Inter-species transplantation and migration of primordial germ cells in cyprinid fish

Primordial germ cells (PGCs) are the only cells in developing embryos that can transmit genetic information to the next generation. PGCs therefore have considerable potential value for gene banking and cryopreservation, particularly via production of donor gametes using germ-line chimeras. In some animal species, including teleost fish, the feasibility of using PGC transplantation to obtain donor-derived offspring, within and between species, has been demonstrated. Successful use of PGC transplantation to produce germ-line chimeras is absolutely dependent on the migration of the transplanted cells from the site of transplantation to the host gonadal region. Here, we induced germ-line chimeras between teleost species using two different protocols: blastomere transplantation and single PGC transplantation. We evaluated the methods using the rate of successful migration of transplanted PGCs to the gonadal region of the host embryo. First, we transplanted blastomeres from zebrafish, pearl danio, goldfish, or loach into blastula-stage zebrafish embryos. Some somatic cells, derived from donor blastomeres, were co-transplanted with the PGCs and formed aggregates in the host embryos; a low efficiency of PGC transfer was achieved. Second, a single PGC from the donor species was transplanted into a zebrafish embryo. In all inter-species combinations, the donor PGC migrated toward the gonadal region of the host embryo at a comparatively high rate, regardless of the phylogenetic relationship of the donor and host species. These transplantation experiments showed that the mechanism of PGC migration is highly conserved beyond the family barrier in fish and that transplantation of a single PGC is an efficient method for producing inter-species germ-line chimeras.     

Purification, characterization and antigenic species-specific reactivity of vitellogenin of rosy barb (Puntius conchonius Hamilton)

Vitellogenin (Vg) was isolated using gel filtration and ion-exchange chromatography from plasma of rosy barb (Puntius conchonius) treated with estrogen (estradiol-17beta). The purified Vg was stained positive for carbohydrate, lipid and phosphorus and was rich in Ala (10.58%), Asp (8.46%), Glu (10.30%), Leu (11.23%), Lys (7.22%) and Val (7.49%). It appeared as a single band of approximately 450 kDa in native PAGE and was reduced to a single band of approximately 167 kDa under SDS-PAGE, suggesting that it is probably composed of three identical polypeptide subunits. Double-immunodiffusion assay showed that the plasma from female rosy barb reacted with the mouse antisera against rosy barb Vg, forming a single immunoprecipitin line, while the plasma from male rosy barb or female zebrafish showed no such reactivity, confirming the existence of the sex- and species-specific reactivity for rosy barb Vg antisera.     

Xenogenesis in teleost fish through generation of germ-line chimeras by single primordial germ cell transplantation

Primordial germ cells (PGCs) are the only cells in developing embryos with the potential to transmit genetic information to the next generation. PGCs therefore have the potential to be of value for gene banking and cryopreservation, particularly via the production of donor gametes with germ-line chimeras. Currently, it is not clear how many PGCs are required for germ-line differentiation and formation of gonadal structures. In the present study, we achieved complete germ-line replacement between two related teleost species, the pearl danio (Danio albolineatus) and the zebrafish (Danio rerio), with transplantation of a single PGC into each host embryo. We isolated and transplanted a single PGC into each blastula-stage, zebrafish embryo. Development of host germ-line cells was prevented by an antisense dead end morpholino oligonucleotide. In many host embryos, the transplanted donor PGC successfully migrated toward the gonadal anlage without undergoing cell division. At the gonadal anlage, the PGC differentiated to form one normally sized gonad rather than the pair of gonads usually present. Offspring were obtained from natural spawning of these chimeras. Analyses of morphology and DNA showed that the offspring were of donor origin. We extended our study to confirm that transplanted single PGCs of goldfish (Carassius auratus) and loach (Misgurnus anguillicaudatus) can similarly differentiate into sperm in zebrafish host embryos. Our results show that xenogenesis is realistic and practical across species, genus, and family barriers and can be achieved by the transplantation of a single PGC from a donor species.     

