Impact of selenium supplementation on fish antiviral responses: a whole transcriptomic analysis in rainbow trout (Oncorhynchus mykiss) fed supranutritional levels of Sel-Plex®.

BACKGROUND: Selenium (Se) is required for the synthesis of proteins (selenoproteins) with essential biological functions. Selenoproteins have a crucial role in the maintenance of cellular redox homeostasis in nearly all tissues, and are also involved in thyroid hormone metabolism, inflammation and immunity. Several immune processes rely on Se status and can be compromised if this element is present below the required level. Previous work has supported the notion that when Se is delivered at levels above those deemed to be the minimal required but below toxic concentrations it can have a boosting effect on the organism's immune response. Based on this concept Se-enriched supplements may represent a valuable resource for functional feeds in animal farming, including aquaculture. RESULTS: In this study we tested the effects of Se supplemented as Sel-Plex during an immune challenge induced by polyinosinic:polycytidylic acid (poly(I:C)), a pathogen-associated molecular pattern (PAMP) that mimics viral infection. Trout were fed two diets enriched with 1 or 4 mg Se Kg(-1) of feed (dry weight) by Sel-Plex addition and a commercial formulation as control. The whole trout transcriptomic response was investigated by microarray and gene ontology analysis, the latter carried out to highlight the biological processes that were influenced by Sel-Plex supplementation in the head kidney (HK) and liver, the main immune and metabolic organs in fish. Overall, Sel-Plex enrichment up to 4 mg Se Kg(-1) induced an important response in the trout HK, eliciting an up-regulation of several genes involved in pathways connected with hematopoiesis and immunity. In contrast, a more constrained response was seen in the liver, with lipid metabolism being the main pathway altered by Se supplementation. Upon stimulation with poly(I:C), supplementation of 4 mg Se Kg(-1) increased the expression of principal mediators of the antiviral defences, especially IFN-γ, and down-stream molecules involved in the cell-mediated immune response. CONCLUSIONS: Supplementation of diets with 4 mg Se Kg(-1) using Sel-Plex remarkably improved the fish response to viral PAMP stimulation. Sel-Plex, being a highly bioavailable supplement of organic Se, might represent a suitable option for supplementation of fish feeds, to achieve the final aim of improving fish fitness and resistance against immune challenges.

Use of a purified heterodimer to test negative cooperativity as the basis of substrate inactivation of Escherichia coli thymidylate synthase (Asn177-->Asp).

BACKGROUND: Thymidylate synthase (TS) converts deoxyuridylate to thymidylate, an essential DNA precursor. Replacement of Asn177 with aspartate (Asn177-->Asp) in Escherichia coli TS creates a novel ability to methylate 2'-deoxycytidylate (dCMP). The dCMP-methylase activity of TS(Asn177-->Asp) is transiently inactivated by reaction with deoxyuridylate and methylene-tetrahydrofolate, the methyl donor. We have tested the possibility that the inactivation is due to negative cooperativity, created in the TS dimer by the Asn177-->Asp mutation. RESULTS: A heterodimeric form of TS, containing one wild type and one Asn177-->Asp active site, was created to test for negative cooperativity. Substrate inactivation still occurred, even with the mutation present at only one active site. CONCLUSIONS: Inactivation of TS(Asn177-->Asp) by deoxyuridylate is not due to negative cooperativity created by the mutation. The 'artificial isozyme' method we have developed for purifying heterodimers away from the progenitor homodimers is generally applicable to other hetero-oligomeric proteins.

Characterization and overexpression of the gene encoding Staphylococcus aureus DNA polymerase III.

The polC gene specifying DNA polymerase III (PolIII) of Staphylococcus aureus (Sa), was cloned with a novel strategy and found to contain a 4305-bp open reading frame (ORF) encoding a polypeptide of approx. 162 kDa. The 1435-codon ORF was engineered into an Escherichia coli (Ec) expression plasmid under the control of the lac promoter and its repressor. Derepression of Ec transformants carrying the recombinant (re-) vector generated high-level synthesis of active re-Sa PolIII. The re-PolIII was purified to > 98% homogeneity and was shown by N-terminal amino acid sequence analysis to be the bona fide product of the Sa polC ORF. The physical and catalytic properties of re-Sa PolIII and its responsiveness to inhibitors of the HPUra type were generally similar to those of Bacillus subtilis (Bs) PolIII. Comparative analysis of the primary structures of Sa PolIII, Bs PolIII and Mycoplasma pulmonis PolIII indicated strong conservation of essential catalytic domains and a novel zinc-finger motif. Comparison of the primary structures of Ec PolIII and these three Gram+ enzymes revealed a region of novel homology and reinforced the likelihood of a specific evolutionary relationship between PolIII of Gram+ and Gram- eubacteria. The polC gene mapped between omega 1074 [Tn551] and recA/ngr on the Sa NCTC 8325 genome.

An analysis of 900 consecutive admissions to a regional infection unit.

