Literature DB >> 30902834

Salmonella Effectors SseK1 and SseK3 Target Death Domain Proteins in the TNF and TRAIL Signaling Pathways.

Joshua P M Newson1, Nichollas E Scott1, Ivy Yeuk Wah Chung2, Tania Wong Fok Lung1, Cristina Giogha3, Jiyao Gan1,3, Nancy Wang1, Richard A Strugnell1, Nathaniel F Brown4, Miroslaw Cygler2, Jaclyn S Pearson3, Elizabeth L Hartland5,3,6.   

Abstract

Strains of Salmonella utilize two distinct type three secretion systems to deliver effector proteins directly into host cells. The Salmonella effectors SseK1 and SseK3 are arginine glycosyltransferases that modify mammalian death domain containing proteins with N-acetyl glucosamine (GlcNAc) when overexpressed ectopically or as recombinant protein fusions. Here, we combined Arg-GlcNAc glycopeptide immunoprecipitation and mass spectrometry to identify host proteins GlcNAcylated by endogenous levels of SseK1 and SseK3 during Salmonella infection. We observed that SseK1 modified the mammalian signaling protein TRADD, but not FADD as previously reported. Overexpression of SseK1 greatly broadened substrate specificity, whereas ectopic co-expression of SseK1 and TRADD increased the range of modified arginine residues within the death domain of TRADD. In contrast, endogenous levels of SseK3 resulted in modification of the death domains of receptors of the mammalian TNF superfamily, TNFR1 and TRAILR, at residues Arg376 and Arg293 respectively. Structural studies on SseK3 showed that the enzyme displays a classic GT-A glycosyltransferase fold and binds UDP-GlcNAc in a narrow and deep cleft with the GlcNAc facing the surface. Together our data suggest that salmonellae carrying sseK1 and sseK3 employ the glycosyltransferase effectors to antagonise different components of death receptor signaling.
© 2019 Newson et al.

Entities:  

Keywords:  Bacteria; Cell death*; Glycosylation; Infectious disease; Inflammation; Inflammatory response; Salmonella; SseK; Virulence; death receptor signaling; glycosyltransferase

Mesh:

Substances:

Year:  2019        PMID: 30902834      PMCID: PMC6553940          DOI: 10.1074/mcp.RA118.001093

Source DB:  PubMed          Journal:  Mol Cell Proteomics        ISSN: 1535-9476            Impact factor:   5.911


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