Gustatory responses in the frontal opercular cortex of the alert cynomolgus monkey

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Gustatory responses in the frontal opercular cortex of the alert cynomolgus monkey

T. R. Scott, S. Yaxley, Z. J. Sienkiewicz and E. T. Rolls

The responses of 165 single taste neurons in the anterior operculum of the alert cynomolgus monkey were analyzed. Chemicals were deionized water, blackcurrant juice, and the four basic taste stimuli: glucose, NaCl, HCl, and quinine HCl. Taste-evoked responses could be recorded from an opercular region that measured approximately 4.0 mm in its anteroposterior extent, 2.0 mm mediolaterally, and 3.0 mm dorsoventrally. Within this area, taste-responsive neurons were sparsely distributed such that multiunit activity was rarely encountered and neuronal isolation was readily achieved. Intensity-response functions were determined for nine cells.In each case, the lowest concentration of the dynamic response range conformed well to human electrophysiological and psychophysical thresholds for the basic taste stimuli. There was some evidence of chemotopic organization. Cells that responded best to glucose tended to be distributed toward the anterior operculum, whereas most acid-sensitive neurons were located more posteriorly. The proportion of cells responding best to NaCl peaked in the middle of the area, whereas quinine sensitivity was rather evenly distributed throughout. Opercular neurons in the monkey showed moderate breadth of sensitivity compared with taste cells of other species and at other synaptic levels. A breadth-of-tuning coefficient was calculated for each neuron. This is a metric that can range from 0.0 for a cell that responds specifically to only one of the four basic stimuli to 1.0 for one that responds equally to all four stimuli. The mean coefficient for 165 cells in the operculum was 0.67 (range = 0.12-0.99). Efforts were made to determine whether neurons could be divided into a discrete number of types, as defined by their responsiveness to the stimulus array used here. It was concluded that most taste cells may be assigned to a small number of groups, each of which is statistically independent of the others, but within which the constituent neurons are not identical. An analysis of taste quality indicated that the sweet and salty stimuli evoked patterns of activity that were significantly intercorrelated. Similarly, patterns representing HCl, quinine HCl, and water were related.

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				A. C. Spector and S. P. Travers The representation of taste quality in the Mammalian nervous system. Behav Cogn Neurosci Rev, September 1, 2005; 4(3): 143 - 191. [Abstract] [PDF]

				H. Ogawa, M. Wakita, K. Hasegawa, T. Kobayakawa, N. Sakai, T. Hirai, Y. Yamashita, and S. Saito Functional MRI Detection of Activation in the Primary Gustatory Cortices in Humans Chem Senses, September 1, 2005; 30(7): 583 - 592. [Abstract] [Full Text] [PDF]

				T. C. Pritchard, E. M. Edwards, C. A. Smith, K. G. Hilgert, A. M. Gavlick, T. D. Maryniak, G. J. Schwartz, and T. R. Scott Gustatory Neural Responses in the Medial Orbitofrontal Cortex of the Old World Monkey J. Neurosci., June 29, 2005; 25(26): 6047 - 6056. [Abstract] [Full Text] [PDF]

				M. Kadohisa, E. T. Rolls, and J. V. Verhagen Neuronal Representations of Stimuli in the Mouth: The Primate Insular Taste Cortex, Orbitofrontal Cortex and Amygdala Chem Senses, June 1, 2005; 30(5): 401 - 419. [Abstract] [Full Text] [PDF]

				E. T. Rolls Taste and Related Systems in Primates Including Humans Chem Senses, January 1, 2005; 30(suppl_1): i76 - i77. [Full Text] [PDF]

				J. V. Verhagen, M. Kadohisa, and E. T. Rolls Primate Insular/Opercular Taste Cortex: Neuronal Representations of the Viscosity, Fat Texture, Grittiness, Temperature, and Taste of Foods J Neurophysiol, September 1, 2004; 92(3): 1685 - 1699. [Abstract] [Full Text] [PDF]

				A. Hennenlotter, U. Schroeder, P. Erhard, B. Haslinger, R. Stahl, A. Weindl, H. G. von Einsiedel, K. W. Lange, and A. O. Ceballos-Baumann Neural correlates associated with impaired disgust processing in pre-symptomatic Huntington's disease Brain, June 1, 2004; 127(6): 1446 - 1453. [Abstract] [Full Text] [PDF]

				I. E. de Araujo and E. T. Rolls Representation in the Human Brain of Food Texture and Oral Fat J. Neurosci., March 24, 2004; 24(12): 3086 - 3093. [Abstract] [Full Text] [PDF]

				E. T. Rolls, J. V. Verhagen, and M. Kadohisa Representations of the Texture of Food in the Primate Orbitofrontal Cortex: Neurons Responding to Viscosity, Grittiness, and Capsaicin J Neurophysiol, December 1, 2003; 90(6): 3711 - 3724. [Abstract] [Full Text] [PDF]

