Jun Zou scite author profile

In this report, three type I IFN genes were identified in rainbow trout (rt) Oncorhynchus mykiss and are classified into two groups based on their primary protein sequences: group I containing two cysteine residues; and group II containing four cysteines residues. The group I rtIFNs were induced in fibroblasts (RTG-2 cells), macrophages (RTS-11 cells), and head kidney leukocytes when stimulated with polyinosinic:polycytidylic acid, whereas group II IFN was up-regulated in head kidney leukocytes but not in RTG-2 and RTS-11 cells. Recombinant group I rtIFNs were potent at inducing Mx expression and eliciting antiviral responses, whereas recombinant group II rtIFN was poor in these activities. That two subgroups of type I IFN exist in trout prompted a survey of the genomes of several fish species, including zebrafish, medaka, threespine stickleback and fugu, the amphibian Xenopus tropicalis, the monotreme platypus and the marsupial opossum, to gain further insight into possible IFN evolution. Analysis of the sequences confirmed that the new IFN subgroup found in trout (group II IFN) exists in other fish species but was not universally present in fish. The IFN genes in amphibians were shown for the first time to contain introns and to conserve the four cysteine structure found in all type I IFNs except IFN-βε and fish group I IFN. The data overall support the concept that different vertebrate groups have independently expanded their IFN types, with deletion of different pairs of cysteines apparent in fish group I IFN and IFN-βε of mammals.

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The Function of Fish Cytokines

Zou

Secombes

2016

Biology

393

241

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What is known about the biological activity of fish cytokines is reviewed. Most of the functional studies performed to date have been in teleost fish, and have focused on the induced effects of cytokine recombinant proteins, or have used loss- and gain-of-function experiments in zebrafish. Such studies begin to tell us about the role of these molecules in the regulation of fish immune responses and whether they are similar or divergent to the well-characterised functions of mammalian cytokines. This knowledge will aid our ability to determine and modulate the pathways leading to protective immunity, to improve fish health in aquaculture.

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Identification and Bioactivities of IFN-γ in Rainbow Trout Oncorhynchus mykiss: The First Th1-Type Cytokine Characterized Functionally in Fish

et al. 2005

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IFN-γ is one of the key cytokines in defining Th1 immune responses. In this study, an IFN-γ homologue has been identified in rainbow trout Oncorhynchus mykiss, and its biological activities have been characterized. The trout IFN-γ cDNA is 1034 bp in length and translates into a 180-aa protein. The first intron of the trout IFN-γ gene contains highly polymorphic GACA minisatellites and 44-bp DNA repeats, giving rise to at least six alleles. IFN-γ is structurally conserved among vertebrates, and a signature motif has been identified. A nuclear localization sequence known to be crucial for IFN-γ biological activities is also present in the C-terminal region of the trout IFN-γ. The IFN-γ expression was induced in head kidney leukocytes by stimulation with PHA or poly(I:C) and in kidney and spleen of fish injected with poly(I:C). rIFN-γ produced in Escherichia coli significantly stimulated gene expression of IFN-γ-inducible protein 10 (γIP-10), MHC class II β-chain, and STAT1, and enhanced respiratory burst activity in macrophages. Deletion of 29-aa residues from the C terminus containing the nuclear localization sequence motif resulted in loss of activity with respect to induction of γIP-10 in RTS-11 cells. Moreover, IFN-γ-induced γIP-10 expression was completely abolished by the protein kinase C inhibitor staurosporine, and partially reduced by U0126, a specific inhibitor for ERKs. Taken together, the present study has demonstrated for the first time a functional IFN-γ homologue in a fish species, strongly suggesting a conserved Th1 immune response is most likely present in lower vertebrates.

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Origin and evolution of the RIG-I like RNA helicase gene family

et al. 2009

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Background:The DExD/H domain containing RNA helicases such as retinoic acid-inducible gene I (RIG-I) and melanoma differentiation-associated gene 5 (MDA5) are key cytosolic pattern recognition receptors (PRRs) for detecting nucleotide pathogen associated molecular patterns (PAMPs) of invading viruses. The RIG-I and MDA5 proteins differentially recognise conserved PAMPs in double stranded or single stranded viral RNA molecules, leading to activation of the interferon system in vertebrates. They share three core protein domains including a RNA helicase domain near the C terminus (HELICc), one or more caspase activation and recruitment domains (CARDs) and an ATP dependent DExD/H domain. The RIG-I/MDA5 directed interferon response is negatively regulated by laboratory of genetics and physiology 2 (LGP2) and is believed to be controlled by the mitochondria antiviral signalling protein (MAVS), a CARD containing protein associated with mitochondria.

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Teleost fish interferons and their role in immunity

Zou

Secombes

2011

Developmental & Comparative Immunology

341

169

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Evolution of Interferons and Interferon Receptors

2017

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The earliest jawed vertebrates (Gnathostomes) would likely have had interferon (IFN) genes, since they are present in extant cartilaginous fish (sharks and rays) and bony fish (lobe-finned and ray-finned fish, the latter consisting of the chondrostei, holostei, and teleostei), as well as in tetrapods. They are thought to have evolved from a class II helical cytokine ancestor, along with the interleukin (IL)-10 cytokine family. The two rounds of whole genome duplication (WGD) that occurred between invertebrates and vertebrates (1) may have given rise to additional loci, initially containing an IL-10 ancestor and IFN ancestor, which have duplicated further to give rise to the two loci containing the IL-10 family genes, and potentially the IFN type I and IFN type III loci (2). The timing of the divergence of the IFN type II gene from the IL-10 family genes is not clear but was also an early event in vertebrate evolution. Further WGD events at the base of the teleost fish, and in particular teleost lineages (cyprinids, salmonids), have duplicated the loci further, giving rise to additional IFN genes, with tandem gene duplication within a locus a common occurrence. Finally, retrotransposition events have occurred in different vertebrate lineages giving rise to further IFN loci, with large expansions of genes at these loci in some cases. This review will initially explore the likely IFN system present in the earliest Gnathostomes by comparison of the known cartilaginous fish genes with those present in mammals and will then explore the changes that have occurred in gene number/diversification, gene organization, and the encoded proteins during vertebrate evolution.

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Expression and Functional Characterization of the RIG-I-Like Receptors MDA5 and LGP2 in Rainbow Trout (Oncorhynchus mykiss)

Chang

Collet

Nie

et al. 2011

J Virol

197

171

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Cytokines and innate immunity of fish

Secombes

Hong

Peddie

et al. 2001

Developmental & Comparative Immunology

403

157

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Jun Zou

Identification of a Second Group of Type I IFNs in Fish Sheds Light on IFN Evolution in Vertebrates

The Function of Fish Cytokines

Identification and Bioactivities of IFN-γ in Rainbow Trout Oncorhynchus mykiss: The First Th1-Type Cytokine Characterized Functionally in Fish

Origin and evolution of the RIG-I like RNA helicase gene family

Teleost fish interferons and their role in immunity

Evolution of Interferons and Interferon Receptors

Expression and Functional Characterization of the RIG-I-Like Receptors MDA5 and LGP2 in Rainbow Trout (Oncorhynchus mykiss)

Cytokines and innate immunity of fish

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