large and small cells, and the prevalence of
nicotinic responses was compared between groups. Category I (alpha7-like)
responses were seen in 77% of large neurons and 32% of small neurons and we
re antagonized by 10 nM methyllycaconitine citrate (MLA) or or 50 nM alpha
-bungarotoxin (alpha -BTX). Category II (alpha3 beta4-like) responses were
seen in 16% of large neurons and 9% of small neurons and were antagonized b
y 20 muM mecamylamine but not 10 nM MLA or 1 muM DH betaE. Category II resp
onses had a higher sensitivity to cytisine than nicotine, Two other types o
f responses were identified in a much smaller percentage of neurons and wer
e classified as either category III (alpha4 beta2-like) or category IV (sub
type unknown) responses. Both the alpha7-like and alpha3 beta4-like respons
es could be desensitized by prolonged applications of the analgesic epibati
dine.