Identification and functional characterization of miiuy croaker IRF3 as an inducible protein involved regulation of IFN response

A novel protein encoded by circVPS13D attenuates antiviral innate immunity by targeting MAVS in teleost fish

IMPORTANCE

The expression of circVPS13D was upregulated with SCRV invasion, which proved that circVPS13D was involved in the regulation of the antiviral immune response. Our study revealed that the existence of circVPS13D promoted the replication of SCRV. Functionally, circVPS13D negatively regulates the antiviral responses of fish. Mechanistically, we confirmed that circVPS13D inhibited RLRs antiviral signaling pathway via the encoded protein VPS13D-170aa by targeting MAVS. Our study provided novel insights into the roles of protein-coding circRNAs and supported VPS13D-170aa as a negative regulator in the antiviral immune responses of teleost fish.

Genomic organization, evolution and functional characterization of embryonic lethal abnormal vision like protein 1 (ELAVL1) in miiuy croaker (Miichthys miiuy)

Embryonic lethal vision-like protein 1 (ELAVL1), an AU-rich elements (AREs) binding protein involved in the regulation of inflammatory transcript stability, which has not been reported in fish. In this study, we identified the ELAVL1 gene in Miichthys miiuy (mmiELAVL1), and then analyzed its structure and evolution, furthermore described its expression pattern in miiuy croaker. The results showed that mmiELAVL1 and other vertebrate ELAVL1 genes all have three highly conserved RNA recognition motif (RRM) protein domains, and the structure and protein structure are evolutionarily conserved, indicating that their functions may also conservative. In healthy miiuy croaker, mmiELAVL1 was commonly expressed in the tested tissues, and mmiELAVL1 is mainly localized in the nucleus of kidney cells. In addition, mmiELAVL1 responds to poly(I:C) and SCRV stimulation and promotes antiviral genes, indicating its active role in immune process. In summary, this study will facilitate future studies on the role and underlying mechanisms of ELAVL1 in fish immune responses.

Characterization and expression analysis of the interferon regulatory factor (IRF) gene family in zig-zag eel (Mastacembelus armatus) against Aeromonas veronii infection

Interferon regulatory factors (IRFs) play an important role in innate and adaptive immune system. However, in teleosts, the data on IRFs is still scarce. Here, for the first time, we identified 11 members of IRFs from the zig-zag eel Mastacembelus armatus (MarIRF1-10). The deduced protein sequences are highly conserved among different fish species especially in DBD and IAD domain. Phylogenetic analysis indicated that MarIRFs preferentially grouped with fish species in Synbranchiformes or Perciformes. Expression analysis showed that MarIRFs were expressed in all nine tissues including spleen, gill, muscle and intestine. After infected by Aeromonas veronii, expression of MarIRF2, MaIRF4b and MaIRF5 were significantly upregulated in spleen, MarIRF1, MarIRF2 were significantly upregulated in kidney, but in liver, nearly all MarIRFs were downregulated. Taken together, this study first reported molecular characterization and expression patterns of 11 IRFs in the zig-zag eel. All these results will contribute a lot to better understanding the antibacterial mechanism of IRFs in teleosts.

IFN regulatory factor 3 of golden pompano and its NLS domain are involved in antibacterial innate immunity and regulate the expression of type I interferon (IFNa3)

Introduction

The transcription factor interferon regulatory factor 3 (IRF3) plays an important role in host defence against viral infections. However, its role during bacterial infection in teleosts remains unclear. In the present study, we evaluated the antibacterial effects of Trachinotus ovatus IRF3 (TroIRF3) and how it regulates type I interferon (IFN).

Methods

Subcellular localisation experiments, overexpression, and quantitative real-time PCR (qRT-PCR) were performed to examine the nuclear localisation signal (NLS) of TroIRF3 and its role in the antibacterial regulatory function of TroIRF3. We assessed the binding activity of TroIRF3 to the IFNa3 promoter by luciferase reporter assay.

