Modulation of immune genes mRNA levels in mucosal tissues and DNA damage in red blood cells of Sparus aurata by gold nanoparticles.

Gold nanoparticles (AuNP) effects on Sparus aurata were evaluated on skin, gills and intestine by assessing the expression of immune genes and in peripheral blood evaluating genetic damage. Fish were exposed to 0.5 and 50 µg/L AuNP for 96 h. Results showed that exposure to 50 µg/L AuNP induced an upregulation in the expression of innate immune genes in gills (c3, lys, il1ß, tnfα, il6, il10 and tgfß) and intestine (il1ß, tnfα and il6). Furthermore, mRNA levels of hsp70 and hsp90 were increased in gills after exposure to 0.5 µg/L AuNP, when compared to 50 µg/L. Present data demonstrated the sensitivity of gills and intestines to AuNP exposure supporting their use in the study of fish responses to other nanoparticles. Genotoxic potential of AuNP was demonstrated by increased DNA strand breaks in red blood cells of fish exposed to AuNP, suggesting that AuNP represent a potential hazard to fish.

Evaluation of gemfibrozil effects on a marine fish (Sparus aurata) combining gene expression with conventional endocrine and biochemical endpoints.

The information on the potential hazardous effects of gemfibrozil (GEM) on marine fish is extremely scarce. In the current study, molecular, endocrine and biochemical parameters were assessed in Sparus aurata after 96h waterborne exposure to a GEM concentration range. Hepatic mRNA levels of target genes known to be regulated via peroxisome proliferator-activated receptor α (pparα) in mammals, such as apolipoprotein AI (apoa1) and lipoprotein (lpl) were significantly increased, without a concomitant activation of the ppar pathways. GEM (15µgL(-1)) induced an upregulation in mRNA levels of interleukin 1ß (il1ß), tumour necrosis factor-α (tnfα) and caspase 3 (casp3), suggesting an activation of proinflammatory processes in S. aurata liver. However, mRNA levels of genes related with the antioxidant defence system and cell-tissue repair were unaltered under the tested experimental conditions. Higher levels of GEM induced a cortisol rise, an indication that it is recognized as a stressor by S. aurata. Cortisol levels and the mRNA levels of il1ß, tnfα and casp3 may be suggested as potential biomarkers of GEM effects in marine fish.

Assessment of gold nanoparticle effects in a marine teleost (Sparus aurata) using molecular and biochemical biomarkers.

Gold nanoparticles (AuNP) are increasingly employed in a variety of applications and are likely to be increasing in the environment, posing a potential emerging environmental threat. Information on possible hazardous effects of engineered nanoparticles is urgently required to ensure human and environmental safety and promote the safe use of novel nanotechnologies. Nevertheless, there is a lack of comprehensive knowledge on AuNP effects in marine species. The present study aimed to assess AuNP effects in a marine teleost, Sparus aurata, by combining endpoints at different biological levels (molecular and biochemical). For that purpose, fish were exposed via water for 96h to 4, 80 and 1600µgL(-1) of AuNP (∼40nm) coated with citrate or polyvinylpyrrolidone (PVP). Results revealed a significant impact of AuNP-PVP in the hepatic expression of antioxidant, immune and apoptosis related genes. Total oxidative status was increased in plasma after exposure to the lowest concentration of AuNP-PVP, although without altering the total antioxidant capacity. Furthermore, AuNP did not induce significant damage in the liver since the activity of neither hepatic indicator (aspartate aminotransferase and alkaline phosphatase) increased. Overall, the present study demonstrated that AuNP, even with a biocompatible coating is able to alter oxidative status and expression of relevant target genes in marine fish. Another important finding is that effects are mainly induced by the lowest and intermediate concentrations of the PVP coated AuNP revealing the importance of different coatings.

Fish cell cultures as in vitro models of inflammatory responses elicited by immunostimulants. Expression of regulatory genes of the innate immune response.

