Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling

Jennifer E. Ho; Wei Yu Chen; Ming Huei Chen; Martin G. Larson; Elizabeth L. McCabe; Susan Cheng; Anahita Ghorbani; Erin Coglianese; Valur Emilsson; Andrew D. Johnson; Stefan Walter; Nora Franceschini; Christopher J. O'Donnell; Abbas Dehghan; Chen Lu; Daniel Levy; Christopher Newton-Cheh; Honghuang Lin; Janine F. Felix; Eric R. Schreiter; Ramachandran S. Vasan; James L. Januzzi; Richard T. Lee; Thomas J. Wang

doi:10.1172/JCI67119

Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling

Jennifer E. Ho, Wei Yu Chen, Ming Huei Chen, Martin G. Larson, Elizabeth L. McCabe, Susan Cheng, Anahita Ghorbani, Erin Coglianese, Valur Emilsson, Andrew D. Johnson, Stefan Walter, Nora Franceschini, Christopher J. O'Donnell, Abbas Dehghan, Chen Lu, Daniel Levy, Christopher Newton-Cheh, Honghuang Lin, Janine F. Felix, Eric R. SchreiterRamachandran S. Vasan, James L. Januzzi, Richard T. Lee, Thomas J. Wang

生物化學暨分子生物學研究所

研究成果: Article › 同行評審

89 引文斯高帕斯（Scopus）

摘要

The suppression of tumorigenicity 2/IL-33 (ST2/IL-33) pathway has been implicated in several immune and inflammatory diseases. ST2 is produced as 2 isoforms. The membrane-bound isoform (ST2L) induces an immune response when bound to its ligand, IL-33. The other isoform is a soluble protein (sST2) that is thought to be a decoy receptor for IL-33 signaling. Elevated sST2 levels in serum are associated with an increased risk for cardiovascular disease. We investigated the determinants of sST2 plasma concentrations in 2, 991 Framingham Offspring Cohort participants. While clinical and environmental factors explained some variation in sST2 levels, much of the variation in sST2 production was driven by genetic factors. In a genome-wide association study (GWAS), multiple SNPs within IL1RL1 (the gene encoding ST2) demonstrated associations with sST2 concentrations. Five missense variants of IL1RL1 correlated with higher sST2 levels in the GWAS and mapped to the intracellular domain of ST2, which is absent in sST2. In a cell culture model, IL1RL1 missense variants increased sST2 expression by inducing IL-33 expression and enhancing IL-33 responsiveness (via ST2L). Our data suggest that genetic variation in IL1RL1 can result in increased levels of sST2 and alter immune and inflammatory signaling through the ST2/IL-33 pathway.

原文	English
頁（從 - 到）	4208-4218
頁數	11
期刊	Journal of Clinical Investigation
卷	123
發行號	10
DOIs	https://doi.org/10.1172/JCI67119
出版狀態	Published - 2013 10月 1

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10.1172/JCI67119

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Ho, J. E., Chen, W. Y., Chen, M. H., Larson, M. G., McCabe, E. L., Cheng, S., Ghorbani, A., Coglianese, E., Emilsson, V., Johnson, A. D., Walter, S., Franceschini, N., O'Donnell, C. J., Dehghan, A., Lu, C., Levy, D., Newton-Cheh, C., Lin, H., Felix, J. F., ... Wang, T. J. (2013). Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling. Journal of Clinical Investigation, 123(10), 4208-4218. https://doi.org/10.1172/JCI67119

@article{c3f404be48d844a7adf0229bb0a495b4,

title = "Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling",

abstract = "The suppression of tumorigenicity 2/IL-33 (ST2/IL-33) pathway has been implicated in several immune and inflammatory diseases. ST2 is produced as 2 isoforms. The membrane-bound isoform (ST2L) induces an immune response when bound to its ligand, IL-33. The other isoform is a soluble protein (sST2) that is thought to be a decoy receptor for IL-33 signaling. Elevated sST2 levels in serum are associated with an increased risk for cardiovascular disease. We investigated the determinants of sST2 plasma concentrations in 2, 991 Framingham Offspring Cohort participants. While clinical and environmental factors explained some variation in sST2 levels, much of the variation in sST2 production was driven by genetic factors. In a genome-wide association study (GWAS), multiple SNPs within IL1RL1 (the gene encoding ST2) demonstrated associations with sST2 concentrations. Five missense variants of IL1RL1 correlated with higher sST2 levels in the GWAS and mapped to the intracellular domain of ST2, which is absent in sST2. In a cell culture model, IL1RL1 missense variants increased sST2 expression by inducing IL-33 expression and enhancing IL-33 responsiveness (via ST2L). Our data suggest that genetic variation in IL1RL1 can result in increased levels of sST2 and alter immune and inflammatory signaling through the ST2/IL-33 pathway.",