Results and Discussion

The results showed that TroIRF3 was constitutively expressed at high levels in the gill and liver. TroIRF3 was significantly upregulated and transferred from the cytoplasm to the nucleus after Vibrio harveyi infection. By overexpressing TroIRF3, the fish were able to inhibit the replication of V. harveyi, whereas knocking it down increased bacterial replication. Moreover, the overexpression of TroIRF3 increased type I interferon (IFNa3) production and the IFN signalling molecules. The NLS, which is from the 64-127 amino acids of TroIRF3, contains the basic amino acids KR74/75 and RK82/84. The results proved that NLS is required for the efficient nuclear import of TroIRF3 and that the NLS domain of TroIRF3 consists of the key amino acids KR74/75 and RK82/84. The findings also showed that NLS plays a key role in the antibacterial immunity and upregulation of TroIFNa3 induced by TroIRF3. Moreover, TroIRF3 induces TroIFNa3 promoter activity, whereas these effects are inhibited when the NLS domain is deficient. Overall, our results suggested that TroIRF3 is involved in the antibacterial immunity and regulation of type I IFN in T. ovatus and that the NLS of TroIRF3 is vital for IRF3-mediated antibacterial responses, which will aid in understanding the immune role of fish IRF3.

Genomic organization, evolution and functional characterization of caspase-2 and caspase-8 in miiuy croaker (Miichthys miiuy)

As the central link and executor of cell apoptosis, the caspase protease family has received extensive attention in recent years. However, the genetic characteristics and immune functions of some caspases are still unknown in fish. In our study, we cloned the full-length caspase-2 (mmCasp2) and caspase-8 (mmCasp2) of miiuy croaker, then we analyzed characteristics and functions of these two genes which are upstream of the apoptosis cascade reaction. Mmcasp2 and mmCasp8 exhibited a conserved domain (CASc), and the different part is that the mmCasp2 has a CARD domain, while mmCasp8 have two DED domains. Sequence and evolution analysis results showed that caspase-2 is more conservative than caspae-8 in the process of evolution. Cellular localization analysis showed that the distribution of mmCasp2 and mmCasp2 was in cytoplasm. The real-time PCR analysis showed that these two caspases are constitutively expressed in different tissues, and the expression of mmCasp2 and mmCasp8 were up-regulated in the liver, spleen, and kidney after infection with V. anguillarum. Lastly, qRT-PCR and Luciferase assays analysis showed that mmCasp2 and mmCasp8 can inhibit the NF-кB pathway. In general, we systematically analyzed the structure, evolution and related functional experiments of the caspase-2 and caspase-8 in miiuy croaker, which will help further understand the role caspase family plays in the apoptosis and immune response.

hnRNPub inhibits LPS-induced NF-κB pathway by targeting TRAF6 for K48-linked ubiquitination in miiuy croaker (Miichthys miiuy)

As an important adaptor protein in innate immunity, TRAF6 is not only responsible for the transduction of signal pathways, but its E3 ligase activity to transfer ubiquitination has also been widely studied. Under LPS stimulation, TRAF6 transfers the K63-linked ubiquitination chain to TAK1, which in turn activates the transcription factor NF-κB and cell signaling factors downstream of the signaling pathway. However, how TRAF6 expression is regulated remains largely unknown, especially in teleost. In this study, we identified hnRNPub as a suppressor of TRAF6 expression. The mRNA level of hnRNPub significantly increased under LPS stimulation, and hnRNPub inhibited NF-κB signaling pathway by targeting TRAF6. Knockdown of hnRNPub potentiated inflammatory cytokines, such as TNFα,IL-1β,IL-8. Mechanistically, hnRNPub inhibited NF-κB signaling pathway through mediating K48-linked ubiquitination and proteasomal degradation of TRAF6. Thus, our findings reveal that hnRNPub limits LPS-induced innate activation by promoting K48-linked polyubiquitination and proteasomal degradation of TRAF6.

