Cloning, Exogenous Expression and Function Analysis of Interferon-γ from .

Interferon γ (IFN-γ) is now considered to be one of the key molecules in the regulation of innate and adaptive immunity. The function of IFN-γ is best described in humans, but less of IFN-γ in fish species has been described at protein level. In the present study, IFN-γ from (GmIFN-γ) has been examined in terms of bioinformatics, prokaryotic expression, yeast expression, antiviral activity and immune regulatory function. The cDNA of GmIFN-γ contains an open reading frame of 570 nucleotides, coding 189 amino acids. The mature protein contains a nuclear localization signal motif and an obvious IFN-γ signature sequence at the C-terminal. GmIFN-γ is very similar to that of Atlantic cod, with homology up to 89.89%, but less than 32% to other species. GmIFN-γ can be detected in the gills, spleen, intestine, brain and kidney. Interestingly, during early development, a strong signal of GmIFN-γ was not detected until 40 days post hatching. Prokaryotic expression plasmid pET-32a-GmIFN-γ was constructed, and the expression products in BL21 were confirmed by Mass Spectrometry. Meanwhile, the plasmid pGAPZA-GmIFN-γ with Myc tag was constructed and transmitted into yeast GS115, and the products were tested using Western blot. The purified GmIFN-γ from either BL21 or yeast has a strong antivirus (Spring viremia of carp virus) effect. The vector of -GmIFN-γ was expressed in EPC cell lines; high transcript levels of MHC class I chain-related protein A (MICA) gene were detected; and the exogenous IFN-γ protein could also induce MICA expression, indicating that GmIFN-γ could stimulate immune response. The yeast GS115 with IFN-γ protein, which is an inclusion body, was given to zebrafish orally, and the transcript of zebrafish was upregulated significantly; however, genes of the interferon type-I signal pathway were not well stimulated.