Your search keyword '"Spaink, Herman P."' showing total 44 results

1. Transcriptomic and Metabolomic Studies Reveal That Toll-like Receptor 2 Has a Role in Glucose-Related Metabolism in Unchallenged Zebrafish Larvae (Danio rerio).

Author

Hu, Wanbin, Liu, Li, Forn-Cuní, Gabriel, Ding, Yi, Alia, Alia, and Spaink, Herman P.

Subjects

TOLL-like receptors, HOMEOSTASIS, ZEBRA danio, ENZYME regulation, METABOLIC regulation, METABOLISM, METABOLOMICS

Abstract

Simple Summary: Toll-like receptor 2 (TLR2) has been demonstrated to participate in the progression of some metabolic disorders due to its role as a pro-inflammatory trigger. However, whether TLR2 plays a role in mediating metabolism under an unchallenged condition is still unknown. Therefore, we utilized zebrafish larvae as an in vivo model to investigate the metabolic control functions of TLR2 through transcriptomic and metabolomic approaches at a whole-organism level. We found that the concentration of glucose, lactate, succinate, and malate is higher in a tlr2 mutant which is associated with lower expression of genes involved in the glycolysis and gluconeogenesis pathways. These results demonstrate that tlr2 plays a role in controlling glucose metabolism homeostasis. Toll-like receptors (TLRs) have been implicated in the regulation of various metabolism pathways, in addition to their function in innate immunity. Here, we investigate the metabolic function of TLR2 in a larval zebrafish system. We studied larvae from a tlr2 mutant and the wild type sibling controls in an unchallenged normal developmental condition using transcriptomic and metabolomic analyses methods. RNAseq was used to evaluate transcriptomic differences between the tlr2 mutant and wild-type control zebrafish larvae and found a signature set of 149 genes to be significantly altered in gene expression. The expression level of several genes was confirmed by qPCR analyses. Gene set enrichment analysis (GSEA) revealed differential enrichment of genes between the two genotypes related to valine, leucine, and isoleucine degradation and glycolysis and gluconeogenesis. Using 1H nuclear magnetic resonance (NMR) metabolomics, we found that glucose and various metabolites related with glucose metabolism were present at higher levels in the tlr2 mutant. Furthermore, we confirmed that the glucose level is higher in tlr2 mutants by using a fluorometric assay. Therefore, we have shown that TLR2, in addition to its function in immunity, has a function in controlling metabolism during vertebrate development. The functions are associated with transcriptional regulation of various enzymes involved in glucose metabolism that could explain the different levels of glucose, lactate, succinate, and malate in larvae of a tlr2 mutant. [ABSTRACT FROM AUTHOR]

Published

2023

2. Anti-tuberculosis effect of isoniazid scales accurately from zebrafish to humans.

Author

Wijk, Rob C., Hu, Wanbin, Dijkema, Sharka M., Berg, Dirk‐Jan, Liu, Jeremy, Bahi, Rida, Verbeek, Fons J., Simonsson, Ulrika S.H., Spaink, Herman P., Graaf, Piet H., Krekels, Elke H.J., van Wijk, Rob C, van den Berg, Dirk-Jan, and van der Graaf, Piet H

Subjects

ZEBRA danio, ANTITUBERCULAR agents, ZEBRA danio embryos, MYCOBACTERIAL diseases, FLUORIMETRY, DRUG development, IMAGE analysis, DRUG therapy for tuberculosis, ANIMAL experimentation, ISONIAZID, FISHES, MICROBIAL sensitivity tests, PHARMACODYNAMICS

Abstract

Background and Purpose: There is a clear need for innovation in anti-tuberculosis drug development. The zebrafish larva is an attractive disease model in tuberculosis research. To translate pharmacological findings to higher vertebrates, including humans, the internal exposure of drugs needs to be quantified and linked to observed response.Experimental Approach: In zebrafish studies, drugs are usually dissolved in the external water, posing a challenge to quantify internal exposure. We developed experimental methods to quantify internal exposure, including nanoscale blood sampling, and to quantify the bacterial burden, using automated fluorescence imaging analysis, with isoniazid as the test compound. We used pharmacokinetic-pharmacodynamic modelling to quantify the exposure-response relationship responsible for the antibiotic response. To translate isoniazid response to humans, quantitative exposure-response relationships in zebrafish were linked to simulated concentration-time profiles in humans, and two quantitative translational factors on sensitivity to isoniazid and stage of infection were included.Key Results: Blood concentration was only 20% of the external drug concentration. The bacterial burden increased exponentially, and an isoniazid dose corresponding to 15 mg·L-1 internal concentration (minimum inhibitory concentration) leads to bacteriostasis of the mycobacterial infection in the zebrafish. The concentration-effect relationship was quantified, and based on that relationship and the translational factors, the isoniazid response was translated to humans, which correlated well with observed data.Conclusions and Implications: This proof of concept study confirmed the potential of zebrafish larvae as tuberculosis disease models in translational pharmacology and contributes to innovative anti-tuberculosis drug development, which is very clearly needed. [ABSTRACT FROM AUTHOR]

Published

2020

3. Quantification of Natural Growth of Two Strains of Mycobacterium Marinum for Translational Antituberculosis Drug Development.

Author

Van Wijk, Rob C., Sar, Astrid M., Krekels, Elke H.J., Verboom, Theo, Spaink, Herman P., Simonsson, Ulrika S.H., and Graaf, Piet H.

Subjects

ANTITUBERCULAR agents, DRUG development, MYCOBACTERIUM tuberculosis, MYCOBACTERIUM, MYCOBACTERIUM bovis, BACTERIAL growth, ZEBRA danio

Abstract

The zebrafish infected with Mycobacterium marinum (M. marinum) is an attractive tuberculosis disease model, showing similar pathogenesis to Mycobacterium tuberculosis (M. tuberculosis) infections in humans. To translate pharmacological findings from this disease model to higher vertebrates, a quantitative understanding of the natural growth of M. marinum in comparison to the natural growth of M. tuberculosis is essential. Here, the natural growth of two strains of M. marinum, E11 and MUSA, is studied over an extended period using an established model‐based approach, the multistate tuberculosis pharmacometric (MTP) model, for comparison to that of M. tuberculosis. Poikilotherm‐derived strain E11 and human‐derived strain MUSA were grown undisturbed up to 221 days and viability of cultures (colony forming unit (CFU)/mL) was determined by plating at different time points. Nonlinear mixed effects modeling using the MTP model quantified the bacterial growth, the transfer among fast, slow, and non‐multiplying states, and the inoculi. Both strains showed initial logistic growth, reaching a maximum after 20–25 days for E11 and MUSA, respectively, followed by a decrease to a new plateau. Natural growth of both E11 and MUSA was best described with Gompertz growth functions. For E11, the inoculum was best described in the slow‐multiplying state, for MUSA in the fast‐multiplying state. Natural growth of E11 was most similar to that of M. tuberculosis, whereas MUSA showed more aggressive growth behavior. Characterization of natural growth of M. marinum and quantitative comparison with M. tuberculosis brings the zebrafish tuberculosis disease model closer to the quantitative translational pipeline of antituberculosis drug development. [ABSTRACT FROM AUTHOR]

Published

2020

4. RNAseq Profiling of Leukocyte Populations in Zebrafish Larvae Reveals a cxcl11 Chemokine Gene as a Marker of Macrophage Polarization During Mycobacterial Infection.

Author

Rougeot, Julien, Torraca, Vincenzo, Zakrzewska, Ania, Kanwal, Zakia, Jansen, Hans J., Sommer, Frida, Spaink, Herman P., and Meijer, Annemarie H.

Subjects

ZEBRA danio, MACROPHAGES, PHENOTYPES, NEUTROPHILS, NATURAL immunity

Abstract

Macrophages are phagocytic cells from the innate immune system, which forms the first line of host defense against invading pathogens. These highly dynamic immune cells can adopt specific functional phenotypes, with the pro-inflammatory M1 and anti-inflammatory M2 polarization states as the two extremes. Recently, the process of macrophage polarization during inflammation has been visualized by real time imaging in larvae of the zebrafish. This model organism has also become widely used to study macrophage responses to microbial pathogens. To support the increasing use of zebrafish in macrophage biology, we set out to determine the complete transcriptome of zebrafish larval macrophages. We studied the specificity of the macrophage signature compared with other larval immune cells and the macrophage-specific expression changes upon infection. We made use of the well-established mpeg1, mpx , and lck fluorescent reporter lines to sort and sequence the transcriptome of larval macrophages, neutrophils, and lymphoid progenitor cells, respectively. Our results provide a complete dataset of genes expressed in these different immune cell types and highlight their similarities and differences. Major differences between the macrophage and neutrophil signatures were found within the families of proteinases. Furthermore, expression of genes involved in antigen presentation and processing was specifically detected in macrophages, while lymphoid progenitors showed expression of genes involved in macrophage activation. Comparison with datasets of in vitro polarized human macrophages revealed that zebrafish macrophages express a strongly homologous gene set, comprising both M1 and M2 markers. Furthermore, transcriptome analysis of low numbers of macrophages infected by the intracellular pathogen Mycobacterium marinum revealed that infected macrophages change their transcriptomic response by downregulation of M2-associated genes and overexpression of specific M1-associated genes. Among the infection-induced genes, a homolog of the human CXCL11 chemokine gene, cxcl11aa , stood out as the most strongly overexpressed M1 marker. Upregulation of cxcl11aa in Mycobacterium -infected macrophages was found to require the function of Myd88, a critical adaptor molecule in the Toll-like and interleukin 1 receptor pathways that are central to pathogen recognition and activation of the innate immune response. Altogether, our data provide a valuable data mining resource to support infection and inflammation research in the zebrafish model. [ABSTRACT FROM AUTHOR]

Published

2019

5. Deep learning image recognition enables efficient genome editing in zebrafish by automated injections.

Author

Cordero-Maldonado, Maria Lorena, Perathoner, Simon, van der Kolk, Kees-Jan, Boland, Ralf, Heins-Marroquin, Ursula, Spaink, Herman P., Meijer, Annemarie H., Crawford, Alexander D., and de Sonneville, Jan

