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Human GBP1 binds LPS to initiate assembly of a caspase-4 activating platform on cytosolic bacteria
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Human GBP1 binds LPS to initiate assembly of a caspase-4 activating platform on cytosolic bacteria
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Human GBP1 binds LPS to initiate assembly of a caspase-4 activating platform on cytosolic bacteria
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Journal Article
Human GBP1 binds LPS to initiate assembly of a caspase-4 activating platform on cytosolic bacteria
2020
Overview
The human non-canonical inflammasome controls caspase-4 activation and gasdermin-D-dependent pyroptosis in response to cytosolic bacterial lipopolysaccharide (LPS). Since LPS binds and oligomerizes caspase-4, the pathway is thought to proceed without dedicated LPS sensors or an activation platform. Here we report that interferon-induced guanylate-binding proteins (GBPs) are required for non-canonical inflammasome activation by cytosolic
Salmonella
or upon cytosolic delivery of LPS. GBP1 associates with the surface of cytosolic
Salmonella
seconds after bacterial escape from their vacuole, initiating the recruitment of GBP2-4 to assemble a GBP coat. The GBP coat then promotes the recruitment of caspase-4 to the bacterial surface and caspase activation, in absence of bacteriolysis. Mechanistically, GBP1 binds LPS with high affinity through electrostatic interactions. Our findings indicate that in human epithelial cells GBP1 acts as a cytosolic LPS sensor and assembles a platform for caspase-4 recruitment and activation at LPS-containing membranes as the first step of non-canonical inflammasome signaling.
Detection of LPS derived from Gram-negative bacteria by innate immune receptors is a critical step in the host response. Here Santos and colleagues show human GBP1 binds to LPS resulting in non-canonical inflammasome activation.
