Profiling of key apoptotic, stress, and immune-related transcripts during embryonic and postembryonic development of Atlantic cod (Gadus morhua L.).

We investigated the profiles of 25 genes involved in apoptosis (bcl-x2, casp3, casp8, ccar1, mcl1, and tpt1), immunity (bty, cathl, ifng, il1b, il6, il8, il10, lyzg, and tfa), oxidative stress (cat, gpx4, gsh-px, hsp70, hsp90a, and sod1), and stress axis (crh, pomc, grl1, and mlr) during Atlantic cod development and compared the mRNA transcript levels between samples from farmed (FB) and wild broodstock (WB) using real-time polymerase chain reaction. The suitability of nine endogenous housekeeping genes and an external standard (luciferase) as reference genes was also evaluated. The cycle threshold values of all housekeeping genes differed significantly throughout Atlantic cod development. Fertilization and hatching rates were significantly higher in WB group (95 ± 1.8% and 89 ± 2.8%, respectively) compared with FB (75 ± 3.4% and 66 ± 3.2%, respectively). Eleven target genes, namely, ccar1, casp3, bcl-x2, mcl-1, cat, gsh-px, hsp70, sod1, lyzg, il8, and grl were expressed in both groups at fertilization stage, indicating their maternal transfer. Among them, transcripts of gsh-px were more abundant in WB eggs, while the expression of hsp70 was significantly higher in FB eggs. In FB larvae, expression of cat, hsp70, hsp90a, pomc, mlr, grl1, bclx2, and il6 was significantly higher at hatching and the expression of cat, gpx4, casp3 and ccar1 was significantly higher at first feeding stages, than in WB group. These findings give an insight into the expressional changes in certain category of genes involved in the embryonic development of Atlantic cod, which may eventually determine the ultimate quality of the larvae.

Evaluation of DNase activity in seminal plasma and uptake of exogenous DNA by spermatozoa of the Brazilian flounder Paralichthys orbignyanus.

Sperm mediated gene transfer (SMGT) has been successfully used in mammals, amphibians, birds, and some invertebrates. In fish, this methodology has failed or had poor efficiency for the production of transgenic specimens, presumably because the processes regulating the interaction between spermatozoa and exogenous DNA are not well understood. Therefore, the objective was to develop a SMGT protocol for the Brazilian flounder Paralichthys orbignyanus, with an emphasis on the role of seminal plasma DNase on exogenous DNA uptake by fish spermatozoa. In this study, there was strong DNase activity in the seminal plasma of P. orbignyanus; however, this DNase activity was decreased or eliminated by washing the spermatozoa with solutions containing EDTA (DNase activity was completely inhibited by 40 mM EDTA). Three washing solutions were tested, all of which maintained sperm quality. Moreover, it was determined that the no more than 50 ng of exogenous DNA/10(6) cells should be used for SMGT in fish. Finally, it was demonstrated that fish spermatozoa were capable of spontaneous uptake of exogenous DNA after elimination of DNase activity; this was confirmed by exogenous DNA amplification (PCR using sperm genomic DNA as a template) after DNase I treatment. We concluded that whereas DNase activity was an important obstacle for exogenous DNA uptake by fish spermatozoa; controlling this activity improved the efficiency of SMGT in fish.

Metabolic rate and reactive oxygen species production in different genotypes of GH-transgenic zebrafish.

Growth hormone overexpression increases growth and consequently increases the metabolic rate in fishes. Therefore, the objective of this study was to evaluate the effects of growth hormone overexpression in zebrafish Danio rerio in terms of growth, oxygen consumption, reactive oxygen species production, lipid hydroperoxide content, antioxidant enzyme activity and glutamate-cysteine ligase catalytic subunit gene expression. The employed models were wild type and transgenic (hemizygous and homozygous) zebrafish expressing the Odonthestes argentinensis growth hormone gene directed by the Cyprinus carpio beta-actin promoter. Higher growth parameters were observed in the hemizygous group. The homozygous group possessed higher oxygen consumption and reactive oxygen species production. Growth hormone transgenesis causes a decrease in glutamate-cysteine ligase catalytic subunit expression, an enzyme responsible for glutathione synthesis. Although the lipid hydroperoxide content was similar between groups, we demonstrate that growth hormone overexpression has the potential to generate oxidative stress in fishes.