Francisco J. Arjona

Time course of osmoregulatory and metabolic changes during osmotic acclimation in Sparus auratus.

SUMMARY Changes in different osmoregulatory and metabolic parameters over time were assessed in gills, kidney, liver and brain of gilthead sea bream Sparus auratus transferred either from seawater (SW, 38 p.p.t.) to hypersaline water (HSW, 55 p.p.t.) or from SW to low salinity water (LSW, 6 p.p.t.) for 14 days. Changes displayed by osmoregulatory parameters revealed two stages during hyperosmotic and hypo-osmotic acclimation: (i) an adaptive period during the first days of acclimation (1–3 days), with important changes in these parameters, and (ii) a chronic regulatory period (after 3 days of transfer) where osmotic parameters reached homeostasis. From a metabolic point of view, two clear phases can also be distinguished during acclimation to hyperosmotic or hypo-osmotic conditions. The first one coincides with the adaptive period and is characterized by enhanced levels of plasma metabolites (glucose, lactate, triglycerides and protein), and use of these metabolites by different tissues in processes directly or indirectly involved in osmoregulatory work. The second stage coincides with the chronic regulatory period observed for the osmoregulatory parameters and is metabolically characterized in HSW-transferred fish by lower energy expenditure and a readjustment of metabolic parameters to levels returning to normality, indicative of reduced osmoregulatory work in this stage. In LSW-transferred fish, major changes in the second stage include: (i) decreased glycolytic potential, capacity for exporting glucose and potential for amino acid catabolism in liver; (ii) enhanced use of exogenous glucose through glycolysis, pentose phosphate and glycogenesis in gills; (iii) increased glycolytic potential in kidney; and (iv) increased glycogenolytic potential and capacity for use of exogenous glucose in brain.

Interactive effects of environmental salinity and temperature on metabolic responses of gilthead sea bream Sparus aurata.

The gilthead sea bream Sparus aurata is a euryhaline and euritherm species with the capacity of living under different environmental conditions of salinity and temperature. The influence of acclimation to different environmental salinities (5, 38 and 55 per thousand) and temperatures (12 degrees , 19 degrees and 26 degrees C) for seven weeks was analyzed in plasma and tissues (liver, gills and kidney) of gilthead sea bream assessing levels of metabolites and enzyme activities related to energy metabolism. Changes observed in specimens acclimated to different environmental salinities agree with previous results reported for this species. The temperature alone did also affect metabolic parameters in a way similar to that previously described. A significant interaction of salinity with temperature was found in most parameters assessed in tissues suggesting that the metabolic effects of salinity are different depending on the temperature of acclimation. The interactions were different among tissues and parameters displaying different patterns of changes. In general, the acclimation to extreme temperatures (especially low) alters the metabolic responses to different salinities thus suggesting that the energy demand of increased osmoregulatory work is not so important under temperature conditions different from those commonly found in nature and in those used in culture.

Sex steroids and metabolic parameter levels in a seasonal breeding fish (Sparus aurata L.)

The gilthead seabream is a protandrous hermaphrodite seasonal breeding teleost with a bisexual gonad that offers an interesting model for studying the two first reproductive cycles (RCs), in which the specimens develops as males. During the first RC (RC1), 11-ketotestosterone (11-KT) and testosterone (T), the main androgens in fish, play different and specific roles in the testicular physiology as they peak at different stages of RC1. Moreover, the profiles of T serum levels during the second RC (RC2) demonstrated that this androgen is not essential in the testicular regression process that occurs during this cycle. However, changes in serum levels suggest that 17beta-estradiol (E2) orchestrates this process during both RCs. Moreover, the E2 serum levels recorded during RC2 indicate that there is a threshold level that determines the initiation of ovarian development during this cycle without promoting complete feminization. We analysed triglyceride, protein, glucose and lactate serum levels in order to establish a relationship between the mobilization and transfer of nutrients, the hormonal changes that take place during the RC and body composition, finding that in vivo serum levels of metabolites change significantly throughout the first two RCs, although the physiological relevance of such changes is still unknown. Triglyceride levels seem to be affected by the beginning of ovary development during RC2 but not by testicular recrudescence during RC1. Moreover, glucose and lactate might be important sources of energy during the resting and testicular involution stages.

Gene and protein expression for prolactin, growth hormone and somatolactin in Sparus aurata: Seasonal variations

The seasonal variation of PRL, GH and SL gene and protein expression has been analyzed in gilthead sea bream (Sparus aurata) pituitaries using Real-Time Q-PCR and Western Blots, respectively. Animals were cultured in earthen ponds under natural photoperiod, temperature and salinity conditions. Samples were taken during winter 2005 (January), spring 2005 (April), summer 2005 (July) and autumn 2005 (October). Beta-actin, used as the housekeeping gene both for Q-RT-PCR and Western analysis, did not present significant differences among seasons. Higher expression was observed during spring and autumn for PRL, summer and winter for GH, and spring for SL. Expression of PRI, GH and SL, presented seasonal variation, suggesting that these hormones could play a role in the molecular signal transduction of environmental factors (especially of photoperiod and temperature) in eurythermal fish.

Pituitary gene and protein expression under experimental variation on salinity and temperature in gilthead sea bream Sparus aurata

Temperature and salinity are important factors that affect several physiological processes in aquatic organisms, which could be produced by variation of certain hormones. In this study, the expression of pituitary hormones involved in the acclimation to different temperatures and salinities was examined in Sparus aurata, a euryhaline and eurytherm species, by Q-Real Time RT-PCR and Western blot analyses for mRNA and protein expression, respectively. Three different experimental conditions were designed with specimens (10 per treatment) acclimated to: a) low salinity water; b) sea water; and c) high salinity water. Additionally, fish under different salinities were acclimated to three different temperatures: 12, 19 and 26 degrees C. Animals were maintained seven weeks before sampling pituitary glands. Our results provided enough evidence for a differential expression of PRL, GH and SL in the pituitary of gilthead sea bream, under different temperature and salinity regimes.