Culture of cells from zebrafish (Brachydanio rerio) blastula-stage embryos

The zebrafish has become a popular model for studies of vertebrate development and toxicology. However,in vitro approaches utilizing this organism have not been fully exploited due to the absence of suitable cell culture systems. Previously, we developed methods for the culture of cells derived from zebrafish blastula-stage embryos. One of these cultures, ZEM-2, was derived in a complex medium containing trout embryo extract, trout serum and medium conditioned by buffalo rat liver cells. In this study we describe a zebrafish embryo cell line, ZEM-2A, derived from ZEM-2 following selection for growth in a simplified medium. Optimal growth of ZEM-2A cells is attained in nutrient medium supplemented with 5% fetal bovine serum.     

Fish embryo cell cultures for derivation of stem cells and transgenic chimeras.

It has been demonstrated in mammalian systems that techniques using embryonal stem cells provide advantages over conventional injection of DNA into embryos for generation of transgenic animals. We employed cell culture approaches in an attempt to develop this technology for fish transgenesis. Using a trout embryo-derived mitogenic preparation in a specialized culture medium, we initiated replication of zebrafish blastula-derived cell cultures and expressed marker genes introduced into the cells by plasmid transfection. Reintroduction of cells from the cultures into blastula-stage embryos indicated that the cultured cells survived and may contribute to the developing organism.     

Pluripotency and Chimera Competence of an Embryonic Stem Cell Line from the Sea Perch (<Emphasis Type="Italic">Lateolabrax japonicus</Emphasis>)

A stable GFP-expressing (GFP⁺LJES1) cell strain was developed from the LJES1 cells obtained from sea perch (Lateolabrax japonicus,) embryos. GFP⁺LJES1 cells were induced in vitro by RA to differentiate into a variety of cell types and also had the ability to form embryoid body-like structures in suspension culture. To determine the differentiation potential of LJES1 cells in vivo, GFP⁺LJES1 cells were transplanted into sea perch and zebrafish embryos at mid-blastula stage. Twenty out of 478 transplanted sea perch embryos contained GFP-expressing LJES1 cells 24 h after microinjection. Fifteen chimera embryos developed into fry. In these chimeras, the GFP⁺LJES1 cells contributed to a variety of tissues including the head and trunk. In zebrafish, 221 embryos were microinjected with GFP⁺LJES1 cells and 22 chimera embryos and fries expressing GFP were obtained. Donor GFP⁺LJES1 cells contributed to various tissues in head and trunk of zebrafish embryos and hatched fry.     

Culture of cells from zebrafish (Brachydanio rerio) embryo and adult tissues

The zebrafish is a popular model for studies of vertebrate development and toxicology. However, in vitro approaches with this organism have not been fully exploited because cell culture systems have been unavailable. We developed methods for the culture of cells from blastula-stage diploid and haploid zebrafish embryos, as well as cells from the caudal and pelvic fin, gill, liver, and viscera of adult fish. The haploid embryo-derived cells differentiated in culture to a pigmented phenotype and expressed, upon exposure to 2,3,7,8-tetrachlorodibenzo p-dioxin, a protein that was immunologically and functionally similar to rainbow trout cytochrome P450IA1 Zebrafish cultures were grown in a complex basal nutrient medium supplemented with insulin, trout embryo extract, and low concentrations of trout and fetal bovine serum; they could not be maintained in conventional culture medium containing a high concentration of mammalian serum. Using calcium phosphate-mediated transfection, a plasmid constructed for use in mammalian cells was introduced into zebrafish embryo cell cultures and expressed in a stable manner. These results indicated that the transfection procedures utilized in mammalian systems can also be applied to zebrafish cell cultures, providing a means for in vitro alteration of the genotype and phenotype of the cells.[/ p]Abbreviations TCDD, 2,3,7,8-tetrachlorodibenzo-p-dioxin - EROD, 7-ethyoxyresorufin - HDPDS, 4-(2-hydroxyethyl)-1-piperazine-ethanesulfonic acid - EDTA, ethylanediaminetetraacetic acid - FBS, fetal bovine serum - LDF, limit dilution factor - DMSO, dimethyl sulfoxide - ES, embryonal stem - PAH, polycylic aromatic hydrocarbons - ZG, zebrafish gill - ZBF, zebrafish pelvic fin - ZV, Zebrafish viscera - ZCF, zebrafish caudal fin - ZEM, diploid blastula-derived     

