Your search keyword '"Tom Goldammer"' showing total 185 results

1. Haplotype-resolved and near-T2T genome assembly of the African catfish (Clarias gariepinus)

Author

Julien A. Nguinkal, Yedomon A. B. Zoclanclounon, Ronald M. Brunner, Yutang Chen, and Tom Goldammer

Subjects

Science

Abstract

Abstract Airbreathing catfish are stenohaline freshwater fish capable of withstanding various environmental conditions and farming practices, including breathing atmospheric oxygen. This unique ability has enabled them to thrive in semi-terrestrial habitats. However, the genomic mechanisms underlying their adaptation to adverse ecological environments remain largely unexplored, primarily due to the limited availability of high-quality genomic resources. Here, we present a haplotype-resolved and near telomere-to-telomere (T2T) genome assembly of the African catfish (Clarias gariepinus), utilizing Oxford Nanopore, PacBio HiFi, Illumina and Hi-C sequencing technologies. The primary assembly spans 969.62 Mb with only 47 contigs, achieving a contig N50 of 33.71 Mb. Terminal telomeric signals were detected in 22 of 47 contigs, suggesting T2T assembled chromosomes. BUSCO analysis confirmed gene space completeness of 99% against the Actinopterygii dataset, highlighting the high quality of the assembly. Genome annotation identified 25,655 protein-coding genes and estimated 43.94% genome-wide repetitive elements. This data provides valuable genomic resources to advance aquaculture practices and to explore the genomic underpinnings of the ecological resilience of airbreathing catfish and related teleosts.

Published

2024

2. Dietary Chlorella vulgaris supplementation modulates health, microbiota and the response to oxidative stress of Atlantic salmon

Author

Jonas Mueller, Doret R. van Muilekom, Jannick Ehlers, Marvin Suhr, Stéphanie C. Hornburg, Corinna Bang, Marie Wilkes, Thekla Schultheiß, Edmund Maser, Alexander Rebl, Tom Goldammer, Henrike Seibel, and Carsten Schulz

Subjects

Atlantic salmon, Chlorella, Microalgae, Functional feed, Microbiome, Immunity, Medicine, Science

Abstract

Abstract Microalgae are emerging as functional feed ingredients in aquaculture due to their immune-stimulating and stress-modulating properties. We investigated the potential of the microalgae Chlorella vulgaris as a feed supplement to improve the health and modulate microbiota and stress responses of Atlantic salmon. Triplicate groups of Atlantic salmon (~ 126 g) were reared in a recirculating aquaculture system (RAS) at 15 °C and received diets supplemented with 2% (CV2) or 14% (CV14) spray-dried C. vulgaris daily, 14% once weekly (CV14w), or a control diet (CD) for 8 weeks. Subsequently, all groups were exposed to an acute one-hour peracetic acid (CH3CO3H; PAA) treatment, a commonly used disinfectant in RAS. While CV14 increased feed conversion (FCR) significantly, feeding the diets CV2 and CV14w improved protein retention efficiency. CV14 significantly modulated beta-diversity in the intestinal digesta and mucosa, but this effect was already visible in fish fed CV2. Feeding CV14 and, to a lesser degree, CV2 increased the relative abundances of Paenarthrobacter and Trichococcus in the digesta and mucosa, which are able to metabolize complex carbohydrates. However, the same diets reduced the abundance of the lactic acid bacteria Lactobacillus and Weissella in the digesta and Floricoccus in the mucosa. Peracetic acid exposure induced systemic stress (increase in plasma glucose and cortisol) and a local immune response in the gill, with the most prominent upregulation of several immune- and stress-regulated genes (clra, cebpb, marco, tnfrsf14, ikba, c1ql2, drtp1) 18 h after exposure in fish fed the control diet. Fish receiving CV14 once a week showed a reduced transcriptional response to PAA exposure. Catalase protein abundance in the liver increased following exposure to PAA, while superoxide dismutase abundance in the gill and liver was increased in response to C. vulgaris inclusion before stress. Overall, the results highlight that a high (14%) inclusion rate of C. vulgaris in feed for Atlantic salmon impairs feed conversion and shifts the intestinal microbiota composition in digesta and mucosa. Weekly feeding of C. vulgaris proves a viable approach in improving protein retention and improving transcriptional resilience towards oxidative stress in increasingly intensive production systems. Thereby this study may motivate future studies on optimizing temporal feeding schedules for health-promoting aquafeeds.

Published

2024

3. Effects of Zn-EDTA on the health and welfare of the African catfish, Clarias gariepinus (Burchell, 1822), in a recirculating aquaculture system

Author

Marc-Christopher Hildebrand, Alexander Rebl, Tom Goldammer, Harry Wilhelm Palm, and Björn Baßmann

Subjects

aquaponics, fertilizer, fish histopathology, trace elements, toxicity, Aquaculture. Fisheries. Angling, SH1-691

Abstract

As nutrient-rich water in aquaponic systems cannot supply growing plants with all the required trace elements, supplementation with specific fertilizers is performed to make up for this deficit. While chelated fertilizers such as ethylenediaminetetraacetic acid–zinc disodium complex (Zn-EDTA) are becoming more popular in this context for improving plant growth in aquaponic systems, little is known about their effects on fish. During two experiments, a total of 576 individuals of catfish fry (0.19 g) and fingerlings (220.01 g) of the African catfish (Clarias gariepinus; Burchell, 1822) were kept separately for 32 days under experimental aquarium conditions. The fry was exposed to 0.125 and 0.5 mg/L, while the fingerlings were exposed to 0.5 and 2.0 mg/L Zn-EDTA in a plantless aquaponic system. The third treatment group consisted of a control group without Zn-EDTA. The growth, mortality, and ethological indicators were assessed for all growth stages, while the leukocyte distribution and histopathological changes were additionally determined for the fingerlings. As the feed intake in the experiment was limited, the investigations were focused on the effects of Zn-EDTA and not on the growth process of a respective fish growth stage. While the growth, mortality, and behavior were not significantly different in both growing stages, the number of mature neutrophils changed significantly in all treatments in fingerlings. Zn was not detected in the histologically investigated organs at the tested concentrations using the staining method. However, morphological alterations of the gill epithelium were found on the secondary lamellae. Quantitative multiplex PCR was used to simultaneously evaluate the expression of 17 genes related to Zn metabolism and stress physiology in head kidney samples. The transcripts of several selected genes changed by up to 70-fold. Due to high individual variances, only the copy numbers of the KMT2A (lysine-specific methyltransferase 2a) gene were significantly different across treatment groups and sampling points. However, the present results indicate that the addition of Zn-EDTA at the tested concentrations can be considered relatively benign for the health and welfare of C. gariepinus, as no toxic effects of Zn-EDTA were observed in moderately hard to hard water.

Published

2024

4. Salinity change evokes stress and immune responses in Atlantic salmon with microalgae showing limited potential for dietary mitigation

Author

Doret R. van Muilekom, Jonas Mueller, Jacqueline Lindemeyer, Thekla Schultheiß, Edmund Maser, Henrike Seibel, Alexander Rebl, Carsten Schulz, and Tom Goldammer

Subjects

microalgae, salmon, smoltification, salinity, immunity, functional feed, Physiology, QP1-981

Abstract

Smoltification was found to impact both immune and stress responses of farmed Atlantic salmon (Salmo salar), but little is known about how salinity change affects salmon months after completed smoltification. Here, we examined (1) the effect of salinity change from brackish water to seawater on the stress and immune responses in Atlantic salmon and (2) evaluated if functional diets enriched with microalgae can mitigate stress- and immune-related changes. Groups of Atlantic salmon were fed for 8 weeks with different microalgae-enriched diets in brackish water and were then transferred into seawater. Samples of the head kidney, gill, liver and plasma were taken before seawater transfer (SWT), 20 h after SWT, and 2 weeks after SWT for gene-expression analysis, plasma biochemistry and protein quantification. The salmon showed full osmoregulatory ability upon transfer to seawater reflected by high nkaα1b levels in the gill and tight plasma ion regulation. In the gill, one-third of 44 investigated genes were reduced at either 20 h or 2 weeks in seawater, including genes involved in cytokine signaling (il1b) and antiviral defense (isg15, rsad2, ifit5). In contrast, an acute response after 20 h in SW was apparent in the head kidney reflected by increased plasma stress indicators and induced expression of genes involved in acute-phase response (drtp1), antimicrobial defense (camp) and stress response (hspa5). However, after 2 weeks in seawater, the expression of antiviral genes (isg15, rsad2, znfx1) was reduced in the head kidney. Few genes (camp, clra, c1ql2) in the gill were downregulated by a diet with 8% inclusion of Athrospira platensis. The results of the present study indicate that salinity change months after smoltification evokes molecular stress- and immune responses in Atlantic salmon. However, microalgae-enriched functional diets seem to have only limited potential to mitigate the related changes.

Published

2024

5. Microalgae as functional feed for Atlantic salmon: effects on growth, health, immunity, muscle fatty acid and pigment deposition

Author

Jonas Mueller, Matteo Pauly, Joachim Molkentin, Ute Ostermeyer, Doret R. van Muilekom, Alexander Rebl, Tom Goldammer, Jacqueline Lindemeyer, Thekla Schultheiß, Henrike Seibel, and Carsten Schulz

Subjects

microalgae, functional feed, bioactive compound, fatty acids, carotenoids, immunity, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Microalgae are increasingly being investigated as functional feed additives in a variety of fish species, but our knowledge on how microalgae supplementation affects Atlantic salmon remains limited. We hypothesized that microalgae inclusion of 8% in the feed would improve performance, fatty acid and pigment deposition as well as health and immunity of Atlantic salmon reared in recirculating aquaculture systems (RAS). We fed Atlantic salmon smolts with five different microalgae enriched diets containing Tetraselmis chuii (TC), Arthrospira platensis (AP), Schizochytrium limacinum (SL) or Chlorella vulgaris, either intact (CVI) or as broken cell wall derivative (CVB) or a control diet (CD). After eight weeks of feeding in brackish water (13 psu), all groups were transferred to seawater (32 psu) for additional two weeks. Our results indicate that CVB improved feed conversion and protein retention, but reduced condition factor (p < 0.05) compared to fish fed with a control diet. Voluntary feed intake decreased in seawater, but was similar among diet groups. The amount of docosahexaenoic acid was particularly high in SL-fed fish and alpha-linolenic acid was enriched in fish fed CVI, CVB and TC (p < 0.05). Following seawater transfer, fat content and monounsaturated fatty acids decreased in the muscle, while polyunsaturated fatty acids increased. Lutein was present in all muscle samples, but highest concentrations were found in CVB-, CVI- and TC-fed fish. In the anterior intestine, microalgae supplementation induced differentially regulated trout protein 1 (drtp1) expression in CVI- and CVB-fed fish, but reduced the expression of interleukin 1 and 10 receptor (il1r2 & il10rb) in CVI-fed fish. In the liver, feeding CVI and SL induced complement C1q like 2 (c1ql2) expression, while reducing serum amyloid A5 (saa5) expression. Superoxide-dismutase protein concentration was induced in the liver of fish fed SL, while myeloperoxidase was reduced in most microalgae-fed groups. In conclusion, we show that commercially relevant microalgae can be used as functional feed additives for Atlantic salmon promoting different health aspects without negatively affecting their growth performance when cultivated in RAS.

Published

2023

6. Experimental Handling Challenges Result in Minor Changes in the Phagocytic Capacity and Transcriptome of Head-Kidney Cells of the Salmonid Fish Coregonus maraena

Author

Joan Martorell-Ribera, Dirk Koczan, Marzia Tindara Venuto, Torsten Viergutz, Ronald M. Brunner, Tom Goldammer, Ulrike Gimsa, and Alexander Rebl

Subjects

gene expression profiling, handling stress, head kidney, maraena whitefish, microarray, phagocytosis, Veterinary medicine, SF600-1100

Abstract

Aquaculture management involves regular handling procedures, but these can evoke stress responses in farmed fish. We compiled an extensive list of published parameters that indicate the most likely handling-induced physiological deviations from the norm. However, since these parameters are based almost exclusively on studies of rainbow trout and Atlantic salmon, we conducted a handling-challenge experiment with maraena whitefish (Coregonus maraena). This salmonid fish was sampled at either 3 or 24 h after a single 1-min handling or after 10 days of daily repeated 1-min handling. The cortisol levels were strongly elevated in some individuals at 3 h after the single handling challenge, but these elevations were not significantly different between the challenged and control cohorts. The phagocytic capacity of myeloid head-kidney cells stimulated with fluorophore-labeled, inactivated Aeromonas salmonicida was significantly decreased in maraena whitefish at 3 h after the handling challenge compared to control fish. Microarray analysis of head-kidney samples from the challenged and control fish revealed 12 differentially expressed genes at 3 h and 70 at 24 h after the single handling episode, but only 5 differentially expressed genes after 10 days of repeated daily handling. The identified genes were assigned to numerous stress- and immune-relevant functional pathways, including “glucocorticoid receptor signaling” (3 h post-challenge), “HIF1A signaling” (24 h post-challenge), or “complement system” (10 days of repeated challenge). Our data reveal the tight interconnection of immune and stress pathways in the head kidney of maraena whitefish and corroborate several parameters previously found regulated in other tissues of handling-stressed rainbow trout. These findings indicate that handling may compromise the health and welfare of maraena whitefish in aquaculture.

