Efficient transient expression system based on square pulse electroporation and in vivo luciferase assay of fertilized fish eggs

A Confocal Microscopic Study of Gene Transfer into the Mesencephalic Tegmentum of Juvenile Chum Salmon, Oncorhynchus keta, Using Mouse Adeno-Associated Viral Vectors

To date, data on the presence of adenoviral receptors in fish are very limited. In the present work, we used mouse recombinant adeno-associated viral vectors (rAAV) with a calcium indicator of the latest generation GCaMP6m that are usually applied for the dorsal hippocampus of mice but were not previously used for gene delivery into fish brain. The aim of our work was to study the feasibility of transduction of rAAV in the mouse hippocampus into brain cells of juvenile chum salmon and subsequent determination of the phenotype of rAAV-labeled cells by confocal laser scanning microscopy (CLSM). Delivery of the gene in vivo was carried out by intracranial injection of a GCaMP6m-GFP-containing vector directly into the mesencephalic tegmentum region of juvenile (one-year-old) chum salmon, Oncorhynchus keta. AAV incorporation into brain cells of the juvenile chum salmon was assessed at 1 week after a single injection of the vector. AAV expression in various areas of the thalamus, pretectum, posterior-tuberal region, postcommissural region, medial and lateral regions of the tegmentum, and mesencephalic reticular formation of juvenile O. keta was evaluated using CLSM followed by immunohistochemical analysis of the localization of the neuron-specific calcium binding protein HuCD in combination with nuclear staining with DAPI. The results of the analysis showed partial colocalization of cells expressing GCaMP6m-GFP with red fluorescent HuCD protein. Thus, cells of the thalamus, posterior tuberal region, mesencephalic tegmentum, cells of the accessory visual system, mesencephalic reticular formation, hypothalamus, and postcommissural region of the mesencephalon of juvenile chum salmon expressing GCaMP6m-GFP were attributed to the neuron-specific line of chum salmon brain cells, which indicates the ability of hippocampal mammal rAAV to integrate into neurons of the central nervous system of fish with subsequent expression of viral proteins, which obviously indicates the neuronal expression of a mammalian adenoviral receptor homolog by juvenile chum salmon neurons.

Transgenic Expression and Genome Editing by Electroporation of Zebrafish Embryos

Microinjection is predominantly used to produce genetically modified fish. However, there are certain difficulties involved in some fish species. In this study, we tested an alternative method to produce genetically modified zebrafish by delivering DNA and other materials into embryos by electroporation. We optimized the electroporation conditions of a square wave electroporation system that work efficiently for the introduction of plasmid DNA, recombinant Cas9 nuclease and synthetic dual guide RNAs. Transgenic expression was observed in a wide range of tissues, which is comparable with those obtained by microinjection. We further determined that efficient gene delivery can be achieved during the cleavage stage. This study describes detailed electroporation parameters for gene delivery with high efficiency and low toxicity, providing a novel method to generate transgenic lines and genome editing.

Efficient delivery of DNA and morpholinos into mouse preimplantation embryos by electroporation

Mouse preimplantation development is characterized by three major transitions and two lineage segregations. Each transition or lineage segregation entails pronounced changes in the pattern of gene expression. Thus, research into the function of genes with obvious changes in expression pattern will shed light on the molecular basis of preimplantation development. We have described a simplified and effective method–electroporation–of introducing plasmid DNA and morpholinos into mouse preimplantation embryos and verified effectiveness of this approach by testing the procedure on the endogenous gene Oct4. Before electroporation, the zona pellucida was weakened by the treatment of acid Tyrode’s solution. Then we optimized the parameters such as voltage, pulse duration, number of pulses and repeats, and applied these parameters to subsequent experiments. Compared with the control groups, the number of apoptotic cells and the expression and localization of OCT3/4 or CDX2 was not significantly changed in blastocysts developed from 1-cell embryos, which were electroporated with pIRES2-AcGFP1-Nuc eukaryotic expression vector or mismatched morpholino oligonucleotides. Furthermore, electroporated plasmid DNA and morpholinos targeting the endogenous gene Oct4 were able to sharply down regulate expression of OCT4 protein and actually cause expected phenotypes in mouse preimplantation embryos. In conclusion, plasmid DNA and morpholinos could be efficient delivered into mouse preimplantation embryos by electroporation and exert their functions, and normal development of preimplantation embryos was not affected.

