Genotype-Temperature Interaction in the Regulation of Development,Growth, and Morphometrics in Wild-Type,and Growth-Hormone Transgenic Coho Salmon

Background

The neuroendocrine system is an important modulator of phenotype, directing cellular genetic responses to external cues such as temperature. Behavioural and physiological processes in poikilothermic organisms (e.g. most fishes), are particularly influenced by surrounding temperatures.

Methodology/Principal Findings

By comparing the development and growth of two genotypes of coho salmon (wild-type and transgenic with greatly enhanced growth hormone production) at six different temperatures, ranging between 8° and 18°C, we observed a genotype-temperature interaction and possible trend in directed neuroendocrine selection. Differences in growth patterns of the two genotypes were compared by using mathematical models, and morphometric analyses of juvenile salmon were performed to detect differences in body shape. The maximum hatching and alevin survival rates of both genotypes occurred at 12°C. At lower temperatures, eggs containing embryos with enhanced GH production hatched after a shorter incubation period than wild-type eggs, but this difference was not apparent at and above 16°C. GH transgenesis led to lower body weights at the time when the yolk sack was completely absorbed compared to the wild genotype. The growth of juvenile GH-enhanced salmon was to a greater extent stimulated by higher temperatures than the growth of the wild-type. Increased GH production significantly influenced the shape of the salmon growth curves.

Conclusions

Growth hormone overexpression by transgenesis is able to stimulate the growth of coho salmon over a wide range of temperatures. Temperature was found to affect growth rate, survival, and body morphology between GH transgenic and wild genotype coho salmon, and differential responses to temperature observed between the genotypes suggests they would experience different selective forces should they ever enter natural ecosystems. Thus, GH transgenic fish would be expected to differentially respond and adapt to shifts in environmental conditions compared with wild type, influencing their ability to survive and interact in ecosystems. Understanding these relationships would assist environmental risk assessments evaluating potential ecological effects.     

Gill Morphometry in Growth Hormone Transgenic Pacific Coho Salmon,Onchorhynchus kisutch,Differs Markedly from that in GH Transgenic Atlantic Salmon

In a previous study we showed that many of the morphological features of the respiratory system of GH (growth hormone) transgenic Atlantic salmon are greater than similarly sized control salmon. Here we show that the manifestation of GH transgene is similar in two different lines of GH transgenic Pacific coho salmon, but that it is very different from that in the GH transgenic Atlantic salmon. The GH transgenic Pacific coho salmon do not have a larger gill surface area than similarly sized control fish.     

Vertical Position Reflects Increased Feeding Motivation in Growth Hormone Transgenic Coho Salmon (Oncorhynchus kisutch)

Growth hormone (GH) gene transgenesis has allowed the production of salmon with an inherently increased growth potential, on average two to threefold higher compared with daily specific growth rates observed in normal, non‐transgenic fish. This difference quickly results in animals of very different sizes at age, and is associated with specific morphological effects and enhanced appetites in transgenic animals. However, less is known of the feeding and antipredator behaviour of GH‐transgenic fish, information that can help with predictions of potential ecological consequences of release or escape of transgenic fish into the wild. In a series of experiments, transgenic (T) and normal (N) coho salmon of varying age and size (from 0.5 to 40 g, 3.5–21 mo) were studied singly, in pairs, and in groups during feeding and simulated predation threat. Vertical position generally did not differ between T and N fry, but at larger size (>4 g) T fish remained closer to the surface than N fish both during feeding and predatory attacks, probably as a consequence of inherent differences in feeding motivation and later reinforcement by associative learning. This difference in vertical position was not the result of competition as it remained even after either fish in the pair had been removed. In nature, where predators may attack from above (birds) or below (fish), this kind of behaviour may translate into higher risk of predation, which could increase mortality and lower the fitness of transgenic fish, unless their increased growth rate can compensate for the increased risk‐taking.     