Published

2022

7. An ultra-high density SNP-based linkage map for enhancing the pikeperch (Sander lucioperca) genome assembly to chromosome-scale

Author

Lidia de los Ríos-Pérez, Julien A. Nguinkal, Marieke Verleih, Alexander Rebl, Ronald M. Brunner, Jan Klosa, Nadine Schäfer, Marcus Stüeken, Tom Goldammer, and Dörte Wittenburg

Subjects

Medicine, Science

Abstract

Abstract Pikeperch (Sander lucioperca) is a fish species with growing economic significance in the aquaculture industry. However, successful positioning of pikeperch in large-scale aquaculture requires advances in our understanding of its genome organization. In this study, an ultra-high density linkage map for pikeperch comprising 24 linkage groups and 1,023,625 single nucleotide polymorphisms markers was constructed after genotyping whole-genome sequencing data from 11 broodstock and 363 progeny, belonging to 6 full-sib families. The sex-specific linkage maps spanned a total of 2985.16 cM in females and 2540.47 cM in males with an average inter-marker distance of 0.0030 and 0.0026 cM, respectively. The sex-averaged map spanned a total of 2725.53 cM with an average inter-marker distance of 0.0028 cM. Furthermore, the sex-averaged map was used for improving the contiguity and accuracy of the current pikeperch genome assembly. Based on 723,360 markers, 706 contigs were anchored and oriented into 24 pseudomolecules, covering a total of 896.48 Mb and accounting for 99.47% of the assembled genome size. The overall contiguity of the assembly improved with a scaffold N50 length of 41.06 Mb. Finally, an updated annotation of protein-coding genes and repetitive elements of the enhanced genome assembly is provided at NCBI.

Published

2020

8. Analysis of Autozygosity Using Whole-Genome Sequence Data of Full-Sib Families in Pikeperch (Sander lucioperca)

Author

Lidia De los Ríos-Pérez, Tom Druet, Tom Goldammer, and Dörte Wittenburg

Subjects

autozygosity, genomic inbreeding, FROH, pikeperch, selection, animal breeding, Genetics, QH426-470

Abstract

Pikeperch (Sander lucioperca) has emerged as a high value species to the aquaculture industry. However, its farming techniques are at an early stage and its production is often performed without a selective breeding program, potentially leading to high levels of inbreeding. In this study, we identified and characterized autozygosity based on genome-wide runs of homozygosity (ROH) on a sample of parental and offspring individuals, determined effective population size (Ne), and assessed relatedness among parental individuals. A mean of 2,235 ± 526 and 1,841 ± 363 ROH segments per individual, resulting in a mean inbreeding coefficient of 0.33 ± 0.06 and 0.25 ± 0.06 were estimated for the progeny and parents, respectively. Ne was about 12 until four generations ago and at most 106 for 63 generations in the past, with varying genetic relatedness amongst the parents. This study shows the importance of genomic information when family relationships are unknown and the need of selective breeding programs for reproductive management decisions in the aquaculture industry.

Published

2022

9. Time-Dependent Effects of Acute Handling on the Brain Monoamine System of the Salmonid Coregonus maraena

Author

Joan Martorell-Ribera, Marzia Tindara Venuto, Winfried Otten, Ronald M. Brunner, Tom Goldammer, Alexander Rebl, and Ulrike Gimsa

Subjects

catecholamines, marker genes, monoamine receptors, salmonids, serotonin, stress, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The immediate stress response involves the activation of the monoaminergic neurotransmitter systems including serotonin, dopamine and noradrenaline in particular areas of the fish brain. We chose maraena whitefish as a stress-sensitive salmonid species to investigate the influence of acute and chronic handling on the neurochemistry of monoamines in the brain. Plasma cortisol was quantified to assess the activation of the stress axis. In addition, we analyzed the expression of 37 genes related to the monoamine system to identify genes that could be used as markers of neurophysiological stress effects. Brain neurochemistry responded to a single handling (1 min netting and chasing) with increased serotonergic activity 3 h post-challenge. This was accompanied by a modulated expression of monoaminergic receptor genes in the hindbrain and a significant increase of plasma cortisol. The initial response was compensated by an increased monoamine synthesis at 24 h post-challenge, combined with the modulated expression of serotonin-receptor genes and plasma cortisol concentrations returning to control levels. After 10 days of repeated handling (1 min per day), we detected a slightly increased noradrenaline synthesis and a down-regulated expression of dopamine-receptor genes without effect on plasma cortisol levels. In conclusion, the changes in serotonergic neurochemistry and selected gene-expression profiles, together with the initial plasma cortisol variation, indicate an acute response and a subsequent recovery phase with signs of habituation after 10 days of daily exposure to handling. Based on the basal expression patterns of particular genes and their significant regulation upon handling conditions, we suggest a group of genes as potential biomarkers that indicate handling stress on the brain monoamine systems.

Published

2020

10. The Early Immune Response of Lymphoid and Myeloid Head-Kidney Cells of Rainbow Trout (Oncorhynchus mykiss) Stimulated with Aeromonas salmonicida

Author

Fabio Sarais, Ruth Montero, Sven Ostermann, Alexander Rebl, Bernd Köllner, and Tom Goldammer

Subjects

Aeromonas, NF-κB, myeloid, inflammatory, innate immune response, rainbow trout, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

The teleost head kidney is a highly relevant immune organ, and myeloid cells play a major role in this organ’s innate and adaptive immune responses. Because of their complexity, the early phases of the innate immune reaction of fish against bacteria are still poorly understood. In this study, naïve rainbow trout were stimulated with inactivated A. salmonicida and sampled at 12 h, 24 h and 7 d poststimulation. Cells from the head kidney were magnetically sorted with a monoclonal antibody mAB21 to obtain one (MAb21-positive) fraction enriched with myeloid cells and one (MAb21-negative) fraction enriched with lymphocytes and thrombocytes. The gene expression pattern of the resulting cell subpopulations was analysed using a panel of 43 immune-related genes. The results show an overall downregulation of the complement pathway and cytokine production at the considered time points. Some of the selected genes may be considered as parameters for diagnosing bacterial furunculosis of rainbow trout.

Published

2022

11. Comprehensive Characterization of Multitissue Expression Landscape, Co-Expression Networks and Positive Selection in Pikeperch

Author

Julien Alban Nguinkal, Marieke Verleih, Lidia de los Ríos-Pérez, Ronald Marco Brunner, Arne Sahm, Saptarshi Bej, Alexander Rebl, and Tom Goldammer

Subjects

RNA-Seq, tissue-specificity, positive selection, fish transcriptomics, co-expression, Cytology, QH573-671

Abstract

Promising efforts are ongoing to extend genomics resources for pikeperch (Sander lucioperca), a species of high interest for the sustainable European aquaculture sector. Although previous work, including reference genome assembly, transcriptome sequence, and single-nucleotide polymorphism genotyping, added a great wealth of genomic tools, a comprehensive characterization of gene expression across major tissues in pikeperch still remains an unmet research need. Here, we used deep RNA-Sequencing of ten vital tissues collected in eight animals to build a high-confident and annotated transcriptome atlas, to detect the tissue-specificity of gene expression and co-expression network modules, and to investigate genome-wide selective signatures in the Percidae fish family. Pathway enrichment and protein–protein interaction network analyses were performed to characterize the unique biological functions of tissue-specific genes and co-expression modules. We detected strong functional correlations and similarities of tissues with respect to their expression patterns—but also significant differences in the complexity and composition of their transcriptomes. Moreover, functional analyses revealed that tissue-specific genes essentially play key roles in the specific physiological functions of the respective tissues. Identified network modules were also functionally coherent with tissues’ main physiological functions. Although tissue specificity was not associated with positive selection, several genes under selection were found to be involved in hypoxia, immunity, and gene regulation processes, that are crucial for fish adaption and welfare. Overall, these new resources and insights will not only enhance the understanding of mechanisms of organ biology in pikeperch, but also complement the amount of genomic resources for this commercial species.

Published

2021

12. Effects of Chronic Hypoxia on the Immune Status of Pikeperch (Sander lucioperca Linnaeus, 1758)

Author

Nadine Schäfer, Jan Matoušek, Alexander Rebl, Vlastimil Stejskal, Ronald M. Brunner, Tom Goldammer, Marieke Verleih, and Tomáš Korytář

Subjects

pikeperch, hypoxia, intraperitoneal stimulation, immune response, stress response, Aeromonas hydrophila, Biology (General), QH301-705.5

Abstract

Inadequate oxygen saturation can induce stress responses in fish and further affect their immunity. Pikeperch, recently introduced in intensive aquaculture, is suggested to be reared at nearly 100% DO (dissolved oxygen), yet this recommendation can be compromised by several factors including the water temperature, stocking densities or low circulation. Herein, we aimed to investigate the effect of low oxygen saturation of 40% DO (±3.2 mg/L) over 28 days on pikeperch farmed in recirculating aquaculture systems. The obtained data suggest that—although the standard blood and health parameters did not reveal any significant differences at any timepoint—the flow cytometric analysis identified a slightly decreased proportion of lymphocytes in the HK (head kidney) of fish exposed to hypoxia. This has been complemented by marginally downregulated expression of investigated immune and stress genes in HK and liver (including FTH1, HIF1A and NR3C1). Additionally, in the model of acute peritoneal inflammation induced with inactivated Aeromonas hydrophila, we observed a striking dichotomy in the sensitivity to the low DO between innate and adaptive immunity. Thus, while the mobilization of myeloid cells from HK to blood, spleen and peritoneal cavity, underlined by changes in the expression of key proinflammatory cytokines (including MPO, IL1B and TNF) was not influenced by the low DO, hypoxia impaired the influx of lymphocytes to the peritoneal niche in the later phases of the immune reaction. Taken together, our data suggest high robustness of pikeperch towards the low oxygen saturation and further encourage its introduction to the intensive aquaculture systems.

Published

2021

13. Functional Annotation of All Salmonid Genomes (FAASG): an international initiative supporting future salmonid research, conservation and aquaculture

Author

Daniel J. Macqueen, Craig R. Primmer, Ross D. Houston, Barbara F. Nowak, Louis Bernatchez, Steinar Bergseth, William S. Davidson, Cristian Gallardo-Escárate, Tom Goldammer, Yann Guiguen, Patricia Iturra, James W. Kijas, Ben F. Koop, Sigbjørn Lien, Alejandro Maass, Samuel A. M. Martin, Philip McGinnity, Martin Montecino, Kerry A. Naish, Krista M. Nichols, Kristinn Ólafsson, Stig W. Omholt, Yniv Palti, Graham S. Plastow, Caird E. Rexroad, Matthew L. Rise, Rachael J. Ritchie, Simen R. Sandve, Patricia M. Schulte, Alfredo Tello, Rodrigo Vidal, Jon Olav Vik, Anna Wargelius, José Manuel Yáñez, and The FAASG Consortium

Subjects

Salmonid fish, Genome biology, Functional annotation, Comparative biology, Standardized data and metadata, Data sharing, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract We describe an emerging initiative - the ‘Functional Annotation of All Salmonid Genomes’ (FAASG), which will leverage the extensive trait diversity that has evolved since a whole genome duplication event in the salmonid ancestor, to develop an integrative understanding of the functional genomic basis of phenotypic variation. The outcomes of FAASG will have diverse applications, ranging from improved understanding of genome evolution, to improving the efficiency and sustainability of aquaculture production, supporting the future of fundamental and applied research in an iconic fish lineage of major societal importance.