The temporal resolution of in vivo electroporation in zebrafish: a method for time-resolved loss of function

One caveat to current loss-of-function approaches in zebrafish is that they typically disrupt gene function from the beginning of development. This can be problematic when attempting to study later developmental events. In vivo electroporation is a method that has been shown to be effective at incorporating reagents into the developing nervous system at multiple later developmental stages. The temporal and spatial characteristics of in vivo electroporation that have been previously demonstrated suggest that this could be a powerful approach for time-resolved loss-of-function analysis. Here, in an attempt to demonstrate the efficacy of this approach for analysis of a specific developmental timeframe--that of initial development of the zebrafish visual system-we have done a systematic characterization of the efficiency of in vivo electroporation in zebrafish across multiple developmental stages, from 24 to 96 h postfertilization. We show that electroporation is efficient at delivering expression plasmids to large numbers of neurons at multiple developmental steps, including 24, 48, or 96 h postfertilization. Expression from electroporated plasmids is maximal within 24 h, and significant and useful expression is seen within 6 h. Electroporation can be used to deliver two separate expression plasmids (green fluorescent protein and mCherry), resulting in coexpression in 97% of cells. Most importantly, electroporation can be used to incorporate siRNA reagents, resulting in 84% knockdown of a target protein (green fluorescent protein). In conclusion, in vivo electroporation is an effective method for delivering both DNA-based expression plasmids and RNA interference-based loss-of-function reagents, and exhibits the appropriate characteristics to be useful as a time-resolved genetic approach to investigate the molecular mechanisms of visual system development.

An alternative method for delivering exogenous material into developing zebrafish embryos

Non-invasive manipulation of multicellular systems is important for medical and biological research. The ability to introduce, remove, or modify molecules in the intracellular environment is pivotal to our understanding of cellular structure and function. Herein, we report on an alternative method for introducing foreign material into developing embryos using the application of femtosecond (fs) laser pulses. When intense fs laser pulses are focused to a sub-micron spot, transient pores are formed, providing a transport pathway for the delivery of exogenous material into embryonic cells. In this study, zebrafish embryos were used as a model system to demonstrate the non-invasiveness of this applied delivery tool. Utilizing optically induced transient pores chorionated and dechorionated zebrafish embryos were successfully loaded with a fluorescent reporter molecule (fluorescein isothiocyanate), Streptavidin-conjugated quantum dots or DNA (Simian-CMV-EGFP). Pore formation was independent of the targeted location, with both blastomere-yolk interface and blastomere pores competent for delivery. Long-term survival of laser manipulated embryos to pec-fin stage was 89% and 100% for dechorionated and chorionated embryos, respectively. To our knowledge, this is the first report of DNA delivery into zebrafish embryos utilizing fs laser pulses.

A multicassette Gateway vector set for high throughput and comparative analyses in ciona and vertebrate embryos

Background

The past few years have seen a vast increase in the amount of genomic data available for a growing number of taxa, including sets of full length cDNA clones and cis-regulatory sequences. Large scale cross-species comparisons of protein function and cis-regulatory sequences may help to understand the emergence of specific traits during evolution.

Principal Findings

To facilitate such comparisons, we developed a Gateway compatible vector set, which can be used to systematically dissect cis-regulatory sequences, and overexpress wild type or tagged proteins in a variety of chordate systems. It was developed and first characterised in the embryos of the ascidian Ciona intestinalis, in which large scale analyses are easier to perform than in vertebrates, owing to the very efficient embryo electroporation protocol available in this organism. Its use was then extended to fish embryos and cultured mammalian cells.

Conclusion

This versatile vector set opens the way to the mid- to large-scale comparative analyses of protein function and cis-regulatory sequences across chordate evolution. A complete user manual is provided as supplemental material.

