Effects of gustatory nerve transection and regeneration on quinine-stimulated Fos-like immunoreactivity in the parabrachial nucleus of the rat

Autor:	Camille Tessitore King, Leif D. Deyrup, Mircea Garcea, Alan C. Spector, Katherine E. Galvin, Sara E. Dodson
Rok vydání:	2003
Předmět:	Male medicine.medical_treatment Population Stimulation Biology Rats Sprague-Dawley Tongue Pons Neuroplasticity medicine Animals education Glossopharyngeal Nerve education.field_of_study Parabrachial Nucleus Quinine Muscle Relaxants Central General Neuroscience Axotomy Anatomy Neurotomy Immunohistochemistry Stimulation Chemical Nerve Regeneration Rats Oncogene Proteins v-fos Taste Glossopharyngeal nerve Chorda Tympani Nerve Brainstem
Zdroj:	The Journal of Comparative Neurology. 465:296-308
ISSN:	1096-9861 0021-9967
DOI:	10.1002/cne.10851
Popis:	The distribution of quinine-stimulated Fos-like immunoreactivity (FLI) in several subdivisions of the parabrachial nucleus (PBN) known to be responsive to gustatory stimulation was examined in rats in which the chorda tympani nerve (CT) and/or glossopharyngeal nerve (GL) was transected (Experiment 1) and in rats in which the GL was transected with regeneration promoted or prevented (Experiment 2). We confirmed previous findings in the literature by demonstrating that rats intraorally infused with 3 mM quinine showed a robust population of FLI in the waist area and the external lateral (EL) and external medial (EM) subdivisions of the PBN (Yamamoto et al. [1994] Physiol Behav 56:1197-1202; Travers et al., [ 1999] Am J Physiol 277:R384-R394). In the waist area, only GL transection significantly decreased the number of FLI-neurons elicited by intraoral infusion of quinine compared with water-stimulated controls. In the external subdivisions neither neurotomy affected the number of FLI-neurons. The effect of GL transection in the waist area was enduring for rats in which the GL did not regenerate (up to 94 days), but regeneration of the GL after 52 days restored quinine-stimulated FLI to control values. In these same GL-transected animals, there were parallel decreases in the number of gapes elicited by intraoral quinine stimulation that recovered, but only subsequent to regeneration of the GL. These data provide support for the role of the waist area in the brainstem processing that underlies oromotor rejection behaviors and also help substantiate the hypothesis that the CT and GL are relatively specialized with regard to function. Moreover, when the quinine-induced pattern of neural activity in the second central gustatory relay, as assessed by FLI, is substantially altered by the loss of peripheral gustatory input from the GL, it can be restored upon regeneration of the nerve.
Databáze:	OpenAIRE
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