Effects of Accelerated Photoperiod Regimes on the Reproductive Cycle of the Female Rainbow Trout: I—Seasonal Variations of Plasma Lipids Correlated with Vitellogenesis

Multi-Parametric Portfolio to Assess the Fitness and Gonadal Maturation in Four Key Reproductive Phases of Brown Trout

Simple Summary

Brown trout is a freshwater fish with economic importance and with a great potential to be used as an environmental biosensor species. Despite being selected as a model species in distinct scientific contexts, in cultured specimens, there is a surprising lack of works investigating the morpho-physiological changes associated with the reproductive cycle; particularly concerning the gonads. In this study, a multi-parameter portfolio of biometric, biochemical, hormonal, and morphological analysis was established, which allowed a seasonal and sex characterization of the gonad status of adult brown trout males and females. Sampling included four reproductive phases: spawning capable (December), regressing (March), regenerating (July), and developing (November). Sex- and season-specific changes were described. The discriminative parameters characterized here stand now as normal baseline values against which abnormal patterns can be compared with. These parameters have the potential to be used as tools for the environmental monitoring of the reproductive status of wild populations and for the control of breeding stocks in aquaculture.

Abstract

Brown trout is an environmental freshwater sentinel species and is economically important for recreational fishing and aquaculture. Despite that, there is limited knowledge regarding morpho-physiological variations in adults throughout the reproductive cycle. Thus, this study aimed to analyze the fitness and gonadal maturation of cultured adult brown trout in four reproductive phases (spawning capable—December, regressing—March, regenerating—July, and developing—November). The systematic evaluation of males and females was based on biometric, biochemical, and hormonal parameters, along with a histomorphological grading of gonads and the immunophenotype location of key steroidogenic enzymes. The total weight and lengths reached the lowest levels in December. Gonad weights were higher in December and November, while the opposite pattern was found for liver weights. The lowest levels of cholesterol and total protein were also noted during those stages. The 11-ketotestosterone (11-KT) and testosterone (T) for males, and estradiol (E2) and T for females, mostly explained the hormonal variations. The immunohistochemistry of cytochrome P450c17 (CYP17-I), aromatase (CYP19), and 17β-hydroxysteroid dehydrogenase (17β-HSD) showed sex and site-specific patterns in the distinct reproductive phases. The sex- and season-specific changes generated discriminative multi-parameter profiles, serving as a tool for environmental and aquaculture surveys.

Elevated plasma triglycerides and growth rate are early indicators of reproductive status in post-spawning female steelhead trout (Oncorhynchus mykiss)

Many iteroparous fishes spawn after skipping one or more yearly cycles, which impacts recruitment estimates used for fisheries management and conservation. The physiological mechanisms underlying the development of consecutive and skip spawning life histories in fishes are not well understood. In salmonids, lipid energy reserves and/or growth are thought to regulate the initiation of reproductive maturation during a critical period ~1 year prior to spawning. The fasting spawning migration of summer-run steelhead trout (Oncorhynchus mykiss) results in significant depletion of energy reserves during the proposed critical period for repeat spawning. To determine whether and when lipid energy reserves and growth influence repeat spawning, measures of lipid energy reserves, growth rate and reproductive development were tracked in female steelhead trout from first to second spawning as a consecutive or skip spawner in captivity. Plasma triglyceride (TG) levels and growth rate were elevated by 10 weeks after spawning in reproductive (i.e. consecutive spawning) versus non-reproductive (i.e. skip spawning) individuals. Muscle lipid (ML) levels, condition factor and plasma estradiol levels increased at later time points. The early differences in plasma TG levels and increases in growth rate are attributable to differential rates of feeding and assimilation between the groups following spawning. A year after spawning, plasma TG levels, MLs and growth rate decreased in consecutive spawners, attributable to transfer of lipid reserves into the ovary. During the year prior to second spawning, energy reserves and plasma estradiol levels were higher in reproductive skip spawners versus consecutive spawners, reflecting the energy deficit after first spawning. These results suggest that the decision to initiate ovarian recrudescence occurs by 10 weeks after first spawning and are consistent with the differences in energy reserves acquired following spawning being a consequence of that decision. This information will increase the success of conservation projects reconditioning post-spawning summer-run steelhead trout.

A Computational Model of the Rainbow Trout Hypothalamus-Pituitary-Ovary-Liver Axis

Reproduction in fishes and other vertebrates represents the timely coordination of many endocrine factors that culminate in the production of mature, viable gametes. In recent years there has been rapid growth in understanding fish reproductive biology, which has been motivated in part by recognition of the potential effects that climate change, habitat destruction and contaminant exposure can have on natural and cultured fish populations. New approaches to understanding the impacts of these stressors are being developed that require a systems biology approach with more biologically accurate and detailed mathematical models. We have developed a multi-scale mathematical model of the female rainbow trout hypothalamus-pituitary-ovary-liver axis to use as a tool to help understand the functioning of the system and for extrapolation of laboratory findings of stressor impacts on specific components of the axis. The model describes the essential endocrine components of the female rainbow trout reproductive axis. The model also describes the stage specific growth of maturing oocytes within the ovary and permits the presence of sub-populations of oocytes at different stages of development. Model formulation and parametrization was largely based on previously published in vivo and in vitro data in rainbow trout and new data on the synthesis of gonadotropins in the pituitary. Model predictions were validated against several previously published data sets for annual changes in gonadotropins and estradiol in rainbow trout. Estimates of select model parameters can be obtained from in vitro assays using either quantitative (direct estimation of rate constants) or qualitative (relative change from control values) approaches. This is an important aspect of mathematical models as in vitro, cell-based assays are expected to provide the bulk of experimental data for future risk assessments and will require quantitative physiological models to extrapolate across biological scales.

