Phosphorylation and dephosphorylation of proteins functions as a dynamic mechanism at checkpoints that starts and stops cell growth. This process is critical for normal development and differentiation. The balance involves the opposing reactions of cyclin-dependent protein kinases (CDK) and protein Ser/Thr phosphatase type-1 (PP1). The CDKs are regulated by periodic synthesis and degradation of the cyclin subunits, by phosphorylation of their catalytic subunits, and by binding of various inducible inhibitor proteins. The tumor suppressor p53 transactives expression of CDK inhibitors, and failure to produce these inhibitor proteins results in cell transformation and tumor formation. The goal of this project is to understand unique mechanisms that regulate the Inh2. This will be done by 1) determining the phosphorylation of Inh2 in different phases of the cell cycle by metabolic labeling of cells and phosphopeptide mapping, 2) testing the effects of mutations in Ser phosphorylation sites in Inh2 on nuclear export and import on Inh2 and 3) mutating PEST regions of and Ser phosphorylation sites to alter proteolysis of Inh2. An Inh2-green fluorescent protein (GFP) fusion protein that shows cell cycle dependent redistribution between cytosol and nucleus will be mutated to show which Ser sites are required for Inh2 distribution and degradation. Epitope tagged Inh2 mutants expressed in bacteria and microinjected into fibroblasts provides a complementary approach. Tagged Inh2 will be used to isolate Inh2 complexes to identify components associated with Inh2 at different times in the growth cycle. Together, these studies will elucidate new roles for Inh2 and PP1 in growth control, and expose the potential of defects in these proteins in human cancers.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM056362-04
Application #
6181017
Study Section
Human Embryology and Development Subcommittee 1 (HED)
Program Officer
Zatz, Marion M
Project Start
1997-08-01
Project End
2002-05-31
Budget Start
2000-08-01
Budget End
2002-05-31
Support Year
4
Fiscal Year
2000
Total Cost
$177,582
Indirect Cost
Name
University of Virginia
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904
Wang, Lifu; Brautigan, David L (2013) ?-SNAP inhibits AMPK signaling to reduce mitochondrial biogenesis and dephosphorylates Thr172 in AMPK? in vitro. Nat Commun 4:1559
Slingluff Jr, Craig L; Petroni, Gina R; Molhoek, Kerrington R et al. (2013) Clinical activity and safety of combination therapy with temsirolimus and bevacizumab for advanced melanoma: a phase II trial (CTEP 7190/Mel47). Clin Cancer Res 19:3611-20
Ohama, Takashi; Wang, Lifu; Griner, Erin M et al. (2013) Protein Ser/Thr phosphatase-6 is required for maintenance of E-cadherin at adherens junctions. BMC Cell Biol 14:42
Korrodi-Gregorio, Luis; Ferreira, Monica; Vintem, Ana Paula et al. (2013) Identification and characterization of two distinct PPP1R2 isoforms in human spermatozoa. BMC Cell Biol 14:15
Eto, Masumi; Brautigan, David L (2012) Endogenous inhibitor proteins that connect Ser/Thr kinases and phosphatases in cell signaling. IUBMB Life 64:732-9
Sami, Furqan; Smet-Nocca, Caroline; Khan, Meera et al. (2011) Molecular basis for an ancient partnership between prolyl isomerase Pin1 and phosphatase inhibitor-2. Biochemistry 50:6567-78
Molhoek, Kerrington R; Erdag, Gulsun; Rasamny, J K et al. (2011) VEGFR-2 expression in human melanoma: revised assessment. Int J Cancer 129:2807-15
Edelson, Jessica R; Brautigan, David L (2011) The Discodermia calyx toxin calyculin a enhances cyclin D1 phosphorylation and degradation, and arrests cell cycle progression in human breast cancer cells. Toxins (Basel) 3:105-19
Wang, Hong; Owens, Charles; Chandra, Nidhi et al. (2010) Phosphorylation of RalB is important for bladder cancer cell growth and metastasis. Cancer Res 70:8760-9
Ohama, Takashi; Brautigan, David L (2010) Endotoxin conditioning induces VCP/p97-mediated and inducible nitric-oxide synthase-dependent Tyr284 nitration in protein phosphatase 2A. J Biol Chem 285:8711-8

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