Posttranslational Modification of HOIP Blocks Toll-Like Receptor 4-Mediated Linear-Ubiquitin-Chain Formation

Linear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical s...

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Published in:	mBio Vol. 6; no. 6; pp. e01777 - e01715
Main Authors:	Bowman, James, Rodgers, Mary A, Shi, Mude, Amatya, Rina, Hostager, Bruce, Iwai, Kazuhiro, Gao, Shou-Jiang, Jung, Jae U
Format:	Journal Article
Language:	English
Published:	United States American Society of Microbiology 17-11-2015 American Society for Microbiology
Subjects:	Immunity, Innate Lipopolysaccharides - metabolism NF-kappa B - metabolism Protein Conformation Protein Multimerization Protein Processing, Post-Translational Toll-Like Receptor 4 - metabolism Ubiquitin - metabolism Ubiquitin-Protein Ligases - chemistry Ubiquitin-Protein Ligases - metabolism
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Abstract	Linear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical signaling molecules. Indeed, linear-ubiquitination-dependent signaling is essential to prevent pyogenic bacterial infections that can lead to death. While linear ubiquitination is essential for intracellular receptor signaling upon microbial infection, this response must be measured and stopped to avoid tissue damage and autoimmunity. While LUBAC is activated upon bacterial stimulation, the mechanisms regulating LUBAC activity in response to bacterial stimuli have remained elusive. We demonstrate that LUBAC activity itself is downregulated through ubiquitination, specifically, ubiquitination of the catalytic subunit HOIP at the carboxyl-terminal lysine 1056. Ubiquitination of Lys1056 dynamically altered HOIP conformation, resulting in the suppression of its catalytic activity. Consequently, HOIP Lys1056-to-Arg mutation led not only to persistent LUBAC activity but also to prolonged NF-κB activation induced by bacterial lipopolysaccharide-mediated Toll-like receptor 4 (TLR4) stimulation, whereas it showed no effect on NF-κB activation induced by CD40 stimulation. This study describes a novel posttranslational regulation of LUBAC-mediated linear ubiquitination that is critical for specifically directing TLR4-mediated NF-κB activation. Posttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response.
AbstractList	UNLABELLEDLinear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical signaling molecules. Indeed, linear-ubiquitination-dependent signaling is essential to prevent pyogenic bacterial infections that can lead to death. While linear ubiquitination is essential for intracellular receptor signaling upon microbial infection, this response must be measured and stopped to avoid tissue damage and autoimmunity. While LUBAC is activated upon bacterial stimulation, the mechanisms regulating LUBAC activity in response to bacterial stimuli have remained elusive. We demonstrate that LUBAC activity itself is downregulated through ubiquitination, specifically, ubiquitination of the catalytic subunit HOIP at the carboxyl-terminal lysine 1056. Ubiquitination of Lys1056 dynamically altered HOIP conformation, resulting in the suppression of its catalytic activity. Consequently, HOIP Lys1056-to-Arg mutation led not only to persistent LUBAC activity but also to prolonged NF-κB activation induced by bacterial lipopolysaccharide-mediated Toll-like receptor 4 (TLR4) stimulation, whereas it showed no effect on NF-κB activation induced by CD40 stimulation. This study describes a novel posttranslational regulation of LUBAC-mediated linear ubiquitination that is critical for specifically directing TLR4-mediated NF-κB activation. IMPORTANCEPosttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response. Linear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical signaling molecules. Indeed, linear-ubiquitination-dependent signaling is essential to prevent pyogenic bacterial infections that can lead to death. While linear ubiquitination is essential for intracellular receptor signaling upon microbial infection, this response must be measured and stopped to avoid tissue damage and autoimmunity. While LUBAC is activated upon bacterial stimulation, the mechanisms regulating LUBAC activity in response to bacterial stimuli have remained elusive. We demonstrate that LUBAC activity itself is downregulated through ubiquitination, specifically, ubiquitination of the catalytic subunit HOIP at the carboxyl-terminal lysine 1056. Ubiquitination of Lys1056 dynamically altered HOIP conformation, resulting in the suppression of its catalytic activity. Consequently, HOIP Lys1056-to-Arg mutation led not only to persistent LUBAC activity but also to prolonged NF-κB activation induced by bacterial lipopolysaccharide-mediated Toll-like receptor 4 (TLR4) stimulation, whereas it showed no effect on NF-κB activation induced by CD40 stimulation. This study describes a novel posttranslational regulation of LUBAC-mediated linear ubiquitination that is critical for specifically directing TLR4-mediated NF-κB