Interleukin-1 processing (Homo sapiens)
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Description
The IL-1 family of cytokines that interact with the Type 1 IL-1R include IL-1 Alpha (IL1A), IL-1 Beta (IL1B) and the IL-1 receptor antagonist protein (IL1RAP). IL1RAP is synthesized with a signal peptide and secreted as a mature protein via the classical secretory pathway. IL1A and IL1B are synthesised as cytoplasmic precursors (pro-IL1A and pro-IL1B) in activated cells. They have no signal sequence, precluding secretion via the classical ER-Golgi route (Rubartelli et al. 1990). Processing of pro-IL1B to the active form requires caspase-1 (Thornberry et al. 1992), which is itself activated by a molecular scaffold termed the inflammasome (Martinon et al. 2002). Processing and release of IL1B are thought to be closely linked, because mature IL1B is only seen inside inflammatory cells just prior to release (Brough et al. 2003). It has been reported that in monocytes a fraction of cellular IL1B is released by the regulated secretion of late endosomes and early lysosomes, and that this may represent a cellular compartment where caspase-1 processing of pro-IL1B takes place (Andrei et al. 1999). Shedding of microvesicles from the plasma membrane has also been proposed as a mechanism of secretion (MacKenzie et al. 2001). These proposals superceded previous models in which non-specific release due to cell lysis and passage through a plasma membrane pore were considered. However, there is evidence in the literature that supports all of these mechanisms and there is still controversy over how IL1B exits from cells (Brough & Rothwell 2007). A calpain-like potease has been reported to be important for the processing of pro-IL1A, but much less is known about how IL1A is released from cells and what specific roles it plays in biology.
Original Pathway at Reactome: http://www.reactome.org/PathwayBrowser/#DB=gk_current&FOCUS_SPECIES_ID=48887&FOCUS_PATHWAY_ID=448706
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Ontology Terms
Bibliography
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- Brough D, Rothwell NJ.; ''Caspase-1-dependent processing of pro-interleukin-1beta is cytosolic and precedes cell death.''; PubMed Europe PMC Scholia
- Gu Y, Kuida K, Tsutsui H, Ku G, Hsiao K, Fleming MA, Hayashi N, Higashino K, Okamura H, Nakanishi K, Kurimoto M, Tanimoto T, Flavell RA, Sato V, Harding MW, Livingston DJ, Su MS.; ''Activation of interferon-gamma inducing factor mediated by interleukin-1beta converting enzyme.''; PubMed Europe PMC Scholia
- Thornberry NA, Bull HG, Calaycay JR, Chapman KT, Howard AD, Kostura MJ, Miller DK, Molineaux SM, Weidner JR, Aunins J.; ''A novel heterodimeric cysteine protease is required for interleukin-1 beta processing in monocytes.''; PubMed Europe PMC Scholia
- Ghayur T, Banerjee S, Hugunin M, Butler D, Herzog L, Carter A, Quintal L, Sekut L, Talanian R, Paskind M, Wong W, Kamen R, Tracey D, Allen H.; ''Caspase-1 processes IFN-gamma-inducing factor and regulates LPS-induced IFN-gamma production.''; PubMed Europe PMC Scholia
- Qu Y, Franchi L, Nunez G, Dubyak GR.; ''Nonclassical IL-1 beta secretion stimulated by P2X7 receptors is dependent on inflammasome activation and correlated with exosome release in murine macrophages.''; PubMed Europe PMC Scholia
- Walker NP, Talanian RV, Brady KD, Dang LC, Bump NJ, Ferenz CR, Franklin S, Ghayur T, Hackett MC, Hammill LD.; ''Crystal structure of the cysteine protease interleukin-1 beta-converting enzyme: a (p20/p10)2 homodimer.''; PubMed Europe PMC Scholia
- Campbell EJ, Silverman EK, Campbell MA.; ''Elastase and cathepsin G of human monocytes. Quantification of cellular content, release in response to stimuli, and heterogeneity in elastase-mediated proteolytic activity.''; PubMed Europe PMC Scholia
History
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External references
DataNodes
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Name | Type | Database reference | Comment |
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CASP1 | Protein | P29466 (Uniprot-TrEMBL) | |
Caspase-1 active tetramer | Complex | REACT_24192 (Reactome) | |
Caspase-1 p10/p20 dimer | Complex | REACT_24131 (Reactome) | |
Interleukin-1 family N-terminal propeptides | Protein | REACT_24044 (Reactome) | |
Interleukin-1 family propeptides | Protein | REACT_24212 (Reactome) | |
Interleukin-1 family | Protein | REACT_24453 (Reactome) | |
Interleukin-1 family | Protein | REACT_24480 (Reactome) | |
NFKB1 | Protein | P19838 (Uniprot-TrEMBL) | |
NFKB2 | Protein | Q00653 (Uniprot-TrEMBL) | |
NFkB Complex | Complex | REACT_7143 (Reactome) | |
RELA | Protein | Q04206 (Uniprot-TrEMBL) |
Annotated Interactions
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Source | Target | Type | Database reference | Comment |
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CASP1 | Arrow | REACT_23881 (Reactome) | ||
CASP1 | REACT_23893 (Reactome) | |||
Caspase-1 active tetramer | REACT_23804 (Reactome) | |||
Interleukin-1 family N-terminal propeptides | Arrow | REACT_23804 (Reactome) | ||
Interleukin-1 family | Arrow | REACT_23804 (Reactome) | ||
NFkB Complex | Arrow | REACT_23804 (Reactome) | ||
REACT_23804 (Reactome) | Pro-interleukin-1 beta (pro-IL1B) is the primary substrate of caspase-1. IL1B production and processing is stimulated when pathogen-associated molecular patterns (PAMPs) such as bacterial LPS are detected by cells of the innate immune system, and in response to pro-inflammatory cytokines such as TNF. Detection of PAMPs by Toll receptors leads to rapid IL1 transcription/translation and subsequent processing by caspase-1 in macrophages and monocytes. Processing is triggered by the activation of members of the NLR family and their associated inflammasome complexes. IL1B lacks a signal peptide to direct it to the Golgi for subsequent secretion, so the mode of secretion is uncertain. Once secreted, IL1B binds membrane-bound IL1 receptors, followed by recruitment of the IL1 receptor accessory protein to form a high affinity receptor complex. Ligand induced receptor activation induces the intracellular association of a number of cytosolic adapter proteins triggering intracellular signal transduction. This series of steps facilitates the induction of nuclear factor-kappa B (NFkB) and mitogen-activated protein kinase (MAPK) activity, leading to downstream transcription of additional inflammatory cytokines, including IL1B itself. A calpain-like potease has been reported to be important for the processing of pro- IL1A, but much less is known about how IL1A is released from cells and what specific roles it plays in biology. | |||
REACT_23881 (Reactome) | Caspase 1 is expressed as a precursor that is cleaved to generate the p10 and p20 subunits that subsequently form the active tetramer. | |||
REACT_23893 (Reactome) | The p10 and p20 subunits first dimerize, then two dimers associate to give the active tetramer. | |||
REACT_23994 (Reactome) | IL-1 Beta lacks signal sequences for compartmentation within the Golgi and classical secretory vesicles, so release of the mature form to extracellular compartments requires nonclassical mechanisms of secretion which are poorly understood. Three models with distinct mechanisms have been proposed to date (see Qu et al. 2007). | |||
REACT_24001 (Reactome) | Two p10/p20 dimers associate to form the active tetramer |