Electroporation: an arsenal of application

Electroporation is a way to induce nanometersized membrane pore for exogenous substances delivery into cytoplasm using an artificial electric field. Now it was widely used for molecules transfer especially in molecular experiments and genetic aspects. In recent years, modern electroporation on the embryo was developed, whose most important point is that it adopts low energy and rectangular pulse that could obtain high transfection efficiency and low damage to the embryo. This paper reviewed on the pool of application: from lab works to human clinical treatments.

The zebrafish dorsal axis is apparent at the four-cell stage

A central question in the development of multicellular organisms pertains to the timing and mechanisms of specification of the embryonic axes. In many organisms, specification of the dorsoventral axis requires signalling by proteins of the Transforming growth factor-beta and Wnt families. Here we show that maternal transcripts of the zebrafish Nodal-related morphogen, Squint (Sqt), can localize to two blastomeres at the four-cell stage and predict the dorsal axis. Removal of cells containing sqt transcripts from four-to-eight-cell embryos or injection of antisense morpholino oligonucleotides targeting sqt into oocytes can cause a loss of dorsal structures. Localization of sqt transcripts is independent of maternal Wnt pathway function and requires a highly conserved sequence in the 3' untranslated region. Thus, the dorsoventral axis is apparent by early cleavage stages and may require the maternally encoded morphogen Sqt and its associated factors. Because the 3' untranslated region of the human nodal gene can also localize exogenous sequences to dorsal cells, this mechanism may be evolutionarily conserved.

Efficient expression of transgenes in adult zebrafish by electroporation

Background

Expression of transgenes in muscle by injection of naked DNA is widely practiced. Application of electrical pulses at the site of injection was demonstrated to improve transgene expression in muscle tissue. Zebrafish is a precious model to investigate developmental biology in vertebrates. In this study we investigated the effect of electroporation on expression of transgenes in 3–6 month old adult zebrafish.

Results

Electroporation parameters such as number of pulses, voltage and amount of plasmid DNA were optimized and it was found that 6 pulses of 40 V·cm^-1 at 15 μg of plasmid DNA per fish increased the luciferase expression 10-fold compared to controls. Similar enhancement in transgene expression was also observed in Indian carp (Labeo rohita). To establish the utility of adult zebrafish as a system for transient transfections, the strength of the promoters was compared in A2 cells and adult zebrafish after electroporation. The relative strengths of the promoters were found to be similar in cell lines and in adult zebrafish. GFP fluorescence in tissues after electroporation was also studied by fluorescence microscopy.

Conclusion

Electroporation after DNA injection enhances gene expression 10-fold in adult zebrafish. Electroporation parameters for optimum transfection of adult zebrafish with tweezer type electrode were presented. Enhanced reporter gene expression upon electroporation allowed comparison of strengths of the promoters in vivo in zebrafish.

In ovo electroporation of avian somites

In ovo electroporation is a well-established method of gene transfer into neural and mesenchymal tissue in chick embryos. Electroporation of somites, however, has been hampered by low efficiency due to technical difficulties. Here, we present a powerful technique to electroporate avian somites and subpopulations of somitic cells at high efficiency in ovo. We demonstrate specific targeting of distinct somitic compartments and their derivatives using single or combinations of plasmid expression vectors. This technique opens new perspectives to investigate the morphologic and genetic basis of somite development.

The zebrafish as a model system in developmental, toxicological and transgenic research

The zebrafish has long been used as a model system in fisheries biology and toxicology. More recently, it has also become the focus of a major research effort into understanding the molecular and cellular events which dictate the development of vertebrate embryos. As well, the zebrafish has proven attractive in studies examining the factors which affect the creation of transgenic fish and the expression of transgenes. The advances which have been made in these areas have firmly established this small aquarium fish as a major model system in biological and biotechnological research.