Black carp IKKε collaborates with IRF3 in the antiviral signaling

Interferon regulatory factor 3 (IRF3) is activated by IκB kinase ε (IKKε) and Tank-binding kinase 1 (TBK1), which plays a crucial role in the interferon signaling in vertebrates. However, the regulation of teleost IRF3 by IKKε remains largely unknown. In this study, the IRF3 homologue (bcIRF3) of black carp (Mylopharyngodon piceus) has been cloned and characterized. The transcription of bcIRF3 was detected to increase in host cells in response to different stimuli. bcIRF3 distributed predominantly in the cytosolic area; however, translocated into nuclei after virus infection. bcIRF3 showed IFN-inducing ability in reporter assay and EPC cells expressing bcIRF3 showed enhanced antiviral ability against both grass carp reovirus (GCRV) and spring viremia of carp virus (SVCV). Moreover, knockdown of bcIRF3 reduced the antiviral ability of the host cells, and the transcription of antiviral-related cytokines was obviously lower in bcIRF3-deficient host cells than that of control cells. The data of reporter assay and plaque assay demonstrated that bcIKKε obviously enhanced bcIRF3-mediated IFN production and antiviral activity. Immunofluorescent staining and co-immunoprecipitation assay revealed that bcIKKε interacted with bcIRF3. It was interesting that the nuclear translocation of bcIRF3 and bcIKKε was enhanced by each other when these two molecules were co-expressed in the cells, however, the protein levels of bcIRF3 and bcIKKε were decreased mutually. Thus, our data support the conclusion that bcIKKε interacts with bcIRF3 and enhances bcIRF3-mediated antiviral signaling during host innate immune activation.

Molecular characterization of the interferon regulatory factor (IRF) family and functional analysis of IRF11 in the large yellow croaker (Larimichthys crocea)

Interferon regulatory factors (IRFs) are a family of transcription factors involved in regulating interferon (IFN) responses and immune cell development. A total of 11 IRFs have been identified in teleost fish. Here, a complete repertoire of 11 IRFs (LcIRFs) in the large yellow croaker (Larimichthys crocea) was characterized with the addition of five newly identified members, LcIRF2, LcIRF5, LcIRF6, LcIRF10, and LcIRF11. These five LcIRFs possess a DNA-binding domain (DBD) at the N-terminal that contains five to six conserved tryptophan residues and an IRF-association domain (IAD) or IAD2 at the C-terminal that is responsible for interaction with other IRFs or co-modulators. Phylogenetic analysis showed that the 11 LcIRFs were divided into four clades including the IRF1 subfamily, IRF3 subfamily, IRF4 subfamily, and IRF5 subfamily. These are evolutionarily related to their respective counterparts in other fish species. The 11 LcIRFs were constitutively expressed in all examined tissues, although at different expression levels. Upon polyinosinic: polycytidylic acid (poly (I:C)) stimulation, the expression of all 11 LcIRFs was significantly induced in the head kidney and reached the highest levels at 6 h post-stimulation (except LcIRF4). LcIRF1, LcIRF3, LcIRF7, LcIRF8, and LcIRF10 were more strongly induced by poly (I:C) than the other LcIRFs. Significant induction of all LcIRFs was observed in the spleen, with LcIRF2, LcIRF5, LcIRF6, LcIRF7, LcIRF9, and LcIRF11 reaching their highest levels at 48 h LcIRF3 and LcIRF11 showed a stronger response to poly (I:C) in the spleen than the other LcIRFs. In addition, LcIRF1, LcIRF3, LcIRF7, LcIRF9, LcIRF10, and LcIRF11 were significantly induced by Vibro alginolyticus in both the spleen and the head kidney, with LcIRF1 strongly induced. Thus, LcIRFs exhibited differential inducible expression patterns in response to different stimuli in different tissues, suggesting that LcIRFs have different functions in the regulation of immune responses. Furthermore, overexpression of LcIRF11 activated the promoters of LcIFNc, LcIFNd, and LcIFNh, and differentially induced the expression levels of LcIFNs and IFN-stimulated genes (ISGs). Overexpression of LcIRF11 in epithelioma papulosum cyprinid (EPC) cells inhibited the replication of viral genes after infection of spring viremia of carp virus (SVCV). These data suggested that LcIRF11 may function as a positive regulator in regulating the cellular antiviral response through induction of type I IFN expression. Taken together, the present study reported molecular characterization and expression analysis of 11 IRFs in the large yellow croaker, and investigated the role of LcIRF11 in the antiviral response, which laid a good foundation for further study on the evolution and functional characterization of fish IRFs.