Published

2017

14. At Least Two Genes Encode Many Variants of Irak3 in Rainbow Trout, but Neither the Full-Length Factor Nor Its Variants Interfere Directly With the TLR-Mediated Stimulation of Inflammation

Author

Alexander Rebl, Henrike Rebl, Marieke Verleih, Stephanie Haupt, Judith M. Köbis, Tom Goldammer, and Hans-Martin Seyfert

Subjects

CHSE-214, GFP expression plasmid, IRAK-3, salmonid fishes, Toll-like receptor signaling, Immunologic diseases. Allergy, RC581-607

Abstract

The interleukin-1-receptor-associated kinase 3 (IRAK3) is known in mammals as a negative feedback regulator of NF-κB-mediated innate-immune mechanisms. Our RNA-seq experiments revealed a prototypic 1920-nt sequence encoding irak3 from rainbow trout (Oncorhynchus mykiss), as well as 20 variants that vary in length and nucleotide composition. Based on the DNA-sequence information from two closely related irak3 genes from rainbow trout and an irak3-sequence fragment from Atlantic salmon retrieved from public databases, we elucidated the underlying genetic causes for this striking irak3 diversity. Infecting rainbow trout with a lethal dose of Aeromonas salmonicida enhanced the expression of all variants in the liver, head kidney, and peripheral blood leucocytes. We analyzed the functional impact of the full-length factor and selected structural variants by overexpressing them in mammalian HEK-293 cells. The full-length factor enhanced the basal activity of NF-κB, but did not dampen the TLR2-signaling-induced levels of NF-κB activation. Increasing the basal NF-κB-activity through Irak3 apparently does not involve its C-terminal domain. However, more severely truncated factors had only a minor impact on the activity of NF-κB. The TLR2-mediated stimulation did not alter the spatial distribution of Irak3 inside the cells. In salmonid CHSE-214 cells, we observed that the Irak3-splice variant that prominently expresses the C-terminal domain significantly quenched the stimulation-dependent production of interleukin-1β and interleukin-8, but not the production of other immune regulators. We conclude that the different gene and splice variants of Irak3 from trout play distinct roles in the activation of immune-regulatory mechanisms.

Published

2019

15. Integrative Cluster Analysis of Whole Hearts Reveals Proliferative Cardiomyocytes in Adult Mice

Author

Anne-Marie Galow, Markus Wolfien, Paula Müller, Madeleine Bartsch, Ronald M. Brunner, Andreas Hoeflich, Olaf Wolkenhauer, Robert David, and Tom Goldammer

Subjects

single-cell RNA-Seq, single-nucleus RNA-Seq, harmony, cytokinesis, proliferation, heart regeneration, Cytology, QH573-671

Abstract

The recent development and broad application of sequencing techniques at the single-cell level is generating an unprecedented amount of data. The different techniques have their individual limits, but the datasets also offer unexpected possibilities when utilized collectively. Here, we applied snRNA-seq in whole adult murine hearts from an inbred (C57BL/6NRj) and an outbred (Fzt:DU) mouse strain to directly compare the data with the publicly available scRNA-seq data of the tabula muris project. Explicitly choosing a single-nucleus approach allowed us to pin down the typical heart tissue-specific technical bias, coming up with novel insights on the mammalian heart cell composition. For our integrated dataset, cardiomyocytes, fibroblasts, and endothelial cells constituted the three main cell populations accounting for about 75% of all cells. However, their numbers severely differed between the individual datasets, with cardiomyocyte proportions ranging from about 9% in the tabula muris data to around 23% for our BL6 data, representing the prime example for cell capture technique related bias when using a conventional single-cell approach for these large cells. Most strikingly in our comparison was the discovery of a minor population of cardiomyocytes characterized by proliferation markers that could not be identified by analyzing the datasets individually. It is now widely accepted that the heart has an, albeit very restricted, regenerative potential. However there is still an ongoing debate where new cardiomyocytes arise from. Our findings support the idea that the renewal of the cardiomyocyte pool is driven by cytokinesis of resident cardiomyocytes rather than differentiation of progenitor cells. We thus provide data that can contribute to an understanding of heart cell regeneration, which is a prerequisite for future applications to enhance the process of heart repair.

Published

2020

16. Single-Nucleus Sequencing of an Entire Mammalian Heart: Cell Type Composition and Velocity

Author

Markus Wolfien, Anne-Marie Galow, Paula Müller, Madeleine Bartsch, Ronald M. Brunner, Tom Goldammer, Olaf Wolkenhauer, Andreas Hoeflich, and Robert David

Subjects

snrna-seq, rna velocity, cluster analysis, cardiomyocytes, seurat, Cytology, QH573-671

Abstract

Analyses on the cellular level are indispensable to expand our understanding of complex tissues like the mammalian heart. Single-nucleus sequencing (snRNA-seq) allows for the exploration of cellular composition and cell features without major hurdles of single-cell sequencing. We used snRNA-seq to investigate for the first time an entire adult mammalian heart. Single-nucleus quantification and clustering led to an accurate representation of cell types, revealing 24 distinct clusters with endothelial cells (28.8%), fibroblasts (25.3%), and cardiomyocytes (22.8%) constituting the major cell populations. An additional RNA velocity analysis allowed us to study transcription kinetics and was utilized to visualize the transitions between mature and nascent cellular states of the cell types. We identified subgroups of cardiomyocytes with distinct marker profiles. For example, the expression of Hand2os1 distinguished immature cardiomyocytes from differentiated cardiomyocyte populations. Moreover, we found a cell population that comprises endothelial markers as well as markers clearly related to cardiomyocyte function. Our velocity data support the idea that this population is in a trans-differentiation process from an endothelial cell-like phenotype towards a cardiomyocyte-like phenotype. In summary, we present the first report of sequencing an entire adult mammalian heart, providing realistic cell-type distributions combined with RNA velocity kinetics hinting at interrelations.

Published

2020

17. Gradual and Acute Temperature Rise Induces Crossing Endocrine, Metabolic, and Immunological Pathways in Maraena Whitefish (Coregonus maraena)

Author

Alexander Rebl, Marieke Verleih, Mareen Nipkow, Simone Altmann, Ralf Bochert, and Tom Goldammer

Subjects

aquaculture, DE genes, salmonid fish, transcriptome, temperature challenge, welfare, Genetics, QH426-470

Abstract

The complex and still poorly understood nature of thermoregulation in various fish species complicates the determination of the physiological status on the basis of diagnostic marker genes and indicative molecular pathways. The present study aimed to compare the physiological impacts of both gradual and acute temperature rise from 18 to 24°C on maraena whitefish in aquaculture. Microarray-based transcriptome profiles in the liver, spleen and kidney of heat-stressed maraena whitefish revealed the modulation of a significantly higher number of genes in those groups exposed to gradually rising temperatures compared with the acutely stressed groups, which might reflect early adaptation mechanisms. Moreover, we suggest a common set of 11 differentially expressed genes that indicate thermal stress induced by gradual or acute temperature rise in the three selected tissues. Besides the two pathways regulated in both data sets unfolded protein response and aldosterone signaling in epithelial cells, we identified unique tissue- and stress type-specific pathways reflecting the crossroads between signal transduction, metabolic and immunologic pathways to cope with thermal stress. In addition, comparing lists of differentially regulated genes with meta-analyzed published data sets revealed that “acute temperature rise”-responding genes that encode members of the HSP70, HSP90, and HSP40 families; their functional homologs; co-chaperones and stress-signal transducers are well-conserved across different species, tissues and/or cell types and experimental approaches.

Published

2018

18. Dawn to Dusk: Diurnal Rhythm of the Immune Response in Rainbow Trout (Oncorhynchus Mykiss)

Author

Ruth Montero, Joanna Ewa Strzelczyk, Justin Tze Ho Chan, Marieke Verleih, Alexander Rebl, Tom Goldammer, Bernd Köllner, and Tomáš Korytář

Subjects

diurnal rhythm, blood composition, myeloid cells, phagocytic cells, chronoimmunology, Biology (General), QH301-705.5

Abstract

The daily change of light and dark periods influences different physiological processes including feeding, resting and locomotor activity. Previously, several studies on mammalian models revealed a strong link between day-night rhythms and key immunological parameters. Since teleost fishes possess innate and adaptive immune responses like those observed in higher vertebrates, we aimed to elucidate how changes in light-dark cycles shape the immune system of fish. Using the rainbow trout laboratory model, we investigated the link between diurnal rhythms and immune competence of fish. Initially, the cell composition and phagocytic activity of leukocytes was analyzed in the circulation as well as in the head kidney, the functional ortholog of mammalian bone marrow. Once the baseline was established, we evaluated the ability of fish to respond to a bacterial stimulus, as well as the changes in antimicrobial activity of the serum. Our results suggest increased immune competence during the day, manifested by the higher presence of myeloid cells in the circulation; increased overall phagocytic activity; and higher capacity of the sera to inhibit the growth of Aeromonas salmonicida. Notably, our flow cytometric analysis identified the myeloid cells as the major population influenced by the time of day, whereas IgM+ B cells and thrombocytes did not vary in a significant manner. Interestingly, the presence of myeloid cells in blood and head kidney followed complementary trends. Thus, while we observed the highest number of myeloid cells in the blood during early morning, we witnessed a reverse trend in the head kidney, suggesting a homing of myeloid cells to reservoir niches with the onset of the dark phase. Further, the presence of myeloid cells was mirrored in the expression of the proinflammatory marker tnfa as well as in the number of leukocytes recruited to the peritoneal cavity in the peritonitis model of inflammation. Overall, the data suggest a connection between diurnal rhythms and the immune response of rainbow trout and highlight the relevance of rhythmicity and its influence on experimental work in the field of fish chronoimmunology.

Published

2019

19. Aeromonas salmonicida Infection Only Moderately Regulates Expression of Factors Contributing to Toll-Like Receptor Signaling but Massively Activates the Cellular and Humoral Branches of Innate Immunity in Rainbow Trout (Oncorhynchus mykiss)

Author

Andreas Brietzke, Tomáš Korytář, Joanna Jaros, Bernd Köllner, Tom Goldammer, Hans-Martin Seyfert, and Alexander Rebl

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Toll-like receptors (TLRs) are known to detect a defined spectrum of microbial structures. However, the knowledge about the specificity of teleost Tlr factors for distinct pathogens is limited so far. We measured baseline expression profiles of 18 tlr genes and associated signaling factors in four immune-relevant tissues of rainbow trout Oncorhynchus mykiss. Intraperitoneal injection of a lethal dose of Aeromonas salmonicida subsp. salmonicida induced highly increased levels of cytokine mRNAs during a 72-hour postinfection (hpi) period. In contrast, only the fish-specific tlr22a2 and the downstream factor irak1 featured clearly increased transcript levels, while the mRNA concentrations of many other tlr genes decreased. Flow cytometry quantified cell trafficking after infection indicating a dramatic influx of myeloid cells into the peritoneum and a belated low level immigration of lymphoid cells. T and B lymphocytes were differentiated with RT-qPCR revealing that B lymphocytes emigrated from and T lymphocytes immigrated into head kidney. In conclusion, no specific TLR can be singled out as a dominant receptor for A. salmonicida. The recruitment of cellular factors of innate immunity rather than induced expression of pathogen receptors is hence of key importance for mounting a first immune defense against invading A. salmonicida.

Published

2015

20. Lost and Found: The Family of NF-κB Inhibitors Is Larger than Assumed in Salmonid Fish

Author

Rebl, Doret R. van Muilekom, Bertrand Collet, Henrike Rebl, Kristina Zlatina, Fabio Sarais, Tom Goldammer, and Alexander

Subjects

IκB, innate immunity, immune regulation, NF-κB, nfkbia, nfkbie

Abstract

NF-κB signalling is largely controlled by the family of ‘inhibitors of NF-κB’ (IκB). The relevant databases indicate that the genome of rainbow trout contains multiple gene copies coding for iκbα (nfkbia), iκbε (nfkbie), iκbδ (nkfbid), iκbζ (nfkbiz), and bcl3, but it lacks iκbβ (nfkbib) and iκbη (ankrd42). Strikingly, three nfkbia paralogs are apparently present in salmonid fish, two of which share a high sequence identity, while the third putative nfkbia gene is significantly less like its two paralogs. This particular nfkbia gene product, iκbα, clusters with the human IκBβ in a phylogenetic analysis, while the other two iκbα proteins from trout associate with their human IκBα counterpart. The transcript concentrations were significantly higher for the structurally more closely related nfkbia paralogs than for the structurally less similar paralog, suggesting that iκbβ probably has not been lost from the salmonid genomes but has been incorrectly designated as iκbα. In the present study, two gene variants coding for iκbα (nfkbia) and iκbε (nfkbie) were prominently expressed in the immune tissues and, particularly, in a cell fraction enriched with granulocytes, monocytes/macrophages, and dendritic cells from the head kidney of rainbow trout. Stimulation of salmonid CHSE-214 cells with zymosan significantly upregulated the iκbα-encoding gene while elevating the copy numbers of the inflammatory markers interleukin-1-beta and interleukin-8. Overexpression of iκbα and iκbε in CHSE-214 cells dose-dependently quenched both the basal and stimulated activity of an NF-κB promoter suggesting their involvement in immune-regulatory processes. This study provides the first functional data on iκbε—versus the well-researched iκbα factor—in a non-mammalian model species.

