Abstract: RTG-P1 cells are a rainbow trout fibroblastic cell line permanently transfected with the luciferase gene under the control of the Mx promoter. On exposure to interferon (IFN) or IFN inducing agents, the cells produce luciferase. IPNV did not induce luciferase production up to 24h post-infection but did not suppress constitutive luciferase production. Furthermore, IPNV suppressed luciferase production induced by poly I:C. RT-PCR analysis of IPNV infected cells showed IFN gene transcription from 6h post-infection with increasing expression up to 24h. Housekeeping genes beta-actin and GAPDH were also expressed along with upregulation of IRF1 and slight upregulation of STAT1. When RTG-P1 cells were stimulated with IFN, Mx transcripts, measured by qRT-PCR, peaked at 3-6h and thereafter fell to low levels, but in the presence of IPNV, Mx transcription at this time was significantly suppressed but continued to rise gradually. Luciferase production was lower in infected cells at 12h post-infection but not significantly after 24h. These results indicate that, in non-stimulated RTG-P1 cells, while IPNV induces IFN transcription, activation of Mx expression is suppressed. Furthermore, when stimulated by IFN, the rate of Mx transcription is significantly suppressed by the virus. This would probably give time for the virus to replicate rapidly in the early phases of infection. Contrary to the fibroblastic cell line, IPNV stimulated IFN production by salmon macrophages in vitro at least as strongly as poly I:C, with no suppression of the IFN response to poly I:C, and the virus persisted for up to 9 days without causing CPE.
Abstract: A rabbit antiserum was produced from a 12-amino acid long peptide common to the 3 known isoforms of Atlantic salmon Mx proteins. The antibody stained ASK-1 cells 48h after stimulation with poly I:C. In Western blots of these cells, the antibody stained a doublet with MW about 75kDa and another band at about 65kDa, typical of the MW of Atlantic salmon Mx. Western blots of kidney from IPNV-injected salmon showed a similar staining pattern. In immunohistochemistry, the antibody stained the gill, kidney and liver tissue of a fish infected with IPNV by cohabitation. These tissues also expressed high levels of interferon (IFN) and Mx transcripts as determined by real-time qRT-PCR. Normal healthy salmon post-smolts sampled at 4-8 weeks after transfer to sea water had very low-level expression of IFN and Mx transcripts. However, at 4 and 5 weeks after sea water transfer the gill, kidney and liver of these fish stained strongly for Mx protein. Thereafter, immunostaining of Mx markedly diminished in all tissues, persisting weakly in the gill. It has been reported that Atlantic salmon smolts constitutively express IFN and Mx transcripts around the time of smolting. Presumably the Mx protein detected in the tissues for about 6 weeks after transfer to sea water resulted from such a transcriptional event. As Mx is known to provide protection against IPNV infections it is tempting to associate the duration of persistence of Mx protein with the outbreaks of IPN-related mortalities in post-smolts, 6-8 weeks after transfer to sea water.
Abstract: The Mx response was compared in parr and post-smolt Atlantic salmon following intra-peritoneal injection of the same dose of Infectious Pancreatic Necrosis Virus (IPNV) per g of fish. Mx gene expression, measured by quantitative RT-PCR in liver, showed a maximum level 3days after injection in parr with undetectable levels on day 7. In post-smolts, similar levels as in parr were attained on day 3, but levels then continued to rise on day 5 and 7 to about 10 times higher than the peak level in parr. Poly I:C injected parr showed Mx levels similar to IPNV injected post-smolts. Mortality from IPN in post-smolts occurred on days 6 and 7. Levels of IPN VP2 transcripts in parr were very low and did not increase with time, suggesting viral replication was low. Individual variation in levels of Mx and IPN VP2 gene transcripts was very high in post-smolts and although data is limited there was an inverse relationship between the levels of Mx and VP2, suggesting that individuals with high Mx levels on day 5 may be able to prevent viral replication. This contrasts with the response in parr, where IPN-resistance was not associated with a high Mx response.