Molecular evolution and functional characterization of SOCS3a and SOCS3b in miiuy croaker (Miichthys miiuy)

The suppressor of cytokine signaling 3 (SOCS3), as a negative regulator in inferferon (IFN) signaling pathways in mammals, has a vital role in immune systems. However, studies on the function of SOCS3 in lower vertebrates are limited. In this study, we identified SOCS3a and fish-specific SOCS3b gene in miiuy croaker. Sequence analysis results showed that SOCS3a and SOCS3b were evolutionarily conservative in fish. Expression analysis indicated that miiuy croaker SOCS3a and SOCS3b (mmSOCS3a and mmSOCS3b) were expressed in all of the tested miiuy croaker tissues, thus revealing the potential ability to perceive poly (I:C) stimulation. Further functional experiments showed that mmSOCS3a and mmSOCS3b could inhibit the IFNγ- and IFNα-induced ISRE reporter activation, respectively. Accordingly, the investigation of mmSOCS3a and mmSOCS3b can provide insights into fish SOCS3 and a basis for future research on the SOCS family of fish immune systems.

Identification and functional analysis of two interferon regulatory factor 3 genes and their involvement in antiviral immune responses in the Chinese giant salamander Andrias davidianus

Interferon regulatory factor 3 (IRF3), a crucial member of interferon regulatory factor (IRF) family, plays an important role in innate immunity in vertebrates. However, there are no reports on the characterization and especially their respective functional analysis of two IRF3 genes in some species. In this study, two IRF3 genes as well as their roles in the immune response were identified and investigated in Chinese giant salamander, Andrias davidianus. The complete open reading frames of AdIRF3A and AdIRF3B were 1, 113 bp and 1, 380 bp in length, encoding 370 and 459 amino acids, respectively. Both AdIRF3A and AdIRF3B protein contain an IRF and an IRF3 domain. Phylogenetic analysis indicated that AdIRF3s clustered together with other IRF3 proteins. Tissue distribution analysis showed that AdIRF3s were expressed in all tissues tested, with highest expression levels in blood. Both AdIRF3s actively responded to Chinese giant salamander iridovirus (GSIV) and poly (I:C) challenge in A. davidianus. AdIRF3A/B silencing significantly suppressed the DNA virus and viral RNA analog-induced expression of IFN-inducible genes. Luciferase reporter assay further confirmed the regulatory role of AdIRF3s in IFN signaling. These results provide new insights into the origin or evolution of IRF3 in amphibians and even in vertebrates.

Functional characterization of dark sleeper (Odontobutis obscura) IRF3 in IFN regulation

The dark sleeper, Odontobutis obscura (O. obscura), is a commercially important species of freshwater sleeper native to East Asia. However, its molecular biology system is unexplored, including the interferon (IFN) signaling pathway, which is crucial to the antiviral response. In this study, we characterised the IFN regulation pattern of dark sleeper interferon regulatory factor 3 (OdIRF3), supplementing evidence of the conservation of this classical pathway in fish. First, the open reading frame (ORF) of OdIRF3 was cloned from the liver tissue by Rapid amplification of cDNA ends (RACE). Amino acid sequence analysis suggested that OdIRF3 is homologous with other fish IRF3 and that the N-terminal DNA-binding domain (DBD) and the C-terminal IRF-association domain (IAD) are conserved. Then, the cellular distribution demonstrated that OdIRF3 is located in the cytoplasm region and transfers into the nuclear region under stimulation. For the function identification, OdIRF3 activated several types of IFN promoters and induced downstream interferon stimulated genes (ISGs) expression. Finally, the overexpression of OdIRF3 significantly decreased viral proliferation. Taken together, these data systematically characterised the sequence, cellular location, and function in IFN expression of OdIRF3, shedding light on the molecular biology mechanism of the dark sleeper.

Identification and functional characterization of interferon regulatory factor 7 involved in activation JAK/STAT pathway in miiuy croaker

Interferon regulatory factor (IRF) family is a transcription factor family which plays an important role in the regulation of natural immunity and immune cell differentiation. IRF7 is important to regulate the response of type I interferon (IFN) to viral infection. Thus, more researches of the characteristic and functions of IRF7 should be done to get better understanding of the mechanisms underlying immune reactions. Here, the characterization of full-length cDNA of IRF7 was reported from miiuy croaker. Gene characterization analysis of mmiIRF7 showed conservative with other fish and inferred that the difference of tryptophan residues in IRF7 may occurred in the period of fish-specific genome duplication (FSGD) or earlier. Syntenic analysis of IRF7 showed that fish IRF7 had more highly conserved synteny than the higher vertebrates IRF7. Luciferase reporter assays result showed the ability of mmiIRF7 for activation of IFNα, IFNβ, IFNγ and ISRE luciferase reporter. In this study, we systematically and comprehensively analyzed evolution and function of mmiIRF7, which will provide the basis for future research on fish IRF family.

