Grantyn R, Grantyn A, Schierwagen A
Exp Brain Res. 1983;50(2-3):377-91. doi: 10.1007/BF00239204.
Intracellular recording and staining with HRP were used to characterize cat superior colliculus neurons with identified projection into the tecto-bulbo-spinal tract (TBSNs). TBSNs are large multipolar neurons with heavy stem dendrites. First and second order dendrites bifurcate with an average branch power n of about 3/2. More peripheral branch points have n less than 1.5. Input resistances of TBSNs range from 0.9 to 4.6 M omega. Most TBSNs display 'anomalous rectification'. Based on Rall's steady-state cable equations, input resistances were calculated for 3 TBSNs labelled with HRP. Assuming a specific membrane resistance of 2,300-2,600 omega cm2 the/calculated values agree well with the experimentally determined estimates from another set of non-stained TBSNs. Membrane time constants of TBSNs range from 3.0 to 5.6 ms. The electrotonic length was calculated using the ratio tau 0/tau 1. The respective average value was 1.13. TBSNs respond to orthodromic, antidromic and direct stimulation with action potentials of 60-80 mV, composed of IS- and SD-components. The critical interval for IS-SD-invasion was on average 1.6 ms. Spike decomposition occurs usually at M-level. The postspike conductance increase underlying hyperpolarizing afterpotentials (HAP) decays exponentially, with the time constants tau F = 1.5 ms and tau S = 13 ms. The HAP was equilibrated at membrane potentials of -73 to -90 mV. When tested by antidromic stimuli at varying intervals most TBSNs show very poor "summation" of HAPS. A pronounced depolarizing hump (DD) follows antidromic action potentials. Discharging at short intervals leads to a substantial increase and prolongation of DD. This apparent DD-potentiation is interpreted as a phenomenon secondary to the reduction of hyperpolarizing currents. In response to directly injected currents, TBSNs discharge with frequencies up to 1,100 imp/s. The frequency-current curves of TBSNs are characterized by 3 ranges. The average f-i-slopes of the adapted discharge were 19.2 imp/s/nA and 56.4 imp/s/nA for the 1st and 2nd range, respectively. At intermediate current intensities (2nd range) TBSNs discharge in groups of 2 to 7 action potentials, following each other at intervals of 1.0-2.8 ms. The spike groups are separated by pauses of 3.5-6.3 ms duration. The transition from 1st (low frequency continuous) discharge range to 2nd (grouped) discharge range is related to the appearance of extra-spikes. Extra-spikes are generated from a decreased firing level, from the peak of an enhanced DD.(ABSTRACT TRUNCATED AT 400 WORDS)
采用细胞内记录和辣根过氧化物酶(HRP)染色法,对投射至顶盖 - 延髓 - 脊髓束(TBSNs)的猫上丘神经元进行特征描述。TBSNs是具有粗大主干树突的大型多极神经元。一级和二级树突分支,平均分支幂n约为3/2。更外周的分支点n小于1.5。TBSNs的输入电阻范围为0.9至4.6兆欧。大多数TBSNs表现出“反常整流”。基于拉尔的稳态电缆方程,计算了3个用HRP标记的TBSNs的输入电阻。假设特定膜电阻为2300 - 2600欧·平方厘米,计算值与另一组未染色TBSNs的实验测定值吻合良好。TBSNs的膜时间常数范围为3.0至5.6毫秒。用电紧张长度比tau 0/tau 1计算电紧张长度。各自的平均值为1.13。TBSNs对顺向、逆向和直接刺激产生60 - 80毫伏的动作电位反应,由IS和SD成分组成。IS - SD侵入的临界间隔平均为1.6毫秒。峰电位分解通常发生在M水平。超极化后电位(HAP)背后的峰电位后电导增加呈指数衰减,时间常数tau F = 1.5毫秒,tau S = 13毫秒。HAP在膜电位为 - 73至 - 90毫伏时达到平衡。当用不同间隔的逆向刺激进行测试时,大多数TBSNs的HAP“总和”非常差。逆向动作电位后跟随一个明显的去极化波峰(DD)。短间隔放电会导致DD大幅增加和延长。这种明显的DD增强被解释为超极化电流减少的继发现象。对直接注入的电流,TBSNs以高达1100次/秒的频率放电。TBSNs的频率 - 电流曲线有3个范围。适应放电的平均f - i斜率在第一和第二范围分别为19.2次/秒/纳安和56.4次/秒/纳安。在中等电流强度(第二范围)时,TBSNs以2至7个动作电位为一组放电,间隔为1.0 - 2.8毫秒。峰电位组之间有3.5 - 6.3毫秒的暂停。从第一(低频连续)放电范围到第二(成组)放电范围的转变与额外峰电位的出现有关。额外峰电位从降低的放电水平、增强的DD峰值处产生。(摘要截断于400字)
