In Vivo Two-photon Calcium Imaging in Dendrites of Rabies Virus-labeled V1 Corticothalamic Neurons

被引:0
作者
Yajie Tang
Liang Li
Leqiang Sun
Jinsong Yu
Zhe Hu
Kaiqi Lian
Gang Cao
Jinxia Dai
机构
[1] Anyang Institute of Technology,Academician Workstation of Animal Disease Control and Nutrition Immunity in Henan Province, Henan Joint International Research Laboratory of Veterinary Biologics Research and Application
[2] Huazhong Agricultural University,State Key Laboratory of Agricultural Microbiology
[3] Huazhong Agricultural University,College of Veterinary Medicine
[4] Huazhong Agricultural University,Biomedical Center
[5] Huazhong Agricultural University,Key Laboratory of Development of Veterinary Diagnostic Products, Ministry of Agriculture, College of Veterinary Medicine
来源
Neuroscience Bulletin | 2020年 / 36卷
关键词
Ca; imaging; Cranial window; Two-photon microscopy; Rabies virus; Dendrite; Primary visual cortex; Corticothalamic projection; Neural circuit tracing;
D O I
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中图分类号
学科分类号
摘要
Monitoring neuronal activity in vivo is critical to understanding the physiological or pathological functions of the brain. Two-photon Ca2+ imaging in vivo using a cranial window and specific neuronal labeling enables real-time, in situ, and long-term imaging of the living brain. Here, we constructed a recombinant rabies virus containing the Ca2+ indicator GCaMP6s along with the fluorescent protein DsRed2 as a baseline reference to ensure GCaMP6s signal reliability. This functional tracer was applied to retrogradely label specific V1–thalamus circuits and detect spontaneous Ca2+ activity in the dendrites of V1 corticothalamic neurons by in vivo two-photon Ca2+ imaging. Notably, we were able to record single-spine spontaneous Ca2+ activity in specific circuits. Distinct spontaneous Ca2+ dynamics in dendrites of V1 corticothalamic neurons were found for different V1–thalamus circuits. Our method can be applied to monitor Ca2+ dynamics in specific input circuits in vivo, and contribute to functional studies of defined neural circuits and the dissection of functional circuit connections.
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页码:545 / 553
页数:8
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