Alternative Pre-mRNA Splicing in Mammals and Teleost Fish: A Effective Strategy for the Regulation of Immune Responses Against Pathogen Infection

Pre-mRNA splicing is the process by which introns are removed and the protein coding elements assembled into mature mRNAs. Alternative pre-mRNA splicing provides an important source of transcriptome and proteome complexity through selectively joining different coding elements to form mRNAs, which encode proteins with similar or distinct functions. In mammals, previous studies have shown the role of alternative splicing in regulating the function of the immune system, especially in the regulation of T-cell activation and function. As lower vertebrates, teleost fish mainly rely on a large family of pattern recognition receptors (PRRs) to recognize pathogen-associated molecular patterns (PAMPs) from various invading pathogens. In this review, we summarize recent advances in our understanding of alternative splicing of piscine PRRs including peptidoglycan recognition proteins (PGRPs), nucleotide binding and oligomerization domain (NOD)-like receptors (NLRs), retinoic acid-inducible gene-I (RIG-I)-like receptors (RLRs) and their downstream signaling molecules, compared to splicing in mammals. We also discuss what is known and unknown about the function of splicing isoforms in the innate immune responses against pathogens infection in mammals and teleost fish. Finally, we highlight the consequences of alternative splicing in the innate immune system and give our view of important directions for future studies.

The evolution and functional characterization of miiuy croaker interferon regulatory factor 9 involved in immune response

Interferon regulatory factors (IRFs) are transcription factors which play important roles in regulating the expression of type I interferons (IFNs) and IFN-stimulated genes. IRF9 is one of the IRF family gene members which belongs to the IRF4 subfamily. Mammalian IRF9 has been known to be involved in antiviral responses as the DNA sequence recognition subunit of IFN-stimulated gene factor 3 (ISGF3) complex. In fish, only a few studies investigated the characteristics of IRF9 and the role in IFN signaling. In this study, we identified the IRF9 gene from miiuy croaker (mmiIRF9) and studied its feature and function. Sequence analysis showed the similarity of mmiIRF9 and other fish IRF9 genes. Structural and syntenic analysis showed the conservatism in fish IRF9 genes. The result of expression analysis in normal tissues and infected tissues and macrophages showed that mmiIRF9 expressed in all tested normal tissues and up-regulated expression in liver, kidney and macrophages after stimulated with poly(I:C). Luciferase reporter assays demonstrated the mmiIRF9 can induced IFNα and IFNβ luciferase reporters and the cellular localization of mmiIRF9 was mainly distributed in the cytoplasm in Hela cells. Furthermore, the evolutionary analysis of IRF4 subfamily showed the IRF4 and IRF8 may be the most ancient and conservative genes in the evolution of this subfamily.

Up-regulated of miR-8159-5p and miR-217-5p by LPS stimulation negatively co-regulate TLR1 in miiuy croaker

Toll-like receptors (TLRs) are a group of pattern-recognition receptors which play vital roles in ligand recognition and activation of the innate immune response. As an important member of TLRs family, TLR1 is mainly responsible for PAMPs from bacteria and play a pivotal role in sensing microbial products. Recent studies revealed that TLR1 could perceive LPS stimulation and transfer signals to activate the NF-κB pathway, whereas ligands and signaling pathway of TLR1 are still unclear in fish. Growing evidence has shown that miRNAs (microRNAs) play as negative regulators in controlling the diverse of biophysical and biochemical processes at the post-transcriptional level. In this study, we used a combination of bioinformatics and experimental techniques to exhibit that both miR-8159-5p and miR-217-5p were the direct negative regulators of TLR1 in miiuy croaker. Furthermore, dual-luciferase reporter assays showed that combining miR-8159-5p and miR-217-5p exhibited a greater negative regulatory effect on TLR1 than only miR-8159-5p or miR-217-5p. Additionally, we also demonstrated that the expression of both the two miRNAs could be up-regulated by LPS stimulation in either LPS-stimulation spleen tissue or LPS-treated cultured macrophage, which indicating that miR-8159-5p and miR-217-5p could be induced by LPS and may be as the negative regulators of TLR1 involved in the immune response to LPS stimulation. These results would enhance our understanding of the miRNA regulation in fish TLR signaling pathways.