Published

2023

21. Haplotype-resolved telomere-to-telomere assembly of the African catfish (Clarias gariepinus) provides insights for semi-terrestrial adaptation of airbreathing catfishes

Author

Julien A. Nguinkal, Yedomon A. B. Zoclanclounon, Ronald M. Brunner, and Tom Goldammer

Abstract

Airbreathing catfishes (clariids) are a group of stenohaline freshwater fish that can withstand various environmental conditions and farming practices, including the ability to breathe atmospheric oxygen. This unique ability has allowed them to thrive in semi-terrestrial habitats. However, the underlying genomic and adaptive mechanisms remain poorly investigated. Here, we sequenced the genome of the African catfishClarias gariepinus, one of the most commonly farmed clariids, and generated a gapless telomere-to-telomere (T2T) chromosome-level assembly with high-resolution haplotypes, by integrating long-range sequencing (Hi-C) with PacBio single-molecule (HiFi), Oxford Nanopore, and Illumina sequencing data. The diploid genome assembly yielded 58 contigs with a total length of 969.72 Mb and a contig N50 of 33.71 Mb. We report 25,655 predicted protein-coding genes and 49.94% repetitive elements in the African catfish genome. Our genome assembly provides the first comprehensive gene annotation and haplotype information, such as the male-specific haplotype, enabling us to identify putative genes and molecular mechanisms underlying amphibious traits and terrestrial adaptation of airbreathing catfishes. Several gene families involved in ion transport, osmoregulation, oxidative stress response, and muscle metabolism were expanded or positively selected in clariids, suggesting a potential role in their transition to terrestrial life. The reported findings expand our understanding of the genomic mechanisms underpinning the resilience and adaptive mechanisms ofC. gariepinusto adverse ecological conditions. They will serve as a valuable resource for future studies in elucidating these unique biological traits in related teleosts and leverage these insights for aquaculture improvement.

Published

2023

22. Insights into early ontogenesis: characterization of stress and development key genes of pikeperch (Sander lucioperca) in vivo and in vitro

Author

Bianka Grunow, Alexander Rebl, Marieke Verleih, George P. Franz, Nadine Schäfer, Ronald M. Brunner, Henrike Rebl, Yagmur Kaya, Marcus Stüeken, Julien Alban Nguinkal, and Tom Goldammer

Subjects

Fish Proteins, Embryo, Nonmammalian, Physiology, Ontogeny, Cell Culture Techniques, Embryonic Development, Aquaculture, Aquatic Science, Biology, Bone morphogenetic protein, Biochemistry, Article, 03 medical and health sciences, 0302 clinical medicine, Transcription (biology), Animal welfare, Stress, Physiological, medicine, Animals, Pikeperch, Yolk sac, Fish cell line, Receptor, Gene, Cells, Cultured, 030304 developmental biology, 0303 health sciences, Stress response, Gene Expression Regulation, Developmental, Embryo, General Medicine, Cell biology, Perciformes, Bone morphogenetic protein 7, medicine.anatomical_structure, Early ontogenesis, Transcriptome, 030217 neurology & neurosurgery

Abstract

There are still numerous difficulties in the successful farming of pikeperch in the anthropogenic environment of various aquaculture systems, especially during early developmental steps in the hatchery. To investigate the physiological processes involved on the molecular level, we determined the basal expression patterns of 21 genes involved in stress and immune responses and early ontogenesis of pikeperch between 0 and 175 days post hatch (dph). Their transcription patterns most likely reflect the challenges of growth and feed conversion. The gene coding for apolipoprotein A (APOE) was strongly expressed at 0 dph, indicating its importance for yolk sac utilization. Genes encoding bone morphogenetic proteins 4 and 7 (BMP4,BMP7), creatine kinase M (CKM), and SRY-box transcription factor 9 (SOX9) were highly abundant during the peak phases of morphological changes and acclimatization processes at 4–18 dph. The high expression of genes coding for peroxisome proliferator-activated receptors alpha and delta (PPARA,PPARD) at 121 and 175 dph, respectively, suggests their importance during this strong growth phase of juvenile stages. As an alternative experimental model to replace further in vivo investigations of ontogenetically important processes, we initiated the first approach towards a long-lasting primary cell culture from whole pikeperch embryos. The present study provides a set of possible biomarkers to support the monitoring of pikeperch farming and provides a first basis for the establishment of a suitable cell model of this emerging aquaculture species.

Published

2021

23. Characterisation of the teleostean κB-Ras family: The two members NKIRAS1 and NKIRAS2 from rainbow trout influence the activity of NF-κB in opposite ways

Author

Alexander Rebl, Marieke Verleih, Fabio Sarais, Henrike Rebl, Sven Ostermann, Aleksei Krasnov, Bernd Köllner, and Tom Goldammer

Subjects

Fish Proteins, 0301 basic medicine, Protein subunit, Population, Aeromonas salmonicida, Aquatic Science, Biology, Cell Line, Fish Diseases, 03 medical and health sciences, Transcription (biology), Animals, Environmental Chemistry, education, Gene, Transcription factor, education.field_of_study, NF-kappa B, 04 agricultural and veterinary sciences, General Medicine, Cell biology, 030104 developmental biology, Cytoplasm, Oncorhynchus mykiss, RNA splicing, 040102 fisheries, Cytokines, 0401 agriculture, forestry, and fisheries, Rainbow trout, Carrier Proteins, Gram-Negative Bacterial Infections

Abstract

Two structurally similar NF-κB-inhibitor-interacting Ras-like proteins (NKIRAS) regulate the activity of the transcription factor NF-κB and thereby control several early immune mechanisms in mammals. We identified the orthologous sequences of NKIRAS1 and NKIRAS2 from the rainbow trout Oncorhynchus mykiss. The level of sequence identity was similarly high (≥68%) between the two and in comparison to their mammalian counterparts. Strikingly, NKIRAS2 was present as four transcript variants. These variants differed only in length and in the nucleotide composition of their 5’ termini and were most likely generated by splicing along unconventional splice sites. The shortest NKIRAS2 variant was most strongly expressed in a lymphocyte-enriched population, while NKIRAS1 was most strongly expressed in cells of myeloid origin. Fluorescent-labelled NKIRAS1 and NKIRAS2 proteins from rainbow trout were detected in close association with the p65 subunit of NF-κB in the nucleus and cytoplasm of CHSE-214 cells. Subsequent reporter-gene experiments revealed that NKIRAS1 and a longer NKIRAS2 variant in rainbow trout decreased the level of activated NF-κB, while the two shortest NKIRAS2 variants increased the NF-κB activity. In addition, the overexpression of the shortest NKIRAS2 variant in CHSE-214 cells induced a stronger transcription of the genes encoding the pro-inflammatory cytokines TNF, CXCL8, and IL1B compared to non-transfected control cells. This is the first characterisation of NKIRAS orthologues in bony fish and provides additional information to the as yet underexplored inhibition pathways of NF-κB in lower vertebrates.

Published

2020

24. Early response of salmonid head-kidney cells to stress hormones and toll-like receptor ligands

Author

Ulrike Gimsa, Torsten Viergutz, Alexander Rebl, Raphael Koll, Mareen Nipkow, Ralf Bochert, Joan Martorell Ribera, Tom Goldammer, and Ronald M. Brunner

Subjects

Fish Proteins, 0301 basic medicine, Epinephrine, Hydrocortisone, Adrenergic, Aeromonas salmonicida, Aquatic Science, Ligands, Coregonus maraena, Fish Diseases, Norepinephrine, 03 medical and health sciences, Glucocorticoid receptor, Immune system, Animals, Environmental Chemistry, Receptor, Cells, Cultured, Toll-like receptor, biology, Pathogen-Associated Molecular Pattern Molecules, Toll-Like Receptors, 04 agricultural and veterinary sciences, General Medicine, Head Kidney, biology.organism_classification, Immunity, Innate, Cell biology, 030104 developmental biology, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Tumor necrosis factor alpha, Gram-Negative Bacterial Infections, Transcriptome, Salmonidae, Hormone

Abstract

The functional spectrum of the teleostean head kidney covers haematopoietic, immune and endocrine signalling pathways with physiological effects that are likely to conflict if activated at the same time. An in vivo experiment on the salmonid fish maraena whitefish (Coregonus maraena) revealed that the head kidney shows a remarkably strong response after injection of Aeromonas salmonicida within 48 h. In order to investigate the potential influence of endocrine signalling on the initiation of immune responses, we established a primary culture of head-kidney cells of maraena whitefish. For the characterisation of this model system, we used flow cytometry complemented with an extensive panel of immunological/haematological and stress-physiological/neuroendocrinological qPCR assays. More than one third of the cells expressed the characteristic signature of myeloid cells, while more than half of the cells expressed those genes typical for lymphocytes and monocytes. In parallel, we quantified the expression of genes encoding endocrine receptors and identified ADRA2D as by far the most highly expressed adrenergic-receptor gene in head-kidney cells. The stimulation of the head-kidney cells with toll-like receptor ligands induced the expression of typical immune genes (IL1B, CXCL8, TNF, SAA) after only 1 h. The incubation with the stress hormones cortisol, adrenaline and noradrenaline also had an immune-activating effect, though less pronounced. However, cortisol had the strongest suppressive effect on the stimulation-induced immune response, while adrenaline exerted a comparably weaker effect and noradrenaline was almost ineffective. Moreover, we found that cortisol reduced the expression of genes coding for adrenergic and some glucocorticoid receptors, while noradrenaline increased it. In conclusion, the primary head-kidney cells of maraena whitefish reflect the immunological and neuroendocrinological diversity of the entire organ. This in vitro system allowed thus identifying the correlative changes between the activities of hormones and immune factors in salmonid fish in order to contribute to a better understanding of the regulation circuit between stress and immune defence.

Published

2020

25. PIAS Factors from Rainbow Trout Control NF-κB- and STAT-Dependent Gene Expression

Author

Ruth Montero, Tom Goldammer, Alexander Rebl, Fabio Sarais, Bernd Köllner, Sophia Kummerow, Bertrand Collet, and Henrike Rebl

Subjects

Fish Proteins, QH301-705.5, JAK-STAT signalling, CRISPR/Cas9, innate immunity, immune regulation, NF-κB, Catalysis, stat, Article, Inorganic Chemistry, chemistry.chemical_compound, Gene expression, Animals, Biology (General), Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Gene, STAT4, Spectroscopy, Phylogeny, Innate immune system, biology, Organic Chemistry, NF-kappa B, General Medicine, biology.organism_classification, Protein Inhibitors of Activated STAT, Computer Science Applications, Cell biology, Chemistry, Trout, STAT Transcription Factors, chemistry, Gene Expression Regulation, Organ Specificity, Oncorhynchus mykiss, Rainbow trout

Abstract

Four ‘protein inhibitors of activated STAT’ (PIAS) control STAT-dependent and NF-κB-dependent immune signalling in humans. The genome of rainbow trout (Oncorhynchus mykiss) contains eight pias genes, which encode at least 14 different pias transcripts that are differentially expressed in a tissue- and cell-specific manner. Pias1a2 was the most strongly expressed variant among the analysed pias genes in most tissues, while pias4a2 was commonly low or absent. Since the knock-out of Pias factors in salmonid CHSE cells using CRISPR/Cas9 technology failed, three structurally different Pias protein variants were selected for overexpression studies in CHSE-214 cells. All three factors quenched the basal activity of an NF-κB promoter in a dose-dependent fashion, while the activity of an Mx promoter remained unaffected. Nevertheless, all three overexpressed Pias variants from trout strongly reduced the transcript level of the antiviral Stat-dependent mx gene in ifnγ-expressing CHSE-214 cells. Unlike mx, the overexpressed Pias factors modulated the transcript levels of NF-κB-dependent immune genes (mainly il6, il10, ifna3, and stat4) in ifnγ-expressing CHSE-214 cells in different ways. This dissimilar modulation of expression may result from the physical cooperation of the Pias proteins from trout with differential sets of interacting factors bound to distinct nuclear structures, as reflected by the differential nuclear localisation of trout Pias factors. In conclusion, this study provides evidence for the multiplication of pias genes and their sub-functionalisation during salmonid evolution.