Gill Morphometry in Growth Hormone Transgenic Atlantic Salmon

We show that many of the morphological features of the respiratory system of growth enhanced transgenic salmon are greater than those of similarly sized control salmon. Growth hormone transgenic Atlantic salmon, Salmo salar were the F₂ generation produced using eggs from a transgenic F₁ female and milt from a nontransgenic male. At the time the gill tissues were sampled, the transgenic salmon were growing 2.1 times more rapidly than the nontransgenic control salmon, and they had oxygen uptake rates that were about 1.6 times greater than control salmon. In the present study we show that the gill surface area available for respiratory exchange in the transgenic salmon is about 1.24 times that in control salmon which does not parallel the 1.6 elevation in oxygen uptake. The increase in gill exchange area was due largely to a relatively uniform increase in length of each gill filament.     

Genetic versus Rearing-Environment Effects on Phenotype: Hatchery and Natural Rearing Effects on Hatchery- and Wild-Born Coho Salmon

With the current trends in climate and fisheries, well-designed mitigative strategies for conserving fish stocks may become increasingly necessary. The poor post-release survival of hatchery-reared Pacific salmon indicates that salmon enhancement programs require assessment. The objective of this study was to determine the relative roles that genotype and rearing environment play in the phenotypic expression of young salmon, including their survival, growth, physiology, swimming endurance, predator avoidance and migratory behaviour. Wild- and hatchery-born coho salmon adults (Oncorhynchus kisutch) returning to the Chehalis River in British Columbia, Canada, were crossed to create pure hatchery, pure wild, and hybrid offspring. A proportion of the progeny from each cross was reared in a traditional hatchery environment, whereas the remaining fry were reared naturally in a contained side channel. The resulting phenotypic differences between replicates, between rearing environments, and between cross types were compared. While there were few phenotypic differences noted between genetic groups reared in the same habitat, rearing environment played a significant role in smolt size, survival, swimming endurance, predator avoidance and migratory behaviour. The lack of any observed genetic differences between wild- and hatchery-born salmon may be due to the long-term mixing of these genotypes from hatchery introgression into wild populations, or conversely, due to strong selection in nature—capable of maintaining highly fit genotypes whether or not fish have experienced part of their life history under cultured conditions.     

鲑鱼生长激素cDNA的分子克隆和序列分析

从太平洋切奴克鲑鱼(Pacific Chinook Salmon,Oncorthychus tschawytscha)垂体poly(A)~+ RNA构建cDNA文库。按照鲑鱼生长激素(sGH)部分氨基酸序列合成两个寡聚脱氧核苷酸探针,它们分别与编码第1—7和第166—172氨基酸序列互补。用探针筛查cDNA文库,得到了完整的sGH cDNA克隆。cDNA序列已测定,包括编码210个氨基酸的编码序列。其中含有22个氨基酸的信号肽序列和188个氨基酸的成熟GH序列。该克隆还包括了5'端和3'端非翻译区,分别为72个和438个碱基对长。与Chum鲑鱼比较表明,核酸序列和氨基酸序列的同源性分别为97%和99%。     

Phylogeography and Mitochondrial Polymorphism of Asian Coho Salmon

Molecular Biology - Multiple Pleistocene glaciations significantly affected the gene pool of many species inhabiting the Northern part of the Pacific Rim, an area with a rich glacial history. This...     

大麻哈鱼基因文库的构建及其生长激素基因的克隆

本文主要论述了黑龙江省特有鱼种,大麻哈鱼全基因文库的构建方法以及从所构建的1.9×10~(?)噬菌体成斑单位/ugDNA基因文库中克隆出生长激素基因片段的研究结果,作者使用DM-BL3入噬菌为载体,将大麻哈鱼肝总DNA的15-20Kb片段重组到载体中,再包装成新的重组噬菌体,以含虹鳟鱼生长激素DNA部分序列的PAF51为探针,经[~(12)P]dCTP标记后,与噬菌斑杂交,自显影,获得3个阳性斑,复筛获得90％以上阳性斑,酶切回收生长激素基因片段,实验证明,已成功地获得大麻哈鱼生长激素基因片段,可供进一步亚克隆或转移研究使用。     

