Neural Mechanisms Underlying Selectivity for the Rate and Direction of Frequency-Modulated Sweeps in the Inferior Colliculus of the Pallid Bat

doi:10.1152/jn.00021.2006

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Neural Mechanisms Underlying Selectivity for the Rate and Direction of Frequency-Modulated Sweeps in the Inferior Colliculus of the Pallid Bat

Zoltan M. Fuzessery, Marlin D. Richardson and Michael S. Coburn

Department of Zoology and Physiology, University of Wyoming, Laramie, Wyoming

Submitted 10 January 2006; accepted in final form 13 June 2006

This study describes mechanisms that underlie neuronal selectivityfor the direction and rate of frequency-modulated sweeps inthe central nucleus of the inferior colliculus (ICC) of thepallid bat (Antrozous pallidus). This ICC contains a high percentageof neurons (66%) that respond selectively to the downward sweepdirection of the bat's echolocation pulse. Some (19%) are specialiststhat respond only to downward sweeps. Most neurons (83%) arealso tuned to sweep rates. A two-tone inhibition paradigm wasused to describe inhibitory mechanisms that shape selectivityfor sweep direction and rate. Two different mechanisms can createsimilar rate tuning. The first is an early on-best frequencyinhibition that shapes duration tuning, which in turn determinesrate tuning. In most neurons that are not duration tuned, adelayed high-frequency inhibition creates rate tuning. Theseneurons respond to fast sweep rates, but are inhibited as rateslows, and delayed inhibition overlaps excitation. In theseneurons, starting a downward sweep within the excitatory tuningcurve eliminates rate tuning. However, if rate tuning is shapedby duration tuning, this manipulation has no effect. Selectivityfor the downward sweep direction is created by an early low-frequencyinhibition that prevents responses to upward sweeps. In additionto this asymmetry in arrival times of low- and high-frequencyinhibitions, the bandwidth of the low-frequency sideband wasbroader. Bandwidth influences the arrival time of inhibitionduring an FM sweep because a broader sideband will be encounteredsooner. These findings show that similar spectrotemporal filterscan be created by different mechanisms.

Address for reprint requests and other correspondence: Z. M. Fuzessery, Department of Zoology and Physiology, University of Wyoming, 1000 E. University Ave. Dept. 3166, Laramie, WY 82071 (E-mail: zmf{at}uwyo.edu)

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				S. V. Voytenko and A. V. Galazyuk Intracellular Recording Reveals Temporal Integration in Inferior Colliculus Neurons of Awake Bats J Neurophysiol, February 1, 2007; 97(2): 1368 - 1378. [Abstract] [Full Text] [PDF]

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