High efficiency production of germ-line transgenic Japanese medaka (Oryzias latipes) by electroporation with direct current-shifted radio frequency pulses

Although there have been several studies showing the production of transgenic fish through electroporation techniques, success rates have been low and few studies show germ-line integration and expression. When electroporation has been successful, the device used is no longer commercially available. The goal of this experiment was to find an alternative efficient method of generating transgenic Japanese medaka (Oryzias latipes) using a commercially available electroporation device. The Gene Pulser II and RF module (Bio-Rad Laboratories, USA), along with two reporter gene constructs, were used. In contrast to other electroporation devices, which are based on a single pulse with exponential decay or square wave technology, the Gene Pulser II incorporates a direct current (DC)-shifted radio frequency (RF) signal. With this technique, over 1000 embryos can be electroporated in less than 30 min. The plasmid pCMV-SPORT-beta-gal (Invitrogen, USA) was used in the supercoiled form to optimize parameters for gene transfer into single-celled embryos, and resulted in up to 100% somatic gene transfer. Similar conditions were used to generate fish transgenic for both the pCMV-EGFP plasmid (Clontech, USA) and a cytomegalovirus (CMV) driven phytase-EGFP construct. The conditions used were a voltage of 25 V, a percent modulation of 100%, a radio frequency of 35 kHz, a burst duration of 10 ms, 3 bursts, and a burst interval of 1.0 s. Seventy percent of the embryos electroporated with the pCMV-EGFP construct survived to sexual maturity, and of those, 85% were capable of passing the transgene on to their offspring. Transgenic second generation back-crossed (BC2) fry were subjected to Southern blot analysis, which confirmed germ-line integration, and observation for green fluorescence protein, which confirmed protein expression. DC-shifted RF pulses are effective and efficient in the production of transgenic medaka, and germ-line integration and expression can be achieved without linearization of the transgene vector.

The effectiveness of adenoviral vectors to deliver and express genes in rainbow trout, Oncorhynchus mykiss (Walbaum)

The efficacy of adenoviral vectors for gene delivery into fish cells, both in vitro and in vivo, was evaluated. Vectors utilized were of human adenovirus serotype 5 (Ad), which are commonly used in human clinical trials, but have not been assessed for gene delivery to fish. Because nothing is known about Ad receptors in fish, both an Ad (Ad5Luc1) with natural tropism for the coxsackie and adenovirus receptor (CAR), as well as an infectivity enhanced Ad (Ad5LucRGD) were included within this study. Gene expression was detected in cell lines using either vector. The levels seen with Ad5LucRGD were much higher than for Ad5Luc1 in most lines except CHSE-214. Transduction of CHSE-214 cells with Ad5Luc1 could be blocked with an excess of a competitive inhibitor, suggesting that these cells possess a CAR homologue thatmediates attachment of Ad, similar to that seen in mammalian cells. In vivo gene delivery was attempted by several methods, with significant expression seen only via intramuscular injection, although infection efficiency was low. Thus it was observed that several teleost cell lines are capable of being infected and one cell line expressed a human serotype adenoviral receptor homologue that aids in Ad infection. Additionally, in vivo studies indicated that muscle tissue of rainbow trout could be infected with Ad vectors, suggesting an alternative gene delivery strategy for this animal.

Isolation and expression of tilapia (Oreochromis niloticus) serine 8-type GnRH coding and regulatory sequences

The complete Serine 8-type gonadotropin releasing hormone (GnRH) coding sequence with a substantial 5-prime regulatory sequence (5 kb) has been isolated and characterised in Nile Tilapia (Oreochromis niloticus) from a relevant genomic library. The primary structure of the protein precursor was identified for this gene. The promoter efficacy has been tested using 0.6 kb of the GnRH promoter driving a lacZ reporter gene in both cultured spleen cells and transiently expressing zebrafish. In the cell transfection experiments, the average level of beta-galactosidase activity in transfected cells was more than 2.1 (P<0.05) times higher than the control promoter-less vector in five independent cultures indicating that the 0.6 GnRH/lacZ construct is able to express in spleen cells. In addition, the transient expression of the lacZ gene was detected in the brain of G0 zebrafish embryos (Danio rerio) 4 days after fertilisation following egg injection with the construct, which demonstrated the efficacy of the tilapia GnRH promoter.