Feeding on Profitable and Unprofitable Prey: Comparing Behaviour of Growth-Enhanced Transgenic and Normal Coho Salmon (Oncorhynchus kisutch)

We compared the performance of normal and growth hormone‐transgenic coho salmon feeding on surface drifting edible and inedible novel prey items in various social environments. With an inherently higher appetite, we predicted that transgenic fish would be more willing to feed on novel prey, and that visual company with another fish would enhance this difference further. Transgenic and normal fish, of similar size and age, were equally willing to attack both the edible (live insects) and inedible (artificial angling lure flies) prey, but transgenic fish did so faster and were more likely to make repeated attacks. Transgenic fish managed to seize and consume the edible prey after fewer attacks than did normal fish. However, swallowing of prey took longer than for normal fish. More transgenic individuals interacted with the inedible prey compared with normal salmon, and initially, transgenic fish in visual company with another fish also interacted more with the prey than single transgenic or any constellation of normal focal fish. With repeated exposures, the number of individuals attacking and the number of interactions with the prey decreased. These responses were stronger in transgenic fish, partly explained by the initially low response in normal fish. The observed differences are most likely the consequences of elevated levels of growth hormone in transgenic fish generating enhanced feeding motivation and reinforcement capacity. In a natural environment, the performance of a growth hormone‐transgenic fish may therefore depend on the relative abundance of profitable vs. unprofitable prey, as well as the presence of other transgenic individuals.     

Thyroid and Sex Steroid Hormone Level in the Pink Salmon Oncorhynchus gorbuscha during Marine and Freshwater Periods of Spawning Migration

Journal of Ichthyology - Thyroid and sex steroid hormones have been studied in spawners of the pink salmon Oncorhynchus gorbuscha at the stage of changing the marine section of the spawning...     

Water velocity preferences of Coho Salmon during the parr-smolt transformation

Juvenile Coho Salmon undergo many physiological changes during their springtime transformation from a freshwater parr to a migratory, seawater-capable smolt. Although field observations indicate smolts moving towards the surface and across the breadth of their streams to either swim or drift downstream with the current, water-velocity preferences of these developing cohos are unknown. Using video analysis of their swimming patterns in a calibrated, laboratory flow table with a velocity gradient, groups of three cohos generally increased their preferred water velocity through the springtime study period, to a late-May peak (daytime data, change-point regression analysis, p < 0.05) and over the entire period (nighttime data, regression analysis, p < 0.05). Moving to swifter currents should facilitate the downstream movements of these young cohos, as they develop through the parr-smolt transformation period. This information should assist managers of regulated watersheds and salmon hatcheries in optimizing juvenile salmon survival (e.g., with timely, late-spring water releases producing 0.1–0.3 m s⁻¹ downstream water velocities).     

转大麻哈鱼生长激素基因鲫鱼研究

通过显微注射方法得到了一批转大麻哈鱼生长激素基因的实验鲫鱼。斑点杂交和ＳｏｕｔｈｅｒｎＢｌｏｔ杂交证实部分实验鱼的基因组中已整合了外源生长激素基因,并有一尾鱼有比较明显的生长速度快的特征。     

Auxin-Cytokinin Interactions in Wild-Type and Transgenic Tobacco

Cytokinins and auxins are important regulators of plant growthand development, but there is incomplete and conflicting evidencethat auxins affect cytokinin metabolism and vice versa. We haveinvestigated these interactions in Nicotiana tabacum L. by separatein planta manipulation of levels of the hormones followed byanalysis of the induced changes in the metabolism of the otherhormone. Cytokinin-overproducing plants (expressing the Agrobacte-riumtumefaciens ipt gene) had lower than wild-type levels of freeIAA, and reduced rates of IAA synthesis and turnover, but therewere no differences in the profiles of metabolites they producedfrom fed IAA. Similarly, auxin-overproducing plants (expressingthe A.tumefaciens iaaM and iaaH genes), had lower levels ofthe major cytokinins than wild-type plants and lower cytokininoxidase activity, but there were no differences in the profilesof metabolites they produced from fed cytokinins. The data demonstratethat cytokinin or auxin overproduction decreases the contentof the other hormone, apparently by decreasing its rate of synthesisand/or transport, rather than by increasing rates of turnoveror conjugation. Implications for the importance of cytokinin: auxin ratios in plant development are considered. (Received September 24, 1996; Accepted December 4, 1996)     