Subjects

ZEBRA danio, MICROINJECTIONS, DEEP learning, IMAGE recognition (Computer vision), GENOME editing

Abstract

One of the most popular techniques in zebrafish research is microinjection. This is a rapid and efficient way to genetically manipulate early developing embryos, and to introduce microbes, chemical compounds, nanoparticles or tracers at larval stages. Here we demonstrate the development of a machine learning software that allows for microinjection at a trained target site in zebrafish eggs at unprecedented speed. The software is based on the open-source deep-learning library Inception v3. In a first step, the software distinguishes wells containing embryos at one-cell stage from wells to be skipped with an accuracy of 93%. A second step was developed to pinpoint the injection site. Deep learning allows to predict this location on average within 42 μm to manually annotated sites. Using a Graphics Processing Unit (GPU), both steps together take less than 100 milliseconds. We first tested our system by injecting a morpholino into the middle of the yolk and found that the automated injection efficiency is as efficient as manual injection (~ 80%). Next, we tested both CRISPR/Cas9 and DNA construct injections into the zygote and obtained a comparable efficiency to that of an experienced experimentalist. Combined with a higher throughput, this results in a higher yield. Hence, the automated injection of CRISPR/Cas9 will allow high-throughput applications to knock out and knock in relevant genes to study their mechanisms or pathways of interest in diverse areas of biomedical research. [ABSTRACT FROM AUTHOR]

Published

2019

6. Identifying small RNAs derived from maternal- and somatic-type rRNAs in zebrafish development.

Author

Locati, Mauro D., Pagano, Johanna F.B., Abdullah, Farah, Ensink, Wim A., van Olst, Marina, van Leeuwen, Selina, Nehrdich, Ulrike, Spaink, Herman P., Rauwerda, Han, Jonker, Martijs J., Dekker, Rob J., Breit, Timo M., and Crease, T.

Subjects

RNA, ZEBRA danio, GENE expression, RIBOSE, BRACHYDANIO

Abstract

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Published

2018

7. Pathway analysis of systemic transcriptome responses to injected polystyrene particles in zebrafish larvae.

Author

Veneman, Wouter J., Spaink, Herman P., Brun, Nadja R., Bosker, Thijs, and Vijver, Martina G.

Subjects

*PLASTIC marine debris, *POLYSTYRENE, *ZEBRA danio, *EMBRYOS, *NEUTROPHILS

Abstract

Microplastics are a contaminant of emergent concern in the environment, however, to date there is a limited understanding on their movement within organisms and the response of organisms. In the current study zebrafish embryos at different development stages were exposed to 700 nm fluorescent polystyrene (PS) particles and the response pathway after exposure was investigated using imaging and transcriptomics. Our results show limited spreading of particles within the larvae after injection during the blastula stage. This is in contrast to injection of PS particles in the yolk of 2-day old embryos, which resulted in redistribution of the PS particles throughout the bloodstream, and accumulation in the heart region. Although injection was local, the transcriptome profiling showed strong responses of zebrafish embryos exposed to PS particle, indicating a systemic response. We found several biological pathways activated which are related to an immune response in the PS exposed zebrafish larvae. Most notably the complement system was enriched as indicated by upregulation of genes in the alternative complement pathway (e.g. cfhl3, cfhl4, cfb and c9) . The fact that complement pathway is activated indicates that plastic microparticles are integrated in immunological recognition processes. This was supported by fluorescence microscopy results, in which we observed co-localisation of neutrophils and macrophages around the PS particles. Identifying these key events can be a first building block to the development of an adverse outcome pathway (AOP). These data subsequently can be used within ecological and human risk assessment. [ABSTRACT FROM AUTHOR]

Published

2017

8. Efferocytosis and extrusion of leukocytes determine the progression of early mycobacterial pathogenesis.

Author

Hosseini, Rohola, Lamers, Gerda E. M., Soltani, Hiwa M., Meijer, Annemarie H., Spaink, Herman P., and Schaaf, Marcel J. M.

Subjects

LEUCOCYTES, INTRACELLULAR pathogens, ZEBRA danio, MYCOBACTERIUM marinum, MACROPHAGES, NEUTROPHILS, DISEASE progression, MYCOBACTERIUM tuberculosis, DISEASES, GENETICS

Abstract

Macrophages and neutrophils are the first responders to invading pathogens and contribute strongly to the host defense against intracellular pathogens. The collective interplay and dynamic interactions between these leukocytes are to a large extent not understood. In the present study, we have investigated their role using a combination of confocal laser-scanning and electron microscopy in a zebrafish model for tuberculosis, a local Mycobacterium marinum infection in the tissue of the larval tail fin. Our results show that neutrophils are efficient in phagocytosis of mycobacteria and that they contribute largely to their dissemination. Macrophages appear to play a major role in efferocytosis, phagocytosis of dead cells that contain bacterial content. Phagocytic cells with large bacterial aggregates are formed that can be extruded out of the tissue after cell death. Alternatively, these excessively infected cells can undergo necrosis leading to immediate recruitment of surrounding leukocytes and subsequent phagocytosis of released bacteria. Our data show that these necrotic burst events result in progression of the infection, whereas extrusion abates the infection. [ABSTRACT FROM AUTHOR]

Published

2016

9. Visualizing Human Hematopoietic Stem Cell Trafficking In Vivo Using a Zebrafish Xenograft Model.

Author

Staal, Frank J.T., Spaink, Herman P., and Fibbe, Willem E.

Subjects

*HEMATOPOIETIC stem cells, *ZEBRA danio, *HEMATOPOIETIC stem cell transplantation, *XENOTRANSPLANTATION, *TRANSGENIC fish

Abstract

Zebrafish is gaining increased popularity as a model organism to study stem cell biology. It also is widely used as model system to visualize human leukemic stem cells. However, xenotransplantation of primary human stem/progenitor cells has not been described. Here, we use casper pigmentation mutant fish that are transparent crossed to fli-GFP transgenic fish as recipients of red labeled human CD34+ cells. We have investigated various conditions and protocols with the aim to monitor and visualize the fate of transplanted human CD34+ cells. We here report successful use of casper mutant zebrafish embryos for the direct monitoring of human hematopoietic stem cell transplantation, differentiation, and trafficking in vivo. [ABSTRACT FROM AUTHOR]

Published

2016

10. Mother-Specific Signature in the Maternal Transcriptome Composition of Mature, Unfertilized Zebrafish Eggs.

Author

Rauwerda, Han, Wackers, Paul, Pagano, Johanna F. B., de Jong, Mark, Ensink, Wim, Dekker, Rob, Nehrdich, Ulrike, Spaink, Herman P., Jonker, Martijs, and Breit, Timo M.

Subjects

MESSENGER RNA, ZEBRA danio, EMBRYOS, GENES, GENE expression

Abstract

Maternal mRNA present in mature oocytes plays an important role in the proper development of the early embryo. As the composition of the maternal transcriptome in general has been studied with pooled mature eggs, potential differences between individual eggs are unknown. Here we present a transcriptome study on individual zebrafish eggs from clutches of five mothers in which we focus on the differences in maternal mRNA abundance per gene between and within clutches. To minimize technical interference, we used mature, unfertilized eggs from siblings. About half of the number of analyzed genes was found to be expressed as maternal RNA. The expressed and non-expressed genes showed that maternal mRNA accumulation is a non-random process, as it is related to specific biological pathways and processes relevant in early embryogenesis. Moreover, it turned out that overall the composition of the maternal transcriptome is tightly regulated as about half of the expressed genes display a less than twofold expression range between the observed minimum and maximum expression values of a gene in the experiment. Even more, the maximum gene-expression difference within clutches is for 88% of the expressed genes lower than twofold. This means that expression differences observed in maternally expressed genes are primarily caused by differences between mothers, with only limited variability between eggs from the same mother. This was underlined by the fact that 99% of the expressed genes were found to be differentially expressed between any of the mothers in an ANOVA test. Furthermore, linking chromosome location, transcription factor binding sites, and miRNA target sites of the genes in clusters of distinct and unique mother-specific gene-expression, suggest biological relevance of the mother-specific signatures in the maternal transcriptome composition. Altogether, the maternal transcriptome composition of mature zebrafish oocytes seems to be tightly regulated with a distinct mother-specific signature. [ABSTRACT FROM AUTHOR]

Published

2016

11. Swimming-induced exercise promotes hypertrophy and vascularization of fast skeletal muscle fibres and activation of myogenic and angiogenic transcriptional programs in adult zebrafish.

Author

Palstra, Arjan P., Rovira, Mireia, Rizo, David, Torrella, Joan Ramon, Spaink, Herman P., and Planas, Josep V.