A total of 900 consecutive admissions to the Regional Infection Unit at the City Hospital Aberdeen in 1991 have been analysed and the results compared with a similar study during 1980 and 1981. The annual number of admissions increased from 605 to 900, of which 72% in 1991 had proven infections compared with 60% a decade earlier. More patients were admitted with gastroenteritis, tonsillitis and soft tissue infection in 1991 and fewer with non-infectious jaundice. HIV-related conditions contributed 4% of the admissions and 29% of the mortality. Brucellosis disappeared as a reason for requesting hospital admission in North East Scotland.

Insights into the fish thioredoxin system: expression profile of thioredoxin and thioredoxin reductase in rainbow trout (Oncorhynchus mykiss) during infection and in vitro stimulation.

Production of reactive oxygen species (ROS) is the first biological response during a disease outbreak and after injury. ROS are highly reactive molecules that can either endanger cell homeostasis or mediate cell signaling in several physiological pathways, including the immune response. Thioredoxin (Trx) and thioredoxin reductase (TrxR) are the essential components of the thioredoxin system, one of the main intracellular redox systems and are therefore important regulators of ROS accumulation. Through the regulation of the intracellular redox milieu, the thioredoxin system plays a key role within the immune system, linking immunology and free radical science. In this study we have firstly identified TrxRs in fish and used this new sequence information to reevaluate the evolution of the thioredoxin system within the vertebrate lineage. We next measured the expression of rainbow trout (Oncorhynchus mykiss) Trx and TrxR transcripts during infection in vivo and in vitro after stimulation of a macrophage cell line and primary macrophage cultures with pathogen associated molecular patterns (PAMPs). Our results showed that both Trx and TrxR were induced during infection at the transcriptional level, confirming their likely involvement in the innate immune response of fish. Since TrxRs are selenium-containing proteins (selenoproteins), we also measured the modulation of their expression upon organic and inorganic selenium exposure in vitro. TrxR was found to be responsive to selenium exposure in vitro, suggesting that it may represent a key mediator in the selenium modulation of innate immunity. In conclusion, our study highlights the need to investigate the involvement of the cell antioxidant pathways, especially the thioredoxin system, within the immune system of vertebrate species.

Characterization of cytosolic glutathione peroxidase and phospholipid-hydroperoxide glutathione peroxidase genes in rainbow trout (Oncorhynchus mykiss) and their modulation by in vitro selenium exposure.

Selenium (Se) is an oligonutrient with both essential biological functions and recognized harmful effects. As the selenocysteine (SeCys) amino acid, selenium is integrated in several Se-containing proteins (selenoproteins), many of which are fundamental for cell homeostasis. Nevertheless, selenium may exert toxic effects at levels marginally above those required, mainly through the generation of reactive oxygen species (ROS). The selenium chemical speciation can strongly affect the bioavailability of this metal and its impact on metabolism, dictating the levels that can be beneficial or detrimental towards an organism. Glutathione peroxidase (GPxs) is the largest and the most studied selenoprotein family. Cytosolic glutathione peroxidase (cGPx, GPx1) and phospholipid hydroperoxide glutathione peroxidase (PHGPx, GPx4) are widely distributed throughout tissues, and play a pivotal role in regulating the oxidative status in the cell. In this study we have cloned GPx1 and GPx4 genes in rainbow trout (Oncorhynchus mykiss). The constitutive mRNA expression of these GPx genes was examined in 18 trout tissues and their responsiveness to Se availability was analysed using a rainbow trout liver cell line (RTL). An inorganic (sodium selenite, Na2SeO3) and organic (selenocysteine, Cys-Se-Se-Cys) selenocompound have been used as Se sources. GPx1 activity was also tested to verify the impact of transcript changes on the enzymatic function of these molecules. To understand if the results obtained from the transcript expression analysis were due to Se bioavailability or generation of ROS, the cytoxicity of the two selenocompounds was tested by measuring the impact of Se on cell membrane integrity. Lastly, Se availability was quantified by mass spectrophotometry to determine the amount of Se in the cell culture media, the Se background due to the foetal calf serum supplement and the contribution from the two selenocompounds used in the treatments. Three isoforms of genes for both GPx1 (GPx1a, 1b1 and 1b2) and GPx4 (GPx4a1, a2 and b) have been identified. The discovery of a third gene encoding for GPx1 and GPx4 hints that salmonids may have the biggest selenoproteome amongst all vertebrates. Transcripts of GPx4 genes were more highly expressed in most tissues examined in vivo (except blood, head kidney and spleen), whereas those of the GPx1 genes were more responsive to selenium exposure in vitro, especially to the organic form. Interestingly, GPx1a was the most sensitive to selenium availability in non stressful conditions, whereas GPx1b1 and GPx1b2 were highly induced by exposure to selenium levels that had some toxic effects on the cells. Although the different concentrations tested of the two selenocompounds modulate GPx1 transcript expression to various degrees, no significant change of GPx1 enzymatic activity was detectable. Our results lead us to conclude that trout GPx1 transcripts expression level may represent a sensitive biomarker for selenium intake, helping to evaluate if selenium concentration and chemical speciation impact on cell homeostasis.