The broad, long-term objectives of this proposal are to characterize the structure, regulation and function of members of the protein tyrosine phosphatase (PTP) family of enzymes, focussing primarily on the receptor-like PTPs. The actions of PTPs and protein tyrosine kinases (PTKs) are integrated in vivo to control such fundamental processes as growth and proliferation, differentiation, migration, metabolism and cytoskeletal function. Disruption of the delicate balance between the action of PTPs and PTKs has been implicated in the etiology of human diseases, including cancer, diabetes and inflammation. Therefore, the characterization of the PTPs is a prerequisite to gaining a complete understanding of the physiological consequences of tyrosine phosphorylation under normal and disease conditions. This competitive renewal continues an investigation of the regulation and function of two RPTPs, PTPmu and DEP-1. Both of these PTPs show enhanced expression in confluent, compared to sparse cell cultures. Functional links between these enzymes and the suppression of tyrosine phosphorylation-dependent signalling pathways in confluent cells will be established and characterized. These studies will utilize endothelial cell model systems and insights into the control of angiogenesis are anticipated. In addition, experiments are proposed to test the hypothesis that redox-dependent inhibition of PTP function is one mechanism that underlies the transactivation of PTK-dependent signalling pathways following stimulation of G protein coupled receptors (GPCRs). GPCR- regulated PTPs will be identified and characterized. In general these studies will entail definition of the physiological substrate specificity and mechanism for regulation of these PTPs. Extensive use will be made of substrate-trapping mutant forms of the PTPs, a technology developed in the lab, and mass spectrometry-based protein sequencing. The characterization of these enzymes should provide a novel perspective on the control of cell growth and proliferation.
The Specific Aims of the proposal are (1) to characterize the function of PTPmu as a regulator of survival signals in endothelial cells, (2) to characterize the regulation and function of DEP-1 in the control of cell growth and proliferation and (3) to explore the potential of reversible oxidation of PTPs as a mechanism for regulation of mitogenic signalling.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM055989-07
Application #
6603818
Study Section
Cell Development and Function Integrated Review Group (CDF)
Program Officer
Anderson, Richard A
Project Start
1997-05-01
Project End
2005-06-30
Budget Start
2003-07-01
Budget End
2004-06-30
Support Year
7
Fiscal Year
2003
Total Cost
$348,600
Indirect Cost
Name
Cold Spring Harbor Laboratory
Department
Type
DUNS #
065968786
City
Cold Spring Harbor
State
NY
Country
United States
Zip Code
11724
Krishnan, Navasona; Bonham, Christopher A; Rus, Ioana A et al. (2018) Harnessing insulin- and leptin-induced oxidation of PTP1B for therapeutic development. Nat Commun 9:283
Krishnan, Navasona; Felice, Christy; Rivera, Keith et al. (2018) DPM-1001 decreased copper levels and ameliorated deficits in a mouse model of Wilson's disease. Genes Dev 32:944-952
Krishnan, Navasona; Konidaris, Konstantis F; Gasser, Gilles et al. (2018) A potent, selective, and orally bioavailable inhibitor of the protein-tyrosine phosphatase PTP1B improves insulin and leptin signaling in animal models. J Biol Chem 293:1517-1525
Gurung, Prajwal; Fan, Gaofeng; Lukens, John R et al. (2017) Tyrosine Kinase SYK Licenses MyD88 Adaptor Protein to Instigate IL-1?-Mediated Inflammatory Disease. Immunity 46:635-648
Fan, Gaofeng; Zhang, Siwei; Gao, Yan et al. (2016) HGF-independent regulation of MET and GAB1 by nonreceptor tyrosine kinase FER potentiates metastasis in ovarian cancer. Genes Dev 30:1542-57
Krishnan, Navasona; Krishnan, Keerthi; Connors, Christopher R et al. (2015) PTP1B inhibition suggests a therapeutic strategy for Rett syndrome. J Clin Invest 125:3163-77
Krishnan, Navasona; Tonks, Nicholas K (2015) Anxious moments for the protein tyrosine phosphatase PTP1B. Trends Neurosci 38:462-5
Fan, Gaofeng; Wrzeszczynski, Kazimierz O; Fu, Cexiong et al. (2015) A quantitative proteomics-based signature of platinum sensitivity in ovarian cancer cell lines. Biochem J 465:433-42
Chaudhary, Fauzia; Lucito, Robert; Tonks, Nicholas K (2015) Missing-in-Metastasis regulates cell motility and invasion via PTP?-mediated changes in SRC activity. Biochem J 465:89-101
Pulido, Rafael; Baker, Suzanne J; Barata, Joao T et al. (2014) A unified nomenclature and amino acid numbering for human PTEN. Sci Signal 7:pe15

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