Your search keyword '"Teleost fish"' showing total 134 results

1. Progress and perspective of trained immunity in teleost fish.

Author

You, Xinwei, Yang, Jin, Wang, Zhuang, Wang, Qiyao, Liu, Qin, Zhang, Yuanxing, Wiegertjes, Geert F., and Yang, Dahai

Subjects

IMMUNITY, IMMUNOLOGIC memory, NATURAL immunity, LONG-term memory, IMMUNOLOGICAL adjuvants, OSTEICHTHYES

Abstract

Trained immunity defines the long‐term memory of innate immunity based on innate immune signalling, metabolic changes and epigenetic rewiring of trained innate immune cells, which are characterised by elevated inflammatory responses towards secondary stimuli. The activation of this non‐specific protection‐mediated memory in innate immune cells was identified to benefit host defences as well as play a detrimental role in inflammatory diseases. In this review, we focused on summing up the current progress about the inducers, effector cells, molecular mechanisms and protective effects of trained immunity that have been identified in both mammals and teleost fish, and discussing the future research and application of trained immunity in aquaculture. Revealing the mechanisms of trained immunity will not only provide a novel aspect for understanding the evolution of innate immune memory and their longer‐term protections, but also contribute to the rational design and evaluation of immunopotentiators, adjuvants and potential vaccines in aquaculture. [ABSTRACT FROM AUTHOR]

Published

2024

2. Seasonal differences in thermal stress susceptibility of diploid and triploid brook trout, Salvelinus fontinalis (Teleostei, Pisces).

Subjects

*THERMAL stresses, *OSTEICHTHYES, *FISH farming, *BROOK trout, *FISH ecology, *ENERGY metabolism, *FISH meal

Abstract

Many physiological processes of teleost fish show periodicity due to intrinsic rhythms. It may be hypothesized that also susceptibility to thermal stress differs seasonally. To shed more light on this problem the following experiment was conducted. Diploid and triploid Salvelinus fontinalis were kept at an acclimation temperature of 9°C and at a natural photoperiod typical for the Northern Hemisphere during their entire live. During eight different periods of the year, different subgroups were exposed to a 32 day lasting thermal stress of 20°C. Rate of fish maintaining equilibrium, daily growth rate, condition factor, viscerosomatic index and hepato‐somatic index were measured. Complementary mRNA expression of genes characterizing growth (GHR1, GHR2), proteolysis (Protreg, Protα5), stress (Hsp47, Hsp90) and respiratory energy metabolism (ATPJ52) was determined. Seasonal differences in thermal stress susceptibility of 2n and 3n S. fontinalis were detected. It was highest from September to December and moderate from January to March. During the remaining period of the year, susceptibility to thermal stress was minimal. Increased thermal stress susceptibility was related to decreased rates of fish maintaining equilibrium, decreased growth rates, reduction of viscera and liver mass and changes in mRNA expression of genes characterizing proteolysis, growth, respiratory energy metabolism and stress. The differences in seasonal stress susceptibility were minor between 2n and 3n S. fontinalis. The data are valuable for ecology and fish culture to identify periods when animals are most susceptible to thermal stress. [ABSTRACT FROM AUTHOR]

Published

2022

3. Gill area explains deviations from body size–metabolic rate relationship in teleost fishes.

Author

Kuparinen, Anna, Gielewski, Darby, and Hutchings, Jeffrey A.

Subjects

*GILLS, *OSTEICHTHYES, *OXYGEN consumption, *BODY size

Abstract

Whether gill area constrains fish metabolism through oxygen limitation is a debated topic. Here, the authors provide insights into this question by analysing mass‐specific metabolic rates across 44 teleost fishes extracted from FishBase. They explore whether species deviations from metabolic rates predicted by body mass can be explained by species gill area. They show that the gill area explains c. 26%–28% of species‐level deviations from mass‐specific metabolic rates. Their findings suggest that gill area might indeed be one of the factors limiting metabolic rate in fishes. [ABSTRACT FROM AUTHOR]

Published

2022

4. The evolutionary puzzle solution for the origins of the partial loss of the Cτ2 exon in notothenioid fishes.

Author

Ametrano, Alessia, Gerdol, Marco, Vitale, Maria, Greco, Samuele, Oreste, Umberto, and Coscia, Maria Rosaria

Subjects

*PHYSIOLOGICAL adaptation, *PUZZLES, *MOLECULAR evolution, *PHYLOGENY, *OSTEICHTHYES

Abstract

Cryonotothenioidea is the main group of fishes that thrive in the extremely cold Antarctic environment, thanks to the acquisition of peculiar morphological, physiological and molecular adaptations. We have previously disclosed that IgM, the main immunoglobulin isotype in teleosts, display typical cold-adapted features. Recently, we have analyzed the gene encoding the heavy chain constant region (CH) of the IgT isotype from the Antarctic teleost Trematomus bernacchii (family Nototheniidae), characterized by the near-complete deletion of the CH2 domain. Here, we aimed to track the loss of the CH2 domain along notothenioid phylogeny and to identify its ancestral origins. To this end, we obtained the IgT gene sequences from several species belonging to the Antarctic families Nototheniidae, Bathydraconidae and Artedidraconidae. All species display a CH2 remnant of variable size, encoded by a short Cτ2 exon, which retains functional splicing sites and therefore is included in the mature transcript. We also considered representative species from the three non-Antarctic families: Eleginopsioidea (Eleginops maclovinus), Pseudaphritioidea (Pseudaphritis urvillii) and Bovichtidae (Bovichtus diacanthus and Cottoperca gobio). Even though only E. maclovinus , the sister taxa of Cryonotothenioidea, shared the partial loss of Cτ2 , the other non-Antarctic notothenioid species displayed early molecular signatures of this event. These results shed light on the evolutionary path that underlies the origins of this remarkable gene structural modification. [Display omitted] • All analyzed cryonotothenioid species have an IgT gene with a Cτ2 exonic remnant. • Conserved donor/acceptor splice sites allow the expression of the exonic remnant. • The exon loss event took place prior to the radiation of Cryonotothenioidea. • The exon loss is shared by the non-Antarctic sister lineage of Cryonotothenioidea. • The nearly total loss of the Cτ 2 exon occurred in a stepwise mode. [ABSTRACT FROM AUTHOR]

Published

2021

5. Duplication and diversification of insulin genes in ray-finned fish.

Author

Irwin, David M.

Subjects

INSULIN genetics, ACTINOPTERYGII, OSTEICHTHYES, CHROMOSOME duplication, PEPTIDE hormones

Abstract

Insulin is a key hormone for the regulation of metabolism in vertebrates. Insulin is produced by pancreatic islet cells in response to elevated glucose levels and leads to the uptake of glucose by tissues such as liver and adipose tissue to store energy. Insulin also has additional functions in regulating development. Previous work has shown that the proglucagon gene, which encodes hormones counter regulating insulin, is duplicated in teleost fish, and that the peptide hormones encoded by these genes have diversified in function. I sought to determine whether similar processes have occurred to insulin genes in these species. Searches of fish genomes revealed an unexpected diversity of insulin genes. A triplication of the insulin gene occurred at the origin of teleost fish, however one of these three genes, insc, has been lost in most teleost fish lineages. The two other insulin genes, insa and insb, have been retained but show differing levels of selective constraint suggesting that they might have diversified in function. Intriguingly, a duplicate copy of the insa gene, which I named insab, is found in many fish. The coding sequence encoded by insab genes is under weak selective constraint, with its predicted protein sequences losing their potential to be processed into a two-peptide hormone. However, these sequences have retained perfectly conserved cystine residues, suggesting that they maintain insulin's three-dimensional structure and therefore might modulate the processing and secretion of insulin produced by the other genes. [ABSTRACT FROM AUTHOR]

Published

2019

6. Role of teleost B cells in viral immunity.

Author

Díaz-Rosales, Patricia, Muñoz-Atienza, Estefanía, and Tafalla, Carolina

Subjects

*OSTEICHTHYES, *B cells, *IMMUNOGLOBULINS, *VIRUS diseases, *ANTIVIRAL agents

Abstract

Abstract Teleost fish possess all the necessary elements to mount an adaptive immune response. Despite this, the important physiological and structural differences between the mammalian and the teleost fish immune system, anticipate significant changes regarding how this response is coordinated and executed. B cells are key players in adaptive immune responses through the production of antibodies. However, recent studies performed in mammals and other species including fish point to many additional functions of B cells within both the adaptive and the innate immune system, in many occasions taking part in the crosstalk between these two arms of the immune response. Furthermore, it should be taken into account that fish B cells share many functional and phenotypical features with innate B cell populations from mammals, which will surely condition their response to antigens. Concerning viral infections, although most studies undertaken to date in fish have been focused on characterizing antibody production, some recent studies have demonstrated that fish B cells are able to interact with viruses at different levels. In this sense, in the current review, we have tried to provide an overview of what is currently known regarding the role of teleost B cells in antiviral immunity. Highlights • There are important differences regarding how B cell responses are coordinated and executed in fish compared to mammals. • Fish B cells share many functional and phenotypical features with innate B cell populations from mammals. • Fish B cells seem to directly interact with viruses. • Fish B cells play different roles in the response to viral infections. [ABSTRACT FROM AUTHOR]

Published

2019

7. Food deprivation reduces social interest in the European sea bass Dicentrarchus labrax.

Author

Claireaux, Guy, Aimon, Cassandre, Le Floch, Stéphane, and Le Bayon, Nicolas

Subjects

*STARVATION, *PREDATION, *OSTEICHTHYES, *BIOLOGICAL fitness, *FISH behavior, *FISHES

Abstract

Periods of food deprivation of several months are common events for fishes and in such conditions, fitness will be determined by their capacity to maximize food encounters while minimizing predation risk. In this context, the propensity to take risks and the willingness to associate with conspecifics are particularly important as they contribute to alleviating the trade-off between predation avoidance and foraging efficiency. This study examined to what extent food deprivation modulates fish risk-taking and social behaviours, as well as the relationship between them. To address these issues, juvenile European sea bass were either fed daily with a maintenance ration or food deprived for a period of 3 weeks. Risk taking and sociability were assessed through measurements of fish willingness to explore a novel environment, and to interact with a novel object or a conspecific. Multivariate analysis allowed the identification of three behaviours: risk taking, exploratory activity and solitariness. Food-deprived fish interacted less with conspecifics than control fish; however, no difference in terms of risk taking and exploratory patternswas observed. Finally, the relationship between risk taking and solitariness was influenced by feeding status. When food-deprived, fish with a higher propensity to take risk displayed increased solitariness, while when fed normally, they interacted more with conspecifics. [ABSTRACT FROM AUTHOR]