Direct DNA delivery into zebrafish embryos employing tissue culture techniques

The production of transfected fish embryos requires expertise in injecting the fertilized eggs and/or expensive equipment for electroporation or microprojectiles. This article demonstrates that by exposure to DNA constructs conjugated with transfecting reagents dechorionated Danio rerio embryos are capable of acquiring extracellular DNA and expressing reporter genes. Embryos incubated with pCMVluc complexed with GeneJammer or GenePORTER expressed luciferase 24-48 h after exposure. pCMVGFP DNA mixed with the same agents generated embryos that exhibited differential patterns of expression of green fluorescent protein (GFP). Embryonic development varied depending on the procedure employed and the reporter gene utilized. Expression of the luciferase gene did not interfere with the subsequent development of the embryos. In contrast, the embryos expressing a high level of GFP were affected, probably due to a very active promoter. These results demonstrate the ease of obtaining transfected fish embryos, which facilitate the mass production of new genotypes and extend the procedure to laboratories with limited resources.

Sparking new frontiers: using in vivo electroporation for genetic manipulations

In vivo electroporation is a fascinating new approach by which gene expression, regulation, and function can be studied in developmental systems. This technique offers new opportunities for manipulations in animal models that lack genetic approaches, including avians. Furthermore, this approach is applicable to other embryo populations including mice, ascidians, zebrafish, Xenopus, and Drosophila. In this review, we discuss technical aspects of in vivo electroporation, review recent studies where this approach has been utilized successfully, and identify future directions.

Cloning and expression analysis of an inducible HSP70 gene from tilapia fish

We isolated and characterized the tilapia (Oreochromis mossambicus) HSP70 gene, highly homologous to other HSP70 genes. A dramatic increase of tilapia HSP70 mRNA levels was observed after heat shock of whole animals in all organs tested. Reporter constructs were tested for transient expression in carp cells and in microinjected zebrafish embryos. The entire isolated regulatory region (-851/+157) was able to mediate heat shock inducible expression of the reporter gene, with no preference for a particular tissue. Our studies represent the first transcriptional analysis of a HSP70 promoter from fish, revealing a powerful tool to direct controlled, tissue-independent gene expression in fish.

Heat-inducible expression of a reporter gene detected by transient assay in zebrafish

Heat-inducibility of two reporter constructs expressing lacZ gene under the control of mouse and Xenopus hsp70 promoters was tested in zebrafish (Danio rerio) embryos using a transient expression system. Cells expressing beta-galactosidase were stained blue by histochemical staining and their average number per embryo was used as an indicator of the expression level of the reporter gene. Both constructs were heat-inducible in the embryonic tissues and showed similar heat dependence (increasing expression levels from 35-36 degrees C up to 39 degrees C with an apparent decrease at 40 degrees C), resembling that of the zebrafish hsp70 genes. However, their induction kinetics were different, which might be due to differences in their 5' UTRs. Spatial expression patterns of the two hsp/lacZ constructs and an endogenous hsp70 gene were mostly similar on the RNA level. These results indicate that our approach is applicable for in vivo analysis of the heat-shock response and that exogenous heat-shock promoters may be useful for inducible expression of transgenes in fish.

Activator effect of coinjected enhancers on the muscle-specific expression of promoters in zebrafish embryos