Ontogenetic patterns of enzyme locus expression in Barbus hybrids (Cypriniformes, Teleostei)

The tissue specific patterns and ontogeny of sorbitol dehydrogenase (SDH, EC 1.1.1.14). lactate dehydrogenase (LDH, EC 1.1.1.27) and isocitrate dehydrogenase (IDH, EC 1.1.1.42) are reported for Barbus tetrazona (tiger barb), B. conchonius (rosy barb), B. nigrofasciatus (black ruby barb), B. titteya (cherry barb), B. sachsi (gold barb), and in interspecific hybrids where B. tetrazona is the maternal parent. The spatial and temporal expression of SDH, LDH and IDH isozymes in Barbus is consistent with those reported for other teleosts. As the genetic distance between the parentals used in forming the hybrid increases, allelic expression proceeds from synchronous to asynchronous, with an increasing delay in embryonic gene expression. These observations are consistent with the hypothesis that parental sensor genes differ in their response to maternally controlled regulatory signals; indicative of species specific effector/activator RNA molecule concentrations and sensor/receptor gene induction thresholds.     

Toxicity studies of nonylphenol on rosy barb (Puntius conchonious): a biochemical and histopathological evaluation

Acute and subacute toxicity of the nonylphenol (NP) on fish was investigated in laboratory toxicity tests with rosy barb (Puntius conchonious). The acute toxicity of NP to rosy barb was determined in semi-static bioassays. Median lethal concentration (LC50) for 96 h was 1.72 microM. The effects of sublethal concentrations of NP (0.17, 0.34 and 0.68 microM) on the structures and biochemical parameters [alkaline phosphatase (ALP), aspartate aminotransferase (AST) and alanin aminotransferase (ALT)] in gills, liver and kidney of rosy barb were studied after 14 days. The results showed that NP caused alteration of the structure in organs, as evidenced by the hyperplasia of epithelium and the fusion of secondary lamellae in the gills, the disappearance of the cell membrane and the cell necrosis in the liver as well as haemorrhages in the kidney. In addition, the functional enzyme activities were also changed. The increase trend in ALP activity in organs of fish treated with NP was recorded. The levels of AST and ALT in gills, liver and kidney were stimulated to rise at the lower concentration and fall at the higher concentration NP treatment compared to controls. This study suggests that NP can alter of the structures and biochemical parameters within non-endocrine tissue of fish and these changes may be mediated via destroying membrane structure and inducing cell necrosis.     

A flow cytometric analysis of the embryonic origin of lymphocytes in diploid/triploid chimeric Xenopus laevis

Quantitative flow cytometry was used to examine the embryonic origin of lymphocytes in Xenopus laevis. Reciprocal head/body transplants were made between diploid (2N) and triploid (3N) embryos of the same developmental stages ranging from neural plate to tail bud stages. Thymuses and spleens were removed from postmetamorphic chimeras. Cell suspensions were stained with the fluorescent DNA stain, mithramycin, and the ploidy (relative fluorescence intensity) of the cells was then determined by flow cytometry. All lymphocytes in the chimeras were derived from the posterior portion of the embryo. In other experiments, various regions of the lateral plate or ventral mesoderm were grafted from triploid to diploid embryos. Only transplants that included middorsal mesoderm gave rise to lymphocytes.     

