The main objective of the proposed research is to identify chemically the presumptive primary afferent sensory transmitter(s) of the cochlea of the guinea pig and of the lateral-line organ of Xenopus laevis, the African clawed frog, and to characterize the biochemical systems associated with the presumptive transmitter(s). Analytical methods include: 1) high-resolution, high-performance liquid chromatography (hplc) with fluorescence detection, for determination of ortho-phthaldialdehyde/2-mercaptoethanol adducts of primary amines, 2) mass spectroscopy, for confirmation of chemical composition of hplc fractions, 3) two-dimensional, polyacrylamide-gel electrophoresis and column chromatography, for purification of laterl-line proteins, 4) radioligand-receptor binding assays, for characterization of neurotransmitter receptors of hair-cell fractions, 5) spectrophotometric and fluorometric assays, for determination of transmitter-related enzymes of hair cell fractions, and 6) a bioassay using Xenopus lateral line, for detecting transmitter-like activity. Preparative methods include: 1) a surgical approach to the guinea-pig cochlea and temporal bone, for collection of perilymph and cerebrospinal fluid from normal and hair-cell deficient (Waltzing) guinea pigs in the presence and absence of noise, before determining small-molecule content of the fluids, 2) dissection of stimulated or non-stimulated lyophilized Xenopus neuromast and guinea-pig auditory fractions, prior to determination of their small-molecule content, enzyme activity, and receptor content, and 3) the isolation, for chemical analysis, of synaptic vesicles from neuromasts of Xenopus. Using these methods, we plan to establish the identity, and presence in the lateral-line neuromast, of presumptive Xenopus lateral-line transmitter(s), it (their) associated receptors and synthesizing and degrading enzymes, and its (their) biological activity. We also plan to establish the identity, stimulated release into perilymph, and biological activity of presumptive guinea-pig cochlear transmitter(s). We further plan to identify chemically non-transmitter materials, and possibly efferent-transmitter candidates, that are released into perilymph during exposure of guinea pigs to noise at high levels. This predominantly biochemical approach should lead to the identification of peripheral neurotransmitter(s) of hearing and balance, and will suggest eventual therapies for transmitter-related hearing loss, tinnitus, and dizziness.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS016166-06
Application #
3396727
Study Section
Communication Sciences and Disorders (CMS)
Project Start
1980-05-01
Project End
1986-04-30
Budget Start
1985-05-01
Budget End
1986-04-30
Support Year
6
Fiscal Year
1985
Total Cost
Indirect Cost
Name
Wayne State University
Department
Type
Schools of Medicine
DUNS #
City
Detroit
State
MI
Country
United States
Zip Code
48202
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Khan, K M; Drescher, D G (1990) Proteins of the gelatinous layer of the trout saccular otolithic membrane. Hear Res 43:149-58
Drescher, D G; Khan, K M; Arden, R L et al. (1989) Protein associated with the sensory cell layer of the rainbow trout saccular macula. Brain Res 485:225-35
Drescher, M J; Drescher, D G; Hatfield, J S (1987) Potassium-evoked release of endogenous primary amine-containing compounds from the trout saccular macula and saccular nerve in vitro. Brain Res 417:39-50
Drescher, D G; Drescher, M J (1987) Spontaneous neural activity of a mechanoreceptive system is undiminished by replacement of external calcium with equimolar magnesium in the presence of EGTA. Life Sci 40:1371-7
Drescher, D G; Drescher, M J (1987) Calcium and magnesium dependence of spontaneous and evoked afferent neural activity in the lateral-line organ of Xenopus laevis. Comp Biochem Physiol A Comp Physiol 87:305-10
Drescher, M J; Drescher, D G (1987) Amino acids, including neurotransmitter candidates, in a hair cell-enriched fraction from the lateral line of Xenopus laevis. Comp Biochem Physiol A Comp Physiol 86:553-8
Potter, A J; Drescher, M J; Drescher, D G (1986) Potassium-stimulated efflux of radiolabeled products formed from L-[14C(U)]-glutamine in vitro by the saccule of the rainbow trout (Salmo gairdnerii R.). Comp Biochem Physiol A Comp Physiol 84:265-70