The developing gustatory system is characterized by impressive structural and functional changes. The central taste pathway in rodents is especially plastic during normal development, even at the first synaptic relay. Structurally, the terminations (i.e., terminal fields) of neurons carrying taste information from taste buds to the nucleus of the solitary tract (NST) in the medulla are reduced in size, or ?pruned?, to about half of their size -- beginning just before weaning and extending for about 10 days after weaning. Functionally, the period of ?pruning? occurs coincident with the increase in taste-elicited neural activity in gustatory nerves, suggesting a requisite activity-dependent component. Moreover, experimental manipulations of neural activity and the animal?s dietary history during development interrupts the normal ?pruning? of terminal fields, indicating that both activity-dependent and activity-independent factors play a role in the developmental process of circuit refinement. The long-term goal of this project is to understand how the central gustatory system is assembled and then refined by experience.
The specific aims of this proposal examine 1) how neurons that innervate single taste buds on the anterior 2/3 of the tongue map onto the NST and how the projections change during normal development and in adult mice that have altered neural activity throughout development or an altered dietary history, and 2) how the neuro-immune molecular cascade operating during normal development is interrupted in mice that have altered neural activity or an altered dietary history.
The aims of the project will be addressed through coordinated techniques of single taste bud labels, peripheral taste nerve recordings, central nervous system tract tracing, extensive analyses of synaptic elements at the light and electron microscopic level, and optogenetic recovery of function experiments. These studies will provide new and important information about the development and plasticity of the central gustatory system, the interplay between the immune and gustatory systems during development, and more broadly, they will be useful in determining the role that the maternal diet and taste-elicited activity have on organizing the developing sense of taste.

Public Health Relevance

One of the fundamental questions in neuroscience is how circuits in the brain are formed during development and how they are modified by experience. The proposed research program seeks to define fundamental aspects of how circuit development in the gustatory brainstem is influenced by neural activity and by non- activity dependent factors. Since taste plays a key role in food acceptance and rejection, our work may lead to new insights into how preferences and aversions are formed during development and how modifiable these circuits are through experience.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC000407-32
Application #
9889940
Study Section
Somatosensory and Chemosensory Systems Study Section (SCS)
Program Officer
Sullivan, Susan L
Project Start
1986-08-01
Project End
2023-03-31
Budget Start
2020-04-01
Budget End
2021-03-31
Support Year
32
Fiscal Year
2020
Total Cost
Indirect Cost
Name
University of Virginia
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Collins, L N; Hill, D L; Brunjes, P C (2018) Myelination of the developing lateral olfactory tract and anterior commissure. J Comp Neurol 526:1843-1858
Sun, Chengsan; Krimm, Robin; Hill, David L (2018) Maintenance of Mouse Gustatory Terminal Field Organization is Dependent on BDNF at Adulthood. J Neurosci :
Sun, Chengsan; Hummler, Edith; Hill, David L (2017) Selective Deletion of Sodium Salt Taste during Development Leads to Expanded Terminal Fields of Gustatory Nerves in the Adult Mouse Nucleus of the Solitary Tract. J Neurosci 37:660-672
Skyberg, Rolf; Sun, Chengsan; Hill, David L (2017) Maintenance of Mouse Gustatory Terminal Field Organization Is Disrupted following Selective Removal of Peripheral Sodium Salt Taste Activity at Adulthood. J Neurosci 37:7619-7630
Dvoryanchikov, Gennady; Hernandez, Damian; Roebber, Jennifer K et al. (2017) Transcriptomes and neurotransmitter profiles of classes of gustatory and somatosensory neurons in the geniculate ganglion. Nat Commun 8:760
Meng, Lingbin; Huang, Tao; Sun, Chengsan et al. (2017) BDNF is required for taste axon regeneration following unilateral chorda tympani nerve section. Exp Neurol 293:27-42
Meng, Lingbin; Ohman-Gault, Lisa; Ma, Liqun et al. (2015) Taste Bud-Derived BDNF Is Required to Maintain Normal Amounts of Innervation to Adult Taste Buds. eNeuro 2:
Sun, Chengsan; Dayal, Arjun; Hill, David L (2015) Expanded terminal fields of gustatory nerves accompany embryonic BDNF overexpression in mouse oral epithelia. J Neurosci 35:409-21
Graham, Dustin M; Sun, Chengsan; Hill, David L (2014) Temporal signatures of taste quality driven by active sensing. J Neurosci 34:7398-411
Wang, Siting; Corson, James; Hill, David et al. (2012) Postnatal development of chorda tympani axons in the rat nucleus of the solitary tract. J Comp Neurol 520:3217-35

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