Howard Hughes Medical Institute and Laboratory of Sensory Neuroscience, The Rockefeller University, New York, New York 10065, USA.
J Neurosci. 2012 Sep 26;32(39):13433-8. doi: 10.1523/JNEUROSCI.1246-12.2012.
The activity of auditory afferent fibers depends strongly on the frequency of stimulation. Although the bullfrog's amphibian papilla lacks the flexible basilar membrane that effects tuning in mammals, its afferents display comparable frequency selectivity. Seeking additional mechanisms of tuning in this organ, we monitored the synaptic output of hair cells by measuring changes in their membrane capacitance during sinusoidal electrical stimulation at various frequencies. Using perforated-patch recordings, we found that individual hair cells displayed frequency selectivity in synaptic exocytosis within the frequency range sensed by the amphibian papilla. Moreover, each cell's tuning varied in accordance with its tonotopic position. Using confocal imaging, we observed a tonotopic gradient in the concentration of proteinaceous Ca(2+) buffers. A model for synaptic release suggests that this gradient maintains the sharpness of tuning. We conclude that hair cells of the amphibian papilla use synaptic tuning as an additional mechanism for sharpening their frequency selectivity.
听觉传入纤维的活动强烈依赖于刺激的频率。尽管牛蛙的两栖类耳柱骨缺乏影响哺乳动物调谐的弹性基底膜,但它的传入神经表现出类似的频率选择性。为了在这个器官中寻找额外的调谐机制,我们通过在各种频率的正弦电刺激期间测量毛细胞的膜电容变化来监测毛细胞的突触输出。使用穿孔贴片记录,我们发现单个毛细胞在由两栖类耳柱骨感知的频率范围内显示出突触胞吐作用的频率选择性。此外,每个细胞的调谐与其音位位置一致。使用共聚焦成像,我们观察到蛋白质钙(Ca2+)缓冲剂的浓度存在音位梯度。一个突触释放模型表明,这种梯度保持了调谐的锐度。我们得出结论,两栖类耳柱骨的毛细胞使用突触调谐作为进一步提高其频率选择性的机制。