Abstract: Infectious pancreatic necrosis virus (IPNV) and infectious salmon anaemia virus (ISAV) are economically important pathogens of the salmonid aquaculture industry. Atlantic salmon were challenged by intraperitoneal injection (i.p.) with either virus followed by time-course sampling. Cohabiting fish in the IPNV challenge were also sampled. Kidney tissue was analysed using a TaqMan real-time PCR assay to measure the expression of a range of host immune genes in relation to the endogenous control, elongation factor 1 alpha (ELF). Host genes measured included Mx, type I and type II interferon (IFN), gammaIFN induced protein (gammaIP), interleukin-1 beta (IL-1beta) and tumour necrosis factor alpha (TNF-alpha). Viral levels were also measured. In i.p. injected fish, both viruses greatly induced expression of Mx, gammaIP, type I and type II IFN by day 6 post-infection, however only ISAV caused substantial mortality. Some differences between the expression kinetics produced by both viruses were noted. Infection with ISAV increased IL-1beta expression following day 6, but no effect was seen in fish infected with IPNV. Neither virus induced TNF-alpha expression. This study confirms the presence of both type I and type II IFN responses and their induced genes in Atlantic salmon upon infection with an orthomyxovirus and a birnavirus.
Abstract: A transgenic cell line for the detection of salmon interferons (IFNs) has been established. It is based on a CHSE-214 cell line containing a reporter construct expressing firefly luciferase under the control of the rainbow trout promoter for the IFN-induced Mx1 gene. This cell line, named CHSE-Mx10, showed IFN-induced luciferase expression after more than 80 passages, confirming the stability of this cell line. Interestingly, the Mx promoter was shown to respond to both salmon IFN-alpha/beta and trout IFN-gamma in a dose-dependent manner, while there was no response to TNF-alpha and IL-1beta. IFN-alpha/beta activity could be measured at a range of 9-150 U/ml, and IFN-gamma showed activity between 10 and 100 ng/ml. The reproducibility of both responses was good. The CHSE-Mx10 reporter system constitutes a versatile tool to study the induction and regulation of IFN signaling in teleost fish. A preliminary study presented herein suggests that both infectious pancreas necrosis virus (IPNV) and salmon pancreas disease virus (SPDV) may block activation of the Mx promoter in CHSE-Mx10 stimulated with IFN-alpha/beta.
Abstract: Atlantic cod fry (1g) were infected by intraperitoneal injection with IPNV and samples of liver were taken every second day from four fish up to day 21. Samples were analysed for levels of viral transcripts by real time RT-PCR and the induction of expression of interferon stimulated gene 15 (ISG15) transcripts were estimated by conventional RT-PCR relative to beta-actin. Mortality of over 40% occurred in infected groups between day 6 and 12 after infection. Levels of viral transcripts were low on day 1, rose on day 3, peaked on day 5 remaining high till day 13, and thereafter declined to low levels by day 21. The highest levels of viral transcripts, therefore, coincided with the onset and duration of mortality, but low levels persisted in surviving fish. ISG15 transcripts in control fish were detectable at low levels. Following infection with IPNV there was a marked increase in transcripts on day 3 and this level persisted up to day 21. This is the first report that IPNV induces the expression of the ISG15 gene in Atlantic cod.