Reproduction in fishes and other vertebrates represents the timely coordination of many endocrine factors that culminate in the production of mature, viable gametes. Improving the ability to estimate reproductive performance in fish is important, due to the growth of the aquaculture industry and the need to maintain adequate broodstock and concerns over the effects of anthropogenic stressors on feral fish populations. We present here a quantitative, mathematical model of the female rainbow trout reproductive cycle. We show how the model is able to accurately describe experimentally measured data associated with pituitary, ovarian and liver reproductive performance. We also use the model to describe similar data sets collected in rainbow trout by other researchers. An important value of quantitative biological models is the ability to simulate various physiological conditions, real or hypothetical. We demonstrate this by predicting the effects of exposure to an endocrine disruptor on oocyte growth. The need to limit cost and animal usage will encourage future experimental studies to use in vitro methods. The model presented here can assist with the extrapolation of in vitro effects to the whole fish.

Temperature and photoperiod affect the endocrine disruption effects of ethinylestradiol, nonylphenol and their binary mixture in zebrafish (Danio rerio)

We found that temperature and photoperiod significantly influence the transcription of the estrogen-responsive genes, vitellogenin1 (Vtg1), vitellogenin2 (Vtg2), estrogen receptor-alpha (ER alpha) and estrogen receptor-beta (ER beta), after a 21-day exposure to environmentally relevant concentrations of 17 alpha-ethynylestradiol (EE2), nonylphenol (NP) and EE2 plus NP (EE2+NP). In general, gene transcription levels were higher as temperature and photoperiod length increased. The mRNA levels of Vtg1 in EE2 (10 ng/L) and EE2+NP (10 ng/L and 25 microg/L, respectively) groups were induced more than 10(4) times both in 21 degrees C-12L and 30 degrees C-14L groups, but only 369+/-23 and 178+/-59-fold induced in 12 degrees C-10L group compared to the control, respectively. Specifically, when exposed to a high concentration of NP (25 microg/L) for 21 days, the levels of all mRNAs examined were significantly increased (p<0.05) in the 21 degrees C-12L and the 30 degrees C-14L groups compared to the controls. However, no obvious induction in transcription was observed in the 12 degrees C-10L group. The results obtained in the present study clearly elucidate that temperature and photoperiod greatly influence the effect of EDCs, and thus suggest that to fully define the endocrine disruption effects seasonal and/or climate change effects must also be investigated.

Photoperiod and temperature influence endocrine disruptive chemical-mediated effects in male adult zebrafish

Potential adverse effects of endocrine-disrupting chemicals (EDCs) in human and wildlife have become a major research topic. However, little is known about the effects of ambient conditions, including temperature and photoperiod, on endocrine disruption in zebrafish. We found that zebrafish hepatic estrogen-responsive gene transcription levels were greatly affected by temperature and photoperiod. Estrogen-responsive gene transcription levels at higher temperatures and with longer photoperiods were significantly higher than those at lower temperatures and with shorter photoperiods upon exposure to 17beta-estradiol (E2) or nonylphenol (NP). Specifically, mRNA expression levels of vitellogenin 1 (vtg1) and vitellogenin 2 (vtg2) induced by both E2 and NP at high temperature (30 degrees C) were approximately 2-10 and 1.5-2.5 times higher than those exposed to low temperature (20 degrees C) under identical photoperiod conditions. mRNA expression levels of vtg1, vtg2 and estrogen receptor alpha (esralpha) with a long photoperiod (16L) were also several folds higher than those with a short photoperiod (8L) upon exposure to E2 and NP at both high and low temperatures. Two-way analysis of variance revealed a significant interaction between temperature and photoperiod in hepatic vtg1 and esralpha gene transcription in both high and low concentration treatment groups upon exposure to E2. However, no significant interactions were found for hepatic estrogen-responsive gene transcription at either NP concentrations. These results suggest that temperature and photoperiod could confound the risk assessment of estrogenic chemicals, and they also have potential implications for future environmental monitoring studies.

