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

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 Gadus macrocephalus (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 Pichia pastoris 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 pcDNA3.1-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 GmIFN-γ protein could also induce MICA expression, indicating that GmIFN-γ could stimulate immune response. The yeast GS115 with GmIFN-γ protein, which is an inclusion body, was given to zebrafish orally, and the transcript of zebrafish IFN-γ was upregulated significantly; however, genes of the interferon type-I signal pathway were not well stimulated.

Prognostic significance of steroid response in pediatric acute lymphoblastic leukemia: The CCCG-ALL-2015 study.

Introduction: Whether steroid response is an independent risk factor for acute lymphoblastic leukemia (ALL) is controversial. This study aimed to investigate the relationship between response to dexamethasone and prognosis in children with ALL. Methods: We analyzed the data of 5,161 children with ALL who received treatment in accordance with the Chinese Children's Cancer Group ALL-2015 protocol between January 1, 2015, and December 31, 2018, in China. All patients received dexamethasone for 4 days as upfront window therapy. Based on the peripheral lymphoblast count on day 5, these patients were classified into the dexamethasone good response (DGR) and dexamethasone poor response (DPR) groups. A peripheral lymphoblast count ≥1× 109/L indicated poor response to dexamethasone. Results: The age, white blood cell counts, prevalence of the BCR/ABL1 and TCF3/PBX1 fusion genes, and rates of recurrence in the central nervous system were higher in the DPR than in the DGR group (P<0.001). Compared to the DPR group, the DGR group had a lower recurrence rate (18.6% vs. 11%) and higher 6-year event-free survival (73% vs. 83%) and overall survival (86% vs. 92%) rates; nevertheless, subgroup analysis only showed significant difference in the intermediate-risk group (P<0.001). Discussion: Response to dexamethasone was associated with an early treatment response in our study. In the intermediate-risk group, dexamethasone response added a prognostic value in addition to minimal residual disease, which may direct early intervention to reduce the relapse rate.

Protection of teprenone against hypoxia and reoxygenation stress in stomach and intestine of Lateolabrax maculatus.

Teprenone (geranylgeranylacetone) is one kind of safe and effective agent in gastrointestinal mucosa, which have been widely used in human and veterinary, but rarely used in aquaculture animals. In this study, Lateolabrax maculatus, an important economic fish species in southern China, was taken as the object of study to investigate the protective effect of teprenone on intestinal stress. The present study was designed to investigate the potential mechanism underlying the protection offered by teprenone to protect the gastrointestinal tract against hypoxia and reoxygenation injury of L. maculatus. (a) For oxidative stress parameters, SOD, CAT, and T-AOC in control group were higher than those in teprenone group. MDA content was significantly higher than that in teprenone group at N and 12h time points in intestine (P < 0.05), and at 12, 24, and 48 h time points in stomach. (b) For immune-associated proteins, LZM activity in the control group was lower than that in the teprenone group, and the difference between the two groups in stomach and intestine was significant at 12.48 h and 6.48 h time points, respectively (P < 0.05). Compared with time point N, the content of HSP70 in the control group increased at 0 h in intestine. At 0-48 h, intestine HSP70 content in the control group showed a gradually decreasing trend, which was higher than that in the teprenone group. (c) For apoptosis-related factors, the activity of Cyt-C, caspase9, and caspase3 increased first and then decreased in both groups. The content of Cyt-C in the control group was significantly higher than that in the teprenone group at N-3.6 h, and 3.48 h time points in stomach and intestine, respectively (P<0.05). The activity of caspase9 and caspase3 was higher than that in the teprenone group at N-48 h. Results indicated that acute hypoxia and reoxygenation cause the expression levels of oxidative stress and apoptosis-related factors in the stomach and intestine increased first and then decreased within 0-48 h. Acute hypoxia and reoxygenation also that causes the level of nonspecific immunity decreased first and then increased. A total of 400-mg/kg treatment of teprenone can protect stomach and intestinal tissues to a certain extent. It can effectively protect oxidative stress and apoptosis within 0-48 h after acute hypoxia and reoxygenation and enhance non-specific immunity.

Conserved function of Pacific cod Caspase-3 in apoptosis.

Apoptosis plays a significant role in the cellular immune responses against infections, especially those related to viruses. Across various species, Caspase 3 is a prominent mediator of apoptosis and participates in the cell death signaling cascade. However, its role remains relatively unknown in cod fish. In this study, we aimed to reveal the role of Pacific cod Caspase-3 (GmCasp3) in apoptosis and its evolutionary position. Our results showed that the GmCasp3 cDNA contains an open reading frame of 864 nucleotides; that codes for 287 amino acids long protein with a molecular weight of 32.03 kDa. The sequence alignments and 3-D model indicated that GmCasp3 contained highly conserved domains, such as "QACRG", "GSWFI" and "HG" active sites, however, the phylogenetic tree analysis revealed that both GmCasp3 and Atlantic cod caspase-3 clustered together are far from the high vertebrate branch, indicating they are at a lower position in vertebrate evolution. Red fluorescent labeling vector pDsRed2-C1-GmCasp3 was constructed and it was transfected into EPC cell lines. The result showed that GmCasp3 protein was distribute in the protoplasm and expressed in apoptotic cell debris. Moreover, the GmCasp3 enzyme activity increased with the increased post-transfection analysis time, while the genome DNA was visibly fragmented at 36 h post transfection. Flow cytometry analysis showed that the proportion of apoptosis cells increased from 12 h to 24 h post transfection. In conclusion, the conserved functions of GmCasp3 in apoptosis indicated that Pacific cod has the similar apoptotic characteristics as other animals.