Organization of response areas in ferret primary auditory cortex

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Organization of response areas in ferret primary auditory cortex

S. A. Shamma, J. W. Fleshman, P. R. Wiser and H. Versnel
Electrical Engineering Department, University of Maryland Institute for Advanced Computer Studies and Systems Research Center, College Park 20742.

1. We studied the topographic organization of the response areas obtained from single- and multiunit recordings along the isofrequency planes of the primary auditory cortex in the barbiturate-anesthetized ferret. 2. Using a two-tone stimulus, we determined the excitatory and inhibitory portions of the response areas and then parameterized them in terms of an asymmetry index. The index measures the balance of excitatory and inhibitory influences around the best frequency (BF). 3. The sensitivity of responses to the direction of a frequency-modulated (FM) tone was tested and found to correlate strongly with the asymmetry index of the response areas. Specifically, cells with strong inhibition from frequencies above the BF preferred upward sweeps, and those from frequencies below the BF preferred downward sweeps. 4. Responses to spectrally shaped noise were also consistent with the asymmetry of the response areas. For instance, cells that were strongly inhibited by frequencies higher than the BF responded best to stimuli that contained least spectral energy above the BF, i.e., stimuli with the opposite asymmetry. 5. Columnar organization of the response area types was demonstrated in 66 single units from 16 penetrations. Consistent with this finding, it was also shown that response area asymmetry measured from recordings of a cluster of cells corresponded closely with those measured from its single-unit constituents. Thus, in a local region, most cells exhibited similar response area types and other response features, e.g., FM directional sensitivity. 6. The distribution of the asymmetry index values along the isofrequency planes revealed systematic changes in the symmetry of the response areas. At the center, response areas with narrow and symmetric inhibitory sidebands predominated. These gave way to asymmetric inhibition, with high-frequency inhibition (relative to the BF) becoming more effective caudally and low-frequency inhibition more effective rostrally. These response types tended to cluster along repeated bands that paralleled the tonotopic axis. 7. Response features that correlated with the response area types were also mapped along the isofrequency planes. Thus, in four animals, a map of FM directional sensitivity was shown to be superimposed on the response area map. Similarly, it was demonstrated in six animals that the spectral gradient of the most effective noise stimulus varied systematically along the isofrequency planes. 8. One functional implication of the response area organization is that cortical responses encode the locally averaged gradient of the acoustic spectrum by their differential distribution along the isofrequency planes. This enhances the representation of such features as the symmetry of spectral peaks and edges and the spectral envelope.(ABSTRACT TRUNCATED AT 400 WORDS)

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				S. Sadagopan and X. Wang Level Invariant Representation of Sounds by Populations of Neurons in Primary Auditory Cortex J. Neurosci., March 26, 2008; 28(13): 3415 - 3426. [Abstract] [Full Text] [PDF]

				P. K. Pandya, D. L. Rathbun, R. Moucha, N. D. Engineer, and M. P. Kilgard Spectral and Temporal Processing in Rat Posterior Auditory Cortex Cereb Cortex, February 1, 2008; 18(2): 301 - 314. [Abstract] [Full Text] [PDF]

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				C. A. Atencio, D. T. Blake, F. Strata, S. W. Cheung, M. M. Merzenich, and C. E. Schreiner Frequency-Modulation Encoding in the Primary Auditory Cortex of the Awake Owl Monkey J Neurophysiol, October 1, 2007; 98(4): 2182 - 2195. [Abstract] [Full Text] [PDF]

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				J. Z. Simon, D. A. Depireux, D. J. Klein, J. B. Fritz, and S. A. Shamma Temporal symmetry in primary auditory cortex: implications for cortical connectivity. Neural Comput., March 1, 2007; 19(3): 583 - 638. [Abstract] [Full Text] [PDF]

				Y. E. Cohen, F. Theunissen, B. E. Russ, and P. Gill Acoustic Features of Rhesus Vocalizations and Their Representation in the Ventrolateral Prefrontal Cortex J Neurophysiol, February 1, 2007; 97(2): 1470 - 1484. [Abstract] [Full Text] [PDF]

				K. N. O'Connor, C. I. Petkov, and M. L. Sutter Adaptive Stimulus Optimization for Auditory Cortical Neurons J Neurophysiol, December 1, 2005; 94(6): 4051 - 4067. [Abstract] [Full Text] [PDF]

				J. K. Bizley, F. R. Nodal, I. Nelken, and A. J. King Functional Organization of Ferret Auditory Cortex Cereb Cortex, October 1, 2005; 15(10): 1637 - 1653. [Abstract] [Full Text] [PDF]

				B. Godey, C. A. Atencio, B. H. Bonham, C. E. Schreiner, and S. W. Cheung Functional Organization of Squirrel Monkey Primary Auditory Cortex: Responses to Frequency-Modulation Sweeps J Neurophysiol, August 1, 2005; 94(2): 1299 - 1311. [Abstract] [Full Text] [PDF]

				F. T. Husain, T. P. Lozito, A. Ulloa, and B. Horwitz Investigating the Neural Basis of the Auditory Continuity Illusion J. Cogn. Neurosci., August 1, 2005; 17(8): 1275 - 1292. [Abstract] [Full Text] [PDF]