Subjects

SKELETAL muscle physiology, ZEBRA danio, VASCULAR endothelial growth factors, GENE expression microarrays, SATELLITE cells, GENE regulatory networks

Abstract

Background The adult skeletal muscle is a plastic tissue with a remarkable ability to adapt to different levels of activity by altering its excitability, its contractile and metabolic phenotype and its mass. We previously reported on the potential of adult zebrafish as a tractable experimental model for exercise physiology, established its optimal swimming speed and showed that swimming-induced contractile activity potentiated somatic growth. Given that the underlying exercise-induced transcriptional mechanisms regulating muscle mass in vertebrates are not fully understood, here we investigated the cellular and molecular adaptive mechanisms taking place in fast skeletal muscle of adult zebrafish in response to swimming. Results Fish were trained at low swimming speed (0.1 m/s; non-exercised) or at their optimal swimming speed (0.4 m/s; exercised). A significant increase in fibre cross-sectional area (1.290 ± 88 vs. 1.665 ± 106 µm²) and vascularization (298 ± 23 vs. 458 ± 38 capillaries/mm²) was found in exercised over non-exercised fish. Gene expression profiling by microarray analysis evidenced the activation of a series of complex transcriptional networks of extracellular and intracellular signaling molecules and pathways involved in the regulation of muscle mass (e.g. IGF-1/PI3K/mTOR, BMP, MSTN), myogenesis and satellite cell activation (e.g. PAX3, FGF, Notch, Wnt, MEF2, Hh, EphrinB2) and angiogenesis (e.g. VEGF, HIF, Notch, EphrinB2, KLF2), some of which had not been previously associated with exercise-induced contractile activity. Conclusions The results from the present study show that exercise-induced contractile activity in adult zebrafish promotes a coordinated adaptive response in fast muscle that leads to increased muscle mass by hypertrophy and increased vascularization by angiogenesis. We propose that these phenotypic adaptations are the result of extensive transcriptional changes induced by exercise. Analysis of the transcriptional networks that are activated in response to exercise in the adult zebrafish fast muscle resulted in the identification of key signaling pathways and factors for the regulation of skeletal muscle mass, myogenesis and angiogenesis that have been remarkably conserved during evolution from fish to mammals. These results further support the validity of the adult zebrafish as an exercise model to decipher the complex molecular and cellular mechanisms governing skeletal muscle mass and function in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2014

12. Mycobacteria Counteract a TLR-Mediated Nitrosative Defense Mechanism in a Zebrafish Infection Model.

Author

Elks, Philip M., van der Vaart, Michiel, van Hensbergen, Vincent, Schutz, Esther, Redd, Michael J., Murayama, Emi, Spaink, Herman P., and Meijer, Annemarie H.

Subjects

MYCOBACTERIA, ZEBRA danio, MYCOBACTERIUM tuberculosis, REACTIVE nitrogen species, NITRATION, CYTOLOGY, DISEASES

Abstract

Pulmonary tuberculosis (TB), caused by the intracellular bacterial pathogen Mycobacterium tuberculosis (Mtb), is a major world health problem. The production of reactive nitrogen species (RNS) is a potent cytostatic and cytotoxic defense mechanism against intracellular pathogens. Nevertheless, the protective role of RNS during Mtb infection remains controversial. Here we use an anti-nitrotyrosine antibody as a readout to study nitration output by the zebrafish host during early mycobacterial pathogenesis. We found that recognition of Mycobacterium marinum, a close relative of Mtb, was sufficient to induce a nitrosative defense mechanism in a manner dependent on MyD88, the central adaptor protein in Toll like receptor (TLR) mediated pathogen recognition. However, this host response was attenuated by mycobacteria via a virulence mechanism independent of the well-characterized RD1 virulence locus. Our results indicate a mechanism of pathogenic mycobacteria to circumvent host defense in vivo. Shifting the balance of host-pathogen interactions in favor of the host by targeting this virulence mechanism may help to alleviate the problem of infection with Mtb strains that are resistant to multiple drug treatments. [ABSTRACT FROM AUTHOR]

Published

2014

13. Accessory molecules for Toll-like receptors in Teleost fish. Identification of TLR4 interactor with leucine-rich repeats (TRIL).

Author

Pietretti, Danilo, Spaink, Herman P., Falco, Alberto, Forlenza, Maria, and Wiegertjes, Geert F.

Subjects

*TOLL-like receptors, *OSTEICHTHYES, *LEUCINE, *TRINUCLEOTIDE repeats, *BIOSYNTHESIS, *ZEBRA danio, *GENOMES

Abstract

Highlights: [•] We identified the homologs in teleost fish of accessory molecules important for biosynthesis and activation of TLRs. [•] We annotated TLR4 interactor with leucine-rich repeats tril in carp and zebrafish. [•] Carp tril was found in two copies in the genome with highest expression in muscle, skin and brain. [ABSTRACT FROM AUTHOR]

Published

2013

14. In Vitro and In Vivo Supramolecular Modification of Biomembranes Using a Lipidated Coiled-Coil Motif.

Author

Zope, Harshal R., Versluis, Frank, Ordas, Anita, Voskuhl, Jens, Spaink, Herman P., and Kros, Alexander

Subjects

CELL membranes, SUPRAMOLECULAR chemistry, PEPTIDES, HAMSTERS, ZEBRA danio, EMBRYOS

Abstract

Superficial appeal: The surface of live cells and zebrafish embryos can be modified by a supramolecular method. A peptide pair that forms a coiled coil at the cell membrane can be used to dock liposomes in in vitro and in vivo environments (see scheme). This tool can be used in biophysical studies of biological processes occurring at membranes. [ABSTRACT FROM AUTHOR]

Published

2013

15. MicroRNA-146 function in the innate immune transcriptome response of zebrafish embryos to Salmonella typhimurium infection.

Author

Ordas, Anita, Kanwal, Zakia, Lindenberg, Valesca, Rougeot, Julien, Mink, Matyas, Spaink, Herman P., and Meijer, Annemarie H.

Subjects

SALMONELLA typhimurium, ZEBRA danio, MICRORNA, IMMUNE system, TOLL-like receptors, APOLIPOPROTEINS, BACTERIAL diseases in fishes

Abstract

Background MicroRNAs (miRNAs) have recently been shown to play important roles in development of the immune system and in fine-tuning of immune responses. Human miR-146 family members are known as inflammation-inducible miRNAs involved in negative feedback regulation of Toll-like receptor (TLR) signalling. Dysregulation of the miR-146 family has often been linked to inflammatory diseases and malignancies. This study reports on miR- 146a and miR-146b as infection-inducible miRNAs in zebrafish, which has emerged as a model species for human disease. Results Using a custom-designed microarray platform for miRNA expression we found that both members of the zebrafish miR-146 family, miR-146a and miR-146b, were commonly induced by infection of zebrafish embryos with Salmonella typhimurium and by infection of adult fish with Mycobacterium marinum. The induction of these miRNAs was confirmed by Taqman miRNA assays. Subsequently, we used zebrafish embryos, in which adaptive immunity is not yet active, as an in vivo system to investigate the role of miR-146 in the innate immune response to S. typhimurium infection. Knockdown of traf6 and use of myd88 mutants demonstrated that the induction of miR-146a and miR-146b by S. typhimurium infection was affected by disruption of the MyD88-Traf6 pathway that mediates transduction of TLR signals and cytokine responses. In turn, knockdown of miR-146 itself had no major effects on the expression of known targets of MyD88-Traf6 signalling. Instead, RNA sequencing analysis showed that miR-146 knockdown led to an increased induction of six members of the apolipoprotein gene family in S. typhimurium-infected embryos. Conclusion Based on microarray analysis and Taqman miRNA assays we conclude that members of the miR-146 family, which is highly conserved between fish and human, are induced by bacterial infection in zebrafish in a MyD88 and Traf6 dependent manner. The combined knockdown of miR-146a and miR-146b in zebrafish embryos infected with S. typhimurium had no major effect on the expression of pro-inflammatory genes and transcription factors known to be downstream of the MyD88-Traf6 pathway. In contrast, apolipoprotein-mediated lipid transport emerged as an infection-inducible pathway under miR-146 knockdown conditions, suggesting a possible function of miR-146 in regulating lipid metabolism during inflammation. [ABSTRACT FROM AUTHOR]

Published

2013

16. Parallel deep transcriptome and proteome analysis of zebrafish larvae.

Author

Palmblad, Magnus, Henkel, Christiaan V., Dirks, Ron P., Meijer, Annemarie H., Deelder, André M., and Spaink, Herman P.

Subjects

ZEBRA danio, FISH larvae, IDENTIFICATION of fishes, NUCLEOTIDE sequence, GENE expression in fishes, MASS spectrometry

Abstract

Background Sensitivity and throughput of transcriptomic and proteomic technologies have advanced tremendously in recent years. With the use of deep sequencing of RNA samples (RNA-seq) and mass spectrometry technology for protein identification and quantitation, it is now feasible to compare gene and protein expression on a massive scale and for any organism for which genomic data is available. Although these technologies are currently applied to many research questions in various model systems ranging from cell cultures to the entire organism level, there are few comparative studies of these technologies in the same system, let alone on the same samples. Here we present a comparison between gene and protein expression in embryos of zebrafish, which is an upcoming model in disease studies. Results We compared Agilent custom made expression microarrays with Illumina deep sequencing for RNA analysis, showing as expected a high degree of correlation of expression of a common set of 18,230 genes. Gene expression was also found to correlate with the abundance of 963 distinct proteins, with several categories of genes as exceptions. These exceptions include ribosomal proteins, histones and vitellogenins, for which biological and technical explanations are discussed. Conclusions By comparing state of the art transcriptomic and proteomic technologies on samples derived from the same group of organisms we have for the first time benchmarked the differences in these technologies with regard to sensitivity and bias towards detection of particular gene categories in zebrafish. Our datasets submitted to public repositories are a good starting point for researchers interested in disease progression in zebrafish at a stage of development highly suited for high throughput screening technologies. [ABSTRACT FROM AUTHOR]

Published

2013

17. A zebrafish high throughput screening system used for Staphylococcus epidermidis infection marker discovery.

Author

Veneman, Wouter J., Stockhammer, Oliver W., De Boer, Leonie, Zaat, Sebastian A. J., Meijer, Annemarie H., and Spaink, Herman P.

