The inflammasomes are crucial innate immune signaling platforms implicated in immune defense against infections and autoimmune/autoinflammatory disorders such as multiple sclerosis, diabetes, and Alzheimer?s disease.Pyroptosisistriggeredbyinflammatorycaspases-1,4,5,or11uponstimulationofthecanonicaland noncanonicalinflammasomes.DespitetherecentprogressontheidentificationandcharacterizationofGSDMD asaneffectorofpyroptosis,themoleculareventsunderlyingthetransformationofGSDMDfromanautoinhibited restingstatetotherecognitionandcleavagebycaspaseshasremainedpoorlydefined.Thelackofmechanistic understanding of GSDMD-mediated pyroptosis has hampered progress on the development of novel therapeuticsagainstinfectionsandautoimmune/autoinflammatorydisorders.Thisproposaltargetscriticalgaps in our understanding of GSDMD/inflammatory caspase-mediated pyroptosis using complementary structure- functionapproaches.WehypothesizethatGSDMDismaintainedinanautoinhibitedconformationthrough intramoleculardomaininteractionsbetweenitsN-(GSDMD-N)andC-terminal(GSDMD-C)domains.Such conformation is recognized by inflammatory caspases that cleave at the linker region to release the autoinhibition and facilitate membrane pore formation. We propose the following specific aims to test the abovehypothesis.
Aim1. DefinethemechanismthroughwhichGSDMDmaintainsitsautoinhibitedstate,and howsuchautoinhibitionmayberegulatedbysmallmoleculetoolcompounds.Wewillcharacterizethestructure oftheGSDMDdomainsandthefull-lengthproteininitsautoinhibitedstateusingprimarilystructuralapproaches, inconcertwithanalysisoftheGSDMD-NandGSDMD-Cinteractionsthroughbiochemicaltechniques.Therole of the intramolecular domain interface during Salmonella infection-induced pyroptosis will be probed using GSDMD-deficient cell lines reconstituted with mutant GSDMD. A unique feature of our approach is the incorporationofGSDMD-bindingcompoundsidentifiedfromchemicallibrariesscreeningintotheaboveefforts to investigate the regulation of GSDMD and pyroptosis by small molecule tool compounds.
Aim 2. Define the mechanismsofgasderminrecognitionandcleavagebyinflammatorycaspases.Wewillelucidatethemolecular basis of the conversion of caspases-4 and 11 from zymogens to active conformation, which has been poorly characterized.WewillinvestigatethemechanismofGSDMDrecognitionbythesecaspases,whichmayinvolve boththelinkerpeptidesandtertiarystructureofGSDMD.Insummary,thisprojectwilldelineatethemolecular mechanisms underlying the autoinhibition and activation of GSDMD during pyroptosis, identify small molecule toolcompoundsandcharacterizetheirmodeofactioninthecontextofpyroptosisregulation.Thiswillnotonly furnish unique insights on GSDMD structure and function, but may stimulate the development of therapeutics thattargetinflammatorydisorders.

Public Health Relevance

Inflammasomes play important roles in immune defense against infections and autoimmune/autoinflammatory disorderssuchasmultiplesclerosis,diabetes,andAlzheimer?sdisease.Pyroptosisisahighlyproinflammatory formofcelldeaththatfunctionsasacrucialimmunedefensemechanisminmicrobialkillingandclearance.By contrast,uncontrolledsystemicpyroptosisplaysamajorroleinsepticshock.Thesuccessofthisprojectwillnot only provide insights into the molecular mechanisms of GSDMD autoinhibition and activation, but may also stimulate the development of therapeutics that target inflammatory disorders, as well as novel antimicrobial reagentsthatcombattheglobalantibiotic-resistanceepidemic.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM127609-02
Application #
9682485
Study Section
Innate Immunity and Inflammation Study Section (III)
Program Officer
Zhao, Xiaoli
Project Start
2018-05-01
Project End
2022-02-28
Budget Start
2019-03-01
Budget End
2020-02-29
Support Year
2
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Case Western Reserve University
Department
Pathology
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106
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Liu, Zhonghua; Wang, Chuanping; Rathkey, Joseph K et al. (2018) Structures of the Gasdermin D C-Terminal Domains Reveal Mechanisms of Autoinhibition. Structure 26:778-784.e3
Li, Yajuan; Huang, Yi; Cao, Xiaocong et al. (2018) Functional and structural characterization of zebrafish ASC. FEBS J 285:2691-2707