Abstract

The ras oncogene-encoded p21 protein, vital in control of the cell cycle, becomes oncogenic when single amino acid substitutions (like Val-for-Gly 12) occur at critical positions in the polypeptide chain. Oncogenic, unlike normal, p21 causes cell transformation, maturation (meiosis) of Xenopus laevis oocytes and many human malignancies, making it important to devise ways to block its effects. Computer-based molecular modeling studies suggest that oncogenic amino acid substitutions cause changes in the conformation of domains of the protein. Synthetic peptides corresponding to three of these domains (35-47, 96-110 and 115-126) block oncogenic p21- but not insulin-activated normal p21-induced oocyte maturation. Val l2-p2l has unique direct interactions with jun and its kinase jun kinase (JNK), blocked by the 96-110 and 115-126 peptides. The JNK-jun pathway interacts strongly with the raf-MEK-MAP kinase (MAPK) pathway; dominant negative raf blocks JNK-induced maturation and a newly discovered JNK inhibitor, glutathione-S-transferase (GST), blocks raf-induced maturation. Since the x-ray structures of p21 bound to the ras binding domain of raf (RBD), SOS (guanine nucleotide exchange protein) and GAP (GTPase activating protein), have been determined, we will use molecular modeling studies to determine domains of these proteins that change conformation when bound to oncogenic p21, synthesize peptides corresponding to these domains and test their abilities to block Val 12-p2l selectively. All peptides found to block Val l2-p21 selectively in oocytes will be introduced into mammalian cancer cells either attached to leader sequences or encoded in plasmids to test their abilities to block cell proliferation. Similarly identified GST domains will be tested for their abilities to affect GST-JNK interactions. Since the Val 12-p2 1-induced raf and iNK pathways are closely linked, we will determine which proteins on each pathway cross-activate one another using protein-specific inhibitors that will also be assayed for their abilities to block the binding of Val 12-p21 to both raf and JNK.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
2R01CA042500-15
Application #
6399218
Study Section
Chemical Pathology Study Section (CPA)
Program Officer
Gallahan, Daniel L
Project Start
1988-09-30
Project End
2005-06-30
Budget Start
2001-07-01
Budget End
2002-06-30
Support Year
15
Fiscal Year
2001
Total Cost
$252,320
Indirect Cost

  Institution

Name
Suny Downstate Medical Center
Department
Pathology
Type
Schools of Medicine
DUNS #
068552207
City
Brooklyn
State
NY
Country
United States
Zip Code
11203

  Publications

Sarafraz-Yazdi, Ehsan; Bowne, Wilbur B; Adler, Victor et al. (2010) Anticancer peptide PNC-27 adopts an HDM-2-binding conformation and kills cancer cells by binding to HDM-2 in their membranes. Proc Natl Acad Sci U S A 107:1918-23
Deng, Lili; Boujdir, Mohamed; Tremontano, Anthony et al. (2009) A peptide from a ras effector-domain blocks ras-dependent cardiac hypertrophy in myocytes. Ann Clin Lab Sci 39:351-60
Bowne, Wilbur B; Sookraj, Kelley A; Vishnevetsky, Michael et al. (2008) The penetratin sequence in the anticancer PNC-28 peptide causes tumor cell necrosis rather than apoptosis of human pancreatic cancer cells. Ann Surg Oncol 15:3588-600
Bowne, Wilbur B; Michl, Josef; Bluth, Martin H et al. (2007) Novel peptides from the RAS-p21 and p53 proteins for the treatment of cancer. Cancer Ther 5B:331-344
Qu, Yongxia; Adler, Victor; Chu, Tearina et al. (2006) Two dual specificity kinases are preferentially induced by wild-type rather than by oncogenic RAS-P21 in Xenopus oocytes. Front Biosci 11:2420-7
Michl, Josef; Scharf, Bruce; Schmidt, Anna et al. (2006) PNC-28, a p53-derived peptide that is cytotoxic to cancer cells, blocks pancreatic cancer cell growth in vivo. Int J Cancer 119:1577-85
Rosal, Ramon; Brandt-Rauf, Paul; Pincus, Matthew R et al. (2005) The role of alpha-helical structure in p53 peptides as a determinant for their mechanism of cell death: necrosis versus apoptosis. Adv Drug Deliv Rev 57:653-60
Chie, Lyndon; Chung, Denise; Pincus, Matthew R (2005) Specificity of inhibition of ras-p21 signal transduction by peptides from GTPase activating protein (GAP) and the son-of sevenless (SOS) ras-specific guanine nucleotide exchange protein. Protein J 24:253-8
Smith, Steven; Hyde, Mark; Pincus, Matthew R (2005) Comparison of the predicted structures of loops in the ras-SOS protein bound to a single ras-p21 protein with the crystallographically determined structures in SOS bound to two ras-p21 proteins. Protein J 24:391-8
Adler, Victor; Qu, Yongxia; Smith, Steven J et al. (2005) Functional interactions of Raf and MEK with Jun-N-terminal kinase (JNK) result in a positive feedback loop on the oncogenic Ras signaling pathway. Biochemistry 44:10784-95

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