activation. IMPORTANCE Posttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response. Posttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response. Linear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical signaling molecules. Indeed, linear-ubiquitination-dependent signaling is essential to prevent pyogenic bacterial infections that can lead to death. While linear ubiquitination is essential for intracellular receptor signaling upon microbial infection, this response must be measured and stopped to avoid tissue damage and autoimmunity. While LUBAC is activated upon bacterial stimulation, the mechanisms regulating LUBAC activity in response to bacterial stimuli have remained elusive. We demonstrate that LUBAC activity itself is downregulated through ubiquitination, specifically, ubiquitination of the catalytic subunit HOIP at the carboxyl-terminal lysine 1056. Ubiquitination of Lys1056 dynamically altered HOIP conformation, resulting in the suppression of its catalytic activity. Consequently, HOIP Lys1056-to-Arg mutation led not only to persistent LUBAC activity but also to prolonged NF-κB activation induced by bacterial lipopolysaccharide-mediated Toll-like receptor 4 (TLR4) stimulation, whereas it showed no effect on NF-κB activation induced by CD40 stimulation. This study describes a novel posttranslational regulation of LUBAC-mediated linear ubiquitination that is critical for specifically directing TLR4-mediated NF-κB activation. Posttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response. ABSTRACT Linear ubiquitination is an atypical posttranslational modification catalyzed by the linear-ubiquitin-chain assembly complex (LUBAC), containing HOIP, HOIL-1L, and Sharpin. LUBAC facilitates NF-κB activation and inflammation upon receptor stimulation by ligating linear ubiquitin chains to critical signaling molecules. Indeed, linear-ubiquitination-dependent signaling is essential to prevent pyogenic bacterial infections that can lead to death. While linear ubiquitination is essential for intracellular receptor signaling upon microbial infection, this response must be measured and stopped to avoid tissue damage and autoimmunity. While LUBAC is activated upon bacterial stimulation, the mechanisms regulating LUBAC activity in response to bacterial stimuli have remained elusive. We demonstrate that LUBAC activity itself is downregulated through ubiquitination, specifically, ubiquitination of the catalytic subunit HOIP at the carboxyl-terminal lysine 1056. Ubiquitination of Lys1056 dynamically altered HOIP conformation, resulting in the suppression of its catalytic activity. Consequently, HOIP Lys1056-to-Arg mutation led not only to persistent LUBAC activity but also to prolonged NF-κB activation induced by bacterial lipopolysaccharide-mediated Toll-like receptor 4 (TLR4) stimulation, whereas it showed no effect on NF-κB activation induced by CD40 stimulation. This study describes a novel posttranslational regulation of LUBAC-mediated linear ubiquitination that is critical for specifically directing TLR4-mediated NF-κB activation. IMPORTANCE Posttranslational modification of proteins enables cells to respond quickly to infections and immune stimuli in a tightly controlled manner. Specifically, covalent modification of proteins with the small protein ubiquitin is essential for cells to initiate and terminate immune signaling in response to bacterial and viral infection. This process is controlled by ubiquitin ligase enzymes, which themselves must be regulated to prevent persistent and deleterious immune signaling. However, how this regulation is achieved is poorly understood. This paper reports a novel ubiquitination event of the atypical ubiquitin ligase HOIP that is required to terminate bacterial lipopolysaccharide (LPS)-induced TLR4 immune signaling. Ubiquitination causes the HOIP ligase to undergo a conformational change, which blocks its enzymatic activity and ultimately terminates LPS-induced TLR4 signaling. These findings provide a new mechanism for controlling HOIP ligase activity that is vital to properly regulate a proinflammatory immune response.
Author	Jung, Jae U Rodgers, Mary A Hostager, Bruce Shi, Mude Gao, Shou-Jiang Bowman, James Amatya, Rina Iwai, Kazuhiro
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SubjectTerms	Immunity, Innate Lipopolysaccharides - metabolism NF-kappa B - metabolism Protein Conformation Protein Multimerization Protein Processing, Post-Translational Toll-Like Receptor 4 - metabolism Ubiquitin - metabolism Ubiquitin-Protein Ligases - chemistry Ubiquitin-Protein Ligases - metabolism
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Title	Posttranslational Modification of HOIP Blocks Toll-Like Receptor 4-Mediated Linear-Ubiquitin-Chain Formation
URI	https://www.ncbi.nlm.nih.gov/pubmed/26578682 https://search.proquest.com/docview/1735905638 https://pubmed.ncbi.nlm.nih.gov/PMC4659476 https://doaj.org/article/7b17e42dd58d43dbad7b1292f30f24fd
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