Abstract: The expression in kidney tissue of interferon type I (IFNalpha) and type II (IFNgamma) genes and two of their inducible genes, Mx and gammaIP were monitored, using qRT-PCR, in a population of Atlantic salmon prior to and over the period of smolting and sea water transfer. The smolting process was induced by photoperiod manipulation in October and smolts were transferred to sea water in December. Prior to extending the light period in October, the fish showed extremely low level expression of the genes assayed. However, immediately on extending the light and up until 1 week after transfer to sea water, 26 of the 90 fish sampled showed up-regulated expression for IFNalpha, Mx and gammaIP. The highest levels were shown by two fish on the 2 days prior to sea water transfer. Eleven fish displayed elevated expression of IFNgamma but there was no apparent association with smolting or sea water transfer or expression of the other genes. At the end of the sampling period, 30 fish were tested by standard virological methods and found to be virus free. The results indicate that during the smolting process, Atlantic salmon consititutively express IFNalpha and Mx mRNA. Those individuals which express Mx close to the time of transfer to sea water would be expected to have high levels of the anti-viral Mx protein in tissues for the longest time after sea water transfer. This could provide an innate defence against viral pathogens which post-smolts may encounter for the first time on entering the marine environment. Those individuals which express Mx early in the smolting process may be more at risk of developing IPN or other viral diseases as post-smolts.
Abstract: Infectious salmon anaemia virus (ISAV) is an orthomyxovirus and member of the genus Isavirus, which contains eight genomic segments coding for ten viral proteins. This study focussed on identifying the function of the largest protein encoded by ISAV genomic segment 7 (7i), which like influenza A segment 7 encodes two proteins, one of which is based on removal of an intron from the primary transcript. Using two independent methods, an Mx1 promoter-driven reporter system and real-time PCR of FACS-sorted transfected cells, we demonstrate that the non-structural ISAV 7i protein is an interferon-signalling antagonist. Other transfection studies indicated a predominantly cytoplasmic localisation of the expressed protein, which is consistent with this role. The demonstration that ISAV segment 7 encodes a putative non-structural IFN system antagonist reveals a difference with influenza A virus, where segment 7, which shares a similar coding strategy, encodes the structural matrix proteins.
Abstract: In the present study using a luciferase/Mx promoter reporter system, it was shown that the rainbow trout gonad cell line (RTG-P1), a fibroblastic cell line, produces IFN when transfected with a plasmid encoding the glycoprotein of VHSV but not with plasmid vector alone. Only a small percentage of the cells expressed the G protein on the surface membrane as indicated by immunostaining of transfected cells. When transfection was performed in the presence of monoclonal antibodies (Mab) to the glycoprotein, the production of interferon mRNA transcripts was reduced by over 50%. This indicates that the surface expression of G protein was the major mechanism of interferon induction and that most of the interferon was being expressed by cells neighbouring the transfected cells.
Abstract: In mammals, the pro-inflammatory cytokine interleukin-1 signals through a receptor complex containing a type I interleukin-1 receptor (IL-1RI) and a receptor associated protein (IL-1RAcP). Previously, we have described a cDNA from Atlantic salmon encoding a molecule with homology to the mammalian IL-RI. This molecule was named IL-1 receptor like protein (IL-1RLP) in the absence of functional data to support its proposed role as the salmon IL-1RI. Here, we describe the cloning and characterisation of a cDNA encoding salmon IL-1RAcP. Like other members of the IL-1R family, the salmon IL-1RAcP encodes three extracellular immunoglobulin-like domains and a cytoplasmic Toll/Interleukin-1 receptor (TIR) domain involved in signalling. Specific binding of salmon IL-1RAcP to IL-1RLP was shown by co-immunoprecipitation studies.
Abstract: A new expression plasmid (pcDNA3-LP) was designed to produce and secrete proteins in fish cells by fusion with the rainbow trout TGF-beta leader peptide. The luciferase reporter gene was used to test the secreting ability of this vector. Secreting (pcDNA3-LP-LUC) and non-secreting (pcDNA3-LUC) constructs were made and compared in transient transfection experiments in salmonid (RTG-2) and cyprinid (EPC) cell lines. The amount of luciferase secreted into the supernatants of RTG-2 or EPC cells transiently transfected with pcDNA3-LP-LUC relative to cells transfected with pcDNA3-LUC was 7- and 85-fold, respectively. Two stable clones of EPC transfected with pcDNA3-LUC and four clones transfected with pcDNA3-LP-LUC were isolated. Approximately 90% of the total luciferase activity produced was secreted by stable EPC clones containing pcDNA3-LP-LUC whereas only 5% of total activity was secreted by clones containing pcDNA3-LUC. The two constructs were injected intra-muscularly into rainbow trout and the luciferase activity present in the serum of fish determined. The luciferase activity in serum from fish injected with pcDNA3-LP-LUC was 2.7-fold higher (P<0.05) than that fish injected with pcDNA3-LUC. This new vector opens up opportunities in fish DNA vaccinology and in the production of fish recombinant proteins.