Published

2021

26. Single nuclei sequencing of entire mammalian hearts: strain-dependent cell-type composition and velocity

Author

Olaf Wolkenhauer, Anne-Marie Galow, Andreas Hoeflich, Madeleine Bartsch, Paula Müller, Tom Goldammer, Markus Wolfien, Ronald M. Brunner, and Robert David

Subjects

Cell nucleus, medicine.anatomical_structure, Strain (chemistry), Cell type composition, Physiology, Chemistry, Physiology (medical), medicine, Cardiology and Cardiovascular Medicine, Cell biology

Published

2020

27. Identification of molecular stress indicators in pikeperch Sander lucioperca correlating with rising water temperatures

Author

Alexander Rebl, Fabian Swirplies, Frieder Hadlich, Axel Orban, Nadine Schäfer, Ronald M. Brunner, Tom Goldammer, Sven Wuertz, and Björn Baßmann

Subjects

Gill, 0303 health sciences, business.industry, Zoology, Aquatic animal, 04 agricultural and veterinary sciences, Ambient water, Aquatic Science, Biology, 03 medical and health sciences, Hypoxia response, Aquaculture, Water temperature, Potential biomarkers, Heat shock protein, 040102 fisheries, 0401 agriculture, forestry, and fisheries, business, 030304 developmental biology

Abstract

Water temperature is doubtlessly one of the most important factors affecting the well-being of fish. For pikeperch Sander lucioperca an ambient water temperature of >20 °C has been suggested to achieve optimal growth in aquaculture farms, although natural habitats of pikeperch seldom reach such temperatures. We used multiplex qPCR arrays to assess the impact of temperature between 15 °C and 25 °C based on the expression of 38 potential biomarker genes characterising heat shock and hypoxia response, immune activation, energy supply and development in the liver and gills of pikeperch. In addition, liquid chromatography/mass spectrometry was used to assess the individual levels of glucocorticoids. Our data revealed that pikeperch do not develop severe responses to ambient temperatures between 15 °C and 25 °C, although specific parameters indicated a phased restriction of optimal conditions, above all the heat-shock genes SERPINH1, HSP90AA1 and HSPA8b; the acute-phase genes HP, C3 and SAA; and the transcription factor-encoding gene HMX1. In contrast to these in vivo observations, a temperature rise up to 37 °C led to an acute response in WF2-Sander cells characterised by the pronounced upregulation of HSP90AA1, HSP1A1, SERPINH1, HSPB1, HSPA8b and HSPB8. This report paves the ground for future assessment studies on the imbalanced homeostasis of pikeperch by means of molecular tools.

Published

2019

28. Quality control in scRNA-Seq can discriminate pacemaker cells: the mtRNA bias

Author

Anne-Marie Galow, Andreas Hoeflich, Ronald M. Brunner, Sophie Kussauer, Robert David, Tom Goldammer, and Markus Wolfien

Subjects

Quality Control, Single-cell RNA-sequencing, Mitochondrial DNA, RNA, Mitochondrial, Cell, Biology, Sinoatrial node, Cellular and Molecular Neuroscience, Mice, Cluster analysis, RNA, Small Cytoplasmic, Exome Sequencing, medicine, Animals, Humans, Myocytes, Cardiac, RNA, Messenger, Mitochondrial transcripts, Molecular Biology, Gene, Process (anatomy), Pharmacology, Cardiomyocytes, Messenger RNA, iSABs, Sequence Analysis, RNA, Gene Expression Profiling, Cell Biology, In vitro, Cell biology, medicine.anatomical_structure, Conduction system, Molecular Medicine, Original Article, Electrical conduction system of the heart, Single-Cell Analysis, Software

Abstract

Single-cell RNA-sequencing (scRNA-seq) provides high-resolution insights into complex tissues. Cardiac tissue, however, poses a major challenge due to the delicate isolation process and the large size of mature cardiomyocytes. Regardless of the experimental technique, captured cells are often impaired and some capture sites may contain multiple or no cells at all. All this refers to “low quality” potentially leading to data misinterpretation. Common standard quality control parameters involve the number of detected genes, transcripts per cell, and the fraction of transcripts from mitochondrial genes. While cutoffs for transcripts and genes per cell are usually user-defined for each experiment or individually calculated, a fixed threshold of 5% mitochondrial transcripts is standard and often set as default in scRNA-seq software. However, this parameter is highly dependent on the tissue type. In the heart, mitochondrial transcripts comprise almost 30% of total mRNA due to high energy demands. Here, we demonstrate that a 5%-threshold not only causes an unacceptable exclusion of cardiomyocytes but also introduces a bias that particularly discriminates pacemaker cells. This effect is apparent for our in vitro generated induced-sinoatrial-bodies (iSABs; highly enriched physiologically functional pacemaker cells), and also evident in a public data set of cells isolated from embryonal murine sinoatrial node tissue (Goodyer William et al. in Circ Res 125:379–397, 2019). Taken together, we recommend omitting this filtering parameter for scRNA-seq in cardiovascular applications whenever possible. Supplementary Information The online version contains supplementary material available at 10.1007/s00018-021-03916-5.

Published

2021

29. An ultra-high density SNP-based linkage map for enhancing the pikeperch (Sander lucioperca) genome assembly to chromosome-scale

Author

Marcus Stüeken, Lidia de los Ríos-Pérez, Alexander Rebl, Julien Alban Nguinkal, Ronald M. Brunner, Marieke Verleih, Nadine Schäfer, Dörte Wittenburg, Tom Goldammer, and Jan Klosa

Subjects

0301 basic medicine, Genetic Linkage, Science, Quantitative Trait Loci, Sequence assembly, Single-nucleotide polymorphism, Computational biology, Biology, Polymorphism, Single Nucleotide, Article, 03 medical and health sciences, Genetic linkage, Animals, Genome size, Genotyping, Genomic organization, Recombination, Genetic, Linkage (software), Genome, Multidisciplinary, Contig, Chromosome Mapping, 04 agricultural and veterinary sciences, Genetic linkage study, 030104 developmental biology, Perches, 040102 fisheries, Genetic markers, Medicine, 0401 agriculture, forestry, and fisheries, Microsatellite Repeats

Abstract

Pikeperch (Sander lucioperca) is a fish species with growing economic significance in the aquaculture industry. However, successful positioning of pikeperch in large-scale aquaculture requires advances in our understanding of its genome organization. In this study, an ultra-high density linkage map for pikeperch comprising 24 linkage groups and 1,023,625 single nucleotide polymorphisms markers was constructed after genotyping whole-genome sequencing data from 11 broodstock and 363 progeny, belonging to 6 full-sib families. The sex-specific linkage maps spanned a total of 2985.16 cM in females and 2540.47 cM in males with an average inter-marker distance of 0.0030 and 0.0026 cM, respectively. The sex-averaged map spanned a total of 2725.53 cM with an average inter-marker distance of 0.0028 cM. Furthermore, the sex-averaged map was used for improving the contiguity and accuracy of the current pikeperch genome assembly. Based on 723,360 markers, 706 contigs were anchored and oriented into 24 pseudomolecules, covering a total of 896.48 Mb and accounting for 99.47% of the assembled genome size. The overall contiguity of the assembly improved with a scaffold N50 length of 41.06 Mb. Finally, an updated annotation of protein-coding genes and repetitive elements of the enhanced genome assembly is provided at NCBI.

Published

2020

30. Xenogeneic and Stem Cell-Based Therapy for Cardiovascular Diseases: Genetic Engineering of Porcine Cells and Their Applications in Heart Regeneration

Author

Anne-Marie Galow, Andreas Hoeflich, and Tom Goldammer

Subjects

0301 basic medicine, triple knockout pigs, Swine, medicine.medical_treatment, Cell, Review, 030204 cardiovascular system & hematology, Bioinformatics, Regenerative Medicine, Regenerative medicine, Cell therapy, lcsh:Chemistry, 0302 clinical medicine, Myocytes, Cardiac, Induced pluripotent stem cell, lcsh:QH301-705.5, Spectroscopy, Stem Cells, General Medicine, Computer Science Applications, medicine.anatomical_structure, myocardial infarction, Cardiovascular Diseases, Stem cell, graft rejection, Genetic Engineering, Xenotransplantation, Transplantation, Heterologous, iPSCs, Catalysis, Inorganic Chemistry, 03 medical and health sciences, CRISPR/Cas, medicine, Animals, Humans, genome editing, Physical and Theoretical Chemistry, cell transplantation, Molecular Biology, mesenchymal stem cells, business.industry, Regeneration (biology), Organic Chemistry, Mesenchymal stem cell, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, business, Stem Cell Transplantation

Abstract

Cardiovascular diseases represent a major health concern worldwide with few therapy options for ischemic injuries due to the limited regeneration potential of affected cardiomyocytes. Innovative cell replacement approaches could facilitate efficient regenerative therapy. However, despite extensive attempts to expand primary human cells in vitro, present technological limitations and the lack of human donors have so far prevented their broad clinical use. Cell xenotransplantation might provide an ethically acceptable unlimited source for cell replacement therapies and bridge the gap between waiting recipients and available donors. Pigs are considered the most suitable candidates as a source for xenogeneic cells and tissues due to their anatomical and physiological similarities with humans. The potential of porcine cells in the field of stem cell-based therapy and regenerative medicine is under intensive investigation. This review outlines the current progress and highlights the most promising approaches in xenogeneic cell therapy with a focus on the cardiovascular system.

Published

2020

31. Characterization of igf1 and igf2 genes during maraena whitefish ( Coregonus maraena ) ontogeny and the effect of temperature on embryogenesis and igf expression

Author

Alexander Rebl, Andreas Hoeflich, Elisa Wirthgen, Peter Luft, Tom Goldammer, and Mareen Nipkow

Subjects

0301 basic medicine, Gill, Muscle tissue, Embryo, Nonmammalian, animal structures, Endocrinology, Diabetes and Metabolism, Ontogeny, Embryonic Development, Sequence Homology, Biology, Coregonus maraena, Andrology, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Insulin-Like Growth Factor II, Gene expression, medicine, Animals, Amino Acid Sequence, Insulin-Like Growth Factor I, Phylogeny, Salmonidae, Hatching, Embryogenesis, Temperature, Gene Expression Regulation, Developmental, biology.organism_classification, 030104 developmental biology, medicine.anatomical_structure, Organ Specificity, 030217 neurology & neurosurgery

Abstract

The insulin-like growth factors IGF-1 and IGF-2 play important roles in the growth, development, and metabolism of teleost fish. We isolated cDNA sequences of igf1, and igf2 genes from maraena whitefish. We quantified the mRNA and protein expressions of IGFs in different tissues of marketable juvenile maraena whitefish. Moreover, we analyzed the gene expression profiles during maraena whitefish development from unfertilized egg to fingerling and examined the effect of incubation temperature on igf1, and igf2 gene expression during embryonic and early larval development. Transcripts encoding IGF-1 or IGF-2 were detected in all tested tissues, with the greatest abundance in the liver. We measured higher igf2 than igf1 copy numbers in all tissues and at all developmental stages examined, even at advanced juvenile stages. Using the Western blot technique, we demonstrated that several isoforms of IGF-1 are expressed in the liver and gills but not in muscle tissue, indicating tissue-specific protein expression of IGF-1. We observed an accelerated embryonic development with increasing temperature, resulting in shortened hatching periods. Out of the three tested temperatures, we observed the highest hatching rate, larval hatching size, and larval growth at 6 °C. At 9 °C, hatching rate, larval hatching size and larval growth were reduced compared to the values we observed at 4 °C and 6 °C, since incubation temperature might have exceeded the optimum. To our knowledge, our data show for the first time that both igf1 and igf2 expression were upregulated due to elevated incubation temperature within embryonic development of fish. Further, we found significantly higher igf expression for the best-developing larvae (6 °C group) at specific life stages of maraena whitefish.

Published

2018

32. Effects of Chronic Hypoxia on the Immune Status of Pikeperch (Sander lucioperca Linnaeus, 1758)

Author

Tomáš Korytář, Ronald M. Brunner, Tom Goldammer, Alexander Rebl, Marieke Verleih, Nadine Schäfer, Vlastimil Stejskal, and Jan Matoušek

Subjects

Aeromonas hydrophila, QH301-705.5, pikeperch, Biology, intraperitoneal stimulation, Article, immune response, General Biochemistry, Genetics and Molecular Biology, Proinflammatory cytokine, Andrology, 03 medical and health sciences, Peritoneal cavity, Immune system, Immunity, medicine, Biology (General), Oxygen saturation, 030304 developmental biology, 0303 health sciences, General Immunology and Microbiology, hypoxia, stress response, 04 agricultural and veterinary sciences, Hypoxia (medical), Acquired immune system, medicine.anatomical_structure, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Tumor necrosis factor alpha, medicine.symptom, General Agricultural and Biological Sciences

Abstract

Simple Summary Inadequate oxygen saturation, or hypoxia, belongs to one of the critical stress factors in intensive aquaculture. Exposure of fish to low oxygen levels over prolonged periods substantially affects their well-being and immune competence, resulting in increased disease susceptibility and consequent economic losses. In this interdisciplinary research, we aimed to provide a deeper understanding of the effect of chronic low oxygen saturation on pikeperch farmed in recirculating aquaculture systems. The obtained data offer unprecedented insights into the changes in the immunocompetence of studied fish and suggest high robustness of this new aquaculture species to the stress factors of intensive aquaculture. Abstract Inadequate oxygen saturation can induce stress responses in fish and further affect their immunity. Pikeperch, recently introduced in intensive aquaculture, is suggested to be reared at nearly 100% DO (dissolved oxygen), yet this recommendation can be compromised by several factors including the water temperature, stocking densities or low circulation. Herein, we aimed to investigate the effect of low oxygen saturation of 40% DO (±3.2 mg/L) over 28 days on pikeperch farmed in recirculating aquaculture systems. The obtained data suggest that—although the standard blood and health parameters did not reveal any significant differences at any timepoint—the flow cytometric analysis identified a slightly decreased proportion of lymphocytes in the HK (head kidney) of fish exposed to hypoxia. This has been complemented by marginally downregulated expression of investigated immune and stress genes in HK and liver (including FTH1, HIF1A and NR3C1). Additionally, in the model of acute peritoneal inflammation induced with inactivated Aeromonas hydrophila, we observed a striking dichotomy in the sensitivity to the low DO between innate and adaptive immunity. Thus, while the mobilization of myeloid cells from HK to blood, spleen and peritoneal cavity, underlined by changes in the expression of key proinflammatory cytokines (including MPO, IL1B and TNF) was not influenced by the low DO, hypoxia impaired the influx of lymphocytes to the peritoneal niche in the later phases of the immune reaction. Taken together, our data suggest high robustness of pikeperch towards the low oxygen saturation and further encourage its introduction to the intensive aquaculture systems.

