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Literature DB >> 35794369

Allergen protease-activated stress granule assembly and gasdermin D fragmentation control interleukin-33 secretion.

Wen Chen^1,2, Shuangfeng Chen^1,3, Chenghua Yan¹, Yaguang Zhang⁴, Ronghua Zhang¹, Min Chen⁵, Shufen Zhong¹, Weiguo Fan¹, Songling Zhu¹, Danyan Zhang^1,3, Xiao Lu¹, Jia Zhang¹, Yuying Huang¹, Lin Zhu¹, Xuezhen Li¹, Dawei Lv², Yadong Fu¹, Houkun Iv^1,3, Zhiyang Ling¹, Liyan Ma¹, Hai Jiang¹, Gang Long², Jinfang Zhu⁶, Dong Wu⁷, Bin Wu⁸, Bing Sun^9,10.

Abstract

Interleukin-33 (IL-33), an epithelial cell-derived cytokine that responds rapidly to environmental insult, has a critical role in initiating airway inflammatory diseases. However, the molecular mechanism underlying IL-33 secretion following allergen exposure is not clear. Here, we found that two cell events were fundamental for IL-33 secretion after exposure to allergens. First, stress granule assembly activated by allergens licensed the nuclear-cytoplasmic transport of IL-33, but not the secretion of IL-33. Second, a neo-form murine amino-terminal p40 fragment gasdermin D (Gsdmd), whose generation was independent of inflammatory caspase-1 and caspase-11, dominated cytosolic secretion of IL-33 by forming pores in the cell membrane. Either the blockade of stress granule assembly or the abolishment of p40 production through amino acid mutation of residues 309-313 (ELRQQ) could efficiently prevent the release of IL-33 in murine epithelial cells. Our findings indicated that targeting stress granule disassembly and Gsdmd fragmentation could reduce IL-33-dependent allergic airway inflammation.

Entities: Chemical

Mesh：

Substances：

Year: 2022 PMID： 35794369 DOI： 10.1038/s41590-022-01255-6

Source DB: PubMed Journal: Nat Immunol ISSN： 1529-2908 Impact factor: 31.250

38 in total

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