				T. D. Mrsic-Flogel, A. J. King, and J. W. H. Schnupp Encoding of Virtual Acoustic Space Stimuli by Neurons in Ferret Primary Auditory Cortex J Neurophysiol, June 1, 2005; 93(6): 3489 - 3503. [Abstract] [Full Text] [PDF]

				B. Tian and J. P. Rauschecker Processing of Frequency-Modulated Sounds in the Lateral Auditory Belt Cortex of the Rhesus Monkey J Neurophysiol, November 1, 2004; 92(5): 2993 - 3013. [Abstract] [Full Text] [PDF]

				I. Nelken, J. K. Bizley, F. R. Nodal, B. Ahmed, J. W. H. Schnupp, and A. J. King Large-Scale Organization of Ferret Auditory Cortex Revealed Using Continuous Acquisition of Intrinsic Optical Signals J Neurophysiol, October 1, 2004; 92(4): 2574 - 2588. [Abstract] [Full Text] [PDF]

				K. Imaizumi, N. J. Priebe, P. A. C. Crum, P. H. Bedenbaugh, S. W. Cheung, and C. E. Schreiner Modular Functional Organization of Cat Anterior Auditory Field J Neurophysiol, July 1, 2004; 92(1): 444 - 457. [Abstract] [Full Text] [PDF]

				M. Elhilali, J. B. Fritz, D. J. Klein, J. Z. Simon, and S. A. Shamma Dynamics of Precise Spike Timing in Primary Auditory Cortex J. Neurosci., February 4, 2004; 24(5): 1159 - 1172. [Abstract] [Full Text] [PDF]

				A. Fishbach, Y. Yeshurun, and I. Nelken Neural Model for Physiological Responses to Frequency and Amplitude Transitions Uncovers Topographical Order in the Auditory Cortex J Neurophysiol, December 1, 2003; 90(6): 3663 - 3678. [Abstract] [Full Text] [PDF]

				D. L. Barbour and X. Wang Auditory Cortical Responses Elicited in Awake Primates by Random Spectrum Stimuli J. Neurosci., August 6, 2003; 23(18): 7194 - 7206. [Abstract] [Full Text] [PDF]

				S. C. Kadia and X. Wang Spectral Integration in A1 of Awake Primates: Neurons With Single- and Multipeaked Tuning Characteristics J Neurophysiol, March 1, 2003; 89(3): 1603 - 1622. [Abstract] [Full Text] [PDF]

ARTICLES

Organization of response areas in ferret primary auditory cortex

				H. Versnel, J. E. Mossop, T. D. Mrsic-Flogel, B. Ahmed, and D. R. Moore Optical Imaging of Intrinsic Signals in Ferret Auditory Cortex: Responses to Narrowband Sound Stimuli J Neurophysiol, September 1, 2002; 88(3): 1545 - 1558. [Abstract] [Full Text] [PDF]

				M. I. Sanderson and J. A. Simmons Selectivity for Echo Spectral Interference and Delay in the Auditory Cortex of the Big Brown Bat Eptesicus fuscus J Neurophysiol, June 1, 2002; 87(6): 2823 - 2834. [Abstract] [Full Text] [PDF]

				D. P. Buxhoeveden and M. F. Casanova The minicolumn hypothesis in neuroscience Brain, May 1, 2002; 125(5): 935 - 951. [Abstract] [Full Text] [PDF]

				S. Sugimoto, Y. Hosokawa, J. Horikawa, M. Nasu, and I. Taniguchi Spatial Focusing of Neuronal Responses Induced by Asynchronous Two-tone Stimuli in the Guinea Pig Auditory Cortex Cereb Cortex, May 1, 2002; 12(5): 506 - 514. [Abstract] [Full Text] [PDF]

				H. L. Read, J. A. Winer, and C. E. Schreiner Modular organization of intrinsic connections associated with spectral tuning in cat auditory cortex PNAS, July 3, 2001; 98(14): 8042 - 8047. [Abstract] [Full Text] [PDF]

				W. C. Loftus and M. L. Sutter Spectrotemporal Organization of Excitatory and Inhibitory Receptive Fields of Cat Posterior Auditory Field Neurons J Neurophysiol, July 1, 2001; 86(1): 475 - 491. [Abstract] [Full Text] [PDF]

				D. A. Depireux, J. Z. Simon, D. J. Klein, and S. A. Shamma Spectro-Temporal Response Field Characterization With Dynamic Ripples in Ferret Primary Auditory Cortex J Neurophysiol, March 1, 2001; 85(3): 1220 - 1234. [Abstract] [Full Text] [PDF]

				M. W. Spitzer, M. B. Calford, J. C. Clarey, J. D. Pettigrew, and A. W. Roe Spontaneous and Stimulus-Evoked Intrinsic Optical Signals in Primary Auditory Cortex of the Cat J Neurophysiol, March 1, 2001; 85(3): 1283 - 1298. [Abstract] [Full Text] [PDF]

				E. Diesch and T. Luce Topographic and Temporal Indices of Vowel Spectral Envelope Extraction in the Human Auditory Cortex J. Cogn. Neurosci., September 1, 2000; 12(5): 878 - 893. [Abstract] [Full Text]

				T. Lu and X. Wang Temporal Discharge Patterns Evoked by Rapid Sequences of Wide- and Narrowband Clicks in the Primary Auditory Cortex of Cat J Neurophysiol, July 1, 2000; 84(1): 236 - 246. [Abstract] [Full Text] [PDF]