University of Bonn, Institute for Zoology, Bonn, Germany.
UNIC, CNRS, 1 Avenue de la Terrasse, Gif-sur Yvette, France.
PLoS One. 2018 Apr 11;13(4):e0194347. doi: 10.1371/journal.pone.0194347. eCollection 2018.
Mormyrid fish rely on reafferent input for active electrolocation. Their electrosensory input consists of phase and amplitude information. These are encoded by differently tuned receptor cells within the Mormyromasts, A- and B-cells, respectively, which are distributed over the animal's body. These convey their information to two topographically ordered medullary zones in the electrosensory lateral line lobe (ELL). The so-called medial zone receives only amplitude information, while the dorsolateral zone receives amplitude and phase information. Using both sources of information, Mormyrid fish can disambiguate electrical impedances. Where and how this disambiguation takes place is presently unclear. We here investigate phase-sensitivity downstream from the electroreceptors. We provide first evidence of phase-sensitivity in the medial zone of ELL. In this zone I-cells consistently decreased their rate to positive phase-shifts (6 of 20 cells) and increased their rate to negative shifts (11/20), while E-cells of the medial zone (3/9) responded oppositely to I-cells. In the dorsolateral zone the responses of E- and I-cells were opposite to those found in the medial zone. Tracer injections revealed interzonal projections that interconnect the dorsolateral and medial zones in a somatotopic manner. In summary, we show that phase information is processed differently in the dorsolateral and the medial zones. This is the first evidence for a mechanism that enhances the contrast between two parallel sensory channels in Mormyrid fish. This could be beneficial for impedance discrimination that ultimately must rely on a subtractive merging of these two sensory streams.
电鳗鱼依靠反馈输入来进行主动电定位。它们的电感觉输入由相位和幅度信息组成。这些信息分别由电鳗鱼的电感觉器官栉囊中具有不同调谐的 A 细胞和 B 细胞编码,这些细胞分布在动物的身体上。这些细胞将它们的信息传递到电感觉侧线叶中的两个拓扑有序的髓质区。所谓的内侧区只接收幅度信息,而背外侧区则接收幅度和相位信息。电鳗鱼利用这两种信息来源可以消除电导率的歧义。目前尚不清楚这种消除歧义发生的位置和方式。我们在这里研究了电感受器下游的相位敏感性。我们首次提供了电感觉器官中内侧区相位敏感性的证据。在这个区域,I 细胞一致地降低了对正相移的反应率(20 个细胞中的 6 个),并增加了对负相移的反应率(20 个细胞中的 11 个),而内侧区的 E 细胞(9 个中的 3 个)对 I 细胞的反应则相反。在背外侧区,E 和 I 细胞的反应与在内侧区的反应相反。示踪剂注射显示,两个区域之间存在区域间投射,以躯体图式的方式相互连接。总之,我们表明,相位信息在背外侧区和内侧区以不同的方式处理。这是第一个证明在电鳗鱼中增强两个平行感觉通道之间对比度的机制的证据。这对于阻抗识别可能是有益的,因为阻抗识别最终必须依赖于这两个感觉流的相减合并。