Published

2019

8. Type II Na+-phosphate Cotransporters and Phosphate Balance in Teleost Fish.

Author

Verri, Tiziano and Werner, Andreas

Subjects

*PHOSPHATES, *OSTEICHTHYES, *NON-coding RNA, *GENE expression, *HOMEOSTASIS

Abstract

Teleost fish are excellent models to study the phylogeny of the slc34 gene family, Slc34-mediated phosphate (Pi) transport and how Slc34 transporters contribute Pi homeostasis. Fish need to accumulate Pi from the diet to sustain growth. Much alike in mammals, intestinal uptake in fish is partly a paracellular and partly a Slc34-mediated transcellular process. Acute regulation of Pi balance is achieved in the kidney via a combination of Slc34-mediated secretion and/or reabsorption. A great plasticity is observed in how various species perform and combine the different processes of secretion and reabsorption. A reason for this diversity is found in one or two whole genome duplication events followed by potential gene loss; consequently, teleosts exhibit distinctly different repertoires of Slc34 transporters. Moreover, due to habitats with vastly different salinity, teleosts face the challenge of either preserving water in a hyperosmotic environment (seawater) or excreting water in hypoosmotic freshwater. An additional challenge in understanding teleost Pi homeostasis are the genome duplication and retention events that diversified peptide hormones such as parathyroid hormone and stanniocalcin. Dietary Pi and non-coding RNAs also regulate the expression of piscine Slc34 transporters. The adaptive responses of teleost Slc34 transporters to e.g. Pi diets and vitamin D are informative in the context of comparative physiology, but also relevant in applied physiology and aquaculture. In fact, Pi is essential for teleost fish growth but it also exerts significant adverse consequences if over-supplied. Thus, investigating Slc34 transporters helps tuning the physiology of commercially valuable teleost fish in a confined environment. [ABSTRACT FROM AUTHOR]

Published

2019

9. Advances in Intestinal Mucosal Immunoglobulins of Teleost Fish (Review).

Author

H., Xia, P., Yang, L., Liu, Y., Luo, Y., Sun, W., Wang, N., Chen, and J., Zhao

Subjects

*IMMUNOGLOBULINS, *OSTEICHTHYES, *VERTEBRATES, *PATHOGENIC microorganisms, *FISH immunology

Abstract

Immunoglobulins are globulins with antibody activity or antibody-like structures, and fish were the first vertebrates to develop immunoglobulins. There are three major types of immunoglobulins (IgM, IgD and IgZ) in teleost fish, which play an important role in resisting pathogen infection. For fish, the intestinal tract is not only the place for nutrient digestion but also the largest endocrine organ. The intestinal mucosal barrier system can block pathogenic microorganisms and toxins and is important for immunologic defense. Therefore, the study of the molecular mechanism of fish immunoglobulin in intestinal mucosa is of great significance to the selection of immune prevention strategies for fish diseases. At present, information on the immune system of intestinal mucosa in fish is scarce, and there are still many problems in the function of newly identified antibodies, which need further research. In this study, we have summarized current knowledge about the types, gene structure, biological function, and immune response of immunoglobulins in teleost fish, and intestinal mucosal immune tissue of fish. The scientific questions in this field were also presented according to the progress from the latest research in fish immunology. The aim of present study is to provide a theoretical basis for the study of fish immunology. [ABSTRACT FROM AUTHOR]

Published

2019

10. The aversive brain system of teleosts: Implications for neuroscience and biological psychiatry.

Author

Do Carmo Silva, Rhayra Xavier, Lima-Maximino, Monica Gomes, and Maximino, Caio

Subjects

*OSTEICHTHYES, *NEUROSCIENCES, *BIOLOGICAL psychiatry, *NEUROENDOCRINE system, *MESENCEPHALON

Abstract

Highlights • Evidence for brain systems specialized in defensive behavior in fish are reviewed. • Telencephalic and habenular circuits represent a "high road" for defensive behavior. • Hypothalamic circuits organize neuroendocrine and neurovegetative outputs. • The optic tectum mediate fast escape responses via projections to the central gray and/or the brainstem escape network. Abstract Defensive behavior is a function of specific survival circuits, the "aversive brain system", that are thought to be conserved across vertebrates, and involve threat detection and the organization of defensive responses to reduce or eliminate threat. In mammals, these circuits involve amygdalar and hypothalamic subnuclei and midbrain circuits. The increased interest in teleost fishes as model organisms in neuroscience created a demand to understand which brain circuits are involved in defensive behavior. Telencephalic and habenular circuits represent a "forebrain circuit" for threat processing and organization of responses, being important to mounting appropriate coping responses. Specific hypothalamic circuits organize neuroendocrine and neurovegetative outputs, but are the less well-studied in fish. A "midbrain circuit" is represented by projections to interneurons in the optic tectum which mediate fast escape responses via projections to the central gray and/or the brainstem escape network. Threatening stimuli (especially visual stimuli) can bypass the "high road" and directly activate this system, initiating escape responses. Increased attention to these circuits in an evolutionary framework is still needed. [ABSTRACT FROM AUTHOR]

Published

2018

11. Nucleotide‐binding and oligomerization domain (NOD)‐like receptors in teleost fish: Current knowledge and future perspectives.

Author

Zhang, Liang, Gao, Zhuying, Yu, Li, Zhang, Bo, Wang, Jing, and Zhou, Jun

Subjects

*OSTEICHTHYES, *NUCLEOTIDES, *NATURAL immunity, *VIRUS diseases, *BACTERIAL diseases in fishes

Abstract

Abstract: Nucleotide‐binding and oligomerization domain (NOD)‐like receptors (NLRs) are a group of intracellular pathogen recognition receptors (PRRs) that play key roles in pathogen recognition and subsequent activation of innate immune signalling pathways. Expressions of several NLR subfamily members, including NOD1, NOD2, NLR‐C3, NLR‐C5 and NLR‐X1 have been reported in many different teleost fish species. These receptors are activated by a variety of ligands, including lipopolysaccharides (LPS), peptidoglycans (PGN) and polyinosinic‐polycytidylic acid [Poly(I:C)]. Synthetic dsRNA and bacterial or viral infections are known to stimulate these receptors both in vitro and in vivo. In this review, we focus on the identification, expression and function of teleost NLRs in response to bacterial or viral pathogens. Additionally, NLR ligand specificity and signalling pathways involved in the recognition of bacterial or viral stimuli are also summarized. This review focuses on current knowledge in this area and provides future perspectives regarding topics in need of additional investigation. Understanding the response of innate immune system to bacterial or viral infections in diverse species could inform the development of more effective therapies and vaccines. [ABSTRACT FROM AUTHOR]

Published

2018

12. Functional, signalling and transcriptional differences of three distinct type I IFNs in a perciform fish, the mandarin fish Siniperca chuatsi.

Author

Laghari, Zubair Ahmed, Chen, Shan Nan, Li, Li, Huang, Bei, Gan, Zhen, Zhou, Ying, Huo, Hui Jun, Hou, Jing, and Nie, Pin

Subjects

*INTERFERONS, *OSTEICHTHYES, *GENETIC transcription, *CYTOKINE receptors, *PERCIFORMES

Abstract

Teleost fish are unique in having type I and type II interferons (IFNs) only, and the type I IFNs are classified into Group one and Group two based on the presence of two or four cysteines respectively, and are further classified into seven subgroups. In the present study, three distinct type I IFNs, IFNc, IFNd and IFNh, have been identified in the genome sequences of a perciform fish, the mandarin fish Siniperca chuatsi . These IFNs are induced following the stimulation of Polyinosinic polycytidylic acid (poly(I:C)) and Resiquimod (R848) either in vivo or in vitro . But, the infectious spleen and kidney necrosis virus (ISKNV) infection caused a delayed response of IFNs, which may be resulted from the viral inhibition of type I IFN production and related signalling. The three receptor subunits, cytokine receptor family B 1 (CRFB1), CRFB2 and CRFB5 are also expressed in a similar manner as observed for the IFNs, and IFNc, IFNd and IFNh use preferentially the receptor complex, CRFB2 and CRFB5, CRFB1 and CRFB5, CRFB1 and CRFB5 respectively for their effective signalling in the induction of IFN-stimulated genes (ISGs). Moreover, the IFNs are able to induce their own expression, and also the IRF3 and IRF7 expression, leading to the amplification of IFN cascade. It is further revealed that these three IFNs are transcribed differently by IRF7 and IRF3. The composition, function, signalling and transcription of type I IFNs have been investigated in detail in a teleost fish. [ABSTRACT FROM AUTHOR]

Published

2018

13. Selective Regulation of Cytoskeletal Dynamics and Filopodia Formation by Teleost Leukocyte Immune-Type Receptors Differentially Contributes to Target Capture During the Phagocytic Process.

Author

Lillico, Dustin M. E., Pemberton, Joshua G., and Stafford, James L.

Subjects

FILOPODIA, OSTEICHTHYES, PHAGOCYTES

Abstract

Phagocytosis evolved from a fundamental nutrient acquisition mechanism in primitive unicellular amoeboids, into a dynamic and complex component of innate immunity in multicellular organisms. To better understand the cellular mechanisms contributing to phagocytic processes across vertebrates, our research has focused on characterizing the involvement of innate immune proteins originally identified in channel catfish (Ictalurus punctatus) called leukocyte immune-type receptors (IpLITRs). These unique teleost proteins share basic structural as well as distant phylogenetic relationships with several immunoregulatory proteins within the mammalian immunoglobulin superfamily. In the present study, we use a combination of live-cell confocal imaging and high-resolution scanning electron microscopy to further examine the classical immunoreceptor tyrosine-based activation motif (ITAM)-dependent phagocytic pathway mediated by the chimeric construct IpLITR 2.6b/IpFcRγ-L and the functionally diverse immunoreceptor tyrosine-based inhibitory motif-containing receptor IpLITR 1.1b. Results demonstrate that IpLITR 1.1b-expressing cells can uniquely generate actin-dense filopodia-like protrusions during the early stages of extracellular target interactions. In addition, we observed that these structures retract after contacting extracellular targets to secure captured microspheres on the cell surface. This activity was often followed by the generation of robust secondary waves of actin polymerization leading to the formation of stabilized phagocytic cups. At depressed temperatures of 27°C, IpLITR 2.6b/IpFcRγ-L-mediated phagocytosis was completely blocked, whereas IpLITR 1.1b-expressing cells continued to generate dynamic actin-dense filopodia at this lower temperature. Overall, these results provide new support for the hypothesis that IpLITR 1.1b, but not IpLITR 2.6b/IpFcRγ-L, directly triggers filopodia formation when expressed in representative myeloid cells. This also offers new information regarding the directed ability of immunoregulatory receptor-types to initiate dynamic membrane structures and provides insights into an alternative ITAM-independent target capture pathway that is functionally distinct from the classical phagocytic pathways. [ABSTRACT FROM AUTHOR]

Published

2018

14. Digestive and locomotor capacity show opposing responses to changing food availability in an ambush predatory fish.

Author

Shi-Jian Fu, Jing Peng, and Killen, Shaun S.

