Contribution of inhibitory mechanisms to direction selectivity and
response normalization in macaque middle temporal area
A. Thiele, C. Distler, H. Korbmacher & K.-P. Hoffmann
Proc.Natl.Acad.Sci.USA, 101:9810-9815, 2004
- Inhibitory mechanisms contribute to directional tuning in primary visual cortex, and it has been suggested
that, in the primate brain, the middle temporal area (MT) inherits most of its directional information from primary
visual cortex (V1). To test the validity of this hierarchical scheme, we investigated whether directional tuning
in MT was present upon blockade of local gamma-aminobutyratergic (GABAergic) inhibitory mechanisms. Direction selectivity
during the initial 50 ms after response onset was abolished in many MT cells when the local inhibitory network
was inactivated whereas direction selectivity in later response periods was largely unaffected. Thus, direction
selectivity during early response periods is often generated autonomously within MT whereas direction selectivity
during later response periods is either inherited from other visual areas or locally mediated by mechanisms other
than gamma-aminobutyric acid type A receptor (GABA(A)) inhibition. GABAergic inhibition may also mediate contrast
normalization. Our data suggest that GABA(A) inhibition implements a local direction-selective static nonlinearity,
rather than a full normalization in MT. These findings put constraints on strict hierarchical models according
to which MT performs more complex computations based on local motion measurements provided by earlier areas, arguing
for more distributed and independent information processing.
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