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虎蝾螈视网膜中水平细胞与视锥细胞之间反馈突触的输入-输出关系。

Input-output relations of the feedback synapse between horizontal cells and cones in the tiger salamander retina.

作者信息

Wu S M

机构信息

Cullen Eye Institute, Baylor College of Medicine, Houston, Texas 77030.

出版信息

J Neurophysiol. 1991 May;65(5):1197-206. doi: 10.1152/jn.1991.65.5.1197.

DOI:10.1152/jn.1991.65.5.1197
PMID:1651374
Abstract
  1. The input-output relation of the feedback synapse between horizontal cells (HCs) and cones was studied by simultaneously recording the light responses of the HCs and of cones the outer segments of which were truncated off. 2. The postsynaptic light response of the truncated cone was depolarizing and free of direct influence of photocurrents. These postsynaptic light responses were graded and sustained; their waveform resembled that of the HC light responses. 3. Input-output relation of the HC-cone feedback synapse was obtained by plotting the simultaneous voltage points of the HC and truncated cone light responses. At the resting potential of the cone (-40 mV), the voltage gain of the feedback synapse was about -0.33 when VHC = -20 mV and it was about -0.03 when VHC = -60 mV. 4. At more hyperpolarized cone voltages, the feedback signals in cones became smaller, and they reversed at about -67 mV. The voltage gain of the feedback synapse at VHC = -20 mV was about -0.23, -0.18, -0.07, and +0.2 when Vcone = -44.5, -52.5, -65, and -77.5 mV, respectively. 5. Light hyperpolarized the HC, which resulted in a conductance change (delta Gs) in cones. The cone conductance decreased progressively as the HCs were increasingly hyperpolarized, and delta Gs reached a maximum value of 0.93 nS when the HCs were hyperpolarized from -20 to -52 mV. 6. The peak light responses of intact cones were plotted against the peak HC light responses. This gives the relationship between the pre- and postsynaptic voltages of the cone-HC (forward) and HC-cone (feedback) synapses at any given light intensity. Combining this relationship with the input-output relations obtained at various voltages of the truncated cones allows the input-output relation of the feedback synapse for light-evoked signals to be obtained. 7. The input-output relation of the feedback synapse for light-evoked signals was bell-shaped, because the feedback light responses were controlled by two opposing factors: as the light became brighter, the postsynaptic conductance change increased, but the driving force decreased. 8. For light-evoked signals, the slope gain (slope of the input-output relation) of the HC-cone feedback synapse was negative (varied from -0.33 to 0) when VHC lay between -20 and -52 mV; and it was positive (0 to +0.8) when VHC lay between -52 and -72 mV. 9.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 通过同时记录水平细胞(HCs)和外段被截断的视锥细胞的光反应,研究了水平细胞与视锥细胞之间反馈突触的输入-输出关系。2. 截断视锥细胞的突触后光反应呈去极化,且不受光电流的直接影响。这些突触后光反应是分级且持续的;其波形类似于水平细胞的光反应波形。3. 通过绘制水平细胞和截断视锥细胞光反应的同步电压点,获得了水平细胞-视锥细胞反馈突触的输入-输出关系。在视锥细胞的静息电位(-40 mV)下,当VHC = -20 mV时,反馈突触的电压增益约为-0.33,当VHC = -60 mV时,约为-0.03。4. 在视锥细胞电压更超极化时,视锥细胞中的反馈信号变小,并在约-67 mV时反转。当Vcone = -44.5、-52.5、-65和-77.5 mV时,VHC = -20 mV时反馈突触的电压增益分别约为-0.23、-0.18、-0.07和+0.2。5. 光使水平细胞超极化,这导致视锥细胞中的电导变化(δGs)。随着水平细胞越来越超极化,视锥细胞电导逐渐降低,当水平细胞从-20 mV超极化到-52 mV时,δGs达到最大值0.93 nS。6. 将完整视锥细胞的峰值光反应与水平细胞的峰值光反应作图。这给出了在任何给定光强度下,视锥细胞-水平细胞(正向)和水平细胞-视锥细胞(反馈)突触的突触前和突触后电压之间的关系。将这种关系与在截断视锥细胞的各种电压下获得的输入-输出关系相结合,可得到光诱发信号的反馈突触的输入-输出关系。7. 光诱发信号的反馈突触的输入-输出关系呈钟形,因为反馈光反应受两个相反因素控制:随着光变亮,突触后电导变化增加,但驱动力减小。8. 对于光诱发信号,当VHC在-20至-52 mV之间时,水平细胞-视锥细胞反馈突触的斜率增益(输入-输出关系的斜率)为负(从-0.33变化到0);当VHC在-52至-72 mV之间时,斜率增益为正(0至+0.8)。9.(摘要截断于400字)

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