Subjects

*OSTEICHTHYES, *CATFISHES, *ANIMAL locomotion, *LOCOMOTOR control, *FISH metabolism, *PREDATION, FISH digestive organs

Abstract

Metabolic rates vary widely within species, but little is known about how variation in the 'floor' [i.e. standard metabolic rate (SMR) in ectotherms] and 'ceiling' [maximum metabolic rate (MMR)] for an individual's aerobic scope (AS) are linked with digestive and locomotor function. Any links among metabolic traits and aspects of physiological performance may also be modulated by fluctuations in food availability. This study followed changes in SMR, MMR, and digestive and locomotor capacity in southern catfish (Silurus meridionalis) throughout 15 days of food deprivation and 15 days of refeeding. Individuals downregulated SMR during food deprivation and showed only a 10% body mass decrease during this time. Whereas critical swim speed (Ucrit) was robust to food deprivation, digestive function decreased after fasting with a reduced peak oxygen uptake during specific dynamic action (SDA) and prolonged SDA duration. During refeeding, individuals displayed rapid growth and digestive function recovered to pre-fasting levels. However, refed fish showed a lower Ucrit than would be expected for their increased body length and in comparison to measures at the start of the study. Reduced swimming ability may be a consequence of compensatory growth: growth rate was negatively correlated with changes in Ucrit during refeeding. Southern catfish downregulate digestive function to reduce energy expenditure during food deprivation, but regain digestive capacity during refeeding, potentially at the cost of decreased swimming performance. The plasticity of maintenance requirements suggests that SMR is a key fitness trait for in this ambush predator. Shifts in trait correlations with food availability suggest that the potential for correlated selection may depend on context. [ABSTRACT FROM AUTHOR]

Published

2018

15. Insulin-Like Growth Factor-Binding Proteins of Teleost Fishes.

Author

Garcia de la Serrana, Daniel and Macqueen, Daniel J.

Subjects

SOMATOMEDIN, OSTEICHTHYES, CARRIER proteins

Abstract

The insulin-like growth factor (Igf) binding protein (Igfbp) family has a broad range of physiological functions and a fascinating evolutionary history. This review focuses on the Igfbps of teleost fishes, where genome duplication events have diversified gene repertoire, function, and physiological regulation--with six core Igfbps expanded into a family of over twenty genes in some lineages. In addition to briefly summarizing the current state of knowledge on teleost Igfbp evolution, function, and expression-level regulation, we highlight gaps in our understanding and promising areas for future work. [ABSTRACT FROM AUTHOR]

Published

2018

16. Inducible MicroRNA-3570 Feedback Inhibits the RIG-I- Dependent Innate Immune Response to Rhabdovirus in Teleost Fish by Targeting MAVS/IPS-1.

Author

Tianjun Xu, Qing Chu, Junxia Cui, and Dekun Bi

Subjects

*MICRORNA, *IMMUNE response, *RHABDOVIRUSES, *OSTEICHTHYES, *GENE expression

Abstract

Effectively recognizing invading viruses and subsequently inducing innate antiviral immunity are essential for host antiviral defense. Although these processes are closely regulated by the host to maintain immune balance, viruses have evolved the ability to downregulate or upregulate these processes for their survival. MicroRNAs (miRNAs) are a family of small noncoding RNAs that play vital roles in modulating host immune response. Accumulating evidence demonstrates that host miRNAs as mediators are involved in regulating viral replication and host antiviral immunity in mammals. However, the underlying regulatory mechanisms in fish species are still poorly understood. Here, we found that rhabdovirus infection significantly upregulated host miR-3570 expression in miiuy croaker macrophages. Induced miR-3570 negatively modulated RNA virus-triggered type I interferon (IFN) and antiviral gene production, thus facilitating viral replication. Furthermore, miR-3570 was found to target and posttranscriptionally downregulate mitochondrial antiviral signaling protein (MAVS), which functions as a platform for innate antiviral signal transduction. Moreover, we demonstrated that miR-3570 suppressed the expression of MAVS, thereby inhibiting MAVS-mediated NF-κB and IRF3 signaling. The collective results demonstrated a novel regulation mechanism of MAVS-mediated immunity during RNA viral infection by miRNA. IMPORTANCE RNA viral infection could upregulate host miR-3570 expression in miiuy croaker macrophages. Induced miR-3570 negatively modulates RNA virus-triggered type I IFN and antiviral gene production, thus facilitating viral replication. Remarkably, miR-3570 could target and inhibit MAVS expression, which thus modulates MAVS-mediated NF-κB and IRF3 signaling. The collective results of this study suggest a novel regulation mechanism of MAVS-mediated immunity during RNA viral infection by miR-3570. Thus, a novel mechanism for virus evasion in fish is proposed. [ABSTRACT FROM AUTHOR]

Published

2018

17. Interleukin 4/13 receptors: An overview of genes, expression and functional role in teleost fish.

Author

Sequeida, A., Maisey, K., and Imarai, M.

Subjects

*INTERLEUKIN receptors, *GENE expression, *OSTEICHTHYES, *CELL receptors, *IMMUNE response, *RECEPTOR-ligand complexes

Abstract

In superior vertebrates, Interleukin 4 (IL-4) and Interleukin 13 (IL-13) play key and diverse roles to support immune responses acting on cell surface receptors. When stimulated, receptors activate intracellular signalling cascades switching cell phenotypes according to stimuli. In teleost fish, Interleukin 4/13 (IL-4/13) is the ancestral family cytokine related to both IL-4 and IL-13. Every private and common receptor subunit for IL-4/13 have in fish at least two paralogues and, as in mammals, soluble forms are also part of the receptor system. Reports for findings of fish IL-4/13 receptors have covered comparative analysis, transcriptomic profiles and to a lesser extent, functional analysis regarding ligand-receptor interactions and their biological effects. This review addresses available information from fish IL-4/13 receptors and discusses overall implications on teleost immunity, summarized gene induction strategies and pathogen-induced gene modulation, which may be useful tools to enhance immune response. Additionally, we present novel coding sequences for Atlantic salmon ( Salmo salar ) common gamma chain receptor (γC), Interleukin 13 receptor alpha 1A chain (IL-13Rα1A) and Interleukin 13 receptor alpha 1B chain (IL-13Rα1B). [ABSTRACT FROM AUTHOR]

Published

2017

18. The nonlinear flexural response of a whole teleost fish: Contribution of scales and skin.

Author

Szewciw, Lawrence, Zhu, Deju, and Barthelat, Francois

Subjects

OSTEICHTHYES, FLEXURAL strength, SCALES (Fishes), STIFFNESS (Mechanics), BENDING moment

Abstract

The scaled skin of fish is an intricate system that provides mechanical protection against hard and sharp puncture, while maintaining the high flexural compliance required for unhindered locomotion. This unusual combination of local hardness and global compliance makes fish skin an interesting model for bioinspired protective systems. In this work we investigate the flexural response of whole teleost fish, and how scales may affect global flexural stiffness. A bending moment is imposed on the entire body of a striped bass ( Morone saxatilis ). Imaging is used to measure local curvature, to generate moment-curvature curves as function of position along the entire axis of the fish. We find that the flexural stiffness is the highest in the thick middle portion of the fish, and lowest in the caudal and rostral ends. The flexural response is nonlinear, with an initial soft response followed by significant stiffening at larger flexural deformations. Low flexural stiffness at low curvatures promotes efficient swimming, while higher stiffness at high curvatures enables a possible tendon effect, where the mechanical energy at the end of a stroke is stored in the form of strain energy in the fish skin. To assess the contribution of the scales to stiffening we performed flexural tests with and without scales, following a careful protocol to take in account tissue degradation and the effects of temperature. Our findings suggest that scales do not substantially increase the whole body flexural stiffness of teleost fish over ranges of deformations which are typical of swimming and maneuvering. Teleost scales are thin and relatively flexible, so they can accommodate large flexural deformations. This finding is in contrast to the bulkier ganoid scales which were shown in previous reports to have a profound impact of global flexural deformations and swimming in fish like gar or Polypterus . [ABSTRACT FROM AUTHOR]

Published

2017

19. miRNAs associated with immune response in teleost fish.

Author

Andreassen, Rune and Høyheim, Bjørn

Subjects

*OSTEICHTHYES, *MICRORNA genetics, *IMMUNE response, *GENE expression in fishes, *FISH immunology, *FISH genetics

Abstract

MicroRNAs (miRNAs) have been identified as important post transcriptional regulators of gene expression. In higher vertebrates, a subset of miRNAs has been identified as important regulators of a number of key genes in immune system gene networks, and this paper review recent studies on miRNAs associated with immune response in teleost fish. Challenge studies conducted in several species have identified differently expressed miRNAs associated with viral or bacterial infection. The results from these studies point out several miRNAs that are likely to have evolutionary conserved functions that are related to immune response in teleost fish. Changed expression levels of mature miRNAs from the five miRNA genes miRNA-462, miRNA-731, miRNA-146, miRNA-181 and miRNA-223 are observed following viral as well as bacterial infection in several teleost fish. Furthermore, significant changes in expression of mature miRNAs from the five genes miRNA-21, miRNA-155, miRNA-1388, miRNA-99 and miRNA-100 are observed in multiple studies of virus infected fish while changes in expression of mature miRNA from the three genes miRNA-122, miRNA-192 and miRNA-451 are observed in several studies of fish with bacterial infections. Interestingly, some of these genes are not present in higher vertebrates. The function of the evolutionary conserved miRNAs responding to infection depends on the target gene(s) they regulate. A few target genes have been identified while a large number of target genes have been predicted by in silico analysis. The results suggest that many of the targets are genes from the host's immune response gene networks. We propose a model with expected temporal changes in miRNA expression if they target immune response activators/effector genes or immune response inhibitors, respectively. The best way to understand the function of a miRNA is to identify its target gene(s), but as the amount of genome resources for teleost fish is limited, with less well characterized genomes and transcriptomes, identifying the true target genes of the miRNAs associated with the immune response is a challenge. Identifying such target genes by applying new methods and approaches will likely be the next important step to understand the function of the miRNAs associated with immune response in teleost fish. [ABSTRACT FROM AUTHOR]

Published

2017

20. Dynamics of Goldfish Subregional Hippocampal Pallium Activity throughout Spatial Memory Formation.

Author

Ocaña, Francisco M., Uceda, Sara, arias, Jorge L., Salas, Cosme, and Rodríguez, Fernando

Subjects

*OSTEICHTHYES, *GOLDFISH, *SPATIAL memory, *HIPPOCAMPUS (Brain), *HISTOCHEMISTRY

Abstract

The teleost fish hippocampal pallium, like the hippocampus of tetrapods, is essential for relational map-like spatial memories. In mammals, these relational memories involve the dynamic interactions among different hippocampal subregions and between the hippocampus-neocortex network, which performs specialized operations such as memory encoding and retrieval. However, how the teleost hippocampal homologue operates to achieve comparably sophisticated spatial cognition capabilities is largely unknown. In the present study, the progressive changes in the metabolic activity of the pallial regions that have been proposed as possible homologues of the mammalian hippocampus were monitored in goldfish. Quantitative cytochrome oxidase histochemistry was used to measure the level of activation along the rostrocaudal axis of the ventral (Dlv) and dorsal parts of the dorsolateral division (Dld) and in the dorsoposterior division (Dp) of the goldfish telencephalic pallium throughout the time course of the learning process of a spatial memory task. The results revealed a significant increase in spatial memory-related metabolic activity in the Dlv, but not in the Dld, suggesting that the Dlv, but not the Dld, is comparable to the amniote hippocampus. Regarding the Dlv, the level of activation of the precommissural Dlv significantly increased at training onset but progressively declined to finally return to the basal pretraining level when the animals mastered the spatial task. In contrast, the commissural Dlv activation persisted even when the acquisition phase was completed and the animal's performance reached an asymptotic level. These results suggest that, like the dentate gyrus of mammals, the goldfish precommissural Dlv seems to respond nonlinearly to increments of change in sensory input, performing pattern separation under highly dissimilar input patterns. In addition, like the CA3 of mammals, the commissural Dlv likely operates in a continuum between two modes, a pattern separation or storage operation mode at early acquisition when the change in the sensory input is high, probably driven by the precommissural Dlv output, and a pattern completion or recall operation mode when the animals have mastered the task and the change in sensory input is small. Finally, an unexpected result of the present study is the persistent activation of the area Dp throughout the complete spatial task training period, which suggests that the Dp could be an important component of the pallial network involved in spatial memory in goldfish, and supports the hypothesis proposing that the Dp is a specialized part of the hippocampal pallium network. [ABSTRACT FROM AUTHOR]

Published

2017

21. Transcriptome profiling of antiviral immune and dietary fatty acid dependent responses of Atlantic salmon macrophage-like cells.