Abstract: IFN-gamma is one of the key cytokines in defining Th1 immune responses. In this study, an IFN-gamma homologue has been identified in rainbow trout Oncorhynchus mykiss, and its biological activities have been characterized. The trout IFN-gamma cDNA is 1034 bp in length and translates into a 180-aa protein. The first intron of the trout IFN-gamma gene contains highly polymorphic GACA minisatellites and 44-bp DNA repeats, giving rise to at least six alleles. IFN-gamma is structurally conserved among vertebrates, and a signature motif has been identified. A nuclear localization sequence known to be crucial for IFN-gamma biological activities is also present in the C-terminal region of the trout IFN-gamma. The IFN-gamma expression was induced in head kidney leukocytes by stimulation with PHA or poly(I:C) and in kidney and spleen of fish injected with poly(I:C). rIFN-gamma produced in Escherichia coli significantly stimulated gene expression of IFN-gamma-inducible protein 10 (gammaIP-10), MHC class II beta-chain, and STAT1, and enhanced respiratory burst activity in macrophages. Deletion of 29-aa residues from the C terminus containing the nuclear localization sequence motif resulted in loss of activity with respect to induction of gammaIP-10 in RTS-11 cells. Moreover, IFN-gamma-induced gammaIP-10 expression was completely abolished by the protein kinase C inhibitor staurosporine, and partially reduced by U0126, a specific inhibitor for ERKs. Taken together, the present study has demonstrated for the first time a functional IFN-gamma homologue in a fish species, strongly suggesting a conserved Th1 immune response is most likely present in lower vertebrates.
Abstract: Mammalian IL-1beta is produced as a biologically inactive 31 kDa precursor, which is converted to the active 18 kDa form by proteolytic processing. Synthesis and processing of native piscine IL-1beta is poorly understood. In the present study, the native IL-1beta precursor or mature peptides were detected at sizes of approx. 29 kDa and 24 kDa in cell lysates of a rainbow trout macrophage cell line RTS-11, with or without LPS stimulation, by Western blot analysis using a polyclonal antibody against the putative trout mature IL-1beta (rmIL-1beta) produced in Escherichia coli. Processing of the 29 kDa precursor into a 24 kDa mature peptide was confirmed by analysis of such proteins using a monoclonal conjugate (Ni-NTA-HRP) against 6 histidines in lysates of the RTS-11 cells transfected with an expression plasmid containing the IL-1beta precursor molecule tagged with 6 histidines at its C terminus. Only the recombinant mature 24 kDa) IL-1beta/HIS protein was purified from the culture supernatants of the transfected cells, indicating the molecule is cleaved to be secreted. These findings strongly suggest that the trout IL-1beta molecule is processed in trout macrophages in an analogous way to the situation with mammalian IL-1beta despite the lack of a clear ICE cut site.
