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Project Details

Regulation of Rho Family GTPases by G Proteins

Project Number5R01GM061454-08

Contact PI/Project LeaderKOZASA, TOHRU

Awardee OrganizationUNIVERSITY OF ILLINOIS AT CHICAGO

Description

Abstract Text

DESCRIPTION (provided by applicant): Heterotrimeric G proteins transduce a variety of signals from heptahetical membrane-bound receptors to intracellular effectors. Members of RGS (Regulator of G protein signaling) protein family regulate G protein mediated signals. Members of the Rho family of monomeric GTPases control the organization of the actin cytoskeleton and are involved in a variety of cellular functions. The objective of this proposal is to understand the mechanism of regulation of Rho family GTPases through heterotrimeric G protein-mediated signaling pathways. Among heterotrimeric G proteins, Galpha12 and Galpha13 participate in cellular processes such as cell transformation, neurite retraction, or embryonic development. Rho activation is involved in these signaling pathways. The immediate goal of this proposal is to understand biochemical mechanisms of regulation of the activity of Rho by Galpha12 and Galpha13. Rho family GTPases are regulated by guanine nucleotide exchange factors (GEFs). RhoGEFs with amino terminal RGS domain (RGS-RhoGEFs), p115RhoGEF, LARG, and PDZ-RhoGEF, were identified to function as effectors for Galpha12 and Galpha13. Galpha12/13 interacts with RGS domain of these RhoGEFs and regulates their RhoGEF activity. RGS domains of p115 and LARG act as GTPase activating proteins specific for Galpha12 and Galpha13. The structure basis of the mechanism of regulation of RGS-RhoGEFs by Galpha12 and Galpha13 will be analyzed. The crystal structures of Galpha12 or Galpha13 and its complex with LARG will be solved. The regions of Galpha12/13 or LARG that are involved in their functional interaction will be characterized. The biochemical mechanisms of regulation of RhoGEF activity of LARG or PDZ-RhoGEF will be investigated. Furthermore, Galpha12/13-LARG/PDZRhoGEF signaling pathway in neuronal cells will be analyzed. Galpha12-RhoGEF pathway was identified in C. elegans and its involvement in neuronal function and embryonic development was demonstrated. The physiological significance of this pathway in C. elegans will be investigated using genetical and biochemical methods.

Public Health Relevance Statement

Data not available.

NIH Spending Category

No NIH Spending Category available.

Project Terms

ActinsAffectAmino AcidsAntibodiesAppendixBaculovirusesBindingBinding ProteinsBiochemicalBiological AssayCaenorhabditis elegansCell LineCell physiologyCellsChimera organismChimeric ProteinsComplexCouplesCritiquesCytoskeletonDataDefectDominant-Negative MutationEmbryonic DevelopmentFamilyFigs - dietaryGTP-Binding Protein RegulatorsGTP-Binding ProteinsGTPase-Activating ProteinsGene ExpressionGenerationsGoalsGreen Fluorescent ProteinsGuanine Nucleotide Exchange FactorsGuanosine Triphosphate PhosphohydrolasesHandHela CellsHeterotrimeric GTP-Binding ProteinsImmunoblottingLigandsMammalian CellMapsMediatingMembraneMethodsMonitorNeuritesNeuronsPC12 CellsPDZ proteinPH DomainPathway interactionsPhenotypePhysiologicalProcessProtein FamilyProtein OverexpressionProtein Tyrosine KinaseProteinsPublished CommentRGS DomainRGS ProteinsRangeRecombinant ProteinsRecombinantsRegulationResolutionRoleSignal PathwaySignal TransductionSourceStructureSystemThrombinTrypsinTyrosineTyrosine PhosphorylationTyrosine Phosphorylation SiteWorkX-Ray Crystallographybasecell transformationlysophosphatidic acidmembermutantnovelreceptorreceptor bindingreconstitutionresearch studyresponserhorho guanine nucleotide exchange factor p115

Details

Contact PI/ Project Leader

Name

KOZASA, TOHRU

Title

MD PHD

Contact

Other PIs

Not Applicable

Program Official

Name

DUNSMORE, SARAH

Contact

Organization

Name

UNIVERSITY OF ILLINOIS AT CHICAGO

City

CHICAGO

Country

UNITED STATES (US)

Department Type

PHARMACOLOGY

Organization Type

SCHOOLS OF MEDICINE

State Code

Congressional District

Other Information

Opportunity Number

Study Section

Hypertension and Microcirculation Study Section[HM]

Fiscal Year

2007

Award Notice Date

27-July-2007

Administering Institutes or Centers

National Institute of General Medical Sciences

CFDA Code

859

DUNS Number

098987217

UEI

W8XEAJDKMXH3

Project Start Date

01-September-1999

Project End Date

31-July-2009

Budget Start Date

01-August-2007

Budget End Date

31-July-2008

Project Funding Information for 2007

Total Funding

$273,108

Direct Costs

$184,896

Indirect Costs

$88,212

Year	Funding IC	FY Total Cost by IC
2007	National Institute of General Medical Sciences	$273,108

Sub Projects

No Sub Projects information available for 5R01GM061454-08

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 5R01GM061454-08

Patents

No Patents information available for 5R01GM061454-08

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 5R01GM061454-08

Clinical Studies

No Clinical Studies information available for 5R01GM061454-08

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