Author

Eslamloo, Khalil, Xi Xue, Hall, Jennifer R., Smith, Nicole C., Caballero-Solares, Albert, Parrish, Christopher C., Taylor, Richard G., and Rise, Matthew L.

Subjects

*DNA microarrays, *NUTRITIONAL genomics, *OSTEICHTHYES, *OMEGA-3 fatty acids, *OMEGA-6 fatty acids, *FATTY acid-binding proteins, *ATLANTIC salmon

Abstract

Background: Due to the limited availability and high cost of fish oil in the face of increasing aquaculture production, there is a need to reduce usage of fish oil in aquafeeds without compromising farm fish health. Therefore, the present study was conducted to determine if different levels of vegetable and fish oils can alter antiviral responses of salmon macrophage-like cells (MLCs). Atlantic salmon (Salmo salar) were fed diets containing 7.4% (FO7) or 5.1% (FO5) fish oil. These diets were designed to be relatively low in EPA + DHA (i.e. FO7: 1.41% and FO5: 1%), but near the requirement level, and resulting in comparable growth. Vegetable oil (i.e. rapeseed oil) was used to balance fish oil in experimental diets. After a 16-week feeding trial, MLCs isolated from fish in these dietary groups were stimulated by a viral mimic (dsRNA: pIC) for 6 h (qPCR assay) and 24 h (microarray and qPCR assays). Results: The fatty acid composition of head kidney leukocytes varied between the two dietary groups (e.g. higher 20: 5n-3 in the FO7 group). Following microarray assays using a 44K salmonid platform, Rank Products (RP) analysis showed 14 and 54 differentially expressed probes (DEP) (PFP < 0.05) between the two diets in control and pIC groups (FO5 vs. FO7), respectively. Nonetheless, Significance Analysis of Microarrays (SAM, FDR < 0.05) identified only one DEP between pIC groups of the two diets. Moreover, we identified a large number (i.e. 890 DEP in FO7 and 1128 DEP in FO5 overlapping between SAM and RP) of pIC-responsive transcripts, and several of them were involved in TLR-/RLR-dependent and cytokine-mediated pathways. The microarray results were validated as significantly differentially expressed by qPCR assays for 2 out of 9 diet-responsive transcripts and for all of the 35 selected pIC- responsive transcripts. Conclusion: Fatty acid-binding protein adipocyte (fabp4)and proteasome subunit beta type-8 (psmb8)were significantly up- and down-regulated, respectively, in the MLCs of fish fed the diet with a lower level of fish oil, suggesting that they are important diet-responsive, immune-related biomarkers for future studies. Although the different levels of dietary fish and vegetable oils involved in this study affected the expression of some transcripts, the immune-related pathways and functions activated by the antiviral response of salmon MLCs in both groups were comparable overall. Moreover, the qPCR revealed transcripts responding early to pIC (e.g. lgp2, map3k8, socs1, dusp5 and cflar) and time-responsive transcripts (e.g. scarb1-a, csf1r, traf5a, cd80 and ctsf)insalmonMLCs.Thepresent study provides a comprehensive picture of the putative molecular pathways (e.g. RLR-, TLR-, MAPK- and IFN-associated pathways) activated by the antiviral response of salmon MLCs. [ABSTRACT FROM AUTHOR]

Published

2017

22. Mechanical properties of striped bass fish skin: Evidence of an exotendon function of the stratum compactum.

Author

Szewciw, Lawrence and Barthelat, Francois

Subjects

OSTEICHTHYES, FISH skin, LOCOMOTION, STRIPED bass, TENSILE strength

Abstract

Teleost fish skin is a multifunctional natural material with high penetration resistance owing to specialized puncture mechanisms of both the individual scale and the intact scaled integument. In this paper, we explore the possible additional role of the skin in fish undulatory locomotion by examining the structural and mechanical properties of the dermal stratum (s.) compactum layer of striped bass ( Morone saxatilis ) skin. The structure, mechanical response and function of s. compactum was investigated by combining several methods: optical microscopy and histology, tensile tests on descaled skin specimens in different anatomical locations and orientations, puncture tests, and flexural tests on whole fish with disruption of the s. compactum. Local histological features of the s. compactum, such as collagen fiber angle and degree of crimping, were shown to explain corresponding patterns determined for the tensile properties of the skin along the long axis of the fish, including changes in stiffness, strength and locking strain at stiffening. The fish bending tests demonstrated a tendon-like response of the whole fish and a significant contribution of the s. compactum to the flexural stiffness of the fish. Collectively, the findings show that the s. compactum is a strong tissue with a tendon-like nonlinear response, and which provides an appreciable mechanical protection against sharp puncture and lacerations. Our results also support the theory of an exotendon function of the s. compactum in teleost fish skin. These findings may inspire the design of new multifunctional protective and locomotory systems for a variety of engineering applications. [ABSTRACT FROM AUTHOR]

Published

2017

23. 20 Years of fish immunotoxicology – what we know and where we are.

Author

Rehberger, Kristina, Werner, Inge, Hitzfeld, Bettina, Segner, Helmut, and Baumann, Lisa

Subjects

*IMMUNOTOXICOLOGY, *IMMUNE response, *IMMUNOSUPPRESSIVE agents, *ENVIRONMENTAL toxicology, *OSTEICHTHYES

Abstract

Despite frequent field observations of impaired immune response and increased disease incidence in contaminant-exposed wildlife populations, immunotoxic effects are rarely considered in ecotoxicological risk assessment. The aim of this study was to review the literature on immunotoxic effects of chemicals in fish to quantitatively evaluate (i) which experimental approaches were used to assess immunotoxic effects, (ii) whether immune markers exist to screen for potential immunotoxic activities of chemicals, and (iii) how predictive those parameters are for adverse alterations of fish immunocompetence and disease resistance. A total of 241 publications on fish immunotoxicity were quantitatively analyzed. The main conclusions included: (i) To date, fish immunotoxicology focused mainly on innate immune responses and immunosuppressive effects. (ii) In numerous studies, the experimental conditions are poorly documented, as for instance age or sex of the fish or the rationale for the selected exposure conditions is often missing. (iii) Although a broad variety of parameters were used to assess immunotoxicity, the rationale for the choice of measured parameters was often not given, remaining unclear how they link to the suspected immunotoxic mode of action of the chemicals. (iv) At the current state of knowledge, it is impossible to identify a set of immune parameters that could reliably screen for immunotoxic potentials of chemicals. (v) Similarly, in fish immunotoxicology there is insufficient understanding of how and when chemical-induced modulations of molecular/cellular immune changes relate to adverse alterations of fish immunocompetence, although this would be crucial to include immunotoxicity in ecotoxicological risk assessment. [ABSTRACT FROM PUBLISHER]

Published

2017

24. Toxicological perspective on the osmoregulation and ionoregulation physiology of major ions by freshwater animals: Teleost fish, crustacea, aquatic insects, and Mollusca.

Author

Griffith, Michael B.

Subjects

*OSTEICHTHYES, *CRUSTACEAN physiology, *MOLLUSK physiology, *OSMOREGULATION, *AQUATIC insects, *PHYSIOLOGY

Abstract

Anthropogenic sources increase freshwater salinity and produce differences in constituent ions compared with natural waters. Moreover, ions differ in physiological roles and concentrations in intracellular and extracellular fluids. Four freshwater taxa groups are compared, to investigate similarities and differences in ion transport processes and what ion transport mechanisms suggest about the toxicity of these or other ions in freshwater. Although differences exist, many ion transporters are functionally similar and may belong to evolutionarily conserved protein families. For example, the Na+/H+-exchanger in teleost fish differs from the H+/2Na+ (or Ca2+)-exchanger in crustaceans. In osmoregulation, Na+ and Cl− predominate. Stenohaline freshwater animals hyperregulate until they are no longer able to maintain hypertonic extracellular Na+ and Cl− concentrations with increasing salinity and become isotonic. Toxic effects of K+ are related to ionoregulation and volume regulation. The ionic balance between intracellular and extracellular fluids is maintained by Na+/K+-adenosine triphosphatase (ATPase), but details are lacking on apical K+ transporters. Elevated H+ affects the maintenance of internal Na+ by Na+/H+ exchange; elevated HCO3− inhibits Cl− uptake. The uptake of Mg2+ occurs by the gills or intestine, but details are lacking on Mg2+ transporters. In unionid gills, SO42− is actively transported, but most epithelia are generally impermeant to SO42−. Transporters of Ca2+ maintain homeostasis of dissolved Ca2+. More integration of physiology with toxicology is needed to fully understand freshwater ion effects. Environ Toxicol Chem 2017;36:576-600. Published 2016 Wiley Periodicals Inc. on behalf of SETAC. This article is a US government work and, as such, is in the public domain in the United States of America. [ABSTRACT FROM AUTHOR]

Published

2017

25. B cells and their role in the teleost gut.

Author

Parra, David, Korytář, Tomáš, Takizawa, Fumio, and Sunyer, J. Oriol

Subjects

*OSTEICHTHYES, *FISH immunology, *GUT microbiome, *B cells, *IMMUNOGLOBULINS

Abstract

Mucosal surfaces are the main route of entry for pathogens in all living organisms. In the case of teleost fish, mucosal surfaces cover the vast majority of the animal. As these surfaces are in constant contact with the environment, fish are perpetually exposed to a vast number of pathogens. Despite the potential prevalence and variety of pathogens, mucosal surfaces are primarily populated by commensal non-pathogenic bacteria. Indeed, a fine balance between these two populations of microorganisms is crucial for animal survival. This equilibrium, controlled by the mucosal immune system, maintains homeostasis at mucosal tissues. Teleost fish possess a diffuse mucosa-associated immune system in the intestine, with B cells being one of the main responders. Immunoglobulins produced by these lymphocytes are a critical line of defense against pathogens and also prevent the entrance of commensal bacteria into the epithelium. In this review we will summarize recent literature regarding the role of B-lymphocytes and immunoglobulins in gut immunity in teleost fish, with specific focus on immunoglobulin isotypes and the microorganisms, pathogenic and non-pathogenic that interact with the immune system. [ABSTRACT FROM AUTHOR]

Published

2016

26. Toxic hydrogen sulphide shapes brain anatomy: a comparative study of sulphide-adapted ecotypes in the Poecilia mexicana complex.

