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Native architecture of a human GBP1 defense complex for cell-autonomous immunity to infection.

Shiwei ZhuClinton J BradfieldAgnieszka MaminskaEui-Soon ParkBae-Hoon KimPradeep KumarShuai HuangMinjeong KimYongdeng ZhangJoerg BewersdorfJohn D MacMicking
Published in: Science (New York, N.Y.) (2024)
All living organisms deploy cell-autonomous defenses to combat infection. In plants and animals, large supramolecular complexes often activate immune proteins for protection. In this work, we resolved the native structure of a massive host-defense complex that polymerizes 30,000 guanylate-binding proteins (GBPs) over the surface of gram-negative bacteria inside human cells. Construction of this giant nanomachine took several minutes and remained stable for hours, required guanosine triphosphate hydrolysis, and recruited four GBPs plus caspase-4 and Gasdermin D as a cytokine and cell death immune signaling platform. Cryo-electron tomography suggests that GBP1 can adopt an extended conformation for bacterial membrane insertion to establish this platform, triggering lipopolysaccharide release that activated coassembled caspase-4. Our "open conformer" model provides a dynamic view into how the human GBP1 defense complex mobilizes innate immunity to infection.
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