Published

2021

33. Identification of genes involved in cold-shock response in rainbow trout (Oncorhynchus mykiss)

Author

Andreas Borchel, Marieke Verleih, Alexander Rebl, and Tom Goldammer

Subjects

Fish Proteins, 0301 basic medicine, endocrine system, animal structures, Microarray, animal diseases, Biology, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, 0302 clinical medicine, Gene expression, Genetics, medicine, Animals, Gene, Genetic Association Studies, urogenital system, Cold-Shock Response, FGF1, Cold shock response, Cell biology, Cold Temperature, 030104 developmental biology, Oncorhynchus mykiss, 030220 oncology & carcinogenesis, Shock (circulatory), Rainbow trout, medicine.symptom, GADD45A

Abstract

A rapid decline in temperature poses a major challenge for poikilothermic fish, as their entire metabolism depends on ambient temperature. The gene expression of rainbow trout Oncorhynchus mykiss having undergone such a cold shock (0◦C) was compared to a control (5◦C) in a microarray and quantitative real-time PCR based study. The tissues of gill, kidney and liver were examined. The most differently expressed genes were found in liver, many of them contributing to the network 'cellular compromise, cellular growth and proliferation'.However, the number of genes found to be regulated at 0◦Cwas surprisingly low. Instead of classical genes involved in temperature shock, the three genes encoding fibroblast growth factor 1 (fgf1), growth arrest and DNA-damageinducible, alpha (gadd45a) and sclerostin domain-containing protein 1 (sostdc1) were upregulated in the liver upon cold shock in two different rainbow trout strains, suggesting that these genes may be considered as general biomarkers for cold shock in rainbow trout.

Published

2017

34. Microarray-predicted marker genes and molecular pathways indicating crowding stress in rainbow trout ( Oncorhynchus mykiss )

Author

Alexander Rebl, Manuela Zebunke, Tom Goldammer, Marieke Verleih, Andreas Borchel, and Ralf Bochert

Subjects

0301 basic medicine, medicine.medical_specialty, endocrine system, animal structures, Microarray, Glucose metabolism, Transcriptome, Salmonid fish, Welfare, Glycogenolysis, Stocking density, animal diseases, Aquatic Science, 03 medical and health sciences, Stocking, Internal medicine, medicine, Glucose homeostasis, PI3K/AKT/mTOR pathway, biology, urogenital system, 04 agricultural and veterinary sciences, biology.organism_classification, Protein ubiquitination, Cell biology, Trout, 030104 developmental biology, Endocrinology, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Rainbow trout

Abstract

Stocking density is considered as a key factor determining the productivity of fish aquaculture systems. The transcriptomic response to crowding stress is, however, still poorly investigated. We aimed to identify potential biomarker genes via microarray analyses to gain insight into molecular pathways modulated by density-induced stress in farmed rainbow trout Oncorhynchus mykiss. Transcriptome profiling in the liver, kidney, and gills was complemented by analysis of classical plasma parameters and behavioural observations. Individuals of two trout strains were exposed for nine days to definite stocking densities, ~ 10 kg/m3 (low density); ~ 30 kg/m3 (moderate); ~ 60 kg/m3 (elevated); and ~ 120 kg/m3 (high). Only the PYGMA gene, encoding the key enzyme of glycogenolysis, was upregulated in gills and kidney, while about 90 genes were differentially regulated in the liver of trout exposed to high density compared with the moderate-density group. Pathway enrichment analyses predicted the upregulation of HIF1A signalling in liver, contributing to glucose homeostasis during stress conditions. This is consistent with the increased plasma glucose levels detected in crowding-stressed trout. The mTOR and PI3K/AKT signalling pathways were impaired in liver at higher stocking densities indicating stress at the cellular level. Contrary to our expectations, protein ubiquitination and cholesterol biosynthesis pathways were found to be underexpressed. Cholesterol is a precursor of the stress hormone cortisol, whose plasma concentrations were indeed within the normal physiological range in all treatment groups. In addition, we did not observe any aggressive interactions, which are known to be triggered through cortisol release. Taken together, we identified a relatively modest number of rainbow trout-specific crowding markers suggesting that farmed rainbow trout have gained enhanced stress-tolerant phenotypes through decades of selective breeding. Statement of relevance The comprehensive recording of animal-based biomarkers is becoming increasingly important for the further development of the aquaculture industry with importance for fish well-being and consumer opinion. Previous studies on crowding stress in rainbow trout have used single or multi-gene approaches to assess the relevance of putative biomarkers, but transcriptomic approaches to define crowding stress-induced pathways in salmonids are overdue. The present study compares the transcriptomic profiles of rainbow trout exposed to different stocking densities and correlates these data sets with classical plasma parameters and behavioural observations.

Published

2017

35. Gene Profiling in the Adipose Fin of Salmonid Fishes Supports its Function as a Flow Sensor

Author

Ronald M. Brunner, Raphael Koll, Tom Goldammer, Alexander Rebl, and Joan Martorell Ribera

Subjects

0301 basic medicine, lcsh:QH426-470, Animal Welfare, Article, Coregonus maraena, 03 medical and health sciences, 0302 clinical medicine, salmonids, Genetics, medicine, Animals, mechanoreceptors, Receptor, Gene, Genetics (clinical), Adiposity, Skin, Head Kidney, biology, Fish fin, oncorhynchus mykiss, adipose fin, biology.organism_classification, innervation, Cell biology, lcsh:Genetics, welfare, 030104 developmental biology, medicine.anatomical_structure, Fish anatomy, Liver, fin-clipping, Oncorhynchus mykiss, Animal Fins, Rainbow trout, Neuron, Transcriptome, coregonus maraena, 030217 neurology & neurosurgery, Salmonidae

Abstract

In stock enhancement and sea-ranching procedures, the adipose fin of hundreds of millions of salmonids is removed for marking purposes annually. However, recent studies proved the significance of the adipose fin as a flow sensor and attraction feature. In the present study, we profiled the specific expression of 20 neuron- and glial cell-marker genes in the adipose fin and seven other tissues (including dorsal and pectoral fin, brain, skin, muscle, head kidney, and liver) of the salmonid species rainbow trout Oncorhynchus mykiss and maraena whitefish Coregonus maraena. Moreover, we measured the transcript abundance of genes coding for 15 mechanoreceptive channel proteins from a variety of mechanoreceptors known in vertebrates. The overall expression patterns indicate the presence of the entire repertoire of neurons, glial cells and receptor proteins on the RNA level. This quantification suggests that the adipose fin contains considerable amounts of small nerve fibers with unmyelinated or slightly myelinated axons and most likely mechanoreceptive potential. The findings are consistent for both rainbow trout and maraena whitefish and support a previous hypothesis about the innervation and potential flow sensory function of the adipose fin. Moreover, our data suggest that the resection of the adipose fin has a stronger impact on the welfare of salmonid fish than previously assumed.

Published

2019

36. Single-Nucleus Sequencing of an Entire Mammalian Heart: Cell Type Composition and Velocity

Author

Markus Wolfien, Anne-Marie Galow, Paula Müller, Madeleine Bartsch, Ronald M. Brunner, Tom Goldammer, Olaf Wolkenhauer, Andreas Hoeflich, and Robert David

Subjects

Cell Nucleus, Male, Mammals, Myocardium, Communication, snRNA-seq, cardiomyocytes, RNA velocity, Mice, seurat, lcsh:Biology (General), Gene Expression Regulation, Animals, Single-Cell Analysis, Transcriptome, lcsh:QH301-705.5, Biomarkers, cluster analysis

Abstract

Analyses on the cellular level are indispensable to expand our understanding of complex tissues like the mammalian heart. Single-nucleus sequencing (snRNA-seq) allows for the exploration of cellular composition and cell features without major hurdles of single-cell sequencing. We used snRNA-seq to investigate for the first time an entire adult mammalian heart. Single-nucleus quantification and clustering led to an accurate representation of cell types, revealing 24 distinct clusters with endothelial cells (28.8%), fibroblasts (25.3%), and cardiomyocytes (22.8%) constituting the major cell populations. An additional RNA velocity analysis allowed us to study transcription kinetics and was utilized to visualize the transitions between mature and nascent cellular states of the cell types. We identified subgroups of cardiomyocytes with distinct marker profiles. For example, the expression of Hand2os1 distinguished immature cardiomyocytes from differentiated cardiomyocyte populations. Moreover, we found a cell population that comprises endothelial markers as well as markers clearly related to cardiomyocyte function. Our velocity data support the idea that this population is in a trans-differentiation process from an endothelial cell-like phenotype towards a cardiomyocyte-like phenotype. In summary, we present the first report of sequencing an entire adult mammalian heart, providing realistic cell-type distributions combined with RNA velocity kinetics hinting at interrelations.

Published

2019

37. At Least Two Genes Encode Many Variants of Irak3 in Rainbow Trout, but Neither the Full-Length Factor Nor Its Variants Interfere Directly With the TLR-Mediated Stimulation of Inflammation

Author

Hans-Martin Seyfert, Marieke Verleih, Alexander Rebl, Henrike Rebl, Stephanie Haupt, Judith M. Köbis, and Tom Goldammer

Subjects

Fish Proteins, lcsh:Immunologic diseases. Allergy, 0301 basic medicine, animal diseases, Interleukin-1beta, Immunology, GFP expression plasmid, IRAK-3, Inflammation, Stimulation, Cell Line, 03 medical and health sciences, salmonid fishes, 0302 clinical medicine, Gene duplication, medicine, Animals, Humans, Immunology and Allergy, Gene, Original Research, biology, Kinase, Interleukin-8, NF-kappa B, Genetic Variation, Toll-like receptor signaling, CHSE-214, biology.organism_classification, Toll-Like Receptor 2, Cell biology, Trout, Aeromonas salmonicida, HEK293 Cells, Interleukin-1 Receptor-Associated Kinases, 030104 developmental biology, Gene Expression Regulation, Oncorhynchus mykiss, Rainbow trout, medicine.symptom, lcsh:RC581-607, Signal Transduction, 030215 immunology

Abstract

The interleukin-1-receptor-associated kinase 3 (IRAK3) is known in mammals as a negative feedback regulator of NF-κB-mediated innate-immune mechanisms. Our RNA-seq experiments revealed a prototypic 1920-nt sequence encoding irak3 from rainbow trout (Oncorhynchus mykiss), as well as 20 variants that vary in length and nucleotide composition. Based on the DNA-sequence information from two closely related irak3 genes from rainbow trout and an irak3-sequence fragment from Atlantic salmon retrieved from public databases, we elucidated the underlying genetic causes for this striking irak3 diversity. Infecting rainbow trout with a lethal dose of Aeromonas salmonicida enhanced the expression of all variants in the liver, head kidney, and peripheral blood leucocytes. We analyzed the functional impact of the full-length factor and selected structural variants by overexpressing them in mammalian HEK-293 cells. The full-length factor enhanced the basal activity of NF-κB, but did not dampen the TLR2-signaling-induced levels of NF-κB activation. Increasing the basal NF-κB-activity through Irak3 apparently does not involve its C-terminal domain. However, more severely truncated factors had only a minor impact on the activity of NF-κB. The TLR2-mediated stimulation did not alter the spatial distribution of Irak3 inside the cells. In salmonid CHSE-214 cells, we observed that the Irak3-splice variant that prominently expresses the C-terminal domain significantly quenched the stimulation-dependent production of interleukin-1β and interleukin-8, but not the production of other immune regulators. We conclude that the different gene and splice variants of Irak3 from trout play distinct roles in the activation of immune-regulatory mechanisms.

