Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response

Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response

IκB kinases (IKKs) play critical roles in innate immunity through signal-induced activation of the key transcription factors nuclear factor-κB (NF-κB) and interferon regulatory factors (IRFs). However, studies of invertebrate IKK functions remain scarce. In this study, we performed phylogenetic anal...

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Main Authors: Baoyu Huang, Linlin Zhang, Fei Xu, Xueying Tang, Li Li, Wei Wang, Mingkun Liu, Guofan Zhang
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-07-01
Series:Frontiers in Immunology
Subjects:
Crassostrea gigas
innate immunity
IKKα
IKKβ
Toll-like receptor
RIG-I-like receptor
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2019.01826/full
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language English
format Article
sources DOAJ
author Baoyu Huang
Baoyu Huang
Baoyu Huang
Baoyu Huang
Linlin Zhang
Linlin Zhang
Fei Xu
Fei Xu
Xueying Tang
Xueying Tang
Xueying Tang
Xueying Tang
Li Li
Li Li
Li Li
Li Li
Wei Wang
Wei Wang
Wei Wang
Wei Wang
Mingkun Liu
Mingkun Liu
Mingkun Liu
Guofan Zhang
Guofan Zhang
Guofan Zhang
Guofan Zhang
spellingShingle Baoyu Huang
Baoyu Huang
Baoyu Huang
Baoyu Huang
Linlin Zhang
Linlin Zhang
Fei Xu
Fei Xu
Xueying Tang
Xueying Tang
Xueying Tang
Xueying Tang
Li Li
Li Li
Li Li
Li Li
Wei Wang
Wei Wang
Wei Wang
Wei Wang
Mingkun Liu
Mingkun Liu
Mingkun Liu
Guofan Zhang
Guofan Zhang
Guofan Zhang
Guofan Zhang
Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
Frontiers in Immunology
Crassostrea gigas
innate immunity
IKKα
IKKβ
Toll-like receptor
RIG-I-like receptor
author_facet Baoyu Huang
Baoyu Huang
Baoyu Huang
Baoyu Huang
Linlin Zhang
Linlin Zhang
Fei Xu
Fei Xu
Xueying Tang
Xueying Tang
Xueying Tang
Xueying Tang
Li Li
Li Li
Li Li
Li Li
Wei Wang
Wei Wang
Wei Wang
Wei Wang
Mingkun Liu
Mingkun Liu
Mingkun Liu
Guofan Zhang
Guofan Zhang
Guofan Zhang
Guofan Zhang
author_sort Baoyu Huang
title Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
title_short Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
title_full Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
title_fullStr Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
title_full_unstemmed Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune Response
title_sort oyster versatile ikkα/βs are involved in toll-like receptor and rig-i-like receptor signaling for innate immune response
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2019-07-01
description IκB kinases (IKKs) play critical roles in innate immunity through signal-induced activation of the key transcription factors nuclear factor-κB (NF-κB) and interferon regulatory factors (IRFs). However, studies of invertebrate IKK functions remain scarce. In this study, we performed phylogenetic analysis of IKKs and IKK-related kinases encoded in the Pacific oyster genome. We then cloned and characterized the oyster IKKα/β-2 gene. We found that oyster IKKα/β-2, a homolog of human IKKα/IKKβ, responded to challenge with lipopolysaccharide (LPS), peptidoglycan (PGN), and polyinosinic-polycytidylic acid [poly(I:C)]. As a versatile immune molecule, IKKα/β-2 activated the promoters of NF-κB, TNFα, and IFNβ, as well as IFN-stimulated response element (ISRE)-containing promoters, initiating an antibacterial or antiviral immune state in mammalian cells. Importantly, together with the cloned oyster IKKα/β-1, we investigated the signal transduction pathways mediated by these two IKKα/β proteins. Our results showed that IKKα/β-1 and IKKα/β-2 could interact with the oyster TNF receptor-associated factor 6 (TRAF6) and that IKKα/β-2 could also bind to the oyster myeloid differentiation factor 88 (MyD88) protein directly, suggesting that oyster IKKα/βs participate in both RIG-I-like receptor (RLR) and Toll-like receptor (TLR) signaling for the reception of upstream immune signals. The fact that IKKα/β-1 and IKKα/β-2 formed homodimers by interacting with themselves and heterodimers by interacting with each other, along with the fact that both oyster IKKα/β proteins interacted with NEMO protein, indicates that oyster IKKα/βs and the scaffold protein NEMO form an IKK complex, which may be a key step in phosphorylating IκB proteins and activating NF-κB. Moreover, we found that oyster IKKα/βs could interact with IRF8, and this may be related to the IKK-mediated activation of ISRE promotors and their involvement in the oyster “interferon (IFN)-like” antiviral pathway. Moreover, the expression of oyster IKKα/β-1 and IKKα/β-2 may induce the phosphorylation of IκB proteins to activate NF-κB. These results reveal the immune function of oyster IKKα/β-2 and establish the existence of mollusk TLR and RLR signaling mediated by IKKα/β proteins for the first time. Our findings should be helpful in deciphering the immune mechanisms of invertebrates and understanding the development of the vertebrate innate immunity network.
