灵长类动物伞状神经节细胞的经典感受野周围主要由一条非γ-氨基丁酸能通路介导。
The classical receptive field surround of primate parasol ganglion cells is mediated primarily by a non-GABAergic pathway.
作者信息
McMahon Matthew J, Packer Orin S, Dacey Dennis M
机构信息
Department of Biological Structure, University of Washington, Seattle, Washington 98195, USA.
出版信息
J Neurosci. 2004 Apr 14;24(15):3736-45. doi: 10.1523/JNEUROSCI.5252-03.2004.
Abstract
Although the center-surround receptive field is a fundamental property of retinal ganglion cells, the circuitry that mediates surround inhibition remains controversial. We examined the contribution of horizontal cells and amacrine cells to the surround of parasol ganglion cells of macaque and baboon retina by measuring receptive field structure before and during the application of drugs that have been shown previously to affect surrounds in a range of mammalian and nonmammalian species. Carbenoxolone and cobalt, thought to attenuate feedback from horizontal cells to cones, severely reduced the surround. Tetrodotoxin, which blocks sodium spiking in amacrine cells, and picrotoxin, which blocks the inhibitory action of GABA, only slightly reduced the surround. These data are consistent with the hypothesis that the surrounds of light-adapted parasol ganglion cells are generated primarily by non-GABAergic horizontal cell feedback in the outer retina, with a small contribution from GABAergic amacrine cells of the inner retina.
摘要
尽管中心-周边感受野是视网膜神经节细胞的一个基本特性,但介导周边抑制的神经回路仍存在争议。我们通过测量在应用先前已证明会影响一系列哺乳动物和非哺乳动物物种周边的药物之前和期间的感受野结构,研究了水平细胞和无长突细胞对猕猴和狒狒视网膜伞状神经节细胞周边的贡献。被认为会减弱水平细胞向视锥细胞反馈的生胃酮和钴,显著降低了周边。阻断无长突细胞钠峰电位的河豚毒素和阻断GABA抑制作用的苦味毒,仅略微降低了周边。这些数据与以下假设一致:光适应的伞状神经节细胞的周边主要由外视网膜中非GABA能水平细胞的反馈产生,内视网膜中GABA能无长突细胞的贡献较小。
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