This is a request to analyze the mechanism of cell cycle regulation by cell adhesion. The applicant has found that cell adhesion regulates G1 cell cycle progression at multiple steps. Specifically, cell adhesion regulates the transcription of cyclins A and D, the translation of cyclin D, and the activations of cyclins D/cdk4/6 and cyclin E/cdk2 kinase activities. He now proposes to extend these studies by a detailed analysis of the effects of cell adhesion on the cyclin D1 promoter. These analyses will include the mutational analysis of the relevant promoter structure, an analysis of biosynthesis of specific CRE binding proteins. The latter is motivated by preliminary data that suggests that the CRE in the cyclin D1 promoter is critical for adhesion regulated transcription. Secondly, the effect of cell adhesion on the translation of cyclin D1 will be examined. Specifically the applicant hypothesizes that PHAS-I dephosphorylation results in its binding to the eIF-4e to prevent formation of initiation complex. His further hypothesis, that this complex is specifically required for the translation of mRNA's with stem loop structures in their five prime untranslated region. A computer analysis of cyclin D1 has identified such a potential stem loop structure. Thus, he will examine the effects of cell adhesion on the phosphorylation of PHAS-I and eIF-4e levels and determine their association by co-precipitation. In addition, studies are proposed to analyze the regions in the five prime untranslated region of the cyclin D mRNA that may be involved in efficiency of translation.
A third aim will address the requirement of adhesion for activation of cyclin D/cdk4/6 activity. In particular, the effect of cell adhesion on the formation of this complex will be assessed in effort to ascertain whether the inhibition is mediated by INK4 or CKI family inhibitors. Depending on which family is involved, efforts will be undertaken to discern whether specific INK4 or CKI family members show adhesion dependent expression. Other studies will examine potential effects of cell adhesion of phosphorylation of CDK4. Integrins are known to activate the ERK1/2 pathway. The applicant has preliminary data that ectopic activation of this pathway can partially rescue the cyclin D1 expression defect in suspended cells. More detailed experiments are proposed to analyze the capacity of constitutive activation of MAP kinase pathway, to overcome the various adhesion defects in the cell cycle kinases.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
1R01CA072639-01
Application #
2010705
Study Section
Pathobiochemistry Study Section (PBC)
Project Start
1997-01-01
Project End
2001-12-31
Budget Start
1997-01-01
Budget End
1997-12-31
Support Year
1
Fiscal Year
1997
Total Cost
Indirect Cost
Name
University of Miami School of Medicine
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
City
Miami
State
FL
Country
United States
Zip Code
33146
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Cerezo, Ana; Guadamillas, Marta C; Goetz, Jacky G et al. (2009) The absence of caveolin-1 increases proliferation and anchorage- independent growth by a Rac-dependent, Erk-independent mechanism. Mol Cell Biol 29:5046-59
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Assoian, Richard K; Yung, Yuval (2008) A reciprocal relationship between Rb and Skp2: implications for restriction point control, signal transduction to the cell cycle and cancer. Cell Cycle 7:24-7
Yin, Liqun; Castagnino, Paola; Assoian, Richard K (2008) ABCG2 expression and side population abundance regulated by a transforming growth factor beta-directed epithelial-mesenchymal transition. Cancer Res 68:800-7
Klein, Eric A; Campbell, Latoya E; Kothapalli, Devashish et al. (2008) Joint requirement for Rac and ERK activities underlies the mid-G1 phase induction of cyclin D1 and S phase entry in both epithelial and mesenchymal cells. J Biol Chem 283:30911-8
Klein, Eric A; Yang, Chengfeng; Kazanietz, Marcelo G et al. (2007) NFkappaB-independent signaling to the cyclin D1 gene by Rac. Cell Cycle 6:1115-21
Villanueva, Jessie; Yung, Yuval; Walker, Janice L et al. (2007) ERK activity and G1 phase progression: identifying dispensable versus essential activities and primary versus secondary targets. Mol Biol Cell 18:1457-63

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