Acute Physiological Stress Down-Regulates mRNA Expressions of Growth-Related Genes in Coho Salmon

Growth and development in fish are regulated to a major extent by growth-related factors, such as liver-derived insulin-like growth factor (IGF) -1 in response to pituitary-secreted growth hormone (GH) binding to the GH receptor (GHR). Here, we report on the changes in the expressions of gh, ghr, and igf1 genes and the circulating levels of GH and IGF-1 proteins in juvenile coho salmon (Oncorhynchus kisutch) in response to handling as an acute physiological stressor. Plasma GH levels were not significantly different between stressed fish and prestressed control. Plasma IGF-1 concentrations in stressed fish 1.5 h post-stress were the same as in control fish, but levels in stressed fish decreased significantly 16 h post-stress. Real-time quantitative PCR (qPCR) analysis showed that ghr mRNA levels in pituitary, liver, and muscle decreased gradually in response to the stressor. After exposure to stress, hepatic igf1 expression transiently increased, whereas levels decreased 16 h post-stress. On the other hand, the pituitary gh mRNA level did not change in response to the stressor. These observations indicate that expression of gh, ghr, and igf1 responded differently to stress. Our results show that acute physiological stress can mainly down-regulate the expressions of growth-related genes in coho salmon in vivo. This study also suggests that a relationship between the neuroendocrine stress response and growth-related factors exists in fish.     

大鳞大马哈鱼垂体生长激素的分离、纯化与鉴定

应用ConA-Sepharose 4B亲和层析、凝胶过滤及离子交换层析等技术从大鳞大马哈鱼(Oncorhynchus tshawytscha)垂体中分离纯化了具有生物活性的生长激素(sGH)。用放射受体测定法(RRA)检测sGH组分的生物活性,结果表明纯化的8GH制品具有与兔肝细胞GH受体结合的生物活性。用放射免疫测定法(RIA)和酶联免疫吸附测定法(ELISA)分别检测了另两种垂体激素-催乳激素(PRL)和促性腺激素(GTH)在纯化的sGH制品中的残留量均在0.5％以下。用SDS-聚丙烯酰胺凝胶电泳SDS-PAGE评价sGH制品的电泳纯度并测定了其分子量为22000左右。等电聚焦电泳表明该种鱼GH由等电点分别为6.3和6.6的两种形式的分子组成。     

Leucine Supplementation Improves Acquired Growth Hormone Resistance in Rats with Protein-Energy Malnutrition

Background

Protein-energy malnutrition (PEM) can lead to growth hormone (GH) resistance. Leucine supplementation diets have been shown to increase protein synthesis in muscles. Our study aimed at investigating if long-term leucine supplementation could modulate GH-insulin-like growth factor (IGF)-1 system function and mammalian target of rapamycin (mTOR)-related signal transduction in skeletal muscles in a rat model of severe malnutrition.