Subjects

STAPHYLOCOCCUS, ZEBRA danio, DRUG development, MYCOBACTERIUM, FLUORIMETRY, GENES

Abstract

Background: Staphylococcus epidermidis bacteria are a major cause of biomaterial-associated infections in modern medicine. Yet there is little known about the host responses against this normally innocent bacterium in the context of infection of biomaterials. In order to better understand the factors involved in this process, a whole animal model with high throughput screening possibilities and markers for studying the host response to S. epidermidis infection are required. Results: We have used a zebrafish yolk injection system to study bacterial proliferation and the host response in a time course experiment of S. epidermidis infection. By combining an automated microinjection system with complex object parametric analysis and sorting (COPAS) technology we have quantified bacterial proliferation. This system was used together with transcriptome analysis at several time points during the infection period. We show that bacterial colony forming unit (CFU) counting can be replaced by high throughput flow-based fluorescence analysis of embryos enabling high throughput readout. Comparison of the host transcriptome response to S. epidermidis and Mycobacterium marinum infection in the same system showed that M. marinum has a far stronger effect on host gene regulation than S. epidermidis. However, multiple genes responded differently to S. epidermidis infection than to M. marinum, including a cell adhesion gene linked to specific infection by staphylococci in mammals. Conclusions: Our zebrafish embryo infection model allowed (i) quantitative assessment of bacterial proliferation, (ii) identification of zebrafish genes serving as markers for infection with the opportunistic pathogen S. epidermidis, and (iii) comparison of the transcriptome response of infection with S. epidermidis and with the pathogen M. marinum. As a result we have identified markers that can be used to distinguish common and specific responses to S. epidermidis. These markers enable the future integration of our high throughput screening technology with functional analyses of immune response genes and immune modulating factors. [ABSTRACT FROM AUTHOR]

Published

2013

18. Deep RNA Sequencing of the Skeletal Muscle Transcriptome in Swimming Fish.

Author

Palstra, Arjan P., Beltran, Sergi, Burgerhout, Erik, Brittijn, Sebastiaan A., Magnoni, Leonardo J., Henkel, Christiaan V., Jansen, Hans J., den Thillart, Guido E. E. J. M. van, Spaink, Herman P., and Planas, Josep V.

Subjects

NUCLEOTIDE sequence, SKELETAL muscle, RAINBOW trout, MUSCLE growth, SALMONIDAE, ZEBRA danio

Abstract

Deep RNA sequencing (RNA-seq) was performed to provide an in-depth view of the transcriptome of red and white skeletal muscle of exercised and non-exercised rainbow trout (Oncorhynchus mykiss) with the specific objective to identify expressed genes and quantify the transcriptomic effects of swimming-induced exercise. Pubertal autumn-spawning seawater-raised female rainbow trout were rested (n = 10) or swum (n = 10) for 1176 km at 0.75 body-lengths per second in a 6,000-L swim-flume under reproductive conditions for 40 days. Red and white muscle RNA of exercised and non-exercised fish (4 lanes) was sequenced and resulted in 15-17 million reads per lane that, after de novo assembly, yielded 149,159 red and 118,572 white muscle contigs. Most contigs were annotated using an iterative homology search strategy against salmonid ESTs, the zebrafish Danio rerio genome and general Metazoan genes. When selecting for large contigs (>500 nucleotides), a number of novel rainbow trout gene sequences were identified in this study: 1,085 and 1,228 novel gene sequences for red and white muscle, respectively, which included a number of important molecules for skeletal muscle function. Transcriptomic analysis revealed that sustained swimming increased transcriptional activity in skeletal muscle and specifically an up-regulation of genes involved in muscle growth and developmental processes in white muscle. The unique collection of transcripts will contribute to our understanding of red and white muscle physiology, specifically during the long-term reproductive migration of salmonids. [ABSTRACT FROM AUTHOR]

Published

2013

19. Generation of Constitutive Active ERK Mutants as Tools for Cancer Research in Zebrafish.

Author

Rian, Hanan, Gabriel Krens, S. F., Spaink, Herman P., and Snaar-Jagalska, B. Ewa

Subjects

CANCER research, ZEBRA danio, EXTRACELLULAR signal-regulated kinases, CELLULAR signal transduction, VERTEBRATE development, MITOGEN-activated protein kinases, TRANSGENES

Abstract

The extracellular-signal-regulated-kinase (ERK) signaling pathway is essential for vertebrate development and is frequently deregulated in human and zebrafish tumors. Previously, we cloned and characterized the zebrafish MAPK gene family and showed that ERK2 is crucial for cell migration and early zebrafish embryogenesis. To further study ERK2 function we generated constitutively active mutant forms of the ERK proteins by introducing conserved point mutations. We validated the enhanced protein activity in vitro by transfection of constructs into zebrafish fibroblast (zf4) cells and demonstrated elevated phosphorylation levels of downstream targets P90RSK and CREB, by ERK2L84P/S162D and ERK2L84P/S162D/D330N specifically. In vivo validation was performed by ectopic expression of corresponding mRNAs in the transgenic zebrafish FGF-ERK2 reporter fish line Tg(Dusp6:d2EGFP). Both mutant ERK2 isoforms induced elevated transgene expression compared to ERK2WT, confirming increased kinase activity in vivo. Phospho-kinomic analysis on peptide microarrays was performed to identify new targets in embryos injected with FGF8 or ERK2L84P/S162D/D330N mRNAs. We detected both FGF8 specific and common signalling targets. Interestingly, with both mRNAs we found increased phosphorylation levels of CDK1, which is critical for proper G2/M phase transition and mitotic entry in proliferation control. These results corroborate that constitutive activation of the ERK2 pathway leads to enhanced, possibly oncogenic, proliferation. [ABSTRACT FROM AUTHOR]

Published

2013

20. Pathogen Recognition and Activation of the Innate Immune Response in Zebrafish.

Author

van der Vaart, Michiel, Spaink, Herman P., and Meijer, Annemarie H.

Subjects

*NATURAL immunity, *ZEBRA danio, *VERTEBRATES, *IMMUNE response, *GENE expression, *HOST-parasite relationships, *CHRONIC diseases, *PATTERN perception

Abstract

The zebrafish has proven itself as an excellent model to study vertebrate innate immunity. It presents us with possibilities for in vivo imaging of host-pathogen interactions which are unparalleled in mammalian model systems. In addition, its suitability for genetic approaches is providing new insights on the mechanisms underlying the innate immune response. Here, we review the pattern recognition receptors that identify invading microbes, as well as the innate immune effector mechanisms that they activate in zebrafish embryos. We compare the current knowledge about these processes in mammalian models and zebrafish and discuss recent studies using zebrafish infection models that have advanced our general understanding of the innate immune system. Furthermore, we use transcriptome analysis of zebrafish infected with E. tarda, S. typhimurium, and M. marinum to visualize the gene expression profiles resulting from these infections. Our data illustrate that the two acute disease-causing pathogens, E. tarda and S. typhimurium, elicit a highly similar proinflammatory gene induction profile, while the chronic disease-causing pathogen, M. marinum, induces a weaker and delayed innate immune response. [ABSTRACT FROM AUTHOR]

Published

2012

21. A High-Throughput Screen for Tuberculosis Progression.

Author

Carvalho, Ralph, de Sonneville, Jan, Stockhammer, Oliver W., Savage, Nigel D. L., Veneman, Wouter J., Ottenhoff, Tom H. M., Dirks, Ron P., Meijer, Annemarie H., and Spaink, Herman P.

Subjects

TUBERCULOSIS, LUNG diseases, MYCOBACTERIUM, PREVENTIVE medicine, BLOOD vessels, ZEBRA danio, TUBERCULIN, BACTERIAL antigens

Abstract

One-third of the world population is infected with Mycobacterium tuberculosis and multi-drug resistant strains are rapidly evolving. The noticeable absence of a whole organism high-throughput screening system for studying the progression of tuberculosis is fast becoming the bottleneck in tuberculosis research. We successfully developed such a system using the zebrafish Mycobacterium marinum infection model, which is a well-characterized model for tuberculosis progression with biomedical significance, mimicking hallmarks of human tuberculosis pathology. Importantly, we demonstrate the suitability of our system to directly study M. tuberculosis, showing for the first time that the human pathogen can propagate in this vertebrate model, resulting in similar early disease symptoms to those observed upon M. marinum infection. Our system is capable of screening for disease progression via robotic yolk injection of early embryos and visual flow screening of late-stage larvae. We also show that this system can reliably recapitulate the standard caudal vein injection method with a throughput level of 2,000 embryos per hour. We additionally demonstrate the possibility of studying signal transduction leading to disease progression using reverse genetics at high-throughput levels. Importantly, we use reference compounds to validate our system in the testing of molecules that prevent tuberculosis progression, making it highly suited for investigating novel anti-tuberculosis compounds in vivo. [ABSTRACT FROM AUTHOR]

Published

2011

22. The epigenetic regulator Histone Deacetylase 1 promotes transcription of a core neurogenic programme in zebrafish embryos.

Author

Harrison, Michael R. M., Georgiou, Aristophanes S., Spaink, Herman P., and Cunliffe, Vincent T.

Subjects

HISTONE deacetylase, ZEBRA danio, DEVELOPMENTAL neurobiology, TRANSCRIPTION factors, GENE expression

Abstract

Background: The epigenetic regulator Histone Deacetylase 1 (Hdac1) is required for specification and patterning of neurones and myelinating glia during development of the vertebrate central nervous system (CNS). This coordinating function for Hdac1 is evolutionarily conserved in zebrafish and mouse, but the mechanism of action of Hdac1 in the developing CNS is not well-understood. Results: A genome-wide comparative analysis of the transcriptomes of Hdac1-deficient and wild-type zebrafish embryos was performed, which identified an extensive programme of gene expression that is regulated by Hdac1 in the developing embryo. Using time-resolved expression profiling of embryos, we then identified a small subset of 54 genes within the Hdac1-regulated transcriptome that specifically exhibit robust and sustained Hdac1- dependent expression from early neurogenesis onwards. 18 of these 54 stringently Hdac1-regulated genes encode DNA-binding transcription factors that are implicated in promoting neuronal specification and CNS patterning, including the proneural bHLH proteins Ascl1a and Ascl1b, as well as Neurod4 and Neurod. Relatively few genes are strongly repressed by Hdac1 but expression of the Notch target gene her6 is attenuated by Hdac1 in specific subregions of the developing CNS, from early stages of neurogenesis onwards. Selected members of the stringently Hdac1-regulated group of genes were tested for Hdac1 binding to their promoter-proximal cis-regulatory elements. Surprisingly, we found that Hdac1 is specifically and stably associated with DNA sequences within the promoter region of ascl1b during neurogenesis, and that this Hdac1-ascl1b interaction is abolished in hdac1 mutant embryos. Conclusions: We conclude that Hdac1 regulates histone acetylation and methylation in the developing zebrafish embryo and promotes the sustained, co-ordinate transcription of a small set of transcription factor genes that control expansion and diversification of cell fates within the developing CNS. Our in vivo chromatin immunoprecipitation results also suggest a specific function for Hdac1 in directly regulating transcription of a key member of this group of genes, ascl1b, from the beginning of neurogenesis onwards. Taken together, our observations indicate a novel role for Hdac1 as a positive regulator of gene transcription during development of the vertebrate CNS, in addition to its more well-established function in transcriptional repression. [ABSTRACT FROM AUTHOR]

Published

2011

23. Establishing Zebrafish as a Novel Exercise Model: Swimming Economy, Swimming-Enhanced Growth and Muscle Growth Marker Gene Expression.

