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Project Details

Control of caspase activation in apoptosis

Project Number1R01GM080333-01A1

Contact PI/Project LeaderKORNBLUTH, SALLY A

Awardee OrganizationDUKE UNIVERSITY

Description

Abstract Text

DESCRIPTION (provided by applicant): Inhibition of apoptosis is one of the hallmarks of cancer, which, together with increased cellular proliferation, leads to tumorigenesis. Following malignant transformation of cells, glucose metabolism is altered, but the importance of these metabolic changes in tumorigenesis is not entirely clear. Moreover, how metabolic changes may be linked to the inhibition of apoptosis important for tumorigenesis is not known. In this proposal, we use the biochemically powerful Xenopus egg/oocyte model system to examine the hypothesis that a cell's nutrient status can regulate the propensity of a cell to live or die. In preliminary work, we have identified a signaling pathway controlled by the metabolic state of the oocyte/egg and have demonstrated that generation of NADPH by the pentose phosphate pathway is critical for survival of these cells. The target of this regulation is an apoptotic protease, caspase 2. Specifically, inhibition of cell death in the presence of abundant NADPH, or sufficient glucose- 6-phosphate to drive operation of the pentose phosphate pathway, resulted from the inhibitory phosphorylation of caspase 2 by Calcium calmodulin-dependent kinase II (CaMKII). Conversely, activation of caspase 2 prior to cell death (following nutrient depletion) was preceded by dephosphorylation of caspase 2 at the CaMKII phosphorylation site. Consistent with these observations, a mutant variant of caspase 2 able to escape phosphorylation by CaMKII could override NADPH-mediated inhibition of apoptosis. Preliminary data indicate that metabolic regulation of caspases contribute to apoptotic control in other cell types as well. Thus, we hypothesize that the gradual exhaustion of cellular nutrients over the course of a lifetime (in the case of the oocyte) or aberrant operation of the pentose phosphate pathway during carcinogenesis, may result in an inability to drive the NADPH production required to suppress caspase 2, thereby contributing to cell death. The goal of this proposal is to understand how nutrient utilization pathways control the apoptotic protease, caspase 2.

Public Health Relevance Statement

Data not available.

NIH Spending Category

No NIH Spending Category available.

Project Terms

AgeApoptosisApoptoticBiologicalBiological ModelsBirthCalciumCalmodulinCaspaseCell DeathCell Death InhibitionCell ProliferationCell SurvivalCellsCessation of lifeDataDegenerative DisorderEmbryonic DevelopmentEndopeptidasesExcisionFemaleGenerationsGlucose-6-PhosphateGoalsImmune systemIndividualInhibition of ApoptosisLifeLinkMalignant - descriptorMalignant NeoplasmsMediatingMenopauseMetabolicMetabolic ControlMetabolismModelingMolecularMusNADPNormal tissue morphologyNutrientOocytesOperative Surgical ProceduresOrganismPathway interactionsPentosephosphate PathwayPeptide HydrolasesPersonal SatisfactionPhosphorylationPhosphorylation SitePhosphotransferasesPhysiologicalProductionProtein DephosphorylationRadiationRegulationRegulation of Apoptosis PathwayResistanceRoleSignal PathwayStructureTimeTissuesVariantVertebratesWomanWorkXenopuscarcinogenesiscaspase-2cell transformationcell typeeggexhaustionglucose metabolismhuman femaleinjuredmutantpreventstressortumorigenesis

Details

Contact PI/ Project Leader

Name

KORNBLUTH, SALLY A

Title

Contact

Other PIs

Not Applicable

Program Official

Name

ZATZ, MARION M

Contact

Organization

Name

DUKE UNIVERSITY

City

DURHAM

Country

UNITED STATES (US)

Department Type

PHARMACOLOGY

Organization Type

SCHOOLS OF MEDICINE

State Code

Congressional District

Other Information

Opportunity Number

PA-07-070

Study Section

Cancer Molecular Pathobiology Study Section[CAMP]

Fiscal Year

2007

Award Notice Date

21-September-2007

Administering Institutes or Centers

National Institute of General Medical Sciences

CFDA Code

859

DUNS Number

044387793

UEI

TP7EK8DZV6N5

Project Start Date

21-September-2007

Project End Date

31-August-2011

Budget Start Date

21-September-2007

Budget End Date

31-August-2008

Project Funding Information for 2007

Total Funding

$288,600

Direct Costs

$185,000

Indirect Costs

$103,600

Year	Funding IC	FY Total Cost by IC
2007	National Institute of General Medical Sciences	$288,600

Sub Projects

No Sub Projects information available for 1R01GM080333-01A1

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 1R01GM080333-01A1

Patents

No Patents information available for 1R01GM080333-01A1

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 1R01GM080333-01A1

Clinical Studies

No Clinical Studies information available for 1R01GM080333-01A1

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