Motion selectivity in macaque visual cortex. I. Mechanisms of direction and speed selectivity in extrastriate area MT

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Motion selectivity in macaque visual cortex. I. Mechanisms of direction and speed selectivity in extrastriate area MT

A. Mikami, W. T. Newsome and R. H. Wurtz

Mechanisms of direction selectivity and speed selectivity were studied in single neurons of the middle temporal visual area (MT) of behaving macaque monkeys. Visual stimuli were presented in both smooth and stroboscopic motion within a neuron's receptive field as the monkey fixated a stationary point of light. Direction selectivity, speed selectivity, and the spontaneous discharge characteristics of MT neurons in behaving monkeys were similar to those reported in previous studies in anesthetized monkeys. Stroboscopic motion stimuli were sequences of flashes characterized by the spatial and temporal intervals between each flash. The spatial and temporal intervals were systematically varied so that suppressive and facilitatory interactions could be studied in both the preferred and null directions. Suppression and facilitation were measured by subtracting the peak discharge rate elicited by a single flash from the peak discharge rate elicited by a stroboscopic train of flashes. The dominant mechanism of direction selectivity in MT was a pronounced suppression of discharge for motion in the null direction which we interpreted as inhibition. The inhibition was sufficiently potent to abolish the responses to single flashed stimuli when they were embedded in a series of flashes in the null direction, and it frequently reduced the neuronal discharge to a level below the spontaneous firing rate. Facilitation in the preferred direction was a prominent feature of the responses of some, but not all, MT neurons. The peak discharge rate for stroboscopic motion in the preferred direction was more than twice the peak rate to a single flash for approximately 50% of the neurons in our sample. The direction selectivity of most MT neurons showed the effects of both inhibitory and facilitatory mechanisms, and it was not possible to segregate MT neurons into distinct groups on the basis of these measures. Suppressive mechanisms contributed to speed tuning as well as direction tuning. The low-speed cutoff for motion in the preferred direction resulted from suppression in 82% of the neurons tested. The high-speed cutoff resulted from suppression in 32% of the neurons tested. The latter mechanism appeared to be distinct from the inhibitory mechanism which acted in the null direction in that large spatial intervals were required for its activation.

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				M. M. Churchland, N. J. Priebe, and S. G. Lisberger Comparison of the Spatial Limits on Direction Selectivity in Visual Areas MT and V1 J Neurophysiol, March 1, 2005; 93(3): 1235 - 1245. [Abstract] [Full Text] [PDF]

				C. C. Pack, J. N. Hunter, and R. T. Born Contrast Dependence of Suppressive Influences in Cortical Area MT of Alert Macaque J Neurophysiol, March 1, 2005; 93(3): 1809 - 1815. [Abstract] [Full Text] [PDF]

				D. Wegener, W. A. Freiwald, and A. K. Kreiter The Influence of Sustained Selective Attention on Stimulus Selectivity in Macaque Visual Area MT J. Neurosci., July 7, 2004; 24(27): 6106 - 6114. [Abstract] [Full Text] [PDF]

				B. J. A. Palanca and G. C. DeAngelis Macaque Middle Temporal Neurons Signal Depth in the Absence of Motion J. Neurosci., August 20, 2003; 23(20): 7647 - 7658. [Abstract] [Full Text] [PDF]

				G. C. DeAngelis and T. Uka Coding of Horizontal Disparity and Velocity by MT Neurons in the Alert Macaque J Neurophysiol, February 1, 2003; 89(2): 1094 - 1111. [Abstract] [Full Text] [PDF]

				M. M. Churchland and S. G. Lisberger Shifts in the Population Response in the Middle Temporal Visual Area Parallel Perceptual and Motor Illusions Produced by Apparent Motion J. Neurosci., December 1, 2001; 21(23): 9387 - 9402. [Abstract] [Full Text] [PDF]

				G. D. Horwitz and W. T. Newsome Target Selection for Saccadic Eye Movements: Direction-Selective Visual Responses in the Superior Colliculus J Neurophysiol, November 1, 2001; 86(5): 2527 - 2542. [Abstract] [Full Text] [PDF]

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				Y. Chen, K. Nakayama, D. L. Levy, S. Matthysse, and P. S. Holzman Psychophysical isolation of a motion-processing deficit in schizophrenics and their relatives and its association with impaired smooth pursuit PNAS, April 13, 1999; 96(8): 4724 - 4729. [Abstract] [Full Text] [PDF]

				Y. Chen, G. P. Palafox, K. Nakayama, D. L. Levy, S. Matthysse, and P. S. Holzman Motion Perception in Schizophrenia Arch Gen Psychiatry, February 1, 1999; 56(2): 149 - 154. [Abstract] [Full Text] [PDF]

				W. W. Wilson and W. E. O'Neill Auditory Motion Induces Directionally Dependent Receptive Field Shifts in Inferior Colliculus Neurons J Neurophysiol, April 1, 1998; 79(4): 2040 - 2062. [Abstract] [Full Text] [PDF]

				S. C. de Oliveira, A. Thiele, and K.-P. Hoffmann Synchronization of Neuronal Activity during Stimulus Expectation in a Direction Discrimination Task J. Neurosci., December 1, 1997; 17(23): 9248 - 9260. [Abstract] [Full Text] [PDF]

				J. M. Groh, R. T. Born, and W. T. Newsome How Is a Sensory Map Read Out? Effects of Microstimulation in Visual Area MT on Saccades and Smooth Pursuit Eye Movements J. Neurosci., June 1, 1997; 17(11): 4312 - 4330. [Abstract] [Full Text] [PDF]

				M. W. Greenlee and A. T. Smith Detection and Discrimination of First- and Second-Order Motion in Patients with Unilateral Brain Damage J. Neurosci., January 15, 1997; 17(2): 804 - 818. [Abstract] [Full Text] [PDF]

ARTICLES

Motion selectivity in macaque visual cortex. I. Mechanisms of direction and speed selectivity in extrastriate area MT