Abstract: We here describe an assay for the detection of interferon-like activity in Atlantic salmon based on the transient transfection of chinook salmon embryo cells (CHSE-214 cells) with a rainbow trout Mx1 promoter linked to a luciferase reporter. A beta-galactosidase gene under the control of a constitutively expressed beta-actin promoter was used as a transfection standard, and luciferase and beta gal expression were measured by a commercially available kit. Interferon containing supernatants from poly I:C- or CpG-stimulated leucocytes added to transfected CHSE-cells induced high luciferase expression (>60-fold induction compared to supernatants from non-stimulated cells). There was no response to supernatants from LPS- and ConA/PMA-stimulated leucocytes, demonstrating the specificity for type I interferon-like activity. Duplicate samples analysed using a cell protection assay for detection of antiviral activity correlated well with levels obtained by the Mx1 promoter reporter gene assay (R2=0.97), confirming the reporter assay as a reliable substitute for the standard antiviral assay. The Mx reporter gene assay also has advantages in terms of sensitivity, high dynamic range and reliability over the conventional cell protection assay.
Abstract: A rainbow trout interferon (IFN) reporter system has been established by selection of a stable cell line, RTG-P1, transfected with a plasmid expressing the firefly luciferase gene under the control of the promoter for the IFN-induced gene Mx1. After 148 passages, the luciferase expression was still highly induced by polyinosinic:polycytidylic acid (poly I:C) in RTG-P1 cells. Different IFN inducers (dsRNA, viral hemorrhagic septicaemia virus or conditioned medium containing rainbow trout antiviral activity) were able to stimulate the IFN-reporter system in RTG-P1, showing that this cell line can be used to study the activation of the IFN pathway in various contexts. Pyrrolidine dithiocarbamate (PDTC), an NF-kappaB inhibitor, significantly blocked poly I:C induced luciferase accumulation in RTG-P1 at intermediate doses (1-10 microM), suggesting that Mx1 induction through the IFN signalling pathway is NF-kappaB-dependent in fish. This inhibition was not observed for doses of 50 microM or higher. The RTG-P1 reporter system constitutes an interesting tool to study the induction and regulation of IFN signalling in teleost fish.
Abstract: Dendritic cells are one of the most important cell types connecting innate and adaptive immunity, but very little is known about their evolutionary origins. To begin to study dendritic cells from lower vertebrates, we isolated and characterized CD83 from the nurse shark (Ginglymostoma cirratum (Gici)) and rainbow trout (Oncorhynchus mykiss (Onmy)). The open reading frames for Gici-CD83 (194 aa) and Onmy-CD83 (218 aa) display approximately 28-32% identity to mammalian CD83 with the presence of two conserved N-linked glycosylation sites. Identical with mammalian CD83 genes, Gici-CD83 is composed of five exons including conservation of phase for the splice sites. Mammalian CD83 genes contain a split Ig superfamily V domain that represents a unique sequence feature for CD83 genes, a feature conserved in both Gici- and Onmy-CD83. Gici-CD83 and Onmy-CD83 are not linked to the MHC, an attribute shared with mouse but not human CD83. Gici-CD83 is expressed rather ubiquitously with highest levels in the epigonal tissue, a primary site for lymphopoiesis in the nurse shark, whereas Onmy-CD83 mRNA expression largely paralleled that of MHC class II but at lower levels. Finally, Onmy-CD83 gene expression is up-regulated in virus-infected trout, and the promoter is responsive to trout IFN regulatory factor-1. These results suggest that the role of CD83, an adhesion molecule for cell-mediated immunity, has been conserved over 450 million years of vertebrate evolution.
Abstract: Bacterial DNA and CpG ODN have both been shown to have immunostimulatory effects in mammals, activating APCs and inducing a potent Th1 type immune response. They have also been shown to have a strong adjuvant effect and up-regulate MHC class 2 expression in murine cells, augment human and murine NK cell lytic activity, activate human B cells and induce murine B cell proliferation. However, little work has been carried out with regard to their effects on the piscine immune system. Here it is shown that various CpG ODN induce proliferation of peripheral blood leucocytes, spleen and head kidney cells from rainbow trout although, at the range of concentrations tested CpG ODN 2133 lacked the ability to induce specific antibody production to a protein antigen.
