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Project Details

The role of autophagy in T cell immune response

Project Number5SC3GM088044-03

Contact PI/Project LeaderARSOV, IVICA

Awardee OrganizationYORK COLLEGE

Description

Abstract Text

DESCRIPTION (provided by applicant): Autophagy is an evolutionarily conserved process of cellular self-digestion, primarily used to maintain cellular energy homeostasis during starvation. In recent years, the new evidence is emerging implicating this process in development and differentiation, apoptosis, cancer, aging and senescence, and the immune response. In this proposal, we will utilize several strains of genetically modified mice to understand the role of autophagy in the T cell-mediated immune response. One group of mice will be used to study the induction of autophagic activity in different immune cells, such as lymphocytes, macrophages, and dendritic cells, under normal conditions and following immunization with an antigen by flow cytometry and biochemical assays. This group of mice contains several trangenic strains expressing green fluorescence protein-tagged versions of different autophagic proteins, such as Beclin 1, LC3, and Atg5. These reporter mice will allow us to determine a constitutive as well as antigen-induced autophagy in immune cells. To determine the function of autophagy in the T cell immune response, we will use mice deficient in autophagy essential protein Atg7. These mice will be immunized, and the T cell immune response to antigen in the absence of autophagy analyzed using flow cytometry and fuctional assays. This approach should provide a novel insight into the role of autophagy in the adaptive immune system. PUBLIC HEALTH RELEVANCE: In this proposal, we will characterize the role of autophagy in the adaptive immune system. This study should improve our understanding of the adaptive immunity, as well as of the role of autophagy in the initiation of the T cell immune activation and T cell memory, which are essential for the body's defense against different pathogens.

Public Health Relevance Statement

Project Narrative In this proposal, we will characterize the role of autophagy in the adaptive immune system. This study should improve our understanding of the adaptive immunity, as well as of the role of autophagy in the initiation of the T cell immune activation and T cell memory, which are essential for the body's defense against different pathogens.

NIH Spending Category

No NIH Spending Category available.

Project Terms

AblationAddressAgingAnimalsAntigensApoptosisApplications GrantsAreaAssesAutophagocytosisB-LymphocytesBiochemicalBiological AssayCD8B1 geneCell DeathCell physiologyCellsCollaborationsDendritic CellsDevelopmentDigestionFlow CytometryFluorescenceFundingGenesGrantHematopoiesisHomeostasisHospitalsImageImmuneImmune responseImmune systemImmunizationKnockout MiceLymphocyteMalignant NeoplasmsManuscriptsMemoryMethodsMouse StrainsMusNatural ImmunityNeurodegenerative DisordersOvalbuminPlayProcessProductivityProgress ReportsProteinsPublicationsPublishingReporterResearchRoleStarvationT cell responseT memory cellT-Cell ActivationT-Cell DevelopmentT-LymphocyteWestern BlottingWild Type MouseWritingadaptive immunitybasecell mediated immune responseimmune activationimprovedin vivoinsightknockout animalmacrophagenovelpathogenprogramspublic health relevanceresearch studyresponsesenescence

Details

Contact PI/ Project Leader

Name

ARSOV, IVICA

Title

ASSISTANT PROFESSOR

Contact

Other PIs

Not Applicable

Program Official

Name

KRASNEWICH, DONNA M

Contact

Organization

Name

YORK COLLEGE

City

JAMAICA

Country

UNITED STATES (US)

Department Type

BIOLOGY

Organization Type

SCHOOLS OF ARTS AND SCIENCES

State Code

Congressional District

Other Information

Opportunity Number

PAR-08-028

Study Section

ZGM1-MBRS-2(GM)

Fiscal Year

2011

Award Notice Date

20-June-2011

Administering Institutes or Centers

National Institute of General Medical Sciences

CFDA Code

859

DUNS Number

620128822

UEI

S742ULFT5GK3

Project Start Date

01-August-2009

Project End Date

30-June-2013

Budget Start Date

01-July-2011

Budget End Date

30-June-2012

Project Funding Information for 2011

Total Funding

$116,696

Direct Costs

$74,250

Indirect Costs

$42,446

Year	Funding IC	FY Total Cost by IC
2011	National Institute of General Medical Sciences	$116,696

Sub Projects

No Sub Projects information available for 5SC3GM088044-03

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 5SC3GM088044-03

Patents

No Patents information available for 5SC3GM088044-03

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 5SC3GM088044-03

Clinical Studies

No Clinical Studies information available for 5SC3GM088044-03

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