Author

Palstra, Arjan P., Tudorache, Christian, Rovira, Mireia, Brittijn, Sebastiaan A., Burgerhout, Erik, van den Thillart, Guido E. E. J. M., Spaink, Herman P., and Planas, Josep V.

Subjects

ZEBRA danio, LOGPERCH, GENE expression, MUSCLE proteins, BODY composition of fish, BODY weight, SOMATOTROPIN, HYPOGLYCEMIC agents, GENETIC regulation

Abstract

Background: Zebrafish has been largely accepted as a vertebrate multidisciplinary model but its usefulness as a model for exercise physiology has been hampered by the scarce knowledge on its swimming economy, optimal swimming speeds and cost of transport. Therefore, we have performed individual and group-wise swimming experiments to quantify swimming economy and to demonstrate the exercise effects on growth in adult zebrafish. Methodology/Principal Findings: Individual zebrafish (n = 10) were able to swim at a critical swimming speed (Ucrit) of 0.548±0.007 m s-1 or 18.0 standard body lengths (BL) s-1. The optimal swimming speed (Uopt) at which energetic efficiency is highest was 0.396±0.019 m s-1 (13.0 BL s-1) corresponding to 72.26±0.29% of Ucrit. The cost of transport at optimal swimming speed (COTopt) was 25.2±4.03 μmol g-1 m-1. A group-wise experiment was conducted with zebrafish (n = 83) swimming at Uopt for 6 h day-1 for 5 days week-1 for 4 weeks vs. zebrafish (n = 84) that rested during this period. Swimming zebrafish increased their total body length by 5.6% and body weight by 41.1% as compared to resting fish. For the first time, a highly significant exercise-induced growth is demonstrated in adult zebrafish. Expression analysis of a set of muscle growth marker genes revealed clear regulatory roles in relation to swimming-enhanced growth for genes such as growth hormone receptor b (ghrb), insulin-like growth factor 1 receptor a (igf1ra), troponin C (stnnc), slow myosin heavy chain 1 (smyhc1), troponin I2 (tnni2), myosin heavy polypeptide 2 (myhz2) and myostatin (mstnb). Conclusions/Significance: From the results of our study we can conclude that zebrafish can be used as an exercise model for enhanced growth, with implications in basic, biomedical and applied sciences, such as aquaculture. [ABSTRACT FROM AUTHOR]

Published

2010

24. Identification of hoxb1b downstream genes: hoxb1b as a regulatory factor controlling transcriptional networks and cell movement during zebrafish gastrulation.

Author

VAN DEN AKKER, WILLEM M. R., DURSTON, ANTONY J., and SPAINK, HERMAN P.

Subjects

GENES, ZEBRA danio, PROTEIN microarrays, CENTRAL nervous system, EMBRYOS, TRANSCRIPTION factors, CELL adhesion

Abstract

Hox proteins are homeobox containing transcription factors that play important roles in patterning the presumptive central nervous system and the axial mesoderm in the early vertebrate embryo. Hox genes are first expressed during gastrula stages and recent studies suggest that their function goes beyond their role as patterning determinants. To improve our understanding of the role of Hox proteins during early vertebrate development, we designed a strategy to identify target genes of the zebrafish hoxb1b using overexpression and whole-genome microarray analysis. We directly compared the hoxb1b microarray data with those resulting from heterologous over-expression of the Xenopus XhoxD1 gene in zebrafish embryos. Both genes are the first expressed hox genes in their respective native embryos and display similar spatial expression patterns. The zebrafish transcriptome was analysed prior to the start of the expression of the endogenous hoxb1b gene and we observed extensive overlap between the hoxb1b and XhoxD1 putative downstream genes suggesting evolutionary functional conservation between these hox genes. Furthermore, genes encoding transcription factors and proteins that are known to be involved in cell adhesion and movement were over-represented among the candidate downstream genes, indicating the involvement of the developmentally earliest expressed hox genes in transcriptional networks and cell movement processes. [ABSTRACT FROM AUTHOR]

Published

2010

25. Integrating heterogeneous sequence informationfor transcriptome-wide microarray design; aZebrafish example.

Author

Rauwerda, Han, de Jong, Mark, de Leeuw, Wim C., Spaink, Herman P., and Breit, Timo M.

Subjects

MEDICAL research, ZEBRA danio, INFORMATION resources, NUCLEIC acids, GENETICS, RNA, ORGANISMS, COMPUTER software, BIOINFORMATICS

Abstract

Background: A complete gene-expression microarray should preferably detect all genomic sequences that can be expressed as RNA in an organism, i.e. the transcriptome. However, our knowledge of a transcriptome of any organism still is incomplete and transcriptome information is continuously being updated. Here, we present a strategy to integrate heterogeneous sequence information that can be used as input for an up-to-date microarray design. Findings: Our algorithm consists of four steps. In the first step transcripts from different resources are grouped into Transcription Clusters (TCs) by looking at the similarity of all transcripts. TCs are groups of transcripts with a similar length. If a transcript is much smaller than a TC to which it is highly similar, it will be annotated as a subsequence of that TC and is used for probe design only if the probe designed for the TC does not query the subsequence. Secondly, all TCs are mapped to a genome assembly and gene information is added to the design. Thirdly TC members are ranked according to their trustworthiness and the most reliable sequence is used for the probe design. The last step is the actual array design. We have used this strategy to build an up-to-date zebrafish microarray. Conclusions: With our strategy and the software developed, it is possible to use a set of heterogeneous transcript resources for microarray design, reduce the number of candidate target sequences on which the design is based and reduce redundancy. By changing the parameters in the procedure it is possible to control the similarity within the TCs and thus the amount of candidate sequences for the design. The annotation of the microarray is carried out simultaneously with the design. [ABSTRACT FROM AUTHOR]

Published

2010

26. RNA isolation method for single embryotranscriptome analysis in zebrafish.

Author

de Jong, Mark, Rauwerda, Han, Bruning, Oskar, Verkooijen, Jurgo, Spaink, Herman P., and Breit, Timo M.

Subjects

RNA, MESSENGER RNA, GENE expression, EMBRYOS, ZEBRA danio, LIQUID nitrogen, EMBRYOLOGY, NITROGEN, BRACHYDANIO

Abstract

Background: Transcriptome analysis during embryogenesis usually requires pooling of embryos to obtain sufficient RNA. Hence, the measured levels of gene-expression represent the average mRNA levels of pooled samples and the biological variation among individuals is confounded. This can irreversibly reduce the robustness, resolution, or expressiveness of the experiment. Therefore, we developed a robust method to isolate abundant high-quality RNA from individual embryos to perform single embryo transcriptome analyses using zebrafish as a model organism. Available methods for embryonic zebrafish RNA isolation minimally utilize ten embryos. Further downscaling of these methods to one embryo is practically not feasible. Findings: We developed a single embryo RNA extraction method based on sample homogenization in liquid nitrogen, RNA extraction with phenol and column purification. Evaluation of this method showed that: the quality of the RNA was very good with an average RIN value of 8.3-8.9; the yield was always ≥ 200 ng RNA per embryo; the method was applicable to all stages of zebrafish embryogenesis; the success rate was almost 100%; and the extracted RNA performed excellent in microarray experiments in that the technical variation was much lower than the biological variation. Conclusions: Presented is a high-quality, robust RNA isolation method. Obtaining sufficient RNA from single embryos eliminates the necessity of sample pooling and its associated drawbacks. Although our RNA isolation method has been setup for transcriptome analysis in zebrafish, it can also be used for other model systems and other applications like (q)PCR and transcriptome sequencing. [ABSTRACT FROM AUTHOR]

Published

2010

27. Specificity of the zebrafish host transcriptome response to acute and chronic mycobacterial infection and the role of innate and adaptive immune components

Author

van der Sar, Astrid M., Spaink, Herman P., Zakrzewska, Anna, Bitter, Wilbert, and Meijer, Annemarie H.

Subjects

*MYCOBACTERIAL diseases, *ZEBRA danio, *MESSENGER RNA, *IMMUNE response, *MYCOBACTERIA, *MACROPHAGES, *GRANULOMA, *NATURAL immunity, *GENE expression

Abstract

Abstract: Pathogenic mycobacteria have the ability to survive within macrophages and persist inside granulomas. The complex host–pathogen interactions that determine the outcome of a mycobacterial infection process result in marked alterations of the host gene expression profile. Here we used the zebrafish model to investigate the specificity of the host response to infections with two mycobacterium strains that give distinct disease outcomes: an acute disease with early lethality or a chronic disease with granuloma formation, caused by Mycobacterium marinum strains Mma20 and E11, respectively. We performed a microarray study of different stages of disease progression in adult zebrafish and found that the acute and the chronic strains evoked partially overlapping host transcriptome signatures, despite that they induce profoundly different disease phenotypes. Both strains affected many signaling cascades, including WNT and TLR pathways. Interestingly, the strongest differences were observed at the initial stage of the disease. The immediate response to the acute strain was characterized by higher expression of genes encoding MHC class I proteins, matrix metalloproteinases, transcription factors, cytokines and other common immune response proteins. In contrast, small GTPase and histone gene groups showed higher expression in response to the chronic strain. We also found that nearly 1000 mycobacterium-responsive genes overlapped between the expression signatures of infected zebrafish adults and embryos at different stages of granuloma formation. Since adult zebrafish possess an adaptive immune system similar to mammals and zebrafish embryos rely solely on innate immunity, this overlap indicates a major contribution of the innate component of the immune system in the response to mycobacterial infection. Taken together, our comparison of the transcriptome responses involved in acute versus chronic infections and in the embryonic versus adult situation provides important new leads for investigating the mechanism of mycobacterial pathogenesis. [Copyright &y& Elsevier]

Published

2009

28. Zebrafish development and regeneration: new tools for biomedical research.

Author

BRITTIJN, SEBASTIAAN A., DUIVESTEIJN, SUZANNE J., BELMAMOUNE, MOUNIA, BERTENS, LAURA F. M., BITTER, WILBERT, DE BRUIJN, JOOST D., CHAMPAGNE, DANIELLE L., CUPPEN, EDWIN, FLIK, GERT, VANDENBROUCKE-GRAULS, CHRISTINA M., JANSSEN, RICHARD A. J., DE JONG, ILSE M. L., DE KLOET, EDO RONALD, KROS, ALEXANDER, MEIJER, ANNEMARIE H., METZ, JURIAAN R., VAN DER SAR, ASTRID M., SCHAAF, MARCEL J. M., SCHULTE-MERKER, STEFAN, and SPAINK, HERMAN P.