topic Crassostrea gigas
innate immunity
IKKα
IKKβ
Toll-like receptor
RIG-I-like receptor
url https://www.frontiersin.org/article/10.3389/fimmu.2019.01826/full
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spelling doaj-844ad2f9d4ab43a0a7830cc9c239f3fa2020-11-25T00:47:58ZengFrontiers Media S.A.Frontiers in Immunology1664-32242019-07-011010.3389/fimmu.2019.01826465992Oyster Versatile IKKα/βs Are Involved in Toll-Like Receptor and RIG-I-Like Receptor Signaling for Innate Immune ResponseBaoyu Huang0Baoyu Huang1Baoyu Huang2Baoyu Huang3Linlin Zhang4Linlin Zhang5Fei Xu6Fei Xu7Xueying Tang8Xueying Tang9Xueying Tang10Xueying Tang11Li Li12Li Li13Li Li14Li Li15Wei Wang16Wei Wang17Wei Wang18Wei Wang19Mingkun Liu20Mingkun Liu21Mingkun Liu22Guofan Zhang23Guofan Zhang24Guofan Zhang25Guofan Zhang26Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaLaboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaLaboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaLaboratory for Marine Fisheries and Aquaculture, Qingdao National Laboratory for Marine Science and Technology, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaLaboratory for Marine Fisheries and Aquaculture, Qingdao National Laboratory for Marine Science and Technology, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaKey Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, ChinaLaboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao, ChinaNational & Local Joint Engineering Laboratory of Ecological Mariculture, Qingdao, ChinaCenter for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao, ChinaIκB kinases (IKKs) play critical roles in innate immunity through signal-induced activation of the key transcription factors nuclear factor-κB (NF-κB) and interferon regulatory factors (IRFs). However, studies of invertebrate IKK functions remain scarce. In this study, we performed phylogenetic analysis of IKKs and IKK-related kinases encoded in the Pacific oyster genome. We then cloned and characterized the oyster IKKα/β-2 gene. We found that oyster IKKα/β-2, a homolog of human IKKα/IKKβ, responded to challenge with lipopolysaccharide (LPS), peptidoglycan (PGN), and polyinosinic-polycytidylic acid [poly(I:C)]. As a versatile immune molecule, IKKα/β-2 activated the promoters of NF-κB, TNFα, and IFNβ, as well as IFN-stimulated response element (ISRE)-containing promoters, initiating an antibacterial or antiviral immune state in mammalian cells. Importantly, together with the cloned oyster IKKα/β-1, we investigated the signal transduction pathways mediated by these two IKKα/β proteins. Our results showed that IKKα/β-1 and IKKα/β-2 could interact with the oyster TNF receptor-associated factor 6 (TRAF6) and that IKKα/β-2 could also bind to the oyster myeloid differentiation factor 88 (MyD88) protein directly, suggesting that oyster IKKα/βs participate in both RIG-I-like receptor (RLR) and Toll-like receptor (TLR) signaling for the reception of upstream immune signals. The fact that IKKα/β-1 and IKKα/β-2 formed homodimers by interacting with themselves and heterodimers by interacting with each other, along with the fact that both oyster IKKα/β proteins interacted with NEMO protein, indicates that oyster IKKα/βs and the scaffold protein NEMO form an IKK complex, which may be a key step in phosphorylating IκB proteins and activating NF-κB. Moreover, we found that oyster IKKα/βs could interact with IRF8, and this may be related to the IKK-mediated activation of ISRE promotors and their involvement in the oyster “interferon (IFN)-like” antiviral pathway. Moreover, the expression of oyster IKKα/β-1 and IKKα/β-2 may induce the phosphorylation of IκB proteins to activate NF-κB. These results reveal the immune function of oyster IKKα/β-2 and establish the existence of mollusk TLR and RLR signaling mediated by IKKα/β proteins for the first time. Our findings should be helpful in deciphering the immune mechanisms of invertebrates and understanding the development of the vertebrate innate immunity network.https://www.frontiersin.org/article/10.3389/fimmu.2019.01826/fullCrassostrea gigasinnate immunityIKKαIKKβToll-like receptorRIG-I-like receptor

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