Zakon H H
J Neurophysiol. 1983 Jun;49(6):1410-27. doi: 10.1152/jn.1983.49.6.1410.
In the frog, most neurons in the primary (dorsal medullary nucleus, DMN) and secondary (superior olivary nucleus, SO) auditory nuclei have V-shaped tuning curves, almost as narrowly tuned as those recorded in the nerve. Thus, the innervation pattern is such that if more than one excitatory afferent innervates a postsynaptic cell, they must all possess similar best frequencies (BFs). Similarly, binaural cells in these nuclei display matched frequency selectivities when acoustically stimulated via either ear. The VIIIth nerve was unilaterally severed and allowed to regenerate back into the DMN. At various postoperative intervals, extracellular single-unit recordings were made in the SO contralateral to the regenerated nerve, as that nucleus receives its dominant excitatory input (approximately 80%) from the contralateral side. Recordings were also made in the SO of a number of unoperated control animals. Functional reinnervation commenced between 4 and 5 wk postoperatively and by 6 wk, a normal innervation density, as judged by physiological criteria, was achieved. Single units of any best frequency represented within the frog's two auditory papillae could be recorded during earliest reinnervation. In general, the tuning curves of both monaural and binaural cells were V shaped in the 6 wk regenerates. Although many tuning curves were narrowly tuned (Q10dB greater than 1.0) as in unoperated animals, some were very broadly tuned (Q10dB less than 0.5). The mean Q10dB value for all contralaterally excited cells was 1.45 +/- 0.77 (SD), which was significantly lower than that of SO units in unoperated frogs (Q10dB = 1.66 +/- 0.52 (SD)). Binaural cells often had mismatched BFs and tuning curves. By 8 wk after nerve transection, tuning curves were as narrow as in unoperated animals (Q10dB = 1.64 +/- 0.68 (SD)), and the BFs of binaural cells evinced a greater match than at 6 wk. By 12 wk postoperatively, V-shaped tuning curves were still as narrow as in controls (Q10dB = 1.71 +/- 0.69 (SD)), and the tuning curves and BFs of binaural cells were well matched again. At all postoperative intervals, about 10% of the tuning curves in the SO of regenerates were W shaped. This was never seen in normal animals. The return of narrow V-shaped tuning curves in the majority of neurons and the recurrence of matched binaural cells in the SO are interpreted as evidence of specificity for potential postsynaptic targets in the DMN by regenerating auditory afferents.
在青蛙中,初级(背侧延髓核,DMN)和次级(上橄榄核,SO)听觉核中的大多数神经元具有V形调谐曲线,其调谐几乎与神经中记录的一样窄。因此,其神经支配模式是,如果不止一个兴奋性传入神经支配一个突触后细胞,那么它们都必须具有相似的最佳频率(BFs)。同样,当通过任一只耳朵进行声学刺激时,这些核中的双耳细胞表现出匹配的频率选择性。第八对神经被单侧切断,并让其再生回到DMN。在术后不同时间间隔,在再生神经对侧的SO中进行细胞外单单位记录,因为该核从对侧接收其主要的兴奋性输入(约80%)。也对一些未手术的对照动物的SO进行记录。功能性再支配在术后4至5周开始,到6周时,根据生理学标准判断,达到了正常的神经支配密度。在最早的再支配期间,可以记录到青蛙两个听乳头内代表任何最佳频率的单单位。一般来说,在6周再生的动物中,单耳和双耳细胞的调谐曲线都是V形的。虽然许多调谐曲线像未手术动物一样窄调谐(Q10dB大于1.0),但有些则是非常宽带谐(Q10dB小于0.5)。所有对侧兴奋细胞的平均Q10dB值为1.45±0.77(标准差),这显著低于未手术青蛙的SO单位(Q10dB = 1.66±0.52(标准差))。双耳细胞通常具有不匹配的BFs和调谐曲线。到神经切断后8周,调谐曲线与未手术动物一样窄(Q10dB = 1.64±0.68(标准差)),并且双耳细胞的BFs比6周时表现出更好的匹配。到术后12周,V形调谐曲线仍然与对照一样窄(Q10dB = 1.71±0.69(标准差)),并且双耳细胞的调谐曲线和BFs再次很好地匹配。在所有术后时间间隔,再生动物SO中约10%的调谐曲线呈W形。这在正常动物中从未见过。大多数神经元中窄V形调谐曲线的恢复以及SO中匹配双耳细胞的再次出现被解释为再生听觉传入神经对DMN中潜在突触后靶点具有特异性的证据。