Abstract: The aims of this study were (i) to identify alternative Mx stimulatory compounds in Atlantic salmon (Salmo salar L.) and to characterise the kinetics and intensity of the stimulated responses and (ii) to investigate the effect of temperature on such responses by semi-quantitative RT-PCR. Mx transcripts were measured in Atlantic salmon parr kept at 14 degrees C and injected with either LPS, the synthetic double-stranded polyribonucleotide poly I:C, Vibrio anguillarum serotypes I and II-ordalii bacterin, beta-glucan, whole yeast cells or yeast RNA. Sampling periods lasted until transcripts were undetectable or up to three weeks after immunisation. The effect of temperature on poly I:C-induced Mx response was studied by injecting parr kept at 6 degrees C. Newly hatched salmon fry were immersed once, twice or three times in the Vibrio bacterin diluted five or 10 times and sampled for three weeks. None of the yeast compounds induced Mx expression in Atlantic salmon parr. LPS induced a very low Mx response 2 and 3 days after injection. The Vibrio bacterin administered by injection in parr (but not by immersion in fry) resulted in strong Mx induction on days 2 and 3, disappearing by day 6. Poly I: C-induced Mx responses that were more intense and longer lasting than those induced by the bacterin, peaking on day 3 and lasting over 6 days, disappearing by day 9 at 14 degrees C. Lower temperature caused a longer lasting Mx response to poly I:C (at least 21 days), which peaked on days 7-14, with a similar intensity and no delayed onset as compared with the response at 14 degrees C. However, some toxicity of the poly I:C was indicated in treatments at 6 degrees C.
Abstract: Two rainbow trout (Oncorhynchus mykiss) genes for interferon regulatory factors (IRF) 1 and 2 have been cloned and sequenced. The IRF-1 cDNA contains an open reading frame (ORF) of 996 nucleotides that translates into a 331 amino-acid putative peptide, with a 5' untranslated region (UTR) of 145bp and a 3' UTR of 481bp. The IRF-2 cDNA contains a 1035bp ORF that translates into a 344 amino-acid putative peptide, with a 5' UTR of 146bp and a 3' UTR of 925bp. In vivo, IRF-1 and IRF-2 are constitutively expressed in head kidney, gill and spleen but not liver. Both genes were induced in all the tissues examined. IRF-1 but not IRF-2 expression was significantly increased at the site of injection 1 week after DNA vaccination against viral haemorrhagic septicaemia virus. In vitro, IRF-1 and IRF-2 transcripts are present in unstimulated rainbow trout gonad cells and are up-regulated by poly I/C.
Abstract: Rainbow trout of different sizes (10 and 100g) were injected intramuscularly (i.m.) or intraperitoneally (i.p.) with different doses (range 10 ng-10 microg) of a viral haemorrhagic septicaemia (VHS)-DNA vaccine (pcDNA3vhsG). As controls, fish were injected with the pcDNA3 plasmid alone, or with inactivated VHS virus. Fish were challenged at different times post-vaccination (p.v.) to assess protection. At certain times p.v., serum samples were analysed for neutralising antibody and liver tissue was analysed for Mx mRNA expression. A DNA dose of 0.5 microg injected by the i.m. route induced protection in fish of all sizes in challenges performed either 1 or 4 weeks p.v. This dose also conferred effective protection up to 9 months p.v. in fish >100 g. With lower doses of DNA (0.1 and 0.01 microg) and challenge at 4 weeks p.v., 10 g fish were partially protected but protection was not observed in 100 g fish. Vaccination by the i.p. route induced no or lower levels of protection compared with the i.m. route. Fish vaccinated with 0.5 microg DNA i.m. had no detectable serum neutralising antibody (NAb) at 4 weeks p.v. (with the exception of a single 10 g fish) but antibody was detected at 8 weeks and 6 months p.v. but not at 9 months p.v. However, cohorts of these fish showed effective protection at all timepoints. Lack of detectable levels of NAb (at 9 weeks p.v.) despite partial protection in challenge at 4 weeks p.v. was also observed with 0.01 microg doses of DNA i.m. NAb was detected in sera of fish at 8 weeks after vaccination with 0.1 microg i.m. but not in fish vaccinated with doses of 0.01-0.5 microg i.p. Early protection (1 week p.v.) correlated with elevated Mx gene expression.