author = "Ho, {Jennifer E.} and Chen, {Wei Yu} and Chen, {Ming Huei} and Larson, {Martin G.} and McCabe, {Elizabeth L.} and Susan Cheng and Anahita Ghorbani and Erin Coglianese and Valur Emilsson and Johnson, {Andrew D.} and Stefan Walter and Nora Franceschini and O'Donnell, {Christopher J.} and Abbas Dehghan and Chen Lu and Daniel Levy and Christopher Newton-Cheh and Honghuang Lin and Felix, {Janine F.} and Schreiter, {Eric R.} and Vasan, {Ramachandran S.} and Januzzi, {James L.} and Lee, {Richard T.} and Wang, {Thomas J.}",

year = "2013",

month = oct,

day = "1",

doi = "10.1172/JCI67119",

language = "English",

volume = "123",

pages = "4208--4218",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

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Ho, JE, Chen, WY, Chen, MH, Larson, MG, McCabe, EL, Cheng, S, Ghorbani, A, Coglianese, E, Emilsson, V, Johnson, AD, Walter, S, Franceschini, N, O'Donnell, CJ, Dehghan, A, Lu, C, Levy, D, Newton-Cheh, C, Lin, H, Felix, JF, Schreiter, ER, Vasan, RS, Januzzi, JL, Lee, RT & Wang, TJ 2013, 'Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling', Journal of Clinical Investigation, 卷 123, 編號 10, 頁 4208-4218. https://doi.org/10.1172/JCI67119

TY - JOUR

T1 - Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling

AU - Ho, Jennifer E.

AU - Chen, Wei Yu

AU - Chen, Ming Huei

AU - Larson, Martin G.

AU - McCabe, Elizabeth L.

AU - Cheng, Susan

AU - Ghorbani, Anahita

AU - Coglianese, Erin

AU - Emilsson, Valur

AU - Johnson, Andrew D.

AU - Walter, Stefan

AU - Franceschini, Nora

AU - O'Donnell, Christopher J.

AU - Dehghan, Abbas

AU - Lu, Chen

AU - Levy, Daniel

AU - Newton-Cheh, Christopher

AU - Lin, Honghuang

AU - Felix, Janine F.

AU - Schreiter, Eric R.

AU - Vasan, Ramachandran S.

AU - Januzzi, James L.

AU - Lee, Richard T.

AU - Wang, Thomas J.

PY - 2013/10/1

Y1 - 2013/10/1

N2 - The suppression of tumorigenicity 2/IL-33 (ST2/IL-33) pathway has been implicated in several immune and inflammatory diseases. ST2 is produced as 2 isoforms. The membrane-bound isoform (ST2L) induces an immune response when bound to its ligand, IL-33. The other isoform is a soluble protein (sST2) that is thought to be a decoy receptor for IL-33 signaling. Elevated sST2 levels in serum are associated with an increased risk for cardiovascular disease. We investigated the determinants of sST2 plasma concentrations in 2, 991 Framingham Offspring Cohort participants. While clinical and environmental factors explained some variation in sST2 levels, much of the variation in sST2 production was driven by genetic factors. In a genome-wide association study (GWAS), multiple SNPs within IL1RL1 (the gene encoding ST2) demonstrated associations with sST2 concentrations. Five missense variants of IL1RL1 correlated with higher sST2 levels in the GWAS and mapped to the intracellular domain of ST2, which is absent in sST2. In a cell culture model, IL1RL1 missense variants increased sST2 expression by inducing IL-33 expression and enhancing IL-33 responsiveness (via ST2L). Our data suggest that genetic variation in IL1RL1 can result in increased levels of sST2 and alter immune and inflammatory signaling through the ST2/IL-33 pathway.

AB - The suppression of tumorigenicity 2/IL-33 (ST2/IL-33) pathway has been implicated in several immune and inflammatory diseases. ST2 is produced as 2 isoforms. The membrane-bound isoform (ST2L) induces an immune response when bound to its ligand, IL-33. The other isoform is a soluble protein (sST2) that is thought to be a decoy receptor for IL-33 signaling. Elevated sST2 levels in serum are associated with an increased risk for cardiovascular disease. We investigated the determinants of sST2 plasma concentrations in 2, 991 Framingham Offspring Cohort participants. While clinical and environmental factors explained some variation in sST2 levels, much of the variation in sST2 production was driven by genetic factors. In a genome-wide association study (GWAS), multiple SNPs within IL1RL1 (the gene encoding ST2) demonstrated associations with sST2 concentrations. Five missense variants of IL1RL1 correlated with higher sST2 levels in the GWAS and mapped to the intracellular domain of ST2, which is absent in sST2. In a cell culture model, IL1RL1 missense variants increased sST2 expression by inducing IL-33 expression and enhancing IL-33 responsiveness (via ST2L). Our data suggest that genetic variation in IL1RL1 can result in increased levels of sST2 and alter immune and inflammatory signaling through the ST2/IL-33 pathway.

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U2 - 10.1172/JCI67119

DO - 10.1172/JCI67119

M3 - Article

C2 - 23999434

AN - SCOPUS:84885024275

SN - 0021-9738

VL - 123

SP - 4208

EP - 4218

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 10

ER -

Common genetic variation at the IL1RL1 locus regulates IL-33/ST2 signaling

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