Author

Schulz‐Mirbach, T., Eifert, C., Riesch, R., Farnworth, M. S., Zimmer, C., Bierbach, D., Klaus, S., Tobler, M., Streit, B., Indy, J. R., Arias‐Rodriguez, L., and Plath, M.

Subjects

*OSTEICHTHYES, *BRAIN, *RADIOGRAPHY, *POECILIA, *HYDROGEN sulfide, *BRAIN anatomy

Abstract

The teleost brain is an energetically costly organ, which raises the question of how brain anatomy is shaped by divergent ecological factors in contrasting (extreme/resource-limited vs. benign) environments. A previous study compared different ecotypes of the teleost Poecilia mexicana in the Tacotalpa drainage system and found that cave fish had a smaller eye diameter, a smaller optic tectum and larger telencephalic lobes relative to ancestral surface-dwelling fish. Smaller eyes and a smaller optic tectum but larger telencephalic lobes were also found in fish from a sulphidic surface habitat near one of the caves, which the authors hypothesized to result from limited vision in turbid sulphide waters. In this study, we tested if repeated transitions along a replicated, natural toxicity gradient result in repeated ('convergent') anatomical changes of the teleost brain. We compared ecotypes in the P. mexicana species complex that have independently evolved increased tolerance to hydrogen sulphide (H2S) in three river drainages in southern Mexico, including a phylogenetically old H2S-adapted form ( P. sulphuraria) and two P. mexicana ecotypes that represent earlier stages of adaptation to H2S. All H2S-adapted ecotypes exhibited smaller eyes, a smaller optic tectum volume and a smaller brain volume, but larger corpora cerebelli and hypothalamic volume than fish from non-sulphidic habitats. Drainage-specific effects were found for the telencephalic lobes, the total brain and eye size, as sexes responded differently to the presence of H2S depending on the drainage of origin. Turbidity and toxicity in sulphidic habitats may explain patterns of brain size divergence similar in direction (but not degree) to those observed in cave ecotypes. Hence, variation in brain anatomy reflects major ecological differences, and repeated ecological gradients can result in convergent differences in brain anatomy. Nonetheless, some unique patterns of brain differentiation suggest as yet unidentified differences in selection regimes between different sulphidic springs. [ABSTRACT FROM AUTHOR]

Published

2016

27. Lipolytic enzymes involving lipolysis in Teleost: Synteny, structure, tissue distribution, and expression in grass carp (Ctenopharyngodon idella).

Author

Sun, Jian, Ji, Hong, Li, Xue-Xian, Shi, Xiao-Chen, Du, Zhen-Yu, and Chen, Li-Qiao

Subjects

*CTENOPHARYNGODON idella, *LIPOLYTIC enzymes, *LIPOLYSIS, *OSTEICHTHYES, *TRIGLYCERIDES, *CHROMOSOME duplication

Abstract

Lipolysis is the biochemical pathway responsible for the sequential hydrolysis of triacylglycerols (TAGs) stored in cellular lipid droplets. Three enzymes are known to participate in TAGs hydrolysis, including adipose triglyceride lipase (ATGL), hormone-sensitive lipase (HSL), and monoglyceride lipase (MGL), and each is present in mammals as only one isoform. Here we show that the genome of grass carp ( Ctenopharyngodon idella ) and other teleosts codes for one ATGL, two HSLs, and one MGL isoforms. Two isoforms of HSL gene, HSLa and HSLb, derived from paralogous genes that could be originated from teleost-specific genome duplication (TSGD) event. The genes encoding for fish ATGL and MGL were conserved and contained nine and seven coding exons, respectively. However, two isoforms of HSL gene had a remarkable variation in gene structure, such as HSLa gene contained ten and HSLb contained thirteen exons. All three enzymes, including two isoforms of HSL, were expressed in a wide range of tissues, but the abundance of each gene mRNA showed the tissue-dependent expression patterns. During fasting, only ATGL and HSLa showed a significant increase in adipose tissue and adipocyte, indicating that ATGL and HSLa may be the main rate-limiting enzymes controlling the hydrolysis of TAGs in fasting-induced lipolysis. Different expression of HSLa and HSLb suggests that they might serve different roles in fasting-induced lipolysis. These results provide evidence about the conservation and divergence of genes of fish lipolytic enzymes. [ABSTRACT FROM AUTHOR]

Published

2016

28. Forebrain atlas of Japanese jack mackerel Trachurus japonicus.

Author

Ou, Ratanak and Yamamoto, Naoyuki

Subjects

*PROSENCEPHALON, *TRACHURUS japonicus, *BRAIN physiology, *CARANGIDAE, *OSTEICHTHYES

Abstract

We have prepared a forebrain atlas of the Japanese jack mackerel, Trachurus japonicus (Perciformes: Carangidae) to provide basic knowledge on the brain that regulates various physiological conditions and behavior. The Japanese jack mackerel was selected as a model species of Carangidae, since the brain of this species is relatively small for a member of this family and is thus suitable for the production of a brain atlas. The external morphology of the brain is described, and a complete series of transverse sections was prepared and stained by cresyl violet. As observed externally, the optic tectum and cerebellar crest appear to be somewhat hypertrophied in comparison with other brain parts, suggesting the importance of visual and lateral line information for this species. The cerebellar corpus is also relatively large, protruding rostrally on top of the optic tectum. This may be related to the requirement of precise motor control for shoaling behavior. A number of sections were selected, so that all the forebrain nuclei are demonstrated in a series of figures. Brief anatomical descriptions for each structure were also given in the text. As observed in the sections, a major finding in the present study of the Japanese jack mackerel is the presence of as many as seven regions within the lateral part of the dorsal telencephalic area. The lateral part of the dorsal telencephalic area is a presumed visual center, and this feature is also in line with the importance of vision for the Japanese jack mackerel. [ABSTRACT FROM AUTHOR]

Published

2016

29. Absence of gliosis in a teleost model of spinal cord regeneration.

Author

Vitalo, Antonia, Sîrbulescu, Ruxandra, Ilieş, Iulian, and Zupanc, Günther

Subjects

*GLIOSIS, *OSTEICHTHYES, *SPINAL cord injuries, *SPINAL cord regeneration, *STEM cells, *BIOMARKERS

Abstract

Among the cellular processes that follow injury to the central nervous system, glial scar formation is thought to be one of the major factors that prevent regeneration. In regeneration-competent organisms, glial scar formation has been a matter of controversy. We addressed this issue by examining the glial population after spinal cord injury in a model of regeneration competency, the knifefish Apteronotus leptorhynchus. Analysis of spinal cord sections immunostained against the glial markers glial fibrillary acidic protein, vimentin, or chondroitin sulfate proteoglycan failed to produce any evidence for the formation of a glial scar in the area of the lesion at post-injury survival times ranging from 5 to 185 days. This result was independent of the lesion paradigm applied-amputation of the caudal part of the spinal cord or hemisection lesioning-and similar after examination of transverse and longitudinal sections. We hypothesize that the well-developed network of radial glia in both the intact and the injured spinal cord provides a support system for regeneration of tissue lost to injury. This glial network is likely also involved in the generation of new cells, as indicated by the large subset of glial fibrillary acidic protein-labeled glia that express the stem cell marker Sox2. [ABSTRACT FROM AUTHOR]

Published

2016

30. Ecological Influences and Morphological Correlates of Resting and Maximal Metabolic Rates across Teleost Fish Species.

Author

Killen, Shaun S., Glazier, Douglas S., Rezende, Enrico L., Clark, Timothy D., Atkinson, David, Willener, Astrid S. T., Halsey, Lewis G., Kearney, Michael, and Bronstein, Judith L.

Subjects

*OSTEICHTHYES, *FISH morphology, *AEROBIC metabolism, *FISH phylogeny, *ECOPHYSIOLOGY, *PHYSIOLOGY

Abstract

Rates of aerobic metabolism vary considerably across evolutionary lineages, but little is known about the proximate and ultimate factors that generate and maintain this variability. Using data for 131 teleost fish species, we performed a large-scale phylogenetic comparative analysis of how interspecific variation in resting metabolic rates (RMRs) and maximummetabolic rates (MMRs) is related to several ecological and morphological variables. Mass- and temperature-adjusted RMR and MMR are highly correlated along a continuum spanning a 30- to 40-fold range. Phylogenetic generalized least squares models suggest that RMR andMMR are higher in pelagic species and that species with higher trophic levels exhibit elevatedMMR. This variation is mirrored at various levels of structural organization: gill surface area, muscle protein content, and caudal fin aspect ratio (a proxy for activity) are positively related with aerobic capacity. Muscle protein content and caudal fin aspect ratio are also positively correlated with RMR. Hypoxia-tolerant lineages fall at the lower end of the metabolic continuum. Different ecological lifestyles are associated with contrasting levels of aerobic capacity, possibly reflecting the interplay between selection for increased locomotor performance on one hand and tolerance to low resource availability, particularly oxygen, on the other. These results support the aerobic capacity model of the evolution of endothermy, suggesting elevated body temperatures evolved as correlated responses to selection for high activity levels. [ABSTRACT FROM AUTHOR]

Published

2016

31. Response of branchial Na/K ATPase to changes in ambient temperature in Atlantic cod ( Gadus morhua) and whiting ( Merlangius merlangus).

Author

Michael, Katharina, Koschnick, Nils, Pörtner, Hans-O., and Lucassen, Magnus

Subjects

*ADENOSINE triphosphatase, *ATLANTIC cod, *WHITING (Fish), *OSTEICHTHYES, *HOMEOSTASIS

Abstract

The maintenance of ion and pH homeostasis despite changes in ambient temperature is crucial for ectothermic organisms. Thermal sensitivity of Na/K ATPase mRNA expression, protein expression and activity was determined in gills of North Sea cod (NC) and Northeastern Arctic cod (NEAC), acclimated for 6 weeks at 4 and 10 °C and compared to field samples of North Sea cod ( sNC), acclimatized to early spring (4 °C) and summer (18 °C) conditions. The same analyses were conducted in gills of the confamiliar whiting, acclimated at 4 and 10 °C. Branchial Na/K ATPase capacities remained uncompensated at functional and protein levels in NC and NEAC at both acclimation temperatures. Na/K ATPase mRNA expression in NEAC acclimated at 10 °C was about twofold higher compared to NC, indicating some population-specific differentiation at this level. Lower Na/K ATPase capacities in gills of warm-acclimatized sNC at common assay temperatures indicate thermal compensation between seasonal extremes, and post-translational modifications contributed to this mitigation at high assay temperature. Together, cod compensates Na/K ATPase capacities on the warm edge of the thermal window and below 4 °C, respectively. In contrast, whiting Na/K ATPase capacities were cold compensated at 4 °C, supported by 1.5-fold higher mRNA and protein expression. Besides, capacities were lower in whiting compared to NC and NEAC at optimum temperature, which may be advantageous in terms of reduced maintenance cost, but at temperatures ≤4 °C, compensation may represent an energy trade-off to maintain homeostasis. The species-specific response of gadid Na/K ATPase indicates certain threshold temperatures beyond which compensation of the pump is elicited, possibly related to the different biogeography of these species. [ABSTRACT FROM AUTHOR]

Published

2016

32. The evolution of nasal immune systems in vertebrates.

Author

Sepahi, Ali and Salinas, Irene

Subjects

*VERTEBRATES, *IMMUNE system, *OLFACTORY bulb, *NASOPHARYNX, *LYMPHOID tissue, *OSTEICHTHYES

Abstract

The olfactory organs of vertebrates are not only extraordinary chemosensory organs but also a powerful defense system against infection. Nasopharynx-associated lymphoid tissue (NALT) has been traditionally considered as the first line of defense against inhaled antigens in birds and mammals. Novel work in early vertebrates such as teleost fish has expanded our view of nasal immune systems, now recognized to fight both water-borne and air-borne pathogens reaching the olfactory epithelium. Like other mucosa-associated lymphoid tissues (MALT), NALT of birds and mammals is composed of organized lymphoid tissue (O-NALT) (i.e., tonsils) as well as a diffuse network of immune cells, known as diffuse NALT (D-NALT). In teleosts, only D-NALT is present and shares most of the canonical features of other teleost MALT. This review focuses on the evolution of NALT in vertebrates with an emphasis on the most recent findings in teleosts and lungfish. Whereas teleost are currently the most ancient group where NALT has been found, lungfish appear to be the earliest group to have evolved primitive O-NALT structures. [ABSTRACT FROM AUTHOR]

Published

2016

33. Neutrophil Development, Migration, and Function in Teleost Fish.

Author

Havixbeck, Jeffrey J. and Barreda, Daniel R.

