Abstract

There is an increasing body of data demonstrating a close link between biogenic amines and neuropeptides in the central nervous system. To more clearly define anatomical distributions and relationships and functional interactions of substances within these groups, a series of complementary experiments spanning a broad spectrum of disciplinary approaches is proposed. The studies have the following specific goals: (1) to ascertain the relationship between peptide-sensitive neurons and brain aminergic systems utilizing receptor autoradiographic techniques, chemical lesioning procedures, and turnover measurements; (2) to determine the organization of neurons with the brainstem, combining immunocytochemical tract-tracing and receptor methodologies, focusing on the qualitative aspects of the microcircuitry and efferent connectivities of peptidergic substances and their potential actions and interactions with aminergic neurons; (3) to determine the role played by peptides in translating the influence of stress to modulate activity of the mesocortical and mesolimbic dopamine systems utilizing HPLC with electrochemical detection; (4) to determine how coerulospinal norepinephrine and neuropeptides as well as serotonin and co-released neuropeptides interact to affect motoneuron and interneuron excitability utilizing microiontophoresis and intracellular recording techniques. By employing a multidisciplinary approach that includes techniques of behavioral neuroscience, biochemistry, electrophysiology, neuroanatomy and pharmacology in a tightly integrated group of projects, the program has the opportunity to make significant headway towards an understanding of amine-peptide interaction.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Program Projects (P01)
Project #
5P01NS024388-02
Application #
3100140
Study Section
(SRC)
Project Start
1986-12-01
Project End
1989-11-30
Budget Start
1987-12-01
Budget End
1988-11-30
Support Year
2
Fiscal Year
1988
Total Cost
Indirect Cost

  Institution

Name
Washington State University
Department
Type
Schools of Veterinary Medicine
DUNS #
041485301
City
Pullman
State
WA
Country
United States
Zip Code
99164

  Publications

White, S R; Fung, S J; Jackson, D A et al. (1996) Serotonin, norepinephrine and associated neuropeptides: effects on somatic motoneuron excitability. Prog Brain Res 107:183-99
Sampson, J B; Rosen, H; Beckman, J S (1996) Peroxynitrite-dependent tyrosine nitration catalyzed by superoxide dismutase, myeloperoxidase, and horseradish peroxidase. Methods Enzymol 269:210-18
Zhuo, H; Fung, S J; Reddy, V K et al. (1992) Immunohistochemical evidence for coexistence of methionine-enkephalin and tyrosine hydroxylase in neurons of the locus coeruleus complex projecting to the spinal cord of the cat. J Chem Neuroanat 5:1-10
Radi, R; Beckman, J S; Bush, K M et al. (1991) Peroxynitrite-induced membrane lipid peroxidation: the cytotoxic potential of superoxide and nitric oxide. Arch Biochem Biophys 288:481-7
Rowe, B P; Grove, K L; Saylor, D L et al. (1991) Discrimination of angiotensin II receptor subtype distribution in the rat brain using non-peptidic receptor antagonists. Regul Pept 33:45-53
Radi, R; Beckman, J S; Bush, K M et al. (1991) Peroxynitrite oxidation of sulfhydryls. The cytotoxic potential of superoxide and nitric oxide. J Biol Chem 266:4244-50
Speth, R C; Rowe, B P; Grove, K L et al. (1991) Sulfhydryl reducing agents distinguish two subtypes of angiotensin II receptors in the rat brain. Brain Res 548:1-8
Grove, K L; Cook, V I; Speth, R C (1991) Angiotensin II receptors in the ventral portion of the bed nucleus of the stria terminalis. Neuroendocrinology 53:339-43
Heimer, L; Zahm, D S; Churchill, L et al. (1991) Specificity in the projection patterns of accumbal core and shell in the rat. Neuroscience 41:89-125
Fung, S J; Manzoni, D; Chan, J Y et al. (1991) Locus coeruleus control of spinal motor output. Prog Brain Res 88:395-409

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