We report the differential expression of various genes related to the regulation of the innate immune responses, including pro-inflammatory (IL-1ß1, IL-8, TNF-α1, TNF-α2) and immune-suppressing (IL-10) cytokines, interferon-induced Mx-1 protein, enzymes regulating nitric oxide (inducible nitric oxide synthase, arginase-2) and eicosanoid (COX-2) production, and Toll-like pathogen pattern-recognition receptors TLR-3, TLR-5 and TLR-9, in two lympho-haematopoietic stromal cell lines derived from the spleen (trout splenic stroma, TSS) and the pronephros (trout pronephric stroma-2, TPS-2) of rainbow trout (Oncorhynchus mykiss), as well as in primary cultures of rainbow trout head kidney macrophages, after their exposure to the well-known immunostimulants LPS, levamisole and poly I:C. Although there were differences in the responses between the two stromal cell lines, using reverse transcription followed by real time polymerase chain reaction (RT-qPCR) we demonstrated that exposure to the immunostimulants, particularly poly I:C and LPS, resulted in significant changes in the expression of the immunoregulatory genes in the two stromal cell lines in many cases their responses resembling in fold change magnitudes and in response profiles to those observed in the primary macrophage cultures. Exposure to poly I:C and, with lower fold change values, to LPS produced upregulation of the pro- (IL-1ß, IL-8, TNF-α) and anti-inflammatory (IL-10) cytokine genes, as well as of the Mx-1 gene. Furthermore, the immunostimulation elicited the upregulation of COX-2, iNOS and arginase-2 genes in the cell lines. Likewise, the TSS and TPS-2 cell lines significantly upregulated the expression of TLR-3, TLR-5 and TLR-9 genes after exposure to the immunostimulants, thus explaining the ability of the stromal cells to recognise and respond to the immunostimulants. Such results give support to an important role of lympho-haematopoietic stromal cells in the development and control of pro-inflammatory responses in fish. The upregulation of genes of pro-inflammatory cytokines and of mediators of the innate immune responses correlates well with the previously demonstrated functional capacities, including phagocytosis, microbicidal activity and NO production, exhibited by the TSS and TPS-2 stromal cell lines when exposed to the same immunostimulants. On the other hand, the expression of immunosuppressing genes (IL-10, COX-2 and arginase-2) demonstrate that the lympho-haematopoietic stromal cells are also able to contribute to the control of inflammatory responses. This study reinforce the possibility of using histotypic cell cultures, as those formed by the TSS and TPS-2 cell lines, formed by heterogeneous cell populations that partially replicates the cell-cell and cell-extracellular matrix interactions, to develop cost-effective and repetitive in vitro systems for the screening of immunostimulant candidates for aquaculture, as they are able to replicate in vitro immune regulatory networks occurring in vivo.

Differential expression of the corticosteroid receptors GR1, GR2 and MR in rainbow trout organs with slow release cortisol implants.

The present study describes the transcriptional levels of the corticosteroid receptors (CRs) GR1, GR2 and MR in the different organs of the rainbow trout (Oncorhynchus mykiss) in response to a slow release of cortisol, throughout a 10-day period. We show that after short term (1 day after cortisol implantation), when the plasma levels of cortisol emulate an acute stress, the GR2 and MR expression levels were upregulated in the brain and head kidney tissues. This result reflects the role of these organs as regulators of the stress response. In general, the rest of the organs, especially gills, intestine, liver, muscle and spleen, showed decreased transcriptional levels of GR1, GR2 and MR, along with the highest plasma cortisol levels. At day 5 after cortisol implantation, when cortisol levels emulate a chronic stress, the most affected organs were gills and skin, where an upregulation of the CRs was found. In the recovery period, when cortisol levels were basal (day 10), we still found changes in the transcriptional levels of the CRs in gills, spleen and gonads. The cortisol increase at days 1 and 5 after implantation is accompanied by high plasma glucose concentrations, supporting the role of cortisol on carbohydrate metabolism. However, after 10days of implantation, glucose returned to control levels suggesting a trade-off on the steady state of the metabolic function. We also observed increased hematocrit and hemoglobin at day 1, indicating a cortisol-induced higher metabolic demand involving an increase in oxygen transport efficiency. Our results demonstrate that increased plasma cortisol induced by a slow-release implant of cortisol mimics the overall effects of stress and affects the expression of the three CRs, generating different transcriptional patterns in a time- and organ-specific manner.

Fish cell cultures as in vitro models of pro-inflammatory responses elicited by immunostimulants.

We have tested the elicitation of innate defence-related responses in two stromal cell lines derived from the spleen (trout splenic stroma, TSS) and the pronephros (trout pronephric stroma-2, TPS-2) of rainbow trout (Oncorhynchus mykiss) after they were exposed to different concentrations of lipopolysaccharide (LPS), levamisole, or polyinosinic polycytidylic acid (poly-I:C). For comparison, cultures of rainbow trout head kidney macrophages were also included in the study, and the effect of the immunostimulants on the phagocytic activity, the intracellular and extracellular reactive oxygen species and nitric oxide production were assayed. Although the responses varied depending upon the concentration of the immunostimulants and the particular cell line, our results demonstrate that those activities were enhanced in the TSS and TPS-2 cell lines after exposure to any of the immunostimulants. These results indicate that the stromal cells of the main lympho-haemopoietic organs of O. mykiss develop innate defence responses, which are enhanced by well-known immunostimulants. In addition, such enhancement of the defence responses in the TSS and TPS-2 cell lines could be also elicited when they were exposed to conditioned supernatants from levamisole- or poly I:C-stimulated HK macrophage cultures, thus demonstrating that the haemopoietic stromal cells respond to macrophage-derived factors. Moreover, we demonstrate that the stromal cell lines constitutively expressed the Toll-like receptors TLR3, TLR5 and TLR9 genes. The results are discussed considering the role of the lympho-haemopoietic stromal cells in the innate immune responses, and the possibility of using histiotypic cell cultures of non-leucocyte cells of the haemopoietic organs to develop in vitro methods to select new immunostimulant candidates for aquaculture.