Lipid dynamics and plasma level changes of 17β-estradiol and testosterone during the spawning season of gilthead seabream (Sparus aurata) females of different ages

The present study was undertaken to evaluate whether the age of brood stock females of Sparus aurata affects the mobilization of lipids from muscle and liver towards the gonads to aid in oocyte development. Taking into account the role some hormones play in lipid mobilization the production of 17beta-estradiol (E2) and testosterone (T) was also measured throughout the spawning season. Four groups of fish were established consisting of 3-, 4-, 5- and 6-year-old females (1.3, 1.5, 2.3 and 2.8 kg average weight, respectively), maintained in separate tanks together with a number of two-year-old males. The results for all four groups showed no variations in fish total length between the beginning and end of the experimental period. However, losses were recorded both of body weight and condition factor. In general terms, there were no significant differences in the plasma levels of E2, T and the gonadosomatic (GSI) and hepatosomatic (HSI) index among the four groups throughout the spawning season. In all groups, the plasma levels of E2, T, GSI and HSI were at their lowest at the end of spawning. Between December (pre-spawning) and March (mid-spawning), all groups suffered depletion of the lipid content of liver and muscle, while gonad lipid content remained constant. The mobilization of lipids from liver and muscle to contribute to the upkeep of the gonadal lipid involved the mobilization of all the fatty acid groups, saturates, monoenes, n-6, n-3, and n-3 HUFA. A good correlation existed between the percentage of the various fatty acid groups transferred from muscle and the age of the reproductive females. However, the greater lipid mobilization from muscle matching the greater age of the reproductive females did not result in greater lipid gonadal reserves or greater body size, suggesting that reproduction on the part of older females requires greater effort. Despite this, the results as a whole indicated that lipogenic capacity, considered as the mobilization of lipids from muscle and liver towards the gonad for the development of oocytes, is unaffected by age in reproductive 3- to 6-year-old gilthead seabream females.

Effects of melatonin on liver estrogen receptor and vitellogenin expression in rainbow trout: an in vitro and in vivo study

Although melatonin is believed to mediate many seasonal and circadian effects of photoperiod on reproduction in salmonids, the precise mechanisms underlying such effects are still largely unknown. Recent data of the literature indicate a relationship between melatonin and expression of estrogen receptors (ER) in various tissues. In this study, the effects of melatonin on estrogen receptor and/or vitellogenin expression were studied by a combination of in vivo and in vitro experiments. In yeast stably expressing ER and transfected with an estrogen-responsive element-beta-galactosidase reporter gene, melatonin had no effect on basal or E2-stimulated ER expression. Incubation of hepatocyte aggregates with melatonin (10(-8) to 10(-4)) for 16 or 48 h did not modify the E2-stimulated ER and vitellogenin mRNA, as measured by dot blots. Finally, neither pinealectomy nor melatonin implants caused any effect on basal or E2-stimulated ER and vitellogenin mRNA contents in the liver. Altogether, these results suggest that, although we cannot exclude potential effects at the brain or pituitary levels, melatonin has no or little effects on estrogen receptor in the liver.

Correlations of plasma growth hormone with somatostatin, gonadal steroid hormones and thyroid hormones in rainbow trout during sexual recrudescence

The study explores the interrelationships among growth hormone (GH), somatostatin-14 (SRIF), non-esterified fatty acids (NEFA), gonadal steroid hormones and thyroid hormones (THs) in sexually recrudescent rainbow trout (Oncorhynchus mykiss) to examine aspects of the complex set of physiological changes associated with gonadal growth and maturation. Females exhibited significant decreases in plasma SRIF, NEFA and triiodo-L-thyronine (T3) concentrations, and a significant increase in plasma GH concentration associated with gonadal maturation, whereas in males, only SRIF and NEFA concentrations showed significant changes during testicular maturation. The declining SRIF levels during gonadal recrudescence may indicate a role for the hormone in the energy repartitioning processes that occur in both sexes at this time. Correlation analysis of plasma variables revealed a direct correlations between plasma NEFA and 17 beta-estradiol (E2) in females, an inverse correlation between NEFA and testosterone (T) in males, inverse correlations between GH and SRIF in both males and females, and inverse correlations between THs and SRIF concentrations in females. These marked gender differences in correlations likely reflect the different physiological challenges faced by the two sexes and emphasizes the need to consider gender, as well as maturity when studying the interactions of hormones.

The brain-pituitary-gonadal axis of female rainbow trout Oncorhynchus mykiss: effects of photoperiod manipulation1

Two groups of post-spawned female rainbow trout were exposed to two different photoperiods, an ambient photoperiod (56 degrees N) and a combination of long and short photoperiods (a constant 18L:6D from February 1 until May 10, then a constant 6L:18D), which acted to advance maturation and spawning. The stimulatory long-short photoperiod advanced spawning by 3-4 months and correspondingly advanced peaks in serum levels of 17beta-estradiol, testosterone, calcium (an index of vitellogenin), and GTH II. Earlier events in gonadal recrudescence appeared to be less affected by the photoperiod. The initiation of exogenous vitellogenesis coincided with high levels of both pituitary salmon gonadotropin-releasing hormone (sGnRH) content and serum follicle-stimulating hormone (FSH, GTH I) levels. High levels of serum FSH were associated with rapid gonadal growth in the fish exposed to the stimulatory long-short photoperiod. In contrast, the fish exposed to the ambient photoperiod showed gonadal steroid production, formation of vitellogenin, and secondary oocyte growth without any detectable increase in serum FSH levels. The possible roles and interactions of sGnRH, gonadotropins, and steroids with respect to normal and artificially stimulated ovarian maturation are discussed.