Characterization of bbtTICAM from amphioxus suggests the emergence of a MyD88-independent pathway in basal chordates

Yang, Manyi; Yuan, Shaochun; Huang, Shengfeng; Li, Jun; Xu, Liqun; Huang, Huiqing; Tao, Xin; Peng, Jian; Xu, Anlong

doi:10.1038/cr.2011.156

Cited by 30 publications

(34 citation statements)

References 46 publications

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“…6C, 6E). Because the TLR signaling pathway have been well characterized in amphioxus, the bbtIkB protein was also coexpressed with amphioxus MyD88 or TICAM (31,32), and the activation of NF-kB mediated by bbtMyD88 or bbtTICAM was inhibited by bbtIkB in a dose-dependent manner (Fig. 6F).…”

Section: The Journal Of Immunologymentioning

confidence: 99%

“…In our previous studies of amphioxus TLRs and related signaling molecules, we provided compelling evidence for a functional intracellular TLR-NF-kB signaling cascade (25,31,32,34). Amphioxus expresses $48 TLRs and .40 TIR-containing adaptors, which suggests an expanded repertoire of adaptors and intermediate signal transducers in its TLR signaling pathways.…”

Section: Oomentioning

confidence: 99%

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The Archaic Roles of the Amphioxus NF-κB/IκB Complex in Innate Immune Responses

Yuan

Zhang

et al. 2013

The Journal of Immunology

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NF-κB transcription factors play important roles in immune responses and the development of the immune system. Many aspects of NF-κB signaling differ significantly among distinct species, although many similarities in signaling exist in flies and humans. Thus, to understand the functional refinement of the NF-κB cascade from invertebrates to vertebrates, the Rel and NF-κB proteins, identified as bbtRel and bbtp105, were characterized in a basal chordate amphioxus. Consistent with the sequence similarities, bbtRel was found to interact with a mammalian κB response element, to move into the nucleus when activated, and to be inhibited by the NF-κB–specific inhibitor helenalin. Similar to the other class I members, bbtp105 could be cleaved into the mature form p58. Such endoproteolysis depends on the GRR sequence and requires both protease degradation and caspase 8 cleavage. Furthermore, we found that bbtIκB and the unprocessed bbtp105 can inhibit the transcriptional activity of bbtRel, whereas bbtp58 forms homodimers or heterodimers with bbtRel to create a mature NF-κB complex. Finally, we found that the survival rate and the expression of bbtIκB and TNF-α–like genes were decreased when adult amphioxus were treated with helanalin before immune challenge, suggesting the archaic roles for NF-κB signaling in innate immune responses in a basal chordate. The presence of the NF-κB–IκB cascade in amphioxus indicates that it is a significant feature linking invertebrates to vertebrates and is refined in vertebrates through the expansion and divergence of genes involved in the cascade.

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Section: The Journal Of Immunologymentioning

confidence: 99%

Section: Oomentioning

confidence: 99%

The Archaic Roles of the Amphioxus NF-κB/IκB Complex in Innate Immune Responses

Yuan

Zhang

et al. 2013

The Journal of Immunology

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“…2C-E). Because MyD88-dependent and TICAM-dependent pathways have been demonstrated in amphioxus (18,19), we further used luciferase assays to test whether bbtTIRA, bbtTIRB, and bbtTIRC are involved in amphioxus MyD88-and TICAM-dependent signaling. Results showed that bbtTIRA specifically inhibited the bbtTICAM-dependent activation of NF-kB (Fig.…”

Section: Fluorescence Protease Protectionmentioning

confidence: 99%

“…Amphioxus MyD88 was shown to mediate the activation of NFkB through its middle and death domains, whereas TICAM was shown to mediate the most primitive TRIF-dependent activation of NF-kB (18)(19)(20). Amphioxus SARM plays inhibitory roles in both MyD88-and TICAM-dependent pathways by interacting with MyD88, TRAF6, and TICAM (19,21). Recently, ubiquitination was shown to be essential in regulating the activation of amphioxus NF-kB (22,23).…”

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confidence: 99%

“…Among these adaptors, amphioxus MyD88, TRAM-like [also known as amphioxus TIR domain-containing adaptor molecule (TICAM)], and SARM have been well studied. Amphioxus MyD88 was shown to mediate the activation of NFkB through its middle and death domains, whereas TICAM was shown to mediate the most primitive TRIF-dependent activation of NF-kB (18)(19)(20). Amphioxus SARM plays inhibitory roles in both MyD88-and TICAM-dependent pathways by interacting with MyD88, TRAF6, and TICAM (19,21).…”

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Novel Toll/IL-1 Receptor Homologous Region Adaptors Act as Negative Regulators in Amphioxus TLR Signaling

Peng

Tao

et al. 2015

The Journal of Immunology

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Studies have shown that the basal chordate amphioxus possesses an extraordinarily complex TLR system, including 39 TLRs and at least 40 Toll/IL-1R homologous region (TIR) adaptors. Besides homologs to MyD88 and TIR domain-containing adaptor molecule (TICAM), most amphioxus TIR adaptors exhibit domain architectures that are not observed in other species. To reveal how these novel TIR adaptors function in amphioxus Branchiostoma belcheri tsingtauense (bbt), four representatives, bbtTIRA, bbtTIRB, bbtTIRC, and bbtTIRD, were selected for functional analyses. We found bbtTIRA to show a unique inhibitory role in amphioxus TICAM-mediated pathway by interacting with bbtTICAM and bbt receptor interacting protein 1b, whereas bbtTIRC specifically inhibits the amphioxus MyD88-dependent pathway by interacting with bbtMyD88 and depressing the polyubiquitination of bbt TNFR-associated factor 6. Although both bbtTIRB and bbtTIRD are located on endosomes, the TIR domain of bbtTIRB can interact with bbtMyD88 in the cytosol, whereas the TIR domain of bbtTIRD is enclosed in endosome, suggesting that bbtTIRD may be a redundant gene in amphioxus. This study indicated that most expanded TIR adaptors play nonredundant regulatory roles in amphioxus TLR signaling, adding a new layer to understanding the diversity and complexity of innate immunity at basal chordate.

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Cephalochordata: Branchiostoma

Gao¹,

Zhang²

2018

Advances in Comparative Immunology

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Characterization of bbtTICAM from amphioxus suggests the emergence of a MyD88-independent pathway in basal chordates

Cited by 30 publications

References 46 publications

The Archaic Roles of the Amphioxus NF-κB/IκB Complex in Innate Immune Responses

The Archaic Roles of the Amphioxus NF-κB/IκB Complex in Innate Immune Responses

Novel Toll/IL-1 Receptor Homologous Region Adaptors Act as Negative Regulators in Amphioxus TLR Signaling

Cephalochordata: Branchiostoma

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