Abstract

The inferior colliculus (IC) is a critical structure that integrates signals from the lower brainstem before projecting the information towards the auditory thalamus and cortex. We propose that functional zones in the IC may be created by specific combinations of inputs from brainstem sources.
Aim 1 will use anatomical and physiological methods in the cat to identify functional zones in the IC based on three major excitatory inputs. We will test the hypothesis that ipsilateral projects from medial superior olive (MSO) and contralateral projects from the lateral SO (LSO) are anatomically segregated. We will show that the inputs from MSO and MSO and cochlear nucleus also define separate functional zones. Moreover, we will physiologically identify the functional zones related to MSO, LSO, and cochlear nucleus inputs.
Aim 2 will identify functional zones in the IC based on the integration of excitatory and inhibitory inputs. Inhibitory inputs to the IC create inhibitory side bands and transform the response to interaural time differences (ITD). Major sources of inhibitory inputs are the dorsal nucleus of the lateral lemniscus (DNLL), the ipsilateral project from LSO, and local inhibitory IC neurons. We will test the hypothesis that the projections from the ipsilateral MSO and the contralateral DNLL have a common target in the IC. We will also show that the inputs from the contralateral DNLL and ipsilateral LSO do not converge. We will identify local circuit neurons in the IC. Finally, we will test the hypothesis that some ITD responses in IC will be altered by suppression of DNLL or inhibitory local IC inputs.
In aim 3, we will identify functional cell types in the IC. We will show that the combination of K+ channels or their subcellular localization are related to cell type and GABA content in the IC. Finally, we will demonstrate that neurons with different firing patterns and whole-cell currents are related to different patterns of K+ channel and/or GABA expression.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC000189-20
Application #
6476042
Study Section
Special Emphasis Panel (ZRG1-IFCN-6 (01))
Program Officer
Luethke, Lynn E
Project Start
1982-04-01
Project End
2003-11-30
Budget Start
2001-12-01
Budget End
2002-11-30
Support Year
20
Fiscal Year
2002
Total Cost
$291,666
Indirect Cost

  Institution

Name
University of Connecticut
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
City
Farmington
State
CT
Country
United States
Zip Code
06030

  Publications

Ono, Munenori; Bishop, Deborah C; Oliver, Douglas L (2017) Identified GABAergic and Glutamatergic Neurons in the Mouse Inferior Colliculus Share Similar Response Properties. J Neurosci 37:8952-8964
Ono, Munenori; Bishop, Deborah C; Oliver, Douglas L (2016) Long-Lasting Sound-Evoked Afterdischarge in the Auditory Midbrain. Sci Rep 6:20757
Ito, Tetsufumi; Bishop, Deborah C; Oliver, Douglas L (2016) Functional organization of the local circuit in the inferior colliculus. Anat Sci Int 91:22-34
Ono, Munenori; Ito, Tetsufumi (2015) Functional organization of the mammalian auditory midbrain. J Physiol Sci 65:499-506
Ito, Tetsufumi; Hioki, Hiroyuki; Sohn, Jaerin et al. (2015) Convergence of Lemniscal and Local Excitatory Inputs on Large GABAergic Tectothalamic Neurons. J Comp Neurol 523:2277-96
Ayala, Yaneri A; Udeh, Adanna; Dutta, Kelsey et al. (2015) Differences in the strength of cortical and brainstem inputs to SSA and non-SSA neurons in the inferior colliculus. Sci Rep 5:10383
Choy Buentello, David; Bishop, Deborah C; Oliver, Douglas L (2015) Differential distribution of GABA and glycine terminals in the inferior colliculus of rat and mouse. J Comp Neurol 523:2683-97
Ito, Tetsufumi; Oliver, Douglas L (2014) Local and commissural IC neurons make axosomatic inputs on large GABAergic tectothalamic neurons. J Comp Neurol 522:3539-54
Ono, Munenori; Oliver, Douglas L (2014) The balance of excitatory and inhibitory synaptic inputs for coding sound location. J Neurosci 34:3779-92
Ono, Munenori; Oliver, Douglas L (2014) Asymmetric temporal interactions of sound-evoked excitatory and inhibitory inputs in the mouse auditory midbrain. J Physiol 592:3647-69

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