				J. V. Verhagen, E. T. Rolls, and M. Kadohisa Neurons in the Primate Orbitofrontal Cortex Respond to Fat Texture Independently of Viscosity J Neurophysiol, September 1, 2003; 90(3): 1514 - 1525. [Abstract] [Full Text] [PDF]

				I. E.T. de Araujo, M. L. Kringelbach, E. T. Rolls, and F. McGlone Human Cortical Responses to Water in the Mouth, and the Effects of Thirst J Neurophysiol, September 1, 2003; 90(3): 1865 - 1876. [Abstract] [Full Text] [PDF]

				E. T. Rolls, K. Inoue, and A. Browning Activity of Primate Subgenual Cingulate Cortex Neurons Is Related to Sleep J Neurophysiol, July 1, 2003; 90(1): 134 - 142. [Abstract] [Full Text] [PDF]

				S. P. Travers Quinine and citric acid elicit distinctive Fos-like immunoreactivity in the rat nucleus of the solitary tract Am J Physiol Regulatory Integrative Comp Physiol, June 1, 2002; 282(6): R1798 - R1810. [Abstract] [Full Text] [PDF]

				D. H. Zald, M. C. Hagen, and J. V. Pardo Neural Correlates of Tasting Concentrated Quinine and Sugar Solutions J Neurophysiol, February 1, 2002; 87(2): 1068 - 1075. [Abstract] [Full Text] [PDF]

				D. M. Small, R. J. Zatorre, and M. Jones-Gotman Increased intensity perception of aversive taste following right anteromedial temporal lobe removal in humans Brain, August 1, 2001; 124(8): 1566 - 1575. [Abstract] [Full Text] [PDF]

				E. T. Rolls The Rules of Formation of the Olfactory Representations Found in the Orbitofrontal Cortex Olfactory Areas in Primates Chem Senses, June 1, 2001; 26(5): 595 - 604. [Abstract] [Full Text] [PDF]

				B. Cerf-Ducastel, P.-F. Van de Moortele, P. MacLeod, D. Le Bihan, and A. Faurion Interaction of Gustatory and Lingual Somatosensory Perceptions at the Cortical Level in the Human: a Functional Magnetic Resonance Imaging Study Chem Senses, May 1, 2001; 26(4): 371 - 383. [Abstract] [Full Text] [PDF]

				J. O'Doherty, E. T. Rolls, S. Francis, R. Bowtell, and F. McGlone Representation of Pleasant and Aversive Taste in the Human Brain J Neurophysiol, March 1, 2001; 85(3): 1315 - 1321. [Abstract] [Full Text] [PDF]

				D. H. Zald and J. V. Pardo Cortical Activation Induced by Intraoral Stimulation with Water in Humans Chem Senses, June 1, 2000; 25(3): 267 - 275. [Abstract] [Full Text] [PDF]

ARTICLES

Gustatory responses in the frontal opercular cortex of the alert cynomolgus monkey

				E. T. Rolls The Orbitofrontal Cortex and Reward Cereb Cortex, March 1, 2000; 10(3): 284 - 294. [Abstract] [Full Text] [PDF]

				E. T. Rolls, H. D. Critchley, A. S. Browning, I. Hernadi, and L. Lenard Responses to the Sensory Properties of Fat of Neurons in the Primate Orbitofrontal Cortex J. Neurosci., February 15, 1999; 19(4): 1532 - 1540. [Abstract] [Full Text] [PDF]

				T. R. Scott, B. K. Giza, and J. Yan Gustatory Neural Coding in the Cortex of the Alert Cynomolgus Macaque: The Quality of Bitterness J Neurophysiol, January 1, 1999; 81(1): 60 - 71. [Abstract] [Full Text] [PDF]

				M. Chikama, N. R. McFarland, D. G. Amaral, and S. N. Haber Insular Cortical Projections to Functional Regions of the Striatum Correlate with Cortical Cytoarchitectonic Organization in the Primate J. Neurosci., December 15, 1997; 17(24): 9686 - 9705. [Abstract] [Full Text] [PDF]

				D. M. Small, M. Jones-Gotman, R. J. Zatorre, M. Petrides, and A. C. Evans A Role for the Right Anterior Temporal Lobe in Taste Quality Recognition J. Neurosci., July 1, 1997; 17(13): 5136 - 5142. [Abstract] [Full Text] [PDF]

				M. E. Frank, T. P. Hettinger, and A. E. Mott The Sense of Taste: Neurobiology, Aging, and Medication Effects Critical Reviews in Oral Biology & Medicine, January 1, 1992; 3(4): 371 - 393. [Abstract] [Full Text] [PDF]