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Keith.Parker

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Name: Keith Parker

Title: Associate Professor

Email: keith.parker@umontana.edu

Phone: 406-243-4235

Office: SB 271

Lab Phone: 406-243-6498

Lab: SB 263

Background

An undergraduate degree in Psychology at Montana State University in Bozeman triggered Keith Parker’s interest in the nervous system and led to graduate work in pharmacology at UCSF, where he completed his Ph.D. He then pursued two post-doctoral experiences in Denver, first at the Department of Pharmacology, the University of Colorado Health ScienceCenter, and second at the Department of Chemistry, the University of Denver. He has been at The University of Montana since 1993.

 

Research Statement

Research in the Parker laboratory centers on the molecular pharmacology of serotonin receptors, especially those which may be involved in nervous system disorders such as migraine headache, anxiety, and panic. Recent work has utilized synthetic peptide probes of the interface between the human 5HT1a receptor and the G protein coupled signal transduction system. Cloned receptors and G proteins are obtained from serially cultured cell lines. Structure-activity studies based upon a parent intracellular loop 3 peptide have utilized both binding and functional second messenger formats. Ultimately, the probes will be useful in multidimensional NMR studies in which the peptide-G protein surface will serve as a model of the native receptor-G protein coupling and activation sequence. The 5HT1a receptor is a member of the large family of seven transmembrane domain, G protein coupled neurotransmitter and hormone receptors. Understanding of the structural characteristics of these receptors is converging from a variety of experimental approaches. Work in the Parker laboratory in conjunction with collaborators provides information which will aid in identifying similarities and differences between individual receptors in this biologically conserved group of signaling molecules. Although this work is conducted at the basic pharmacology level, new drugs may be developed since the receptor/G protein interface is a potential pharmacological target.

Additionally, Parker, co-workers, and multiple collaborators work in the realm of ethnopharmacology. Natural products from diverse sources are assayed against cloned serotonin receptors available from cell culture in the laboratory. Information from receptor binding determinations is used to prioritize lead extracts which are then fractionated to identify and characterize active principles. Biological actvity of successive fractions is followed via repeated receptor binding determinations, with eventual analysis of agonist/antagonist properties using signal transduction properties. Development of novel prophylactic anti-migraine drugs is the long-term, applied goal of this research.

 

Publications

Hall, B., Burnett, A., Christians, A., Halley, C., Goldstein, E., Thiagaraj, H.V., and Parker, K.K. “Thermodynamics of Peptide and Non-Peptide Interactions with the Human 5HT1a Receptor.” Submitted to Pharmacology, 2010.

Nieh, M.T., and Parker, K.K. "Spearmint (MENTHA SPICATALAMIACEAE) As a Potential Antimigraine Remedy: A Personal Anecdote." (scroll to page 1162). J. Alt. Compl. Med. 13 (10): 1162-1163, 2007.

Thiagaraj H.V., Ortiz T.C., Devereaux M.C. Jr., Seaver B., Hall B., and Parker K.K. “Regulation of G Proteins by Human 5-HT1a Receptor TM3/i2 and TM5/i3 Loop Peptides.” Neurochemistry International, 50: 109-118, 2007.

Thiagaraj H.V., Thompson C.M., Russo E.B., Burnett A., Goldstein E., and Parker K.K. “Binding Properties of Dipropyltryptamine at the Human 5HT1a Receptors.“ Pharmacology, 74: 193-199, 2005.

Smith J.R., Thiagaraj H.V., Seaver B., and Parker K.K. “Differential Activity of Lipoic Acid Enantiomers in Cell Culture.” J. Herbal Pharmacotherapy, 5 (3): 43-54, 2005.

Russo E.B., Burnett A., Hall B., and Parker K.K. "Agonistic Properties of Cannabidiol at 5-HT1A Receptors." Neurochemical Research, 30 (8): 1037-1043, 2005.

Stierle A.A., Stierle D.B., Goldstein E., Parker K., Bugni T., Baarson C., Gress J., and Blake D. “A Novel 5-HT Receptor Ligand & Related Cytotoxic Compounds.from an Acid Mine Waste Extremophile.” J. Natural Products, 66 (8): 1097-1100, 2003.

Thiagaraj H.V., Ortiz T.C., Burnett A., and Parker K.K. “G Protein Coupling and Activation Characteristics of Intracellular Loops 2 and 3 of the 5HT1a Receptor.” Trends Comp. Biochemistry and Physiology, 9: 117-129, 2002.


The University of Montana-Missoula
The Department of Biomedical & Pharmaceutical Sciences
32 Campus Drive, Skaggs 395
Missoula, MT 59812-1552
Phone 406.243.4767 Fax: 406.243.5228
Email: biomed@umontana.edu

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