The transient expression of reporter gene constructs in embryos provides a powerful tool to characterise cis-acting transcriptional elements of the genes involved in development. In the present study, we have analysed the expression pattern of several muscle-specific and ubiquitous regulatory sequences in microinjected zebrafish embryos. By using a fast and reproducible coinjection strategy, the mosaic expression of lacZ reporter gene was monitored in wholemount embryos injected with sequences containing putative enhancer elements and a carp myosin heavy chain promoter/lacZ reporter construct. We have found that a 0.9-kb myosin heavy chain (MyHC) proximal promoter containing several putative myogenic regulatory factors (MRF) binding sites is sufficient to restrict lacZ expression to the skeletal muscle fibres of prim-6 stage zebrafish embryos. Expression of a rat-derived foetal myosin light chain enhancer (MyLC) and different fragments of a carp beta-actin regulatory region together with the MyHC promoter were compared by accumulating the type, number and spatial distribution of beta-galactosidase-expressing cells on an expression map. beta-galactosidase activity increased similarly whether the MyLC enhancer was ligated to the promoter/ reporter construct directly or when coinjected as a separate fragment whilst skeletal muscle specificity was retained. The coinjection of two different forms of the beta-actin regulatory elements also showed a marked effect on the MyHC promoter activity. The coinjection of putative enhancers with minimal promoter constructs and subsequent analysis of the transient expression pattern in the developing embryos provides a rapid and simple technique to identify cis acting activator elements of genes expressed in the vertebrate embryo.

High transgene activity in the yolk syncytial layer affects quantitative transient expression assays in zebrafish Danio rerio) embryos

For the purpose of studying the factors that cause wide variation in transient transgene expression in individual fish, a lacZ reporter gene linked to a carp beta-actin regulatory sequence was introduced into zebrafish embryos. As a general trend, a correlation between the number of transgene copies injected and the level of transgene expression was found. However, a substantial variation in the level of expression still occurred that could not be attributed to technical factors such as the difference in injected volume of the transgene. Co-injection of 32P-dCTP and transgene into the same embryo followed by detection of beta-galactosidase activity, has shown that the volume used for transgene injection, which was determined in terms of radioactivity, is not closely related to the level and location of transgene expression. Injection into the animal pole at zygote stage and the yolk cytoplasmic layer (YCL) at the 64-cell stage followed by determination of transgene expression in terms of unit injection volume, revealed that there are marked differences among tissues with regard to their capacity for transgene expression, and that the yolk syncytial layer is higher in this capacity. This high activity is assumed to be due to the high transcriptional activity or enhanced transgene replication in the syncytial layer, which is known to contain giant polyploid nuclei. The high levels of expression in the YSL may influence transient expression studies using quantitative comparative analyses and should be taken into consideration when expression data are derived from homogenates of yolk sac embryos.

Regulation and expression of transgenes in fish -- a review

Transgenic fish, owing to a number of advantages which they offer over other species, are proving to be valuable model systems for the study of gene regulation and development genetics in addition to being useful targets for the genetic manipulation of commercially important traits. Despite having begun only a decade ago, the production of transgenic fish has become commonplace in a number of laboratories world-wide and considerable progress has been made. In this review, we initially consider the various regulatory elements and coding genes which have been used in fish, and subsequently discuss and compare both the transient and long-term fate and expression patterns of injected DNA sequences in the context of the different factors which are likely to have an effect on the expression of transgenes.

Monitoring of spatial expression of firefly luciferase in transformed zebrafish

The firefly luciferase gene attached to the cytomegalovirus promoter was transferred into zebrafish (Brachydanio rerio) by microinjection of fertilized eggs. Light emission could be monitored in vivo in eggs and throughout the early development of the fish by low-light video-image analysis. Gene expression was transient in most of the cases lasting for about 2 weeks. This gene cassette proved to be a very convenient and non-destructive transformation marker and the firefly luciferase gene appears to be a powerful tool for real-time imaging of tissue-specific gene expression in transgenic fish.

Biotechnology domain

Biotechnology and the use of biologically based agents for the betterment of mankind is an active field which is founded on the interaction between many basic sciences. This is achieved in coordination with engineering and technology for scaling up purposes. The application of modern recombinant DNA technology gave momentum and new horizons to the field of biotechnology both in the academic setting and in industry. The applications of biotechnology are being used in many fields including agriculture, medicine, industry, marine science and the environment. The final products of biotechnological applications are diverse. In the medical applications of biotechnology, for example, the field has been evolving in such a way that the final product could be a small molecule (e.g. drug/antibiotic) that can be developed based on genetic information by drug design or drug screening using a cloned and expressed target protein.