Robin A. Aglietti scite author profile

Gasdermin-D (GsdmD) is a critical mediator of innate immune defense because its cleavage by the inflammatory caspases 1, 4, 5, and 11 yields an N-terminal p30 fragment that induces pyroptosis, a death program important for the elimination of intracellular bacteria. Precisely how GsdmD p30 triggers pyroptosis has not been established. Here we show that human GsdmD p30 forms functional pores within membranes. When liberated from the corresponding C-terminal GsdmD p20 fragment in the presence of liposomes, GsdmD p30 localized to the lipid bilayer, whereas p20 remained in the aqueous environment. Within liposomes, p30 existed as higher-order oligomers and formed ring-like structures that were visualized by negative stain electron microscopy. These structures appeared within minutes of GsdmD cleavage and released Ca 2+ from preloaded liposomes. Consistent with GsdmD p30 favoring association with membranes, p30 was only detected in the membrane-containing fraction of immortalized macrophages after caspase-11 activation by lipopolysaccharide. We found that the mouse I105N/human I104N mutation, which has been shown to prevent macrophage pyroptosis, attenuated both cell killing by p30 in a 293T transient overexpression system and membrane permeabilization in vitro, suggesting that the mutants are actually hypomorphs, but must be above certain concentration to exhibit activity. Collectively, our data suggest that GsdmD p30 kills cells by forming pores that compromise the integrity of the cell membrane.GsdmD | pyroptosis | caspase-11

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Recent Insights into the Molecular Mechanisms Underlying Pyroptosis and Gasdermin Family Functions

Aglietti¹,

Dueber²

2017

Trends in Immunology

318

223

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Active Site Conformational Dynamics Are Coupled to Catalysis in the mRNA Decapping Enzyme Dcp2

et al. 2013

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Summary Removal of the 5′ cap structure by Dcp2 is a major step in several 5′–3′ mRNA decay pathways. The activity of Dcp2 is enhanced by Dcp1 and bound coactivators, yet the details of how these interactions are linked to chemistry are poorly understood. Here we report three crystal structures of the catalytic Nudix hydrolase domain of Dcp2 that demonstrate binding of a catalytically essential metal ion, and enzyme kinetics are used to identify several key active site residues involved in acid/base chemistry of decapping. Using NMR and molecular dynamics, we find that a conserved metal binding loop on the catalytic domain undergoes conformational changes during the catalytic cycle. These findings describe key events during the chemical step of decapping, suggest local active site conformational changes are important for activity, and provide a framework to explain stimulation of catalysis by the regulatory domain of Dcp2 and associated coactivators.

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Crystal structure of Saccharomyces cerevisiae Dcp2 Nudix domain in complex with Mg (E153Q mutation)

Aglietti¹,

Floor²,

Gross³

2013

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Crystal structure of Saccharomyces cerevisiae Dcp2 Nudix domain in complex with Mg

Aglietti¹,

Floor²,

Gross³

2013

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Robin A. Aglietti

GsdmD p30 elicited by caspase-11 during pyroptosis forms pores in membranes

Recent Insights into the Molecular Mechanisms Underlying Pyroptosis and Gasdermin Family Functions

Active Site Conformational Dynamics Are Coupled to Catalysis in the mRNA Decapping Enzyme Dcp2

Crystal structure of Saccharomyces cerevisiae Dcp2 Nudix domain in complex with Mg (E153Q mutation)

Crystal structure of Saccharomyces cerevisiae Dcp2 Nudix domain in complex with Mg

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