Published

2019

38. The First Highly Contiguous Genome Assembly of Pikeperch (Sander lucioperca), an Emerging Aquaculture Species in Europe

Author

Dörte Wittenburg, Marieke Verleih, Tom Goldammer, Lidia de los Ríos-Pérez, Alexander Rebl, Ronald M. Brunner, Nadine Schäfer, Julien Alban Nguinkal, Frieder Hadlich, and Marcus Stüeken

Subjects

Fish Proteins, 0106 biological sciences, lcsh:QH426-470, Gene prediction, Sequence assembly, Genomics, Biology, pikeperch, 010603 evolutionary biology, 01 natural sciences, Genome, Article, DNA sequencing, 03 medical and health sciences, genes annotation, Genetics, Animals, Genome size, Phylogeny, Genetics (clinical), 030304 developmental biology, Whole genome sequencing, fish, 0303 health sciences, Whole Genome Sequencing, Contig, Molecular Sequence Annotation, genome sequencing, lcsh:Genetics, aquaculture, Perches, Evolutionary biology, genome assembly

Abstract

The pikeperch (Sander lucioperca) is a fresh and brackish water Percid fish natively inhabiting the northern hemisphere. This species is emerging as a promising candidate for intensive aquaculture production in Europe. Specific traits like cannibalism, growth rate and meat quality require genomics based understanding, for an optimal husbandry and domestication process. Still, the aquaculture community is lacking an annotated genome sequence to facilitate genome-wide studies on pikeperch. Here, we report the first highly contiguous draft genome assembly of Sander lucioperca. In total, 413 and 66 giga base pairs of DNA sequencing raw data were generated with the Illumina platform and PacBio Sequel System, respectively. The PacBio data were assembled into a final assembly size of ~900 Mb covering 89% of the 1,014 Mb estimated genome size. The draft genome consisted of 1966 contigs ordered into 1,313 scaffolds. The contig and scaffold N50 lengths are 3.0 Mb and 4.9 Mb, respectively. The identified repetitive structures accounted for 39% of the genome. We utilized homologies to other ray-finned fishes, and ab initio gene prediction methods to predict 21,249 protein-coding genes in the Sander lucioperca genome, of which 88% were functionally annotated by either sequence homology or protein domains and signatures search. The assembled genome spans 97.6% and 96.3% of Vertebrate and Actinopterygii single-copy orthologs, respectively. The outstanding mapping rate (99.9%) of genomic PE-reads on the assembly suggests an accurate and nearly complete genome reconstruction. This draft genome sequence is the first genomic resource for this promising aquaculture species. It will provide an impetus for genomic-based breeding studies targeting phenotypic and performance traits of captive pikeperch.

Published

2019

39. Evolutionary expression differences of creatine synthesis-related genes: Implications for skeletal muscle metabolism in fish

Author

Tom Goldammer, Alexander Rebl, Andreas Borchel, Carsten Kühn, and Marieke Verleih

Subjects

0301 basic medicine, Muscle tissue, Amidinotransferases, lcsh:Medicine, Biology, Creatine, Article, Phosphocreatine, Evolution, Molecular, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Gene expression, medicine, Animals, lcsh:Science, Muscle, Skeletal, Multidisciplinary, Sequence Analysis, RNA, Gene Expression Profiling, lcsh:R, Fishes, Skeletal muscle, Creatine Kinase, MM Form, Metabolism, Guanidinoacetate N-methyltransferase, 030104 developmental biology, medicine.anatomical_structure, chemistry, Biochemistry, biology.protein, Creatine kinase, lcsh:Q, 030217 neurology & neurosurgery

Abstract

The creatine/phosphocreatine system is the principal energy buffer in mammals, but is scarcely documented in fish. We measured the gene expression of major enzymes of this system, glycine amidinotransferase (GATM), guanidinoacetate N-methyltransferase (GAMT) and muscle-type creatine kinase (CKM) in kidney, liver, and muscle tissues of fish and mammals. CKM was expressed strongly in the muscles of all examined species. In contrast, GATM and GAMT were strongly expressed in the muscle tissue of fish, but not of mammals. This indicates that creatine synthesis and usage are spatially separated in mammals, but not in fish, which is supported by RNA-Seq data of 25 species. Differences in amino acid metabolism along with methionine adenosyltransferase gene expression in muscle from fishes but not mammals further support a central metabolic role of muscle in fish, and hence different organization of the creatine/phosphocreatine biosynthesis system in higher and lower vertebrates.

Published

2019

40. Structurally diverse genes encode Tlr2 in rainbow trout: The conserved receptor cannot be stimulated by classical ligands to activate NF-κB in vitro

Author

Andreas Brietzke, Tom Goldammer, Henrike Rebl, Tor Gjøen, Tomáš Korytář, Alexander Rebl, Marianne Arnemo, and Hans-Martin Seyfert

Subjects

0301 basic medicine, Blotting, Western, Molecular Sequence Data, Immunology, Sequence alignment, Biology, Ligands, Transfection, Polymerase Chain Reaction, Conserved sequence, 03 medical and health sciences, Exon, Complementary DNA, Animals, Humans, Immunoprecipitation, Amino Acid Sequence, Gene, Peptide sequence, Conserved Sequence, Phylogeny, Genetics, Microscopy, Confocal, Polymorphism, Genetic, Base Sequence, NF-kappa B, Flow Cytometry, Toll-Like Receptor 2, TLR2, HEK293 Cells, 030104 developmental biology, Oncorhynchus mykiss, Rainbow trout, Sequence Alignment, Developmental Biology

Abstract

The mammalian toll-like receptor 2 (TLR2) is a dominant receptor for the recognition of Gram-positive bacteria. Its structure and functional properties were unknown in salmonid fish. In RT-PCR and RACE experiments, we obtained the full-length cDNA sequence encoding Tlr2 from rainbow trout (Oncorhynchus mykiss) as well as a copy of an unspliced nonsense message from a highly segmented gene. The primary structure of the encoded receptor complies with the domain structure and ligand-binding sites known from mammals and other fish species and sorts well into the evolutionary tree of teleostean Tlr2s. We retrieved a gene version encoding the receptor on a single exon (tlr2a) and also a partial sequence of a second gene variant being segmented into multiple exons (tlr2b). Surprisingly, the abundances of both transcript variants accounted only for ∼10% of all Tlr2-encoding transcripts in various tissues and cell types of healthy fish. This suggests the expression of several distinct tlr2 gene variants in rainbow trout. We expressed tlr2a in HEK-293 cells, but were unable to demonstrate its functionality through NF-κB activation. Neither synthetic lipopeptides known to stimulate mammalian TLR2 nor different bacterial challenges induced OmTLR2-mediated NF-κB activation, not in HEK-293 or in salmon CHSE-214 cells. Positive demonstration of TLR2-MYD88 interaction excluded that its functional impairment caused the failure of NF-κB activation. We discuss impaired heterodimerization with a necessary Tlr partner as one from among several alternatives to explain the dysfunction of Tlr2a in the interspecies reconstitution system of TLR signaling.

Published

2016

41. Comparative Analysis of the Transcriptome and Distribution of Putative SNPs in Two Rainbow Trout (Oncorhynchus mykiss) Breeding Strains by Using Next-Generation Sequencing

Author

Carsten Kühn, Frieder Hadlich, Ronald M. Brunner, Alexander Rebl, Tom Goldammer, Lidia de los Ríos-Pérez, Marieke Verleih, and Dörte Wittenburg

Subjects

p53, Genetic Markers, 0301 basic medicine, lcsh:QH426-470, SNP, RNA-Seq, Single-nucleotide polymorphism, Selective breeding, Polymorphism, Single Nucleotide, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, single nucleotide polymorphism, Genetic variation, Genetics, Animals, Gene Regulatory Networks, selective breeding, Genetics (clinical), biology, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, biology.organism_classification, rainbow trout, Hatchery, lcsh:Genetics, Trout, 030104 developmental biology, aquaculture, Oncorhynchus mykiss, 030220 oncology & carcinogenesis, Rainbow trout, RNA-seq

Abstract

Selective breeding can significantly improve the establishment of sustainable and profitable aquaculture fish farming. For rainbow trout (Oncorhynchus mykiss), one of the main aquaculture coldwater species in Europe, a variety of selected hatchery strains are commercially available. In this study, we investigated the genetic variation between the local Born strain, selected for survival, and the commercially available Silver Steelhead strain, selected for growth. We sequenced the transcriptome of six tissues (gills, head kidney, heart, liver, spleen, and white muscle) from eight healthy individuals per strain, using RNA-seq technology to identify strain-specific gene-expression patterns and single nucleotide polymorphisms (SNPs). In total, 1760 annotated genes were differentially expressed across all tissues. Pathway analysis assigned them to different gene networks. We also identified a set of SNPs, which are heterozygous for one of the two breeding strains: 1229 of which represent polymorphisms over all tissues and individuals. Our data indicate a strong genetic differentiation between Born and Silver Steelhead trout, despite the relatively short time of evolutionary separation of the two breeding strains. The results most likely reflect their specifically adapted genotypes and might contribute to the understanding of differences regarding their robustness toward high stress and pathogenic challenge described in former studies.

Published

2020

42. A molecular survey of programmed cell death in rainbow trout: Structural and functional specifications of apoptotic key molecules

Author

Julia Brenmoehl, Tom Goldammer, Marieke Verleih, Andreas Borchel, Carsten Kühn, and Alexander Rebl

Subjects

0301 basic medicine, Fish Proteins, Programmed cell death, Physiology, Sequence Homology, Apoptosis, 010501 environmental sciences, 01 natural sciences, Biochemistry, Transcriptome, 03 medical and health sciences, Gene expression, medicine, Staurosporine, Animals, Amino Acid Sequence, Molecular Biology, Caspase, 0105 earth and related environmental sciences, biology, Gene Expression Profiling, Tumor Protein, Translationally-Controlled 1, biology.organism_classification, Cell biology, Gene expression profiling, Trout, 030104 developmental biology, Gene Expression Regulation, Oncorhynchus mykiss, biology.protein, Rainbow trout, Apoptosis Regulatory Proteins, medicine.drug

Abstract

Apoptosis is an integral part of homeostasis and supports multiple physiological processes such as development and immune defense, thereby directly targeting damaged or unwanted cells without affecting neighbor cells. In the present study, we characterized the apoptotic key factors caspase-3, −7, and − 8 as well as regulator protein TPT1 (translationally-controlled tumor protein 1) from rainbow trout (Oncorhynchus mykiss). We identified multiple single-nucleotide changes in their coding sequences and showed that the CASP3 gene is present in at least three variants. Caspase genes were clustered to their orthologs in bony fish and human by using evolutionary analysis. Expression profiling in seven tissues of unchallenged adult fish revealed predominant transcript levels in the head kidney (CASP3, 7, and 8) or brain (TPT1). Further, we analyzed the expression of a more comprehensive panel of 16 trout genes encoding pro- and anti-apoptotic factors and associated proteins during development and upon stress exposure (in vitro temperature and staurosporine treatment). Previously published transcriptome data suggested that the induction of apoptotic processes is mirrored on the transcript level, but this could not be confirmed by the present gene-profiling study. Yet on the protein level, treatment of trout cell line RT-gill-W1 with 1 μM staurosporine for up to 120 min led to a significant increase of CASP3/7 activity. Moreover, a meta-analysis on published data showed that stress-related expression could only be detected sporadically for apoptotic key factors. In conclusion, there seems to be no reliable pattern or marker representing the stress-related induction of apoptosis in salmonids.

Published

2018

43. Siglecs: A journey through the evolution of sialic acid-binding immunoglobulin-type lectins

Author

Tom Goldammer, Kim F Bornhöfft, Alexander Rebl, and Sebastian P. Galuska

Subjects

0301 basic medicine, Lectin, ITAM, Siglecs, Vertebrate evolution, Sialic acids, ITIM, Glycoconjugate, Immunology, Sialic Acid Binding Ig-like Lectin 3, Immunoglobulins, Sialic acid binding, Homology (biology), Evolution, Molecular, 03 medical and health sciences, Phylogenetics, Lectins, Sialoadhesin, Animals, Amino Acid Sequence, Phylogeny, Genetics, chemistry.chemical_classification, Sialic Acid Binding Immunoglobulin-like Lectins, biology, CD22, respiratory system, 030104 developmental biology, chemistry, Vertebrates, biology.protein, Sialic Acids, Glycoprotein, Sequence Alignment, Developmental Biology

Abstract

Siglecs (sialic acid-binding immunoglobulin-type lectins) are a family of immune regulatory receptors predominantly found on the cells of the hematopoietic system. A V-set Ig-like domain mediates the recognition of different sialylated glycoconjugates, which can lead to the activation or inhibition of the immune response, depending on the involved Siglecs. Siglecs are categorized into two subgroups: one including all CD33-related Siglecs and the other consisting of Siglec-1 (Sialoadhesin), Siglec-2 (CD22), Siglec-4 (myelin-associated glycoprotein, MAG) and Siglec-15. In contrast to the members of the CD33-related Siglecs, which share ∼50–99% sequence identity, Siglecs of the other subgroup show quite low homology (approximately 25–30% sequence identity). Based on the published sequences and functions of Siglecs, we performed phylogenetic analyses and sequence alignments to reveal the conservation of Siglecs throughout evolution. Therefore, we focused on the presence of Siglecs in different classes of vertebrates (fishes, amphibians, birds, reptiles and mammals), offering a bridge between the presence of different Siglecs and the biological situations of the selected animals.

