Acoustic response characteristics of posterior intralaminar nucleus of auditory thalamus in mice

Jingshan Zou; Yiwei Wang; Rongrong Han; Kexin Yuan; Limin Zhao

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Acoustic response characteristics of posterior intralaminar nucleus of auditory thalamus in mice

VernacularTitle: 小鼠听觉丘脑后内侧核的声音反应特性
Author: Jingshan ZOU ¹ ; Yiwei WANG ² ; Rongrong HAN ³ ; Kexin YUAN ² ; Limin ZHAO ⁴
Author Information

1. Clinical Medical College, Weifang Medical University, Weifang 261053, China
2. Department of Biomedical Engineering, Tsinghua University, Beijing 100084, China
3. Department of Otorhinolaryngology, Weifang People′s Hospital, Weifang 261000, China
4. Department of Otorhinolaryngology, Affiliated Hospital of Weifang Medical University, Weifang 261031, China
Publication Type:Journal Article
Keywords: Thalamic nuclei; Fiber optic technology; Acoustic stimulation; Mice
From: Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2019;54(9):670-675
CountryChina
Language:Chinese
Abstract: Objective:To study the response characteristics of the posterior intralaminar nucleus (PIN) of auditory thalamus in VGluT2-Cre transgenic adult mice when exposed to white noise and 10K pure tone stimulation.
Methods:All adult male Vglut2-Cre mice (8-12 weeks) were used in this study between Oct, 2017 and Oct, 2018. Using the calcium signal fiber photometry method, optic fiber was employed to locate on PIN by injecting AAV-hSyn-DIO-GCaMP6m virus, and thereafter, the activity of the target cluster neurons during different acoustic stimuli was recorded. Matlab was used for data processing and statistical analysis.
Results:(1)In both white noise and 10 kHz pure tone as a continuous three-second stimulation, the peak amplitude of calcium signal activity generated in PIN by white noise was superior to that of pure tone, the statistic result showed significantly difference (n=6, t=2.404, P=0.037 1) . (2)In addition, when white noise and 10K pure tone played as consecutive 3 or 5 pips within three-second stimulation, the stimulus-following ability in a consecutive 3 pulses play within 3 seconds was far better than a consecutive 5 pips play within 3 seconds (in both white noise and 10 kHz pure tone), yet consecutive 3 pips play showed greater signal attenuation speed than that in consecutive 5 pips play, the statistic result showed significantly difference (n=6, t=2.748 P=0.033 4) .(3)Regardless of the intra-group comparisons between white noise and 10 kHz pure tone stimulation, PIN showed better signal response in a consecutive 3 pips play than consecutive 5 pips play or a continuous three-second stimulation. When came to the statistical analysis, the acoustic response degree of a continuous three-second stimulation was an intermediate between two others, both consecutive 3 or 5 pips play showed significantly difference.
Conclusions:The results suggest that under the same acoustic intensity, VGluT2-Cre transgenic adult mice′s PIN shows greater signal response in white noise than pure tone. PIN shows greater signal attenuation to repetition play of 10 kHz pure tone, which implies PIN shows stronger adaptation to 10 kHz pure tone than to white noise. Lastly, PIN is more responsive to a complex sound information (white noise) than to simple sound information (pure tone).