Abstract

The overall goal of this project has been to determine the sequence of events leading from the initial interaction of phorbol esters (PEs) with a cell to later effects of these tumor promoters on expression of specific cell products. We have used a pair of EL4 mouse thymona cell lines, one of which produces T Cell Growth Factor (TCGF = Interleukin 2) in response to PEs and the other which is unresponsive, to dissect specific steps in the sequence. Accumulating evidence, from our lab and others, supports the probable identity of the PE receptor (PE-R) with the calcium/phospholipid-dependent protein kinase C (PK-C). Induction of TCGF Production appears to require a transcriptional event. We are now addressing the steps between interaction of PE with PK-C and generation of a signal in the nucleus for stimulation of TCGF production. Two major projects will be pursued. I) The PK-C/PE-R molecule will be studied in detail to determine whether any differences in the enzyme structure, stability, activation, or subcellular localization can be detected between PE-responsive and -nonresponsive cells. This project will involve purification of the enzyme from both cell lines, analysis by peptide mapping, determination of phosphorylation state and activation, generation of monoclonal antibodies, and use of the antibodies for subcellular localization studies. Project II will focus on identifying PK-C substrates which may be involved in stimulating TCGF production. Potential substrates in cytosol have already been identified in in vitro studies and several prominent differences between sensitive and resistant cells have been noted. In vivo 32P labeling studies will be carried out next to determine which PK-C substrates are phosphorylated in response to PE treatment of cells. The identity of important substrates (eg, those which differ in the two cell lines) will then be determined by Western blotting and immunoprecipitation with antisera to suspected candidates. Included among the candidates to be considered will be several cell surface or intracellular receptors (eg, those for TCGF, insulin, transferrin, retinoic acid) and several oncogene products (eg, ras, abl, c-src, myb, myc). A third, smaller project will be directed at determining whether reactive oxygen species are involved in the PE effects and, if so, how that system might interface with the PK-C/phosphorylation effects.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM031184-05
Application #
3279110
Study Section
Biochemistry Study Section (BIO)
Project Start
1982-07-01
Project End
1988-06-30
Budget Start
1986-07-01
Budget End
1987-06-30
Support Year
5
Fiscal Year
1986
Total Cost
Indirect Cost

  Institution

Name
University of Virginia
Department
Type
Schools of Medicine
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Huang, Yueming; Li, Liaoliao; Washington, Jacqueline M et al. (2011) Inhibition of isoflurane-induced increase of cell-surface redistribution and activity of glutamate transporter type 3 by serine 465 sequence-specific peptides. Eur J Pharmacol 655:16-22
Merrick, Ellen C; Kalmar, Christopher L; Snyder, Sandy L et al. (2010) The importance of serine 161 in the sodium channel beta3 subunit for modulation of Na(V)1.2 gating. Pflugers Arch 460:743-53
Rajagopal, S; Fang, H; Oronce, C I A et al. (2009) Site-specific regulation of CA(V)2.2 channels by protein kinase C isozymes betaII and epsilon. Neuroscience 159:618-28
Rajagopal, Senthilkumar; Fang, Hongyu; Patanavanich, Saharat et al. (2008) Protein kinase C isozyme-specific potentiation of expressed Ca v 2.3 currents by acetyl-beta-methylcholine and phorbol-12-myristate, 13-acetate. Brain Res 1210:1-10
Dehlin, Eva; Liu, Jianhua; Yun, Samuel H et al. (2008) Regulation of ghrelin structure and membrane binding by phosphorylation. Peptides 29:904-11
Solodukhin, Alexander S; Kretsinger, Robert H; Sando, Julianne J (2007) Initial three-dimensional reconstructions of protein kinase C delta from two-dimensional crystals on lipid monolayers. Cell Signal 19:2035-45
Fang, Hongyu; Franke, Ruthie; Patanavanich, Saharat et al. (2005) Role of alpha1 2.3 subunit I-II linker sites in the enhancement of Ca(v) 2.3 current by phorbol 12-myristate 13-acetate and acetyl-beta-methylcholine. J Biol Chem 280:23559-65
Kamatchi, Ganesan L; Franke, Ruthie; Lynch 3rd, Carl et al. (2004) Identification of sites responsible for potentiation of type 2.3 calcium currents by acetyl-beta-methylcholine. J Biol Chem 279:4102-9
Sando, Julianne J (2003) Complexities in protein kinase C activity assays: an introduction. Methods Mol Biol 233:45-61
Solodukhin, Alexander S; Caldwell, Heather L; Sando, Julianne J et al. (2002) Two-dimensional crystal structures of protein kinase C-delta, its regulatory domain, and the enzyme complexed with myelin basic protein. Biophys J 82:2700-8

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