Evidence is accumulating which supports a role for ATP in the initiation of
pain by acting on P2X receptors, in particular P2X(3), expressed on nocice
ptive afferent nerve terminals. To investigate whether this receptor plays
a role in dental pain, we studied the presence and distribution of P2X(3) r
eceptors in human dental pulp, and their co-localization with other neural
markers. Pulps were removed from extracted third molars and immunohistochem
ically stained with an antibody against P2X(3) receptors. P2X(3) immunoreac
tive (-ir) nerve fibers were detected in the main body of the pulp, in the
subodontoblastic plexus of Raschkow, and within the odontoblastic area. Co-
localization of the P2X,-ir neurons with neurofilament protein (NIF) showed
that the majority of the fibers were positive for both NF and P2X(3). Doub
le labeling with isolectin B4 (IB4) showed that all P2X(3)-ir neurons also
bind IB4. We conclude that P2X(3) receptors are present on both myelinated
and unmyelinated nerve fibers in human dental pulp and may play a role in d
ental pain mechanisms.