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Project Details

The Role of Tissue Factor-Factor VIIa-PAR2 Signaling in Breast Tumor Progression

Project Number1F31CA142162-01

Contact PI/Project LeaderMCEACHRON, TROY ANTHONY

Awardee OrganizationUNIV OF NORTH CAROLINA CHAPEL HILL

Description

Abstract Text

DESCRIPTION (provided by applicant): One of the most complex and elusive events in tumor biology is metastasis. This process by which tumor cells become metastatic has been a very active area of research with extremely important clinical implications. Tissue factor (TF) is a cell surface receptor that initiates the coagulation protease cascade. Factor Vila (FVIIa) docks to TF and the TF-FVIIa complex cleaves and activates protease activated receptor-2 (PAR2) thereby inducing downstream signaling. TF-FVIIa-PAR2 signaling increases a variety of genes including those involved in metastasis. Many studies have been performed on TF-FVIIa-PAR2 signaling in a human breast tumor model. However, the detailed mechanisms concerning how TF-FVIIa- PAR2 increases tumor cell metastasis have not been revealed. The 67NR and 4T1 cell lines were derived from a single spontaneously arising mouse breast tumor. The advantage of using this breast tumor model to study TF-FVIIa-PAR2 signaling is that these cells allow for in vivo studies in a non-genetically modified immunocompetent host. We hypothesize that the increased metastatic behavior exhibited by, aggressive, as opposed to non-aggressive cancer cells is due to differential TF-FVIIa-PAR2 signaling. The specific aims of the project are: 1) analyze TF-FVIIa-PAR2 signaling in metastatic and non-metastatic breast tumor cell lines in vitro; and 2) examine the contribution of TF-FVIIa-PAR2 signaling to cell motility in a metastatic and non- metastatic breast tumor model in vivo. The overall goal of this project is to detail the precise intracellular signal transduction pathways responsible for TF-FVIIa-PAR2 induced metastasis using an in vitro and in vivo model of murine breast cancer. Cancer is a pressing public health concern. By establishing a causative role of PAR2 in metastasis I hope to provide further insight into this complex pathophysiological process. Increased understanding of the metastatic disease process will enable the scientific and medical communities to make advances in therapeutics and treatment strategies.

Public Health Relevance Statement

Data not available.

NIH Spending Category

Breast CancerCancer

Project Terms

AreaBehaviorBreastBreast Cancer CellCell LineCell Surface ReceptorsCell SurvivalCellsCleaved cellClinicalCoagulation ProcessCommunitiesComplexCytosolDiseaseDockingEventExhibitsExtracellular Matrix DegradationFactor VIIaFemaleGene ExpressionGenesGoalsHumanImmunocompetentIn VitroInbred BALB C MiceLeftLiteratureMalignant NeoplasmsMammary NeoplasmsMedicalModelingMusNeoplasm MetastasisNeoplasmsPAR-2 ReceptorPeptide HydrolasesPhenotypePrimary NeoplasmProcessPublic HealthReceptor GeneReportingResearchRoleSignal TransductionSignal Transduction PathwaySiteTherapeuticThromboplastinTumor BiologyTumor Cell LineUp-RegulationUrokinaseUrokinase Plasminogen Activator ReceptorWorkangiogenesiscancer cellcell motilitycofactorin vivoin vivo Modelinsightmalignant breast neoplasmneoplastic cellreceptortreatment strategytumortumor progression

Details

Contact PI/ Project Leader

Name

MCEACHRON, TROY ANTHONY

Title

Contact

Other PIs

Not Applicable

Program Official

Name

BINI, ALESSANDRA M

Contact

Organization

Name

UNIV OF NORTH CAROLINA CHAPEL HILL

City

CHAPEL HILL

Country

UNITED STATES (US)

Department Type

INTERNAL MEDICINE/MEDICINE

Organization Type

SCHOOLS OF MEDICINE

State Code

Congressional District

Other Information

Opportunity Number

PA-07-106

Study Section

Special Emphasis Panel[ZRG1 CB-N (29)]

Fiscal Year

2009

Award Notice Date

30-June-2009

Administering Institutes or Centers

National Cancer Institute

CFDA Code

398

DUNS Number

608195277

UEI

D3LHU66KBLD5

Project Start Date

01-August-2009

Project End Date

31-July-2012

Budget Start Date

01-August-2009

Budget End Date

31-July-2010

Project Funding Information for 2009

Total Funding

$29,590

Direct Costs

$29,590

Indirect Costs

Year	Funding IC	FY Total Cost by IC
2009	National Cancer Institute	$29,590

NIH Categorical SpendingClick here for more information on NIH Categorical Spending

Funding IC	FY Total Cost by IC	NIH Spending Category
NATIONAL CANCER INSTITUTE	$29,590	Breast Cancer; Cancer

Sub Projects

No Sub Projects information available for 1F31CA142162-01

Publications

Publications are associated with projects, but cannot be identified with any particular year of the project or fiscal year of funding. This is due to the continuous and cumulative nature of knowledge generation across the life of a project and the sometimes long and variable publishing timeline. Similarly, for multi-component projects, publications are associated with the parent core project and not with individual sub-projects.

No Publications available for 1F31CA142162-01

Patents

No Patents information available for 1F31CA142162-01

Outcomes

The Project Outcomes shown here are displayed verbatim as submitted by the Principal Investigator (PI) for this award. Any opinions, findings, and conclusions or recommendations expressed are those of the PI and do not necessarily reflect the views of the National Institutes of Health. NIH has not endorsed the content below.

No Outcomes available for 1F31CA142162-01

Clinical Studies

No Clinical Studies information available for 1F31CA142162-01

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