Zhang Ai-Jun, Wu Samuel M
Cullen Eye Institute, Baylor College of Medicine, Houston, TX 77030, USA.
J Neurosci. 2009 Jan 21;29(3):789-97. doi: 10.1523/JNEUROSCI.4984-08.2009.
Center-surround antagonistic receptive field (CSARF) organization is the basic synaptic circuit that serves as elementary building blocks for spatial information processing in the visual system. Cells with such receptive fields converge into higher-order visual neurons to form more complex receptive fields. Retinal bipolar cells (BCs) are the first neurons along the visual pathway that exhibit CSARF organization. BCs have been classified according to their response polarities and rod/cone inputs, and they project signals to target cells at different sublaminae of the inner plexiform layer. On the other hand, CSARFs of various types of BCs have been assumed be organized the same way. Here we examined center and surround responses of over 250 salamander BCs, and demonstrated that different types of BCs exhibit different patterns of dye coupling, receptive field center size, surround response strength, and conductance changes associated with center and surround responses. We show that BC receptive field center sizes varied with the degree of BC-BC coupling, and that surround responses of different BCs are mediated by different combinations of five lateral synaptic pathways mediated by the horizontal cells and amacrine cells. The finding of heterogeneous receptive field circuitry fundamentally challenges the common assumption that CSARFs of different subtypes of visual neurons are mediated by the same synaptic pathways. BCs carrying different visual signals use different synaptic circuits to process spatial information, allowing shape and contrast computation be differentially modulated by various lighting and adaptation conditions.
中心-周边拮抗感受野(CSARF)组织是视觉系统中用于空间信息处理的基本突触回路,是构成视觉系统的基本组成部分。具有这种感受野的细胞会聚到高阶视觉神经元中,形成更复杂的感受野。视网膜双极细胞(BCs)是视觉通路中最早表现出CSARF组织的神经元。BCs已根据其反应极性和视杆/视锥输入进行了分类,并且它们将信号投射到内网状层不同亚层的靶细胞。另一方面,各种类型BCs的CSARFs被认为是以相同的方式组织的。在这里,我们检查了250多个蝾螈BCs的中心和周边反应,并证明不同类型的BCs表现出不同的染料偶联模式、感受野中心大小、周边反应强度以及与中心和周边反应相关的电导变化。我们表明,BC感受野中心大小随BC-BC偶联程度而变化,并且不同BCs的周边反应由水平细胞和无长突细胞介导的五条横向突触通路的不同组合介导。不同亚型视觉神经元的CSARFs由相同突触通路介导这一普遍假设受到了不同感受野电路异质性这一发现的根本挑战BCs携带不同的视觉信号,使用不同的突触回路来处理空间信息,从而使形状和对比度计算能够在各种光照和适应条件下受到不同的调制。