Subjects

*OSTEICHTHYES, *NEUTROPHILS, *VERTEBRATE genetics

Abstract

It is now widely recognized that neutrophils are sophisticated cells that are critical to host defense and the maintenance of homeostasis. In addition, concepts such as neutrophil plasticity are helping to define the range of phenotypic profiles available to cells in this group and the physiological conditions that contribute to their differentiation. Herein, we discuss key features of the life of a teleost neutrophil including their development, migration to an inflammatory site, and contributions to pathogen killing and the control of acute inflammation. The potent anti-microbial mechanisms elicited by these cells in bony fish are a testament to their long-standing evolutionary contributions in host defense. In addition, recent insights into their active roles in the control of inflammation prior to induction of apoptosis highlight their importance to the maintenance of host integrity in these early vertebrates. Overall, our goal is to summarize recent progress in our understanding of this cell type in teleost fish, and to provide evolutionary context for the contributions of this hematopoietic lineage in host defense and an efficient return to homeostasis following injury or infection. [ABSTRACT FROM AUTHOR]

Published

2015

34. Spatial learning-related changes in metabolic brain activity contribute to the delimitation of the hippocampal pallium in goldfish.

Author

Uceda, S., Ocaña, F.M., Martín-Monzón, I., Rodríguez-Expósito, B., Durán, E., and Rodríguez, F.

Subjects

*GOLDFISH, *HIPPOCAMPUS (Brain), *CEREBRAL cortex, *OSTEICHTHYES, *CYTOCHROME oxidase

Abstract

Comparative neuroanatomical, developmental and functional evidence suggests that the lateral division of the area dorsalis telencephali (Dl) of the teleost fish is homologous to the hippocampus of tetrapods. Nonetheless, some important aspects of the organization of the hippocampal pallium of teleosts are still under discussion and conflicting hypotheses regarding the extension and demarcation of this region have been proposed. Thus, whereas some authors suggest that the entire Dl region, including its dorsal (Dld) and ventral (Dlv) subdivisions, is homologue to the mammalian hippocampus, others claim that only Dlv should be considered as such. To further elucidate this debate, we investigated the role of Dld and Dlv in one of the most unambiguous functions of the hippocampus, spatial learning. We trained goldfish in a spatial constancy task and mapped the activity of Dld, Dlv, and the medial division of the area dorsalis telencephali (Dm) by means of cytochrome oxidase (CO) histochemistry. The results revealed that training goldfish in the spatial constancy task significantly increased the metabolic activity in Dlv, but not in Dld or Dm, suggesting that only Dlv is critically involved in spatial learning and in this regard comparable to the hippocampus. These data provide additional functional support to the hypotheses that consider Dl as a heterogeneous pallial region and propose that Dlv, but not Dld, might be homologous to the hippocampus. [ABSTRACT FROM AUTHOR]

Published

2015

35. Rh protein expression in branchial neuroepithelial cells, and the role of ammonia in ventilatory control in fish.

Author

Zhang, Li, Michele Nawata, C., De Boeck, Gudrun, and Wood, Chris M.

Subjects

*RH factor, *BLOOD proteins, *PROTEIN expression, *BRANCHIAL arch, *EPITHELIAL cells, *OSTEICHTHYES, *PHYSIOLOGICAL effects of ammonia

Abstract

Bill Milsom has made seminal contributions to our understanding of ventilatory control in a wide range of vertebrates. Teleosts are particularly interesting, because they produce a 3rd, potentially toxic respiratory gas (ammonia) in large amounts. Fish are well known to hyperventilate under high environmental ammonia (HEA), but only recently has the potential role of ammonia in normal ventilatory control been investigated. It is now clear that ammonia can act directly as a ventilatory stimulant in trout, independent of its effects on acid–base balance. Even in ureotelic dogfish sharks, acute elevations in ammonia cause increases in ventilation. Peripherally, the detection of elevated ammonia resides in gill arches I and II in trout, and in vitro , neuroepithelial cells (NECs) from these arches are sensitive to ammonia, responding with elevations in intracellular Ca 2 + ([Ca 2 + ] i ). Centrally, hyperventilatory responses to ammonia correlate more closely with concentrations of ammonia in the brain than in plasma or CSF. After chronic HEA exposure, ventilatory responsiveness to ammonia is lost, associated with both an attenuation of the [Ca 2 + ] i response in NECs, and the absence of elevation in brain ammonia concentration. Chronic exposure to HEA also causes increases in the mRNA expression of several Rh proteins (ammonia-conductive channels) in both brain and gills. “Single cell” PCR techniques have been used to isolate the individual responses of NECs versus other gill cell types. We suggest several circumstances (post-feeding, post-exercise) where the role of ammonia as a ventilatory stimulant may have adaptive benefits for O 2 uptake in fish. [ABSTRACT FROM AUTHOR]

Published

2015

36. Paracellular pathway remodeling enhances sodium secretion by teleost fish in hypersaline environments.

Author

Cozzi, Regina R. F., Robertson, George N., Spieker, Melanie, Claus, Lauren N., Zaparilla, Gabriella M. M., Garrow, Kelly L., and Marshall, William S.

Subjects

*OSTEICHTHYES, *SECRETION, *TIGHT junctions, *BIOELECTROCHEMISTRY, *EFFECT of salt on fishes, *PHYSIOLOGY

Abstract

In vertebrate salt-secreting epithelia, Na+ moves passively down an electrochemical gradient via a paracellular pathway. We assessed how this pathway is modified to allow Na+ secretion in hypersaline environments. Mummichogs (Fundulus heteroclitus) acclimated to hypersaline [2x seawater (2SW), 64%o] for 30 days developed invasive projections of accessory cells with an increased area of tight junctions, detected by punctate distribution of CFTR (cystic fibrosis transmembrane conductance regulator) immunofluorescence and transmission electron miscroscopy of the opercular epithelia, which form a gill-like tissue rich in ionocytes. Distribution of CFTR was not explained by membrane raft organization, because chlorpromazine (50 μmol I-1) and filipin (1.5 μmol I-1) did not affect opercular epithelia electrophysiology. Isolated opercular epithelia bathed in SW on the mucosal side had a transepithelial potential (Vt) of +40.1 ±0.9 mV (N=24), sufficient for passive Na+ secretion (Nemst equilibriu m voltage=ENa=+ 24.11 mV). Opercular epithelia from fish acclimated to 2 SW and bathed in 2 SW had higher V, of +45.1 ± 1.2 mV (N=24), sufficient for passive Na+ secretion (ENa=+40.74 mV), but with diminished net driving force. Bumetanide block of CI- secretion reduced Vt by 45% and 29% in SW and 2SW, respectively, a decrease in the driving force for Na+ extrusion. Estimates of shunt conductance from epithelial conductance (Gt) versus short-circuit current (Isc) plots (extrapolation to zero Isc) suggested a reduction in total epithelial shunt conductance in 2SW-acclimated fish. In contrast, the morphological elaboration of tight junctions, leading to an increase in accessory-cell-ionocyte contact points, suggests an increase in local paracellular conductance, compensating for the diminished net driving force for Na+ and allowing salt secretion, even in extreme salinities. [ABSTRACT FROM AUTHOR]

Published

2015

37. Taste preferences and taste thresholds to classical taste substances in the carnivorous fish, kutum Rutilus frisii kutum (Teleostei: Cyprinidae).

Author

Goli, Sheyda, Jafari, Valiollah, Ghorbani, Rassol, and Kasumyan, Alexander

Subjects

*CARNIVOROUS animals, *FISH feeds, *RUTILUS, *OSTEICHTHYES, *CYPRINIDAE, *TASTE, *LIKES & dislikes, *PSYCHOLOGY

Abstract

The objective of this study was to compare the taste preferences in the closely related sympatric fish species with different feeding patterns. For this purpose, palatability for four classical taste substances was evaluated for carnivorous kutum Rutilus frisii kutum and the results were compared with the taste preferences of the omnivorous roach Rutilus rutilus which had been studied earlier. In addition, the threshold concentration and the dose–response relationship of the most palatable tastants were evaluated and the ability of kutum to differentiate food with tastants in different concentrations was estimated. It was found that citric acid significantly increases the agar gel pellet consumption within the range of concentrations from 0.01 M to 0.52 M; the pellets with a concentration of 0.026 M were the most palatable. The pellet consumption is significantly different if the concentration of citric acid in the pellets differs more than two times. The absolute threshold concentration is 0.01 M, or 2.74 μg of citric acid per pellet. Sucrose and NaCl have deterrent taste at the highest concentrations tested (0.29 and 1.73 M, respectively). Both substances are palatable at 10 times lower concentrations and become indifferent after further gradual decrease in their concentration. CaCl 2 decreases the pellets consumption at 0.9 M but is an indifferent tastant at lower concentrations (0.45, 0.09 and 0.045 M). The number of rejections and repeated grasps of a food pellet is fewness and is not related to the pellet's palatability, while the retention time of pellet in the oral cavity positively and highly correlates with the pellet's palatability. Kutum have opposite taste preferences for most substances tested in comparison with the roach. It indicates that the taste preferences mediated by the oral taste receptors are different in closely related sympatric fish displayed diet divergences. [ABSTRACT FROM AUTHOR]

Published

2015

38. Cell replacement therapy: Lessons from teleost fish.

Author

Zupanc, Günther K.H. and Sîrbulescu, Ruxandra F.