Published

2018

44. Under control: The innate immunity of fish from the inhibitors' perspective

Author

Tom Goldammer and Alexander Rebl

Subjects

0301 basic medicine, Innate immune system, Effector, Fishes, Decoy receptors, Resolution of inflammation, Inhibitory factors, Innate immunity, Toll-like receptor signalling, Anti-inflammatory cytokines, Stress hormones, General Medicine, Computational biology, Aquatic Science, Biology, Immunity, Innate, Complement system, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, Immunity, Environmental Chemistry, Animals, Gene, Transcription factor, 030215 immunology

Abstract

The innate immune response involves a concerted network of induced gene products, preformed immune effectors, biochemical signalling cascades and specialised cells. However, the multifaceted activation of these defensive measures can derail or overshoot and, if left unchecked, overwhelm the host. A plenty of regulatory devices therefore mediate the fragile equilibrium between pathogen defence and pathophysiological manifestations. Over the past decade in particular, an almost complete set of teleostean sequences orthologous to mammalian immunoregulatory factors has been identified in various fish species, which prove the remarkable conservation of innate immune-control concepts among vertebrates. This review will present the current knowledge on more than 50 teleostean regulatory factors (plus additional fish-specific paralogs) that are of paramount importance for controlling the clotting cascade, the complement system, pattern-recognition pathways and cytokine-signalling networks. A special focus lies on those immunoregulatory features that have emerged as potential biomarker genes in transcriptome-wide research studies. Moreover, we report on the latest progress in elucidating control elements that act directly with immune-gene-encoding nucleic acids, such as transcription factors, hormone receptors and micro- and long noncoding RNAs. Investigations into the function of teleostean inhibitory factors are still mainly based on gene-expression profiling or overexpression studies. However, in support of structural and in-vitro analyses, evidence from in-vivo trials is also available and revealed many biochemical details on piscine immune regulation. The presence of multiple gene copies in fish adds a degree of complexity, as it is so far hardly understood if they might play distinct roles during inflammation. The present review addresses this and other open questions that should be tackled by fish immunologists in future.

Published

2018

45. Genomic and biological characterization of inhibitors and activators of the NF-kB pathway in rainbow trout (Oncorhynchus mykiss)

Author

Alexander Rebl, Fabio Sarais, Bernd Köllner, Tom Goldammer, Henrike Rebl, and Marieke Verleih

Subjects

Biochemistry, Environmental Chemistry, Rainbow trout, General Medicine, Aquatic Science, Biology

Published

2019

46. Stress hormones modulate early immune activities inthe head kidney of Coregonus maraena

Author

Ulrike Gimsa, Tom Goldammer, Alexander Rebl, Torsten Viergutz, J. Martorell-Ribera, and Mareen Nipkow

Subjects

Head Kidney, Immune system, biology, Environmental Chemistry, Physiology, General Medicine, Aquatic Science, biology.organism_classification, Coregonus maraena, Hormone

Published

2019

47. The Mammalian Cervical Vertebrae Blueprint Depends on the T (brachyury) Gene

Author

Wolfgang Baumgärtner, Philipp Widmann, Andreas Kromik, Rosemarie Weikard, Maren Hellige, Christa Kühn, Peter Dziallas, Reiner Ulrich, Tom Goldammer, Andrea Tipold, Frieder Hadlich, Veronika M. Stein, Dierck Segelke, Marian Kusenda, and Jürgen Rehage

Subjects

Fetal Proteins, Male, Nonsynonymous substitution, Brachyury, Protein Conformation, Molecular Sequence Data, Mutant, Investigations, Biology, Notochord, Genetics, medicine, Animals, Amino Acid Sequence, Pedigree, Vertebra, medicine.anatomical_structure, Mutation, Mutation (genetic algorithm), Cervical Vertebrae, Cattle, Female, T-Box Domain Proteins, Homeotic gene, Cervical vertebrae

Abstract

A key common feature of all but three known mammalian genera is the strict seven cervical vertebrae blueprint, suggesting the involvement of strong conserving selection forces during mammalian radiation. This is further supported by reports indicating that children with cervical ribs die before they reach reproductive age. Hypotheses were put up, associating cervical ribs (homeotic transformations) to embryonal cancer (e.g., neuroblastoma) or ascribing the constraint in cervical vertebral count to the development of the mammalian diaphragm. Here, we describe a spontaneous mutation c.196A > G in the Bos taurus T gene (also known as brachyury) associated with a cervical vertebral homeotic transformation that violates the fundamental mammalian cervical blueprint, but does not preclude reproduction of the affected individual. Genome-wide mapping, haplotype tracking within a large pedigree, resequencing of target genome regions, and bioinformatic analyses unambiguously confirmed the mutant c.196G allele as causal for this previously unknown defect termed vertebral and spinal dysplasia (VSD) by providing evidence for the mutation event. The nonsynonymous VSD mutation is located within the highly conserved T box of the T gene, which plays a fundamental role in eumetazoan body organization and vertebral development. To our knowledge, VSD is the first unequivocally approved spontaneous mutation decreasing cervical vertebrae number in a large mammal. The spontaneous VSD mutation in the bovine T gene is the first in vivo evidence for the hypothesis that the T protein is directly involved in the maintenance of the mammalian seven-cervical vertebra blueprint. It therefore furthers our knowledge of the T-protein function and early mammalian notochord development.

Published

2015

48. Aeromonas salmonicidaInfection Only Moderately Regulates Expression of Factors Contributing to Toll-Like Receptor Signaling but Massively Activates the Cellular and Humoral Branches of Innate Immunity in Rainbow Trout (Oncorhynchus mykiss)

Author

Bernd Köllner, Tomáš Korytář, Alexander Rebl, Joanna Jaros, Tom Goldammer, Andreas Brietzke, and Hans-Martin Seyfert

Subjects

lcsh:Immunologic diseases. Allergy, Article Subject, T-Lymphocytes, animal diseases, medicine.medical_treatment, Immunology, Gene Expression, Aeromonas salmonicida, Microbiology, Fish Diseases, Gene expression, Leukocytes, medicine, Animals, Immunology and Allergy, Myeloid Cells, Receptor, B-Lymphocytes, Toll-like receptor, Innate immune system, biology, Toll-Like Receptors, General Medicine, biology.organism_classification, Immunity, Innate, Cytokine, Organ Specificity, Cytokines, Rainbow trout, Peritoneum, Signal transduction, lcsh:RC581-607, Gram-Negative Bacterial Infections, Spleen, Research Article, Signal Transduction

Abstract

Toll-like receptors (TLRs) are known to detect a defined spectrum of microbial structures. However, the knowledge about the specificity of teleost Tlr factors for distinct pathogens is limited so far. We measured baseline expression profiles of 18tlrgenes and associated signaling factors in four immune-relevant tissues of rainbow troutOncorhynchus mykiss. Intraperitoneal injection of a lethal dose ofAeromonas salmonicidasubsp.salmonicidainduced highly increased levels of cytokine mRNAs during a 72-hour postinfection (hpi) period. In contrast, only the fish-specifictlr22a2and the downstream factorirak1featured clearly increased transcript levels, while the mRNA concentrations of many othertlrgenes decreased. Flow cytometry quantified cell trafficking after infection indicating a dramatic influx of myeloid cells into the peritoneum and a belated low level immigration of lymphoid cells. T and B lymphocytes were differentiated with RT-qPCR revealing that B lymphocytes emigrated from and T lymphocytes immigrated into head kidney. In conclusion, no specific TLR can be singled out as a dominant receptor forA. salmonicida. The recruitment of cellular factors of innate immunity rather than induced expression of pathogen receptors is hence of key importance for mounting a first immune defense against invadingA. salmonicida.

Published

2015

49. Comprehensive and comparative transcription analyses of the complement pathway in rainbow trout

Author

Tomáš Korytář, Judith M. Köbis, Tom Goldammer, Carsten Kühn, Bernd Köllner, and Alexander Rebl

Subjects

endocrine system, DNA, Complementary, animal structures, animal diseases, Aquatic Science, Biology, Real-Time Polymerase Chain Reaction, Complement pathway regulation, Species Specificity, Genes, Duplicate, Complement Factor D, Gene expression, Animals, Environmental Chemistry, Lectins, C-Type, Gene, DNA Primers, Genetics, Membrane Glycoproteins, Innate immune system, urogenital system, Gene Expression Profiling, Models, Immunological, Complement System Proteins, General Medicine, Receptors, Complement, Complement system, Gene expression profiling, Liver, Oncorhynchus mykiss, Rainbow trout, Transcriptome

Abstract

The complement system is one of the most ancient and most essential innate immune cascades throughout the animal kingdom. Survival of aquatic animals, such as rainbow trout, depends on this early inducible, efficient immune cascade. Despite increasing research on genes coding for complement components in bony fish, some complement-related genes are still unknown in salmonid fish. In the present study, we characterize the genes encoding complement factor D (CFD), CD93 molecule (CD93), and C-type lectin domain family 4, member M (CLEC4M) from rainbow trout (Oncorhynchus mykiss). Subsequently, we performed comprehensive and comparative expression analyses of 36 complement genes including CFD, CD93, and CLEC4M and further putative complement-associated genes to obtain general information about the functional gene interaction within the complement pathway in fish. These quantification analyses were conducted in liver, spleen and gills of healthy fish of two rainbow trout strains, selected for survival (strain BORN) and growth (Import strain), respectively. The present expression study clearly confirms for rainbow trout that liver represents the primary site of complement expression. Spleen and gills also express most complement genes, although the mean transcript levels were generally lower than in liver. The transcription data suggest a contribution of spleen and gills to complement activity. The comparison of the two rainbow trout strains revealed a generally similar complement gene expression. However, a significantly lower expression of numerous genes especially in spleen seems characteristic for the BORN strain. This suggests a strain-specific complement pathway regulation under the selected rearing conditions.

Published

2015

50. Systematic identification and characterization of stress-inducible heat shock proteins (HSPs) in the salmon louse (Lepeophtheirus salmonis)

Author

Alexander Rebl, Andreas Borchel, Frank Nilsen, Anna Z. Komisarczuk, and Tom Goldammer

Subjects

Thermotolerance, 0106 biological sciences, 0301 basic medicine, Salinity, Molting, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Microbiology, Copepoda, 03 medical and health sciences, chemistry.chemical_compound, Salmon louse, Aquaculture, Salmon, Heat shock protein, Animals, Hydrogen peroxide, Heat-Shock Proteins, Original Paper, Genome, biology, Ecology, business.industry, Gene Expression Profiling, Hydrogen Peroxide, Cell Biology, biology.organism_classification, Hsp90, Hsp70, 030104 developmental biology, Gene Expression Regulation, chemistry, Lepeophtheirus, biology.protein, business, Heat-Shock Response

Abstract

Salmon lice (Lepeophtheirus salmonis) are parasitic copepods, living mainly on Atlantic salmon and leading to large economical losses in aquaculture every year. Due to the emergence of resistances to several drugs, alternative treatments are developed, including treatment with hydrogen peroxide, freshwater or thermal treatment. The present study gives a first overview of the thermotolerance and stress response of salmon lice. Sea lice nauplii acclimated to 10 °C can survive heat shocks up to 30 °C and are capable of hardening by a sublethal heat shock. We searched in the genome for heat shock protein (HSP) encoding genes and tested their inducibility after heat shock, changes in salinity and treatment with hydrogen peroxide, employing microfluidic qPCRs. We assessed 38 candidate genes, belonging to the small HSP, HSP40, HSP70 and HSP90 families. Nine of these genes showed strong induction after a non-lethal heat shock. In contrast, only three and two of these genes were induced after changes in salinity and incubation in hydrogen peroxide, respectively. This work provides the basis for further work on the stress response on the economically important parasite L. salmonis.

Published

2017