Abstract: Type I interferon (IFN) signalling uses a dual mechanism of action. A Jak-Stat pathway extensively described in mammals involves a cascade of reactions from the interaction of the IFN molecule with its membrane receptor to the stimulation of IFN-induced gene promoters leading in turn to an antiviral state. Regulation of IFN activity is also mediated by two DNA-binding transcription factors called interferon regulatory factor (IRF)-1 and -2, that respectively stimulate and repress the promoter of IFN-induced genes. By gene walking with trout genomic DNA the regulatory sequence of the IRF-1 gene was cloned and sequenced. Sequence analysis showed that this 1 Kb 5' flanking region has a structure which is typical for an IFN-induced gene promoter. It contains a TATA box between -28 to -31, and a NF kappa B site between -41 and -52. No complete interferon stimulatory response element (ISRE) could be found, but ten GAAA motifs, which are characteristic of IFN-induced gene promoters, were found. In rainbow trout gonad (RTG) cells, IRF-1 is expressed constitutively and up-regulated by poly I:C but not by LPS. Transient transfections of RTG cells with a reporter construct based on the luciferase gene show that the IRF1 5' flanking region described above, is sufficient to allow the expression of luciferase and is capable of induction by dsRNA (poly I:C).
Abstract: Mx1 gene expression was studied in the rainbow trout (Oncorhynchus mykiss) gonad (RTG) (fibroblast) cell line. RT-PCR analyses showed that both poly I:C and interferon containing supernatants induced expression of Mx1 in RTG cells. Kinetic analyses suggest that poly I:C acts indirectly through the production of interferons (IFN), as shown in other studies. By gene walking with trout genomic DNA the regulatory sequence of the Mx1 gene was cloned and sequenced. Sequence analysis showed that the 5' flanking region has a structure, which is typical for an interferon-induced gene promoter. Relative to the transcription start, it has a TATA box at -29 to -25, a 13 nucleotide interferon response element (ISRE) between -101 to -89, and a Sp1 binding site at -382 to -374. This region, with a single ISRE, is enough to induce strong expression of a luciferase reporter gene after stimulation of RTG cells with poly I:C. A time-course of induction of this reporter construct showed maximal expression (22-fold increase) after incubation with 100 microg mL(-1) poly I:C for 48 h. An optimized method of transient transfection of RTG cells is also described.
Abstract: The axial muscle of most teleost species consists of a deep bulk of fast-contracting white fibres and a superficial strip of slow-contracting red fibres. To investigate the embryological development of fast and slow muscle in trout embryos, we carried out single and double in situ hybridisation with fast and slow myosin heavy chain (MyHC)-isoform-specific riboprobes. This showed that the slow-MyHC-positive cells originate in a region of the somite close to the notochord. As the somite matures in a rostrocaudal progression, the slow-MyHC-positive cells appear to migrate radially away from the notochord to the lateral surface of the myotome, where they form the superficial strip of slow muscle. Surprisingly, the expression pattern of the fast MyHC showed that the differentiation of fast muscle commences in the medial domain of the somite before the differentiation and migration of the slow muscle precursors. Later, as the differentiation of fast muscle progressively spreads from the inside to the outside of the myotome, slow-MyHC-expressing cells become visible medially. Our observations that the initial differentiation of fast muscle takes place in proximity to axial structures and occurs before the differentiation and migration of slow muscle progenitors are not in accord with the pattern of muscle formation in teleosts previously described in the zebrafish Danio rerio, which is often used as the model organism in fishes.
