Journal article
Evidence for multiple sensory circuits in the brain arising from the respiratory system: an anterograde viral tract tracing study in rodents
AE McGovern, N Davis-Poynter, SK Yang, DG Simmons, MJ Farrell, SB Mazzone
Brain Structure and Function | SPRINGER HEIDELBERG | Published : 2014
Abstract
Complex sensations accompany the activation of sensory neurons within the respiratory system, yet little is known about the organization of sensory pathways in the brain that mediate these sensations. In the present study, we employ anterograde viral neuroanatomical tract tracing with isogenic self-reporting recombinants of HSV-1 strain H129 to map the higher brain regions in receipt of vagal sensory neurons arising from the trachea versus the lungs, and single-cell PCR to characterize the phenotype of sensory neurons arising from these two divisions of the respiratory tree. The results suggest that the upper and lower airways are predominantly innervated by sensory neurons derived from the ..
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Grants
Awarded by National Health and Medical Research Council
Funding Acknowledgements
This research was supported by grants to Dr Mazzone and Dr Farrell from the National Health and Medical Research Council (NHMRC) of Australia [566734, 454776, 1025589]. The authors would like to thank Professor Lynn Enquist and Dr Halina Staniszewska Goraczniak (Princeton University, Princeton, NJ, USA) for their generosity in supplying the original wild-type H129 strain of HSV-1 and to Professor Stacey Efstathiou (University of Cambridge, UK) for supplying the tdTomato expression cassette.