An Attention-Sensitive Memory Trace in Macaque MT Following Saccadic Eye Movements

We experience a visually stable world despite frequent retinal image displacements induced by eye, head, and body movements. The neural mechanisms underlying this remain unclear. One mechanism that may contribute is transsaccadic remapping, in which the responses of some neurons in various attention...

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Bibliographic Details
Published in:PLoS biology 2016-02, Vol.14 (2), p.e1002390-e1002390
Main Authors: Yao, Tao, Treue, Stefan, Krishna, B Suresh
Format: Article
Language:English
Subjects:
Animals
Attention
Attention - physiology
Biology and Life Sciences
Brain research
Eye movements
Hypotheses
Macaca mulatta - physiology
Macaca mulatta - psychology
Macaques
Male
Medicine and Health Sciences
Memory
Motion Perception
Neural circuitry
Neurons - physiology
Open access
Physiological aspects
Psychological aspects
R&D
Research & development
Saccades
Saccades (Eye movements)
Sensory perception
Social Sciences
Spatial Memory - physiology
Temporal Lobe - physiology
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Summary:We experience a visually stable world despite frequent retinal image displacements induced by eye, head, and body movements. The neural mechanisms underlying this remain unclear. One mechanism that may contribute is transsaccadic remapping, in which the responses of some neurons in various attentional, oculomotor, and visual brain areas appear to anticipate the consequences of saccades. The functional role of transsaccadic remapping is actively debated, and many of its key properties remain unknown. Here, recording from two monkeys trained to make a saccade while directing attention to one of two spatial locations, we show that neurons in the middle temporal area (MT), a key locus in the motion-processing pathway of humans and macaques, show a form of transsaccadic remapping called a memory trace. The memory trace in MT neurons is enhanced by the allocation of top-down spatial attention. Our data provide the first demonstration, to our knowledge, of the influence of top-down attention on the memory trace anywhere in the brain. We find evidence only for a small and transient effect of motion direction on the memory trace (and in only one of two monkeys), arguing against a role for MT in the theoretically critical yet empirically contentious phenomenon of spatiotopic feature-comparison and adaptation transfer across saccades. Our data support the hypothesis that transsaccadic remapping represents the shift of attentional pointers in a retinotopic map, so that relevant locations can be tracked and rapidly processed across saccades. Our results resolve important issues concerning the perisaccadic representation of visual stimuli in the dorsal stream and demonstrate a significant role for top-down attention in modulating this representation.
ISSN:1545-7885
1544-9173
1545-7885
DOI:10.1371/journal.pbio.1002390