/lab/aaron-whiteley/ en /lab/aaron-whiteley/2024/12/17/bacterial-nlr-related-protein-recognizes-multiple-unrelated-phage-triggers-sense A bacterial NLR-related protein recognizes multiple unrelated phage triggers to sense infection Aaron Whiteley Tue, 12/17/2024 - 09:00 Categories: Research Articles Spotlight Publications Tags: AVAST system AlphaFold-multimer NACHT STAND phage defense sensing Emily Kibby ,  Laurel Robbins ,  Deep A ,  Min NK ,  Lindsay Whalen ,  Toni Nagy ,  Freeborn L ,  Corbett KD ,  Aaron Whiteley

BioRxiv (2024)

Abstract

Immune systems must rapidly sense viral infections to initiate antiviral signaling and protect the host. Bacteria encode >100 distinct viral (phage) defense systems and each has evolved to sense crucial components or activities associated with the viral lifecycle. Here we used a high-throughput AlphaFold-multimer screen to discover that a bacterial NLR-related protein directly senses multiple phage proteins, thereby limiting immune evasion. Phages encoded as many as 5 unrelated activators that were predicted to bind the same interface of a C-terminal sensor domain. Genetic and biochemical assays confirmed activators bound to the bacterial NLR-related protein at high affinity, induced oligomerization, and initiated signaling. This work highlights how in silico strategies can identify complex protein interaction networks that regulate immune signaling across the tree of life.

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• BioRxiv preprint, December 17 2024,  

Citation

Emily M. Kibby, Laurel K. Robbins, Amar Deep, Nathan K. Min, Lindsay A. Whalen, Toni A. Nagy, Layla Freeborn, Kevin D. Corbett, Aaron T. Whiteley. A bacterial NLR-related protein recognizes multiple unrelated phage triggers to sense infection. bioRxiv 2024.12.17.629029; doi: https://doi.org/10.1101/2024.12.17.629029

Kibby EM, Robbins LK, Deep A, Min NK, Whalen LA, Nagy TA, Freeborn L, Corbett KD, ➤Whiteley, AT | BioRxiv 2024

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Traditional 0 On White ]]> Tue, 17 Dec 2024 16:00:00 +0000 Aaron Whiteley 198 at /lab/aaron-whiteley /lab/aaron-whiteley/2024/06/04/phage-detection-bacterial-nlr-related-protein-mediated-dnaj Phage detection by a bacterial NLR-related protein is mediated by DnaJ Aaron Whiteley Tue, 06/04/2024 - 09:00 Categories: Research Articles Tags: DnaJ MS2 NACHT NLR antiphage bNACHT bacteria bacteriophage capsid chaperone coat protein innate immunity phage Amy Conte ,  Madison Ruchel ,  Samantha Ridgeway ,  Emily Kibby ,  Toni Nagy ,  Aaron Whiteley

BioRxiv (2024). PubMed PMID: 38895412; PubMed Central PMCID: .

Abstract

Bacteria encode a wide range of antiphage systems and a subset of these proteins are homologous to components of the human innate immune system. Mammalian nucleotide-binding and leucine-rich repeat containing proteins (NLRs) and bacterial NLR-related proteins use a central NACHT domain to link detection of infection with initiation of an antimicrobial response. Bacterial NACHT proteins provide defense against both DNA and RNA phages. Here we determine the mechanism of RNA phage detection by the bacterial NLR-related protein bNACHT25 in E. coli. bNACHT25 was specifically activated by Emesvirus ssRNA phages and analysis of MS2 phage escaper mutants that evaded detection revealed a critical role for Coat Protein (CP). A genetic assay confirmed CP was sufficient to activate bNACHT25 but the two proteins did not directly interact. Instead, we found bNACHT25 requires the host chaperone DnaJ to detect CP. Our data suggest that bNACHT25 detects a wide range of phages by guarding a host cell process rather than binding a specific phage-derived molecule.

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• BioRxiv Preprint, June 4 2024, 

Citation

Conte AN, Ridgeway SM, Ruchel ME, Kibby EM, Nagy TA, Whiteley AT. bioRxiv. 2024 Jun 4;. doi: 10.1101/2024.06.04.597415. PubMed PMID: 38895412; PubMed Central PMCID: PMC11185742.

Conte AN, Ridgeway SM, Ruchel ME, Kibby EM, Nagy TA, ➤Whiteley, AT | BioRxiv 2024

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Traditional 0 On White ]]> Tue, 04 Jun 2024 15:00:00 +0000 Aaron Whiteley 197 at /lab/aaron-whiteley /lab/aaron-whiteley/2023/05/08/bacterial-nlr-related-proteins-protect-against-phage Bacterial NLR-related proteins protect against phage Anonymous (not verified) Mon, 05/08/2023 - 09:17 Categories: Research Articles Tags: NACHT NLR STAND bacteriophage inflammasome innate immunity phage defense Emily Kibby ,  Amy Conte ,  Burroughs AM ,  Toni Nagy ,  Alfredo Vargas ,  Lindsay Whalen ,  Aravind L ,  Aaron Whiteley

Cell (2023). PubMed PMID: 37160116; PubMed Central PMCID: .

Abstract

Bacteria use a wide range of immune pathways to counter phage infection. A subset of these genes shares homology with components of eukaryotic immune systems, suggesting that eukaryotes horizontally acquired certain innate immune genes from bacteria. Here, we show that proteins containing a NACHT module, the central feature of the animal nucleotide-binding domain and leucine-rich repeat containing gene family (NLRs), are found in bacteria and defend against phages. NACHT proteins are widespread in bacteria, provide immunity against both DNA and RNA phages, and display the characteristic C-terminal sensor, central NACHT, and N-terminal effector modules. Some bacterial NACHT proteins have domain architectures similar to the human NLRs that are critical components of inflammasomes. Human disease-associated NLR mutations that cause stimulus-independent activation of the inflammasome also activate bacterial NACHT proteins, supporting a shared signaling mechanism. This work establishes that NACHT module-containing proteins are ancient mediators of innate immunity across the tree of life.

News and Commentaries

• [SBGrid]
• [Nature Reviews Microbiology]
• [Twitter]

Links 

• DOI: 
• Journal Link:
• BioRxiv Preprint, July 20 2022, 

Citation

Kibby EM, Conte AN, Burroughs AM, Nagy TA, Vargas JA, Whalen LA, Aravind L, Whiteley AT. Cell. 2023 May 25;186(11):2410-2424.e18. doi: 10.1016/j.cell.2023.04.015. Epub 2023 May 8. PubMed PMID: 37160116; PubMed Central PMCID: PMC10294775.

Kibby EM, Conte AN, Burroughs AN, Nagy TA, Vargas JA, Whalen LA, Aravind L, ➤Whiteley AT | Cell 2023

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Traditional 0 On White ]]> Mon, 08 May 2023 15:17:54 +0000 Anonymous 161 at /lab/aaron-whiteley