Subjects

PATTERN formation (Biology), DEVELOPMENTAL biology, BIOLOGICAL assay, IMMUNE response, INFLAMMATION, PHYSIOLOGICAL stress, ZEBRA danio

Abstract

Basic research in pattern formation is concerned with the generation of phenotypes and tissues. It can therefore lead to new tools for medical research. These include phenotypic screening assays, applications in tissue engineering, as well as general advances in biomedical knowledge. Our aim here is to discuss this emerging field with special reference to tools based on zebrafish developmental biology. We describe phenotypic screening assays being developed in our own and other labs. Our assays involve: (i) systemic or local administration of a test compound or drug to zebrafish in vivo; (ii) the subsequent detection or "readout" of a defined phenotypic change. A positive readout may result from binding of the test compound to a molecular target involved in a developmental pathway. We present preliminary data on assays for compounds that modulate skeletal patterning, bone turnover, immune responses, inflammation and early-life stress. The assays use live zebrafish embryos and larvae as well as adult fish undergoing caudal fin regeneration. We describe proof-of-concept studies on the localised targeting of compounds into regeneration blastemas using microcarriers. Zebrafish are cheaper to maintain than rodents, produce large numbers of transparent eggs, and some zebrafish assays could be scaled-up into medium and high throughput screens. However, advances in automation and imaging are required. Zebrafish cannot replace mammalian models in the drug development pipeline. Nevertheless, they can provide a cost-effective bridge between cell-based assays and mammalian whole-organism models. [ABSTRACT FROM AUTHOR]

Published

2009

29. Transcriptome analysis of the response to chronic constant hypoxia in zebrafish hearts.

Author

Marques, Ines J., Leito, Jelani T. D., Spaink, Herman P., Testerink, Janwillem, Jaspers, Richard T., Witte, Frans, Van der Berg, Sjoerd, and Bagowski, Christoph P.

Subjects

ZEBRA danio, HYPOXEMIA, GENES, CEREBRAL anoxia, GENE expression, ISCHEMIA, AMAUROSIS fugax, CELL proliferation, REACTIVE oxygen species

Abstract

Insufficient blood supply during acute infarction and chronic ischemia leads to tissue hypoxia which can significantly alter gene expression patterns in the heart. In contrast to most mammals, some teleost fishes are able to adapt to extremely low oxygen levels. We describe here that chronic constant hypoxia (CCH) leads to a smaller ventricular outflow tract, reduced lacunae within the central ventricular cavity and around the trabeculae and an increase in the number of cardiac myocyte nuclei per area in the hearts of two teleost species, zebrafish ( Danio rerio) and cichlids (Haplochromis piceatus). In order to identify the molecular basis for the adaptations to CCH, we profiled the gene expression changes in the hearts of adult zebrafish. We have analyzed over 15,000 different transcripts and found 376 differentially regulated genes, of which 260 genes showed increased and 116 genes decreased expression levels. Two notch receptors (notch-2 and notch-3) as well as regulatory genes linked to cell proliferation were transcriptionally upregulated in hypoxic hearts. We observed a simultaneous increase in expression of IGF-2 and IGFbp1 and upregulation of several genes important for the protection against reactive oxygen species (ROS). We have identified here many novel genes involved in the response to CCH in the heart, which may have potential clinical implications in the future. [ABSTRACT FROM AUTHOR]

Published

2008

30. ERK1 and ERK2 MAPK are key regulators of distinct gene sets in zebrafish embryogenesis.

Author

Gabby Krens, S. F., Corredor-Adámez, Maximiliano, Shuning He, Snaar-Jagalska, B. Ewa, and Spaink, Herman P.

Subjects

MITOGEN-activated protein kinases, GENETIC regulation, FISH genetics, FISH embryos, ZEBRA danio, CELLULAR control mechanisms

Abstract

Background: The MAPK signaling proteins are involved in many eukaryotic cellular processes and signaling networks. However, specific functions of most of these proteins in vertebrate development remain elusive because of potential redundancies. For instance, the upstream activation pathways for ERK1 and ERK2 are highly similar, and also many of their known downstream targets are common. In contrast, mice and zebrafish studies indicate distinct roles for both ERKs in cellular proliferation, oncogenic transformation and development. A major bottleneck for further studies is that relatively little is known of in vivo downstream signaling specific for these kinases. Results: Microarray based gene expression profiling of ERK1 and ERK2 knockdown zebrafish embryos at various stages of early embryogenesis resulted in specific gene expression signature sets that showed pronounced differences in gene ontology analyses. In order to predict functions of these genes, zebrafish specific in silico signaling pathways involved in early embryogenesis were constructed using the GenMAPP program. The obtained transcriptome signatures were analyzed in the BMP, FGF, Nodal and Wnt pathways. Predicted downstream effects of ERK1 and ERK2 knockdown treatments on key pathways responsible for mesendoderm development were confirmed by whole mount in situ hybridization experiments. Conclusion: The gene ontology analyses showed that ERK1 and ERK2 target common and distinct gene sets, confirming the difference in knockdown phenotypes and diverse roles for these kinases during embryogenesis. For ERK1 we identified specific genes involved in dorsal-ventral patterning and subsequent embryonic cell migration. For ERK2 we identified genes involved in cell-migration, mesendoderm differentiation and patterning. The specific function of ERK2 in the initiation, maintenance and patterning of mesoderm and endoderm formation was biologically confirmed. [ABSTRACT FROM AUTHOR]

Published

2008

31. Gene expression profiling of the long-term adaptive response to hypoxia in the gills of adult zebrafish.

Author

van der Meer, David L. M., van den Thillart, Guido E. E. J. M., Witte, Frans, de Bakker, Merijn A. G., Besser, Jaya, Richardson, Michael K., Spaink, Herman P., Leito, Jelani T. D., and Bagowski, Christoph P.

Subjects

GENE expression, HYPOXIA (Water), DISSOLVED oxygen in water, GILLS, ZEBRA danio, FISH respiration, RESPIRATORY organs, FISH physiology

Abstract

Low oxygen levels (hypoxia) play a role in clinical conditions such as stroke, chronic ischemia, and cancer. To better understand these diseases, it is crucial to study the responses of vertebrates to hypoxia. Among vertebrates, some teleosts have developed the ability to adapt to extremely low oxygen levels. We have studied long-term adaptive responses to hypoxia in adult zebrafish. We used zebrafish that survived severe hypoxic conditions lot 3 wk and showed adaptive behavioral and phenotypic changes. We used cDNA microarrays to investigate hypoxia-induced changes in expression of 15,532 genes in the respiratory organs (the gills). We have identified 367 differentially expressed genes of which 117 showed hypoxia-induced and 250 hypoxia reduced expressions. Metabolic depression was indicated by repression of genes in the TCA cycle in the electron transport chain and of genes involved in protein biosynthesis. We observed enhanced expression of the monocarboxylate transporter and of the oxygen transporter myoglobin. The hypoxia-induced group further included the genes for Niemann-Pick C disease and for Wolman disease [lysosomal acid lipase (LAL)]. Both diseases lead to a similar intraand extracellular accumulation of cholesterol and glycolipids. The Niemann-Pick C protein binds to cholesterol from internal lysosomal membranes and is involved in cholesterol trafficking. LAL is responsible for lysosomal cholesterol degradation. Our data suggest a novel adaptive mechanism to hypoxia, the induction of genes for lysosomal lipid trafficking and degradation. Studying physiological responses to hypoxia in species tolerant for extremely low oxygen levels can help identify novel regulatory genes, which may have important clinical implications. [ABSTRACT FROM AUTHOR]

Published

2005

32. Has2 is required upstream of Rac1 to govern dorsal migration of lateral cells during zebrafish gastrulation.

Author

Bakkers, Jeroen, Kramer, Carina, Pothof, Joris, Quaedvlieg, Nicolette E. M., Spaink, Herman P., and Hammerschmidt, Matthias

Subjects

POLYSACCHARIDES, CANCER cells, CANCER invasiveness, CELL migration, METASTASIS, ZEBRA danio, GASTRULATION, EMBRYOLOGY

Abstract

The large extracellular polysaccharide Hyaluronan (HA) and its synthesizing enzymes (Has) have been implicated in regulating the migratory potential of metastatic cancer cells. Here, we analyze the roles of zebrafish Has2 in normal development. Antisense morpholino oligonucleotide (MO)mediated knockdown of zebrafish Has2 leads to the loss of HA, and severe migratory defects during gastrulation, somite morphogenesis and primordial germ cell migration. During gastrulation, ventrolateral cells of has2 morphant embryos fail to develop lamellipodia and to migrate dorsally, resulting in a blockage of dorsal convergence, whereas extension of the dorsal axis is normal. The effect is cell autonomous, suggesting that HA acts as an autocrine signal to stimulate the migration of HA-generating cells. Upon ectopic expression in axial cells, has2 causes the formation of supernumerary lamellipodia and a blockage of axis extension. Epistasis analyses with constitutively active and dominant-negative versions of the small GTPase Rac1 suggest that HA acts by Rac1 activation, rather than as an essential structural component of the extracellular matrix. Together, our data provide evidence that convergence and extension are separate morphogenetic movements of gastrulation. In addition, they suggest that the same HA pathways are active to auto-stimulate cell migration during tumor invasion and vertebrate embryogenesis. [ABSTRACT FROM AUTHOR]

Published

2004

33. Drug Administration Routes Impact the Metabolism of a Synthetic Cannabinoid in the Zebrafish Larvae Model.

Author

Park, Yu Mi, Meyer, Markus R., Müller, Rolf, Herrmann, Jennifer, Shimada, Yasuhito, and Spaink, Herman P.