Subjects

*OSTEICHTHYES, *CENTRAL nervous system diseases, *STEM cells, *SPINAL cord injuries, *TRANSCRIPTION factors, *NEUROGLIA, *PHYSIOLOGY

Abstract

Many disorders of the CNS are characterized by a massive loss of neurons. A promising therapeutic strategy to cure such conditions is based on the activation of endogenous stem cells. Implementation of this strategy will benefit from a better understanding of stem cell dynamics and the local CNS microenvironment in regeneration-competent vertebrate model systems. Using a spinal cord injury paradigm in zebrafish larvae, Briona and Dorsky (2014) have provided evidence for the existence of two distinct neural stem cell populations. One population has the characteristics of radial glia and expresses the homeobox transcription factor Dbx. The other lacks Dbx but expresses Olig2. These results are placed in the context of other studies that also support the notion of heterogeneity of adult stem cells in the CNS. The implication that differences among stem cell populations, in combination with specific factors from the local cellular microenvironment, might have a decisive impact on the fate choices of the new cells, is discussed. Reviewed evidence suggests that rather few modifications in the signaling pathways involved in the control of stem cell behavior have led, in the course of evolution, to the pronounced differences between mammals and regeneration-competent organisms. As a consequence, rather minor pharmacological manipulations may be sufficient to reactivate the hidden neurogenic potential of the mammalian CNS, and thus make it available for therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2015

39. Control of CSF-1 induced inflammation in teleost fish by a soluble form of the CSF-1 receptor.

Author

Rieger, Aja M., Hanington, Patrick C., Belosevic, Miodrag, and Barreda, Daniel R.

Subjects

*COLONY-stimulating factors (Physiology), *INFLAMMATION, *FISH diseases, *OSTEICHTHYES, *CELL proliferation, *CELL differentiation, *MACROPHAGES, *FISHES

Abstract

The colony-stimulating factor-1 (CSF-1) is the principal regulator of the survival, proliferation, differentiation, and function of macrophages and their precursors, and has been shown to play a role in the etiology of inflammation. We recently identified a novel mechanism for the control of CSF-1 activity in teleost fish, through the production of an inhibitory soluble form of the CSF-1 receptor (sCSF-1R). Primary goldfish kidney macrophages selectively expressed sCSF-1R during the senescence phase, which corresponds to a defined stage of in vitro culture development where inhibition of macrophage proliferation and apoptotic cell death are prominent. In contrast, primary macrophage cultures undergoing active proliferation displayed low levels of sCSF-1R expression. Addition of purified recombinant sCSF-1R to developing primary macrophage cultures leads to a dose-dependent decrease in macrophage proliferation and inhibits macrophage antimicrobial functions including chemotaxis, phagocytosis, and production of reactive oxygen intermediates. Using a goldfish in vivo model of self-resolving peritonitis, we found that sCSF-1R plays a role in the inhibition of inflammation, following an initial acute phase of antimicrobial responses within an inflammatory site. Soluble CSF-1R inhibits pro-inflammatory cytokine production, inhibits leukocyte recruitment to the inflammatory site and decreases ROS production in a dose-dependent manner. This sCSF-1R-dependent regulation of inflammation appears to be an elegant mechanism for the control of macrophage numbers at inflammatory sites of lower vertebrates. Overall, our results provide new insights into the evolutionary origins of the CSF-1 immune regulatory axis. [ABSTRACT FROM AUTHOR]

Published

2014

40. Vocal Behavior and Vocal Central Pattern Generator Organization Diverge among Toadfishes.

Author

Chagnaud, Boris P. and Bass, andrew H.

Subjects

*ANIMAL sound production, *RHOMBENCEPHALON, *AQUATIC biodiversity, *AQUATIC animals, *OSTEICHTHYES, *TOADFISHES

Abstract

Among fishes, acoustic communication is best studied in toadfishes, a single order and family that includes species commonly known as toadfish and midshipman. However, there is a lack of comparative anatomical and physiological studies, making it difficult to identify both shared and derived mechanisms of vocalization among toadfishes. Here, vocal nerve labeling and intracellular in vivo recording and staining delineated the hindbrain vocal network of the Gulf toadfish Opsanus beta. Dextran-biotin labeling of the vocal nerve or intracellular neurobiotin fills of motoneurons delineated a midline vocal motor nucleus (VMN). Motoneurons showed bilaterally extensive dendritic arbors both within and lateral to the paired motor nuclei. The motoneuron activity matched that of the spike-like vocal nerve motor volley that determines the natural call duration and frequency. Ipsilateral vocal nerve labeling with biocytin or neurobiotin yielded dense bilateral transneuronal filling of motoneurons and coextensive columns of premotor neurons. These premotor neurons generated pacemaker-like action potentials matched 1:1 with vocal nerve and motoneuron firing. Transneuronal transport further revealed connectivity within and between the pacemaker-motor circuit and a rostral prepacemaker nucleus. Unlike the pacemaker-motor circuit, prepacemaker firing did not match the frequency of vocal nerve activity but instead was predictive of the duration of the vocal nerve volley that codes for call duration. Transneuronally labeled terminal-like boutons also occurred in auditory-recipient hindbrain nuclei, including neurons innervating the inner ear and lateral line organs. Together with studies of midshipman, we propose that separate premotor populations coding vocal frequency and duration with direct premotor coupling to auditory-lateral line nuclei are plesiomorphic characters for toadfishes. Unlike in midshipman, transneuronal labeling in toadfishes reveals an expansive column of pacemaker neurons that is weakly coupled to prepacemaker neurons, a character that likely depends on the extent of gap junction coupling. We propose that these and other anatomical characters contribute to neurophysiological properties that, in turn, sculpt the species-typical patterning of frequency and amplitude-modulated vocalizations. © 2014 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2014

41. The evolution and functional divergence of the beta-carotene oxygenase gene family in teleost fish—Exemplified by Atlantic salmon.

Author

Helgeland, Hanna, Sandve, Simen Rød, Torgersen, Jacob Seilø, Halle, Mari Kyllesø, Sundvold, Hilde, Omholt, Stig, and Våge, Dag Inge

Subjects

*OXYGENASES, *BETA carotene, *FISH genetics, *ATLANTIC salmon, *OSTEICHTHYES, *VITAMIN A, *FISH genomes

Abstract

Abstract: In mammals, two carotenoid cleaving oxygenases are known; beta-carotene 15,15′-monooxygenase (BCMO1) and beta-carotene 9′,10′-oxygenase (BCO2). BCMO1 is a key enzyme in vitamin A synthesis by symmetrically cleaving beta-carotene into 2 molecules of all-trans-retinal, while BCO2 is responsible for asymmetric cleavage of a broader range of carotenoids. Here, we show that the Atlantic salmon beta-carotene oxygenase (bco) gene family contains 5 members, three bco2 and two bcmo1 paralogs. Using public sequence databases, multiple bco genes were also found in several additional teleost species. Phylogenetic analysis indicates that bco2a and bco2b originate from the teleost fish specific genome duplication (FSGD or 3R), while the third and more distant paralog, bco2 like, might stem from a prior duplication event in the teleost lineage. The two bcmo1 paralogs (bcmo1 and bcmo1 like) appear to be the result of an ancient duplication event that took place before the divergence of ray-finned (Actinopterygii) and lobe-finned fish (Sarcopterygii), with subsequent nonfunctionalization and loss of one Sarcopterygii paralog. Gene expression analysis of the bcmo1 and bco2 paralogs in Atlantic salmon reveals regulatory divergence with tissue specific expression profiles, suggesting that the beta-carotene oxygenase subtypes have evolved functional divergences. We suggest that teleost fish have evolved and maintained an extended repertoire of beta-carotene oxygenases compared to the investigated Sarcopterygii species, and hypothesize that the main driver behind this functional divergence is the exposure to a diverse set of carotenoids in the aquatic environment. [Copyright &y& Elsevier]

Published

2014

42. Rapid Evolution of piRNA Pathway in the Teleost Fish: Implication for an Adaptation to Transposon Diversity.

Author

Yi, Minhan, Chen, Feng, Luo, Majing, Cheng, Yibin, Zhao, Huabin, Cheng, Hanhua, and Zhou, Rongjia

Subjects

*PIWI genes, *GERM cells, *GAMETOGENESIS, *TRANSPOSONS, *GENOMES, *OSTEICHTHYES

Abstract

The Piwi-interacting RNA (piRNA) pathway is responsible for germline specification, gametogenesis, transposon silencing, and genome integrity. Transposable elements can disrupt genome and its functions. However, piRNA pathway evolution and its adaptation to transposon diversity in the teleost fish remain unknown. This article unveils evolutionary scene of piRNA pathway and its association with diverse transposons by systematically comparative analysis on diverse teleost fish genomes. Selective pressure analysis on piRNA pathway and miRNA/siRNA (microRNA/small interfering RNA) pathway genes between teleosts and mammals showed an accelerated evolution of piRNA pathway genes in the teleost lineages, and positive selection on functional PAZ (Piwi/Ago/Zwille) and Tudor domains involved in the Piwi–piRNA/Tudor interaction, suggesting that the amino acid substitutions are adaptive to their functions in piRNA pathway in the teleost fish species. Notably five piRNA pathway genes evolved faster in the swamp eel, a kind of protogynous hermaphrodite fish, than the other teleosts, indicating a differential evolution of piRNA pathway between the swamp eel and other gonochoristic fishes. In addition, genome-wide analysis showed higher diversity of transposons in the teleost fish species compared with mammals. Our results suggest that rapidly evolved piRNA pathway in the teleost fish is likely to be involved in the adaption to transposon diversity. [ABSTRACT FROM AUTHOR]

Published

2014

43. Comparative analysis reveals that polyploidy does not decelerate diversification in fish.

Author

Zhan, S. H., Glick, L., Tsigenopoulos, C. S., Otto, S. P., and Mayrose, I.

Subjects

*COMPARATIVE studies, *STURGEONS, *POLYPLOIDY, *FISH diversity, *SPECIES diversity, *OSTEICHTHYES

Abstract

While the proliferation of the species-rich teleost fish has been ascribed to an ancient genome duplication event at the base of this group, the broader impact of polyploidy on fish evolution and diversification remains poorly understood. Here, we investigate the association between polyploidy and diversification in several fish lineages: the sturgeons ( Acipenseridae: Acipenseriformes), the botiid loaches ( Botiidae: Cypriniformes), Cyprininae fishes ( Cyprinidae: Cypriniformes) and the salmonids ( Salmonidae: Salmoniformes). Using likelihood-based evolutionary methodologies, we co-estimate speciation and extinction rates associated with polyploid vs. diploid fish lineages. Family-level analysis of Acipenseridae and Botiidae revealed no significant difference in diversification rates between polyploid and diploid relatives, while analysis of the subfamily Cyprininae revealed higher polyploid diversification. Additionally, order-level analysis of the polyploid Salmoniformes and its diploid sister clade, the Esociformes, did not support a significantly different net diversification rate between the two groups. Taken together, our results suggest that polyploidy is generally not associated with decreased diversification in fish - a pattern that stands in contrast to that previously observed in plants. While there are notable differences in the time frame examined in the two studies, our results suggest that polyploidy is associated with different diversification patterns in these two major branches of the eukaryote tree of life. [ABSTRACT FROM AUTHOR]

Published

2014

44. Evoked potentials in the Atlantic cod following putatively innocuous and putatively noxious electrical stimulation: a minimally invasive approach.

