Summary
Receptive fields (RFs) of 36 taste (the 22 parabrachio-thalamic relay (P-T) and 14 non-P-T) and 23 mechanoreceptive neurons (7 P-T and 16 non P-T) were located in the oral cavity of rats. All of the taste and most of the mechanoreceptive units examined had an RF on the ipsilateral side of the tongue or palate, but some mechanoreceptive P-T and non-P-T units had RFs bilaterally. When the RFs of taste neurons were examined with the most effective of the four basic taste (the best stimulus) and non-best stimuli, no difference was noticed in the location of RFs between the P-T and non-P-T neurons. Though most of the P-T neurons (7/11) and all of the non-P-T neurons (6/6) had an RF for non-best stimuli at a region similar to that for the best stimulus, some P-T neurons (4/11) had an RFs for non-best stimulus outside the RF for the best stimulus and/or on the region separate from the RF for the best stimulus. The P-T neurons, responding vigorously to non-optimal stimuli as well as to the best stimulus, had an RF outside the RF for the best stimulus. RFs for mechanical stimulation were also examined in some taste and mechanoreceptive neurons. The mechanoreceptive P-T units rarely had an RF exclusively on the palate. Some mechanoreceptive units had an RF on the region where no taste RF has been found, e.g. the intermolar eminence and the folium of the hard palate.
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References
Cechetto DF, Standaert DG, Saper CB (1985) Spinal and trigeminal dorsal horn projections to the parabrachial nucleus in the rat. J Comp Neurol 240: 153–160
Gordon G, Jukes MGM (1964) Dual organization of the exteroceptive components of cats' gracile nucleus. J Physiol (Lond) 173: 263–290
Hayama T, Ito S, Ogawa H (1984) Receptive fields and taste responsiveness of the parabrachio-thalamic taste neurons in rats. Chem Senses 9: 74
Hayama T, Ito S, Ogawa H (1985) Responses of solitary tract nucleus neurons to taste and mechanical stimulations of the oral cavity in decerebrate rats. Exp Brain Res 60: 235–242
Miller IJ Jr (1971) Peripheral interactions among single papilla inputs to gustatory nerve fibers. J Gen Physiol 57: 1–25
Miller IJ Jr (1976) Taste bud distribution and regional responsiveness on the anterior tongue of the rat. Physiol Behav 16: 439–444
Miller IJ Jr (1977) Gustatory receptors of the palate. In: Katsuki Y, Sato M, Takagi S, Oomura Y (eds) Food intake and chemical senses. Univ of Tokyo, Tokyo, pp 173–185
Nomura T, Ogawa H (1985) The taste and mechanical response properties of neurons in the parvicellular part of the thalamic posteromedial ventral nucleus of the rat. Neurosci Res 3: 91–105
Norgren R (1974) Gustatory afferents to ventral forebrain. Brain Res 81: 285–295
Norgren R, Leonard CM (1974) Ascending central gustatory pathways. J Comp Neurol 150: 217–238
Norgren R, Pfaffmann C (1975) The pontine taste area in the rat. Brain Res 91: 99–117
Ogawa H, Hayama T (1984) Receptive fields of solitario-parabrachial relay neurons responsive to natural stimulation of the oral cavity in rats. Exp Brain Res 54: 359–366
Ogawa H, Hayama T, Ito S (1982) Convergence of input from tongue and palate to the parabrachial nucleus neurons of rats. Neurosci Lett 28: 9–14
Ogawa H, Hayama T, Ito S (1984) Location and taste responses of parabrachio-thalamic relay neurons in rats. Exp Neurol 83: 507–517
Ogawa H, Hayama T, Ito S (1987) Response properties of the parabrachio-thalamic taste and mechanoreceptive neurons in rats. Exp Brain Res 68: 449–457
Perroto RS, Scott TS (1976) Gustatory neural coding in the pons. Brain Res 110: 283–300
Smith DV, Travers JB (1979) A metric for the breath of tuning of gustatory neurons. Chem Senses 4: 215–229
Sweazy RD, Dickman JD, Smith DV (1981) Converging taste receptor inputs to the hamster solitary nucleus. Soc Neurosci Abstr 7: 665
Travers SP, Pfaffmann C, Norgren R (1986) Convergence of lingual and palatal gustatory neural activity in the nucleus of the solitary tract. Brain Res 365: 305–320
Vorshart K, van der Kooy D (1981) The organization of the efferent projections of the parabrachial nucleus to the forebrain in the rat: a retrograde fluorescent double labeling study. Brain Res 212: 271–286
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Hayama, T., Ito, S. & Ogawa, H. Receptive field properties of the parabrachio-thalamic taste and mechanoreceptive neurons in rats. Exp Brain Res 68, 458–465 (1987). https://doi.org/10.1007/BF00249790
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DOI: https://doi.org/10.1007/BF00249790