Methodology/Principal Findings

Male Sprague-Dawley rats (n = 50; weight, 302 ± 5 g) were divided into 5 treatment groups, including 2 control groups (a normal control group that was fed chow and ad libitum water [CON, n = 10] and a malnourished control group [MC, n = 10] that was fed a 50% chow diet). After undergoing a weight loss stage for 4 weeks, rats received either the chow diet (MC-CON, n = 10), the chow diet supplemented with low-dose leucine (MC-L, n = 10), or the chow diet supplemented with high-dose leucine (MC-H, n = 10) for 2 weeks. The muscle masses of the gastrocnemius, soleus, and extensor digitorum longus were significantly reduced in the MC group. Re-feeding increased muscle mass, especially in the MC-L and MC-H groups. In the MC group, serum IGF-1, IGF-binding protein (IGFBP)-3, and hepatic growth hormone receptor (GHR) levels were significantly decreased and phosphorylation of the downstream anabolic signaling effectors protein kinase B (Akt), mTOR, and ribosomal protein S6 kinase 1 (S6K1) were significantly lower than in other groups. However, serum IGF-1 and IGF binding protein (IGFBP)-3 concentrations and hepatic growth hormone receptor (GHR) levels were significantly higher in the MC-L and MC-H groups than in the MC-CON group, and serum IGFBP-1 levels was significantly reduced in the MC-L and MC-H groups. These changes were consistent with those observed for hepatic mRNA expression levels. Phosphorylation of the downstream anabolic signaling effectors Akt, mTOR, and S6K1 were also significantly higher in the MC-L and MC-H groups than in the MC-CON group.

Conclusion/Significance

Our data are the first to demonstrate that long-term supplementation with leucine improved acquired growth hormone resistance in rats with protein-energy malnutrition. Leucine might promote skeletal muscle protein synthesis by regulating downstream anabolic signaling transduction.     

Expression of the Bovine Growth Hormone Alters the Root Morphology in Transgenic Tobacco Plants

The bovine growth hormone (bGH) is a natural peptide hormone that controls the differentiation, growth and metabolism, and is produced in the pituitary gland of cows. For the production of bGH from plants, two different bgh clones, of which the pGAbGH1 contaions only mature peptide sequences and the pGAbGH15 contains signal sequences and the first intron, as well as mature peptide sequences, were used. Those bghs under the control of the CaMV 35S promoter and NOS terminator were introduced to tobacco plants via Agrobacterium tumefaciens-mediated transformation. By PCR analyses using bgh and nptII specific primers, 17 and 21 putative transformants were respectively selected from pGAbGH1- and pGAbGH15-transformed tobacco plants. Northern blot analysis showed that the most of the transgenic lines expressed the bgh mRNA. Western blot analysis revealed that the pGAbGH1-transformed tobaccos produced recombinant bGH, but pGAbGH15-transformed ones did not produce the protein. Interestingly, some morphological changes were observed in the roots of transgenic tobacco plants. The transgenic tobacco plants had thick and short roots containing few root hairs in contrast to the non-transformed wild type plants.     

Predator Avoidance of Transgenic Channel Catfish Containing Salmonid Growth Hormone Genes

Transgenic channel catfish (Ictalurus punctatus) containing salmonid growth hormone genes can grow 33% faster than normal channel catfish under aquaculture conditions. However, before transgenic catfish are released and utilized by the private sector, their genetic impact on the natural environment must be examined. Predator avoidance is one of the major fitness traits determining potential environmental risk. To determine the predator avoidance ability and growth performance of transgenic catfish in a natural habitat, various densities of transgenic and nontransgenic channel catfish were communally stocked in 0.04-ha earthen ponds without supplemental feeding. Largemouth bass (Micropterus salmoides) and green sunfish (Lepomis cyanellus) were stocked as predators. Nontransgenic fry had better predator avoidance than transgenic channel catfish when data were pooled (p < .01). When data were not pooled, nontransgenic catfish had better predator avoidance in six trials and transgenic individuals had better predator avoidance in four trials. There was no difference in predator avoidance in three trials. Overall predator avoidance was also better for nontransgenic individuals (p < .01) when the fish were evaluated as 3.5-g fingerlings, more clearly than as fry, as transgenic individuals were more vulnerable in 3 of 4 trials at this life stage. There was no significant difference in growth performance between transgenic and nontransgenic channel catfish in ponds without supplemental feeding. These findings indicate that transgenic channel catfish could be used for commercial aquaculture without affecting the natural environment. Although transgenic channel catfish may be released to nature by accident, any ecological effect would be unlikely because the increased susceptibility of transgenic channel catfish to predators would most likely decrease or eliminate the transgenic genotype. Received March 8, 1999; accepted June 3, 1999.