Author

Ludvigsen, Stian, Stenklev, Niels, Johnsen, Helge, Laukli, Einar, Matre, Dagfinn, and Aas-Hansen, Øyvind

Subjects

SOMATOSENSORY evoked potentials, ELECTRIC stimulation, NOCICEPTORS, STIMULUS & response (Biology), CENTRAL nervous system, ATLANTIC cod, OSTEICHTHYES

Abstract

Aspects of peripheral and central nociception have previously been studied through recording of somatosensory evoked potentials (SEPs) to putative noxious stimuli in specific brain regions in a few freshwater fish species. In the present study, we describe a novel, minimally invasive method for recording SEPs from the central nervous system of the Atlantic cod ( Gadus morhua). Cutaneous electric stimulation of the tail in 15 fish elicited SEPs at all stimulus intensities (2, 5, 10 and 20 mA) with quantitative properties corresponding to stimulus intensity. In contrast to previous fish studies, the methodological approach used in Atlantic cod in the current study uncovered a number of additional responses that could originate from multiple brain regions. Several of these responses were specific to stimulation at the highest stimulus intensities, possibly representing qualitative differences in central processing between somatosensory and nociceptive stimuli. [ABSTRACT FROM AUTHOR]

Published

2014

45. Effect of serotonin-modulated anticonsolidation protein on formation of long-term memory in the learning model of active avoidance in the carp ( Cyprinus carpio).

Author

Garina, D. and Mekhtiev, A.

Subjects

*SEROTONIN, *CARP, *OSTEICHTHYES, *FISH reproduction, *LONG-term memory

Abstract

Effects of serotonin-modulated anticonsolidation protein (SMAP) that has property to impair formation of memory trace in mammals and of learning and memory in teleost fish was studied in the learning model of active avoidance. The experiment was performed in three stages: (1) fry of carp Cyprinus carpio L. was injected intracerebroventricularly with the SMAP at a dose of 0.3 μg/g; control individuals were administered with equal amount of the buffered saline for poikilothermic animals; (2) 24 h after injection, fish were learned the conditioned reflex of active avoidance; (3) 48 h after the learning the testing of the skill was perfomed. The administration of the protein was shown to lead to impairment of reproduction of the skill in the fish: the latent time of the skill reproduction in experimental individuals exceeded that in control fish more than two times, while the number of individuals succeeding the task in the expreimental group was insignificantly lower than in the control group. However, unlike mammals, injection of the SMAP in this model produced no effect on the process of learning in carps. Thus, there was first demonstrated the inhibiting effect of the SMAP whose concenration correlated positively with the content of the neurotransmitter serotonin in brain on consolidation of memory traces in teleost fish. [ABSTRACT FROM AUTHOR]

Published

2014

46. Comprehensive analysis of MHC class II genes in teleost fish genomes reveals dispensability of the peptide-loading DM system in a large part of vertebrates.

Author

Dijkstra, Johannes M., Grimholt, Unni, Jong Leong, Koop, Ben F., and Hashimoto, Keiichiro

Subjects

*IR genes, *OSTEICHTHYES, *ANTIGENS, *LYMPHOCYTES, *IMMUNE system, *PHYSIOLOGY

Abstract

Background Classical major histocompatibility complex (MHC) class II molecules play an essential role in presenting peptide antigens to CD4+ T lymphocytes in the acquired immune system. The non-classical class II DM molecule, HLA-DM in the case of humans, possesses critical function in assisting the classical MHC class II molecules for proper peptide loading and is highly conserved in tetrapod species. Although the absence of DM-like genes in teleost fish has been speculated based on the results of homology searches, it has not been definitively clear whether the DM system is truly specific for tetrapods or not. To obtain a clear answer, we comprehensively searched class II genes in representative teleost fish genomes and analyzed those genes regarding the critical functional features required for the DM system. Results We discovered a novel ancient class II group (DE) in teleost fish and classified teleost fish class II genes into three major groups (DA, DB and DE). Based on several criteria, we investigated the classical/non-classical nature of various class II genes and showed that only one of three groups (DA) exhibits classical-type characteristics. Analyses of predicted class II molecules revealed that the critical tryptophan residue required for a classical class II molecule in the DM system could be found only in some non-classical but not in classicaltype class II molecules of teleost fish. Conclusions Teleost fish, a major group of vertebrates, do not possess the DM system for the classical class II peptide-loading and this sophisticated system has specially evolved in the tetrapod lineage. [ABSTRACT FROM AUTHOR]

Published

2013

47. Intersex in teleost fish: Are we distinguishing endocrine disruption from natural phenomena?

Author

Bahamonde, Paulina A., Munkittrick, Kelly R., and Martyniuk, Christopher J.

Subjects

*OSTEICHTHYES, *SEXING of fish, *ENDOCRINE disruptors, *INTERSEXUALITY, *SEX hormones, *FISHES, *MOLECULAR biology

Abstract

Highlights: [•] There are reports that intersex is induced by aquatic pollutants and that it may also be natural. [•] Approximately 37 species of fish have been reported to exhibit some degree of intersex in the environment. [•] Evidence is not conclusive that changes in gonad size, plasma Vtg, and sex steroid hormones are correlated to intersex. [•] The relationship between molecular responses and intersex is not fully characterized. [•] Life history, sampling time, and reference site characterization will better resolve intersex prevalence. [ABSTRACT FROM AUTHOR]

Published

2013

48. Impact of environmental estrogens on Yfish considering the diversity of estrogen signaling.

Author

Segner, Helmut, Casanova-Nakayama, Ayako, Kase, Robert, and Tyler, Charles R.

Subjects

*XENOESTROGENS, *CELLULAR signal transduction, *OSTEICHTHYES, *FISH diversity, *FISH physiology, *ENVIRONMENTAL risk assessment, *FISHES

Abstract

Highlights: [•] This review discusses on the example of teleost fish. [•] Diversity in signaling mechanisms that can be activated by environmental estrogens. [•] Diversity in physiological targets that can be impacted by environmental estrogens. [•] Diversity of species sensitivity and vulnerability to environmental estrogens. [•] Possible implications of this diversity for the risk assessment of environmental estrogens. [ABSTRACT FROM AUTHOR]

Published

2013

49. Identification of IL-34 in teleost fish: Differential expression of rainbow trout IL-34, MCSF1 and MCSF2, ligands of the MCSF receptor

Author

Wang, Tiehui, Kono, Tomoya, Monte, Milena M., Kuse, Haruka, Costa, Maria M., Korenaga, Hiroki, Maehr, Tanja, Husain, Mansourah, Sakai, Masahiro, and Secombes, Christopher J.

Subjects

*MACROPHAGE colony-stimulating factor, *INTERLEUKINS, *OSTEICHTHYES, *RAINBOW trout fishing, *MACROPHAGES, *DENDRITIC cells, *TRANSPLANTATION of organs, tissues, etc., *AUTOIMMUNITY

Abstract

Abstract: The mononuclear phagocyte system is composed of monocytes, macrophages and dendritic cells and has crucial roles in inflammation, autoimmunity, infection, cancer, organ transplantation and in maintaining organismal homeostasis. Interleukin-34 (IL-34) and macrophage colony stimulating factor (MCSF), both signalling through the MCSF receptor, regulate the mononuclear phagocyte system. A single IL-34 and MCSF gene are present in tetrapods. Two types of MCSF exist in teleost fish which is resulted from teleost-wide whole genome duplication. In this report, we first identified and sequence analysed six IL-34 genes in five teleost fish, rainbow trout, fugu, Atlantic salmon, catfish and zebrafish. The fish IL-34 molecules had a higher identity within fish group but low identities to IL-34s from birds (27.2–33.8%) and mammals (22.2–31.4%). However, they grouped with tetrapod IL-34 molecules in phylogenetic tree analysis, had a similar 7 exon/6 intron gene organisation, and genes in the IL-34 loci were syntenically conserved. In addition, the regions of the four main helices, along with a critical N-glycosylation site were well conserved. Taken together these data suggest that the teleost IL-34 genes described in this report are orthologues of tetrapod IL-34. Comparative expression study of the three trout MCSFR ligands revealed that IL-34, MCSF1 and MCSF2 are differentially expressed in tissues and cell lines. The expression of MCSF1 and MCSF2 showed great variance in different tissues and cell lines, suggesting a role in the differentiation and maintenance of specific macrophage lineages in specific locations. The relatively high levels of IL-34 expression across different tissues suggests a homeostatic role of IL-34 for the macrophage lineage in fish. One striking observation in the present study was the lack of induction of MCSF1 and MCSF2 expression but the quick induction of IL-34 expression by PAMPs and inflammatory cytokines in cell lines and primary head kidney macrophages in rainbow trout. In a parasitic proliferative kidney disease (PKD) model, the expression of IL-34 but not the dominant MCSF2 was affected by PKD, suggesting an involvement of macrophage function in this disease model. Thus IL-34 expression is sensitive to inflammatory stimuli and may regulate macrophage biology once up-regulated. [Copyright &y& Elsevier]

Published

2013

50. Comparative genomics using teleost fish helps to systematically identify target gene bodies of functionally defined human enhancers.

Author

Parveen, Nazia, Masood, Ayesha, Iftikhar, Nouman, Minhas, Bushra F., Minhas, Rashid, Nawaz, Uzma, and Abbasi, Amir Ali

Subjects

*COMPARATIVE genomics, *OSTEICHTHYES, *GENE targeting, *GENE enhancers, *MICE embryology, *GENE expression, *TRANSCRIPTION factors, *CENTRAL nervous system

Abstract

Background: Human genome is enriched with thousands of conserved non-coding elements (CNEs). Recently, a medium throughput strategy was employed to analyze the ability of human CNEs to drive tissue specific expression during mouse embryogenesis. These data led to the establishment of publicly available genome wide catalog of functionally defined human enhancers. Scattering of enhancers over larger regions in vertebrate genomes seriously impede attempts to pinpoint their precise target genes. Such associations are prerequisite to explore the significance of this in vivo characterized catalog of human enhancers in development, disease and evolution. Results: This study is an attempt to systematically identify the target gene-bodies for functionally defined human CNE-enhancers. For the purpose we adopted the orthology/paralogy mapping approach and compared the CNE induced reporter expression with reported endogenous expression pattern of neighboring genes. This procedure pinpointed specific target gene-bodies for the total of 192 human CNE-enhancers. This enables us to gauge the maximum genomic search space for enhancer hunting: 4 Mb of genomic sequence around the gene of interest (2 Mb on either side). Furthermore, we used human-rodent comparison for a set of 159 orthologous enhancer pairs to infer that the central nervous system (CNS) specific gene expression is closely associated with the cooperative interaction among at least eight distinct transcription factors: SOX5, HFH, SOX17, HNF3ß, c-FOS, Tal1beta-E47S, MEF and FREAC. Conclusions: In conclusion, the systematic wiring of cis-acting sites and their target gene bodies is an important step to unravel the role of in vivo characterized catalog of human enhancers in development, physiology and medicine. [ABSTRACT FROM AUTHOR]

Published

2013