Subjects

ZEBRA danio embryos, ZEBRA danio, BRACHYDANIO, DESIGNER drugs, LARVAE, DRUG metabolism, HEART ventricles, METABOLISM, DRUG administration routes

Abstract

Zebrafish (Danio rerio) larvae have gained attention as a valid model to study in vivo drug metabolism and to predict human metabolism. The microinjection of compounds, oligonucleotides, or pathogens into zebrafish embryos at an early developmental stage is a well-established technique. Here, we investigated the metabolism of zebrafish larvae after microinjection of methyl 2-(1-(5-fluoropentyl)-1H-pyrrolo[2,3-b]pyridine-3-carboxamido)-3,3-dimethylbutanoate (7′N-5F-ADB) as a representative of recently introduced synthetic cannabinoids. Results were compared to human urine data and data from the in vitro HepaRG model and the metabolic pathway of 7′N-5F-ADB were reconstructed. Out of 27 metabolites detected in human urine samples, 19 and 15 metabolites were present in zebrafish larvae and HepaRG cells, respectively. The route of administration to zebrafish larvae had a major impact and we found a high number of metabolites when 7′N-5F-ADB was microinjected into the caudal vein, heart ventricle, or hindbrain. We further studied the spatial distribution of the parent compound and its metabolites by mass spectrometry imaging (MSI) of treated zebrafish larvae to demonstrate the discrepancy in metabolite profiles among larvae exposed through different administration routes. In conclusion, zebrafish larvae represent a superb model for studying drug metabolism, and when combined with MSI, the optimal administration route can be determined based on in vivo drug distribution. [ABSTRACT FROM AUTHOR]

Published

2020

34. Zebrafish-Based Screening Models for the Identification of Anti-Metastatic Drugs.

Author

Nakayama, Joji, Makinoshima, Hideki, Shimada, Yasuhito, and Spaink, Herman P.

Subjects

ZEBRA danio, CANCER cells, DRUGS, BRACHYDANIO, IDENTIFICATION, ANIMAL models in research

Abstract

Metastasis, a leading contributor to the morbidity of cancer patients, occurs through a multi-step process: invasion, intravasation, extravasation, colonization, and metastatic tumor formation. Each process is not only promoted by cancer cells themselves but is also affected by their microenvironment. Given this complexity, drug discovery for anti-metastatic drugs must consider the interaction between cancer cells and their microenvironments. The zebrafish is a suitable vertebrate animal model for in vivo high-throughput screening studies with physiological relevance to humans. This review covers the zebrafish model used to identify anti-metastatic drugs. [ABSTRACT FROM AUTHOR]

Published

2020

35. Protective Effects of Fucoidan Isolated from Celluclast-Assisted Extract of Undaria pinnatifida Sporophylls against AAPH-Induced Oxidative Stress In Vitro and In Vivo Zebrafish Model.

Author

Oh, Jae-Young, Kim, Eun-A, Kang, Sang In, Yang, Hye-Won, Ryu, Bomi, Wang, Lei, Lee, Jung-Suck, Jeon, You-Jin, Shimada, Yasuhito, and Spaink, Herman P.

Subjects

UNDARIA pinnatifida, ZEBRA danio, BRACHYDANIO, BROWN algae, CELL death, LIPID peroxidation (Biology), REACTIVE oxygen species, OXIDATIVE stress

Abstract

Fucoidan is a fucose-enriched polysaccharide, obtained from brown algae, with demonstrated antioxidant properties. However, traditional extraction methods using water or chemical-based extraction methods have reduced yield and produced hazardous by-products. In this study, we isolated fucoidan at a high yield using enzyme-assisted extraction; the Celluclast enzyme assisted extract of Undaria pinnatifida sporophylls (FCUS). To examine the antioxidant properties of FCUS, oxidative stress was induced with 2,2′-azobis (2-methylpropionamidine) dihydrochloride (AAPH) in Vero cells and zebrafish model. FCUS was composed of 30.4% sulfate and 52.3% fucose. Pre-treatment of Vero cells with FCUS dose dependently inhibited AAPH-induced reactive oxygen species (ROS) production. Moreover, FCUS remarkably reduced cell death, ROS generation, and lipid peroxidation production in zebrafish larvae. Overall, these findings indicate that the sulfate-rich fucoidan of FCUS, obtained with an eco-friendly process, could be implemented as a beneficial antioxidant agent in the functional food industry. [ABSTRACT FROM AUTHOR]

Published

2020

36. Phagocytosis of mycobacteria by zebrafish macrophages is dependent on the scavenger receptor Marco, a key control factor of pro-inflammatory signalling.

Author

Benard, Erica L., Roobol, Stefan J., Spaink, Herman P., and Meijer, Annemarie H.

Subjects

*PHAGOCYTOSIS, *CELLULAR signal transduction, *SCAVENGER receptors (Biochemistry), *MACROPHAGES, *ZEBRA danio, *MYCOBACTERIA, *FISHES

Abstract

Scavenger receptors on the cell surface of macrophages play an important role in host defence through their ability to bind microbial ligands and induce phagocytosis. Concurrently, signal transduction pathways are initiated that aid in defence mechanisms against the invading microbe. Here we report on the function of scavenger receptor Marco ( Ma crophage r eceptor with co llagenous structure) during infection of zebrafish embryos with Mycobacterium marinum, a close relative of M. tuberculosis. Morpholino knockdown demonstrates that Marco is required for the rapid phagocytosis of M. marinum following intravenous infection. Furthermore, gene expression analysis shows that Marco controls the initial transient pro-inflammatory response to M. marinum and remains a determining factor for the immune response signature at later stages of infection. Increased bacterial burden following marco knockdown indicates that this scavenger receptor is important for control of M. marinum growth, likely due to delayed phagocytosis and reduced pro-inflammatory signalling observed under conditions of Marco deficiency. [ABSTRACT FROM AUTHOR]

Published

2014

37. Functional analysis reveals no transcriptional role for the glucocorticoid receptor β-isoform in zebrafish.

Author

Chatzopoulou, Antonia, Schoonheim, Peter J., Torraca, Vincenzo, Meijer, Annemarie H., Spaink, Herman P., and Schaaf, Marcel J. M.

Subjects

*GLUCOCORTICOID receptors, *GENETIC transcription regulation, *ZEBRA danio, *GENE expression, *MICROARRAY technology

Abstract

In humans, two splice variants of the glucocorticoid receptor (GR) exist: the canonical α-isoform, and the β-isoform, which has been shown to have a dominant-negative effect on hGRα. Previously, we have established the occurrence of a GR β-isoform in zebrafish, and in the present study we have investigated the functional role of the zebrafish GRβ (zGRβ). Reporter assays in COS-1 cells demonstrated a dominant-negative effect of zGRβ but no such effect was observed in zebrafish PAC2 cells using induction of the fk506 binding protein 5 (fkbp5) gene as readout. Subsequently, we generated a transgenic fish line with inducible expression of zGRβ. Transcriptome analysis suggested transcriptional regulation of genes by zGRβ in this line, but further validation failed to confirm this role. Based on these results, its low expression level and its poor evolutionary conservation, we suggest that the zebrafish GR β-isoform does not have a functional role in transcriptional regulation. [ABSTRACT FROM AUTHOR]

Published

2017

38. Identification of proteome markers for drug-induced liver injury in zebrafish embryos.

Author

Driessen, Marja, van der Plas - Duivesteijn, Suzanne, Kienhuis, Anne S., van den Brandhof, Evert-Jan, Roodbergen, Marianne, van de Water, Bob, Spaink, Herman P., Palmblad, Magnus, van der Ven, Leo T.M., and Pennings, Jeroen L.A.

Subjects

*ZEBRA danio embryos, *LIVER injuries, *DRUG side effects, *ZEBRA danio, *BRACHYDANIO, *EMBRYOS, *CHICKEN embryos, *LIQUID chromatography-mass spectrometry

Abstract

The zebrafish embryo (ZFE) is a promising alternative non-rodent model in toxicology, and initial studies suggested its applicability in detecting hepatic responses related to drug-induced liver injury (DILI). Here, we hypothesize that detailed analysis of underlying mechanisms of hepatotoxicity in ZFE contributes to the improved identification of hepatotoxic properties of compounds and to the reduction of rodents used for hepatotoxicity assessment. ZFEs were exposed to nine reference hepatotoxicants, targeted at induction of steatosis, cholestasis, and necrosis, and effects compared with negative controls. Protein profiles of the individual compounds were generated using LC-MS/MS. We identified differentially expressed proteins and pathways, but as these showed considerable overlap, phenotype-specific responses could not be distinguished. This led us to identify a set of common hepatotoxicity marker proteins. At the pathway level, these were mainly associated with cellular adaptive stress-responses, whereas single proteins could be linked to common hepatotoxicity-associated processes. Applying several stringency criteria to our proteomics data as well as information from other data sources resulted in a set of potential robust protein markers, notably Igf2bp1, Cox5ba, Ahnak, Itih3b.2, Psma6b, Srsf3a, Ces2b, Ces2a, Tdo2b, and Anxa1c, for the detection of adverse responses. • We exposed zebrafish embryos to nine reference hepatotoxicants and controls. • Using LC-MS/MS, we obtained protein profiles for each compound. • We identified proteins that were differentially expressed by multiple compounds. • These proteins could be linked to common hepatotoxicity-associated processes. • This resulted in a set of protein markers for detecting drug-induced liver injury. [ABSTRACT FROM AUTHOR]

Published

2022

39. Comparative studies of Toll-like receptor signalling using zebrafish.

Author

Kanwal, Zakia, Wiegertjes, Geert F., Veneman, Wouter J., Meijer, Annemarie H., and Spaink, Herman P.

