Abstract

The major, long term objective of this laboratory is to develop active site directed photoaffinity probes for important nucleotides and to expand this to include polynucleotides of known sequence which contain photoactive bases at specific locations. Photoaffinity probes are useful when they interact with enzymes either behaving as biological mimics or inhibitors of the effect produced by the natural compound. In this proposal, the following enzyme systems will be studied using previously synthesized photoprobes as well as new photoprobes not previously reported. The energetics of activation of Adenylate cyclase (AC) will be studied using Alpha32P and Gamma32P labeled 8N-3GTP (mimic of GTP) and various probes of TNP-GTP (a potent fluorescent inhibitor of AC) modified to contain a photoactive group and non-hydrolyzable phosphates. Also, [32P]8N3NAD will be used with cholera toxin and islet activating protein to attempt to 8N-3ADP-ribosylate the stimulatory and inhibitory GTP regulatory proteins of AC. Similar studies will be done on the ras oncogene product, p21. The catalytic subunit of type II cAMP dependent protein kinase (C-II) will be studied with regards to its autophosphorylation and photolabeling by [Gamma32P]8N-3dATP which appears to be more effective at autophosphorylation than [Gamma32P]ATP. Similar studies will be done on the cGMP dependent kinase, 3-PGA, pyruvate and creatine kinases. Newly synthesized 5-N3-dUTP is enzymatically incorporated by PolI into DNA in place of dTTP resulting in photoactive DNA. Similar 5-N-3U probes will be tested as substrates and active site probes of AMV reverse transcriptase and other DNA and RNA polymerases. 5N3-UDPG will be used to study glycogen synthetase. Both chemical and enzymatic synthesis of photoactive polynucleotides sequences will be done. The most obvious health related application of this research is the detection of viral induced proteins, some of which are oncogene protein products. Other uses are the detection of enzymes that are potential markers of neoplasia such as terminal deoxynucleotidyl transferase, adenosine deaminase, thymidlate kinase, etc., using Mug quantities of tissue or cells.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM035766-03
Application #
3288952
Study Section
Physiological Chemistry Study Section (PC)
Project Start
1985-07-01
Project End
1991-02-28
Budget Start
1987-03-01
Budget End
1988-02-29
Support Year
3
Fiscal Year
1987
Total Cost
Indirect Cost

  Institution

Name
University of Kentucky
Department
Type
Schools of Arts and Sciences
DUNS #
832127323
City
Lexington
State
KY
Country
United States
Zip Code
40506

  Publications

Rajagopalan, K; Watt, D S; Haley, B E (1999) Orientation of GTP and ADP within their respective binding sites in glutamate dehydrogenase. Eur J Biochem 265:564-71
David, S; Shoemaker, M; Haley, B E (1998) Abnormal properties of creatine kinase in Alzheimer's disease brain: correlation of reduced enzyme activity and active site photolabeling with aberrant cytosol-membrane partitioning. Brain Res Mol Brain Res 54:276-87
Pendergrass, J C; Haley, B E; Vimy, M J et al. (1997) Mercury vapor inhalation inhibits binding of GTP to tubulin in rat brain: similarity to a molecular lesion in Alzheimer diseased brain. Neurotoxicology 18:315-24
Pavlinkova, G; Rajagopalan, K; Muller, S et al. (1997) Site-specific photobiotinylation of immunoglobulins, fragments and light chain dimers. J Immunol Methods 201:77-88
Olcott, M C; Haley, B E (1997) Identification of an adenine-nucleotide-binding site on interferon alpha2. Eur J Biochem 247:762-9
McGuire, M; Carroll, L J; Yankie, L et al. (1996) Determination of the nucleotide binding site within Clostridium symbiosum pyruvate phosphate dikinase by photoaffinity labeling, site-directed mutagenesis, and structural analysis. Biochemistry 35:8544-52
Shoemaker, M T; Haley, B E (1996) Identification of adenine binding domain peptides of the ADP regulatory site within glutamate dehydrogenase. Bioconjug Chem 7:302-10
Sankaran, B; Chavan, A J; Haley, B E (1996) Identification of adenine binding domain peptides of the NADP+ active site within porcine heart NADP(+)-dependent isocitrate dehydrogenase. Biochemistry 35:13501-10
Doukas, M; Chavan, A; Gass, C et al. (1995) Inhibition of granulocyte-macrophage colony-stimulating factor (GM-CSF) activity by suramin and suramin analogues is correlated to interaction with the GM-CSF nucleotide-binding site. Cancer Res 55:5161-3
Bhattacharyya, A K; Chavan, A J; Shuffett, M et al. (1994) Photoaffinity labeling of rat liver microsomal steroid 5 alpha-reductase by 2-azido-NADP+. Steroids 59:634-41

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