Abstract

We propose to continue our integrated investigation of the neurobiology of early olfactory learning. Our focus will be on the neurotransmitter and neurotrophic mechanisms involved in the neurobehavioral changes within the rat olfactory bulb induced by early olfactory learning. Dr. Leon will address the role of noradrenaline in the formation and expression of early olfactory learning by determining: the response of olfactory bulb neurons to noradrenergic stimulation; the possibility of a transient expression of beta noradrenergic receptors in the developing bulb; the role of alpha noradrenergic receptors in the expression of the neurobehavioral response; the function of the conditioned increase in bulb noradrenaline; the mechanism underlying the termination of the sensitive period; whether noradrenaline is a common critical factor for different reinforcing stimulation; whether """"""""overstimulation"""""""" blocking of early olfactory learning is due to changes in noradrenergic responses. Dr. Gall will use the in situ hybridization technique to determine: the spatial localization within the olfactory bulb for both immediate early genes in response to odors presented under different stimulus conditions; the response to olfactory preference training; the dual response to novel and learned olfactory cues; the possible sharpening of the bulb response during development; the effects of early olfactory deprivation on subsequent olfactory bulb responses; whether changes in the immediate early genes can be linked to cellular changes in the expression of preproenkephalin and tyrosine hydroxylase. Dr. Neve will examine the role of GAP-43 in the early dopamine response of the bulb by: analyzing developing bulb for the expression of both GAP-43 and protein kinase C, a potential factor in the stabilization of GAP-43 mRNA; determining whether there is a change in GAP-43 and protein kinase C after early olfactory learning; changing the expression of GAP-43 in the bulb with a recombinant virus, then determining the change in dopamine release in response to early olfactory preference training; constructing transgenic mice that have a mutant form of GAP-43 to suppress dopamine release and then determining their response to olfactory preference training.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Program Projects (P01)
Project #
5P01HD024236-08
Application #
2025197
Study Section
Maternal and Child Health Research Committee (HDMC)
Project Start
1989-04-01
Project End
1998-11-30
Budget Start
1996-12-01
Budget End
1998-11-30
Support Year
8
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
University of California Irvine
Department
Biology
Type
Other Domestic Higher Education
DUNS #
161202122
City
Irvine
State
CA
Country
United States
Zip Code
92697

  Publications

Neve, R L; Geller, A I (1999) Genetic analysis of neuronal physiology with defective herpes simplex virus vectors. Adv Neurol 79:1027-32
Song, S; Wang, Y; Bak, S Y et al. (1998) Modulation of rat rotational behavior by direct gene transfer of constitutively active protein kinase C into nigrostriatal neurons. J Neurosci 18:4119-32
Johnson, B A; Woo, C C; Leon, M (1998) Spatial coding of odorant features in the glomerular layer of the rat olfactory bulb. J Comp Neurol 393:457-71
Ripellino, J A; Neve, R L; Howe, J R (1998) Expression and heteromeric interactions of non-N-methyl-D-aspartate glutamate receptor subunits in the developing and adult cerebellum. Neuroscience 82:485-97
Neve, R L; Howe, J R; Hong, S et al. (1997) Introduction of the glutamate receptor subunit 1 into motor neurons in vitro and in vivo using a recombinant herpes simplex virus. Neuroscience 79:435-47
McCollum, J F; Woo, C C; Leon, M (1997) Granule and mitral cell densities are unchanged following early olfactory preference training. Brain Res Dev Brain Res 99:118-20
Song, S; Wang, Y; Bak, S Y et al. (1997) An HSV-1 vector containing the rat tyrosine hydroxylase promoter enhances both long-term and cell type-specific expression in the midbrain. J Neurochem 68:1792-803
Tsai, K C; Cansino, V V; Kohn, D T et al. (1997) Post-transcriptional regulation of the GAP-43 gene by specific sequences in the 3' untranslated region of the mRNA. J Neurosci 17:1950-8
Hess, U S; Gall, C M; Granger, R et al. (1997) Differential patterns of c-fos mRNA expression in amygdala during successive stages of odor discrimination learning. Learn Mem 4:262-83
Hartley, D M; Neve, R L; Bryan, J et al. (1996) Expression of the calcium-binding protein, parvalbumin, in cultured cortical neurons using a HSV-1 vector system enhances NMDA neurotoxicity. Brain Res Mol Brain Res 40:285-96

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