Subjects

*TOLL-like receptors, *CELLULAR signal transduction, *ZEBRA danio, *NATURAL immunity, *FISH genetics, *COMPARATIVE studies

Abstract

Highlights: [•] Zebrafish larvae are increasingly used for studies of innate immunity. [•] We compare the knowledge on TLR signalling in zebrafish and mammals. [•] The role of negative control elements in TLR signalling is highlighted. [•] There are many advantages of comparative studies of zebrafish and common carp. [•] Future studies of TLR signalling will benefit from advances in zebrafish genetics. [ABSTRACT FROM AUTHOR]

Published

2014

40. Contrasted Innate Responses to Two Viruses in Zebrafish: Insights into the Ancestral Repertoire of Vertebrate IFN-Stimulated Genes.

Author

Briolat, Valérie, Jouneau, Luc, Carvalh, Ralph, Pallia, Nuno, Langevin, Christelle, Herbomel, Philippe, Schwartz, Olivier, Spaink, Herman P., Levraud, Jean-Pierre, and Boudino, Pierre

Subjects

*ZEBRA danio, *MOLECULAR immune response, *DNA microarrays, *RNA virus infections, *CHIKUNGUNYA virus, *IN situ hybridization

Abstract

Ease of imaging and abundance of genetic tools make the zebrafish an attractive model host to understand host-pathogen interactions. However, basic knowledge regarding the identity of genes involved in antiviral immune responses is still lagging in this species. We conducted a microarray analysis of the larval zebrafish response to two models of RNA virus infections with very different outcomes. Chikungunya virus (CHIKV) induces a rapid and protective IFN response. Infection with infectious hematopoietic necrosis virus is lethal and is associated with a delayed and inefficient IFN response. A typical signature of IFN-stimulated genes (ISGs) was observed with both viruses, but was stronger for CHIKV. We further compared the zebrafish and human ISG repertoires and made a genomic and phylogenic characterization of the main gene families. We describe a core set of well-induced ISGs conserved across vertebrates, as well as multigenic families diversified independently in each taxon. The conservation of ISGs involved in antiviral signaling indicates conservation of the main feedback loops in these pathways. Whole-mount in situ hybridization of selected transcripts in infected larvae revealed a typical pattern of expression for ISGs in the liver, gut, and blood vessels with both viruses. We further show that some inflammatory genes were additionally induced through IFN-independent pathways by infectious hematopoietic necrosis virus and not by CHIKV. This study provides a useful reference set for the analysis of host-virus interactions in zebrafish and highlights the differences between protective and nonprotective antiviral innate responses. [ABSTRACT FROM AUTHOR]

Published

2014

41. Transcriptome analysis of Traf6 function in the innate immune response of zebrafish embryos

Author

Stockhammer, Oliver W., Rauwerda, Han, Wittink, Floyd R., Breit, Timo M., Meijer, Annemarie H., and Spaink, Herman P.

Subjects

*NATURAL immunity, *ZEBRA danio, *IMMUNE response, *LABORATORY mice, *GENETIC regulation, *BACTERIAL diseases, *DNA microarrays, *CELLULAR signal transduction, *CELL receptors

Abstract

Abstract: TRAF6 is a key player at the cross-roads of development and immunity. The analysis of its in vivo molecular function is a great challenge since severe developmental defects and early lethality caused by Traf6 deficiency in knock-out mice interfere with analyses of the immune response. In this study we have used a new strategy to analyze the function of Traf6 in a zebrafish-Salmonella infectious disease model. In our approach the effect of a Traf6 translation-blocking morpholino was titrated down to avoid developmental defects and the response to infection under these conditions was studied using the combination of microarray analysis and whole transcriptome deep sequencing. Transcriptome profiling of the traf6 knock-down allowed the identification of a gene set whose responsiveness during infection is highly dependent on Traf6. Expression trend analysis based on the resulting datasets identified nine clusters of genes with characteristic transcription response profiles, demonstrating Traf6 has a dynamic role as a positive and negative regulator. Among the Traf6-dependent genes was a large set of well known anti-microbial and inflammatory genes. Additionally, we identified several genes which were not previously linked to a response to microbial infection, such as the fertility hormone gene gnrh2 and the DNA-damage regulated autophagy modulator 1 gene dram1. With the use of the zebrafish embryo model we have now analyzed the in vivo function of Traf6 in the innate immune response without interference of adaptive immunity. [ABSTRACT FROM AUTHOR]

Published

2010

42. Candidates for membrane progestin receptors—Past approaches and future challenges

Author

Zhu, Yong, Hanna, Richard N., Schaaf, Marcel J.M., Spaink, Herman P., and Thomas, Peter

Subjects

*HORMONE receptors, *PROGESTATIONAL hormones, *OVUM, *ZEBRA danio, *STEROIDS, *CELL membranes, *REPRODUCTION

Abstract

Abstract: Progestins have a broad range of functions in reproductive biology. Many rapid nongenomic actions of progestins have been identified, including induction of oocyte maturation, modulation of reproductive signaling in the brain, rapid activation of breast cancer cell signaling, induction of the acrosomal reaction and hypermotility in mammalian sperm. Currently, there are three receptor candidates for mediating rapid progestin actions: (1) membrane progestin receptors (mPRs); (2) progestin receptor membrane components (PGRMCs); and (3) nuclear progestin receptors (nPRs). The recently-described mPR family of proteins has seven integral transmembrane domains and mediates signaling via G-protein coupled pathways. The PGRMCs have a single transmembrane with putative Src homology domains for potential activation of second messengers. The classical nPRs, in addition to having well defined transcriptional activity, can also mediate rapid activation of intracellular signaling pathways. However, details of the mechanisms by which these three classes of progestin receptors mediate rapid intracellular signaling and their subcellular localization remain unclear. In addition, mPRs, nPRs and PGRMCs exhibit overlapping expression and functions in multiple tissues, implying potential interactions during oocyte maturation, parturition, and breast cancer signaling in individual cells. However, the overwhelming majority of studies to date have focused on the functions of one of these groups of receptors in isolation. This review will summarize recent findings on the three major progestin receptor candidates, emphasizing the different approaches used, some experimental pitfalls, and current controversies. We will also review evidence for the involvement of mPRs and nPRs in one of the most well-characterized nongenomic steroid actions in basal vertebrates, oocyte maturation, and conclude by suggesting some future areas of research. Clarification of the controversies surrounding the identities and localization of membrane progestin receptors may help direct future research that could advance our understanding of rapid actions of steroids. [Copyright &y& Elsevier]

Published

2008

43. Identification and real-time imaging of a myc-expressing neutrophil population involved in inflammation and mycobacterial granuloma formation in zebrafish

Author

Meijer, Annemarie H., van der Sar, Astrid M., Cunha, Cristiana, Lamers, Gerda E.M., Laplante, Mary A., Kikuta, Hiroshi, Bitter, Wilbert, Becker, Thomas S., and Spaink, Herman P.

Subjects

*ZEBRA danio, *INFLAMMATION, *MYCOBACTERIUM, *LEUCOCYTES

Abstract

Abstract: By enhancer trap screening we identified a transgenic zebrafish line showing leukocyte-specific YFP expression during late embryo and early larval development. Its enhancer detection insertion was mapped near a novel member of the myc proto-oncogene family, encoding transcription factors known to be important for regulating human myelopoiesis. Characterization of the zebrafish myc family showed that only this particular myc gene is strongly expressed in leukocytes. To identify the myc/YFP-expressing cell type, we re-examined specificity of described myeloid markers by multiplex fluorescent in situ hybridization, showing that lcp1 can be considered as a general leukocyte marker, csf1r as a macrophage-specific marker, and mpx and lyz as neutrophil-specific markers. Subsequent colocalization analysis defined the YFP-positive cells as a subset of the neutrophil population. Using real-time confocal imaging we demonstrate that these cells migrate to sites of inflammation and are involved in innate immune responses towards infections, including Mycobacterium marinum-induced granuloma formation. [Copyright &y& Elsevier]

Published

2008

44. Expression analysis of the Toll-like receptor and TIR domain adaptor families of zebrafish

Author

Meijer, Annemarie H., Gabby Krens, S.F., Medina Rodriguez, Indira A., He, Shuning, Bitter, Wilbert, Ewa Snaar-Jagalska, B., and Spaink, Herman P.

Subjects

*ZEBRA danio, *GENE expression, *CELL receptors, *BRACHYDANIO, *INTERLEUKINS

Abstract

The zebrafish genomic sequence database was analysed for the presence of genes encoding members of the Toll-like receptors (TLR) and interleukin receptors (IL-R) and associated adaptor proteins containing a TIR domain. The resulting predictions show the presence of one or more counterparts for the human TLR1, TLR2, TLR3, TLR4, TLR5, TLR7, TLR8, TLR9, IL-1R and IL-18R genes and one copy of the adaptor genes MyD88, MAL, TRIF and SARM. In contrast to data for the pufferfish Fugu rubripes, zebrafish has two genes that are highly similar to human TLR4. In addition, one fish-specific TLR group can be distinguished that is closely related to the Drosophila melanogaster Toll-9 gene. The sequence of cloned cDNAs for TLR4, TLR2 and MyD88 show the same intron–exon organisation as in the human counterparts. Expression analysis using reverse transcriptase-PCR (RT-PCR) shows that 17 of the predicted zebrafish TLR genes and all the genes encoding adaptor proteins are expressed in the adult stage. A subset of the TLR genes are expressed at higher levels in fish infected with the pathogen Mycobacterium marinum. The induced genes include the homologues of the human TLR1 and TLR2 genes, whose functions are associated with mycobacterial infections, underscoring the suitability of zebrafish as a model for analysis of the vertebrate innate immune system. [Copyright &y& Elsevier]

Published

2004