Cell cultures derived from early zebrafish embryos differentiate in vitro into neurons and astrocytes

The zebrafish is a polular nonmammalian model for studies of neural development. We have derived cell cultures, initiated from blastula-stage zebrafish embryos, that differentiate in vitro into neurons and astrocytes. Cultures were initiated in basal nutrient medium supplemented with bovine insulin, trout serum, trout embryo extract and fetal bovine serum. After two weeks in culture the cells exhibited extensive neurite outgrowth and possessed elevated levels of acetylcholinesterase enzyme activity. Ultrastructural analysis revealed that the neurites possessed microtubules, synaptic vessicles and areas exhibiting growth cone morphology. The cultures expressed proteins recognized by antibodies to the neuronal and astrocyte-specific markers, neurofilament and glial fibrillary acidic protein (GFAP). Poly-D-lysine substrate stimulated neurite outgrowth in the cultures and inhibited the growth of nonneuronal cells. Medium conditioned by the buffalo rat liver line, BRL, promoted the growth and survival of the cells in culture. Mitotically active cells were identified in cultures that had undergone extensive differentiation. The embryo cell cultures provide an in vitro system for investigations of biochemical parameters influencing zebrafish neuronal cell growth and differentiation.     

Asynchronous expression of the alcohol and supernatant malate dehydrogenase loci during Barbus hybrid development (Cypriniformes, Teleostei)

The tissue specificity and ontogeny of supernatant malate dehydrogenase (s-MDH) and alcohol dehydrogenase (ADH) are reported for the tiger barb (Barbus tetrazona), the rosy barb (Barbus conchonius) and their reciprocal hybrids. The tissue distribution of s-MDH and ADH isozymes in both species is consistent with spatial profiles reported for other teleosts. The expression of alleles of paternal origin at the s-Mdh-B and Adh loci are delayed in reciprocal hybrids as compared to their expression intraspecifically; suggestive of a low degree of affinity between maternally derived regulatory factors and paternal regulative elements controlling structural gene activation.     

Use of heterologous sperm for the dispermic induction of androgenesis in barbs

Dispermic activation of genome‐inactivated eggs of the grey tiger barb Puntius tetrazona , facilitated by 2·5% polyethylene glycol (PEG)‐incubated sperm of the golden rosy barb Puntius conchonius , resulted in the generation of interspecific androgenetic clones of the golden rosy barb. A 10 min incubation of the golden rosy barb sperm in increasing concentrations (1·0, 1·5, 2·0, 2·5 and 3·0%) reduced the frequency of motile sperm (to 70%), motility duration (110–50 s) and fertilizability (to 80%) of the sperm; however, the frequency of sperm with double head size increased. At 3% PEG, motility pattern of the sperm completely changed from 'zig‐zag' to 'circular'. Incubation in 2·5% PEG facilitated the dispermic entry and production of diploid androgenetic female and male progenies at the ratio of 0·27 : 0·73. Polymerase chain reaction (PCR) analysis using Tc1 transposon specific primers confirmed the purity of paternal inheritance of P. conchonius through the surrogate eggs of P. tetrazona . Survival and breeding, body colour, diploidy (karyotyping and erythrocyte measurements) and 0·27F : 0·73M sex ratio of the androgenotes provided evidence for the successful induction of dispermic androgenesis. Despite increased heterozygosity and reduced 'damage cost' on restoration of diploidy, survival of dispermic androgenotes induced in heterologous eggs was lower (1·7%) than those reported for androgenetic golden rosy barbs induced using homologous sperm (14·0%) and heterologous eggs (7·0%), i.e . tiger barb eggs.     

Generation of germ-line chimera zebrafish using primordial germ cells isolated from cultured blastomeres and cryopreserved embryoids

Primordial germ cells (PGCs) are the only cells in developing embryos with the potential to transmit genetic information to the next generation. In our previous study, a single PGC transplanted into a host differentiated into fertile gametes and produced germ-line chimeras of cyprinid fish, including zebrafish. In this study, we aimed to induce germ-line chimeras by transplanting donor PGCs from various sources (normal embryos at different stages, dissociated blastomeres, embryoids, or embryoids cryopreserved by vitrification) into host blastulae, and compare the migration rates of the PGCs towards the gonadal ridge. Isolated, cultured blastomeres not subject to mesodermal induction were able to differentiate into PGCs that retained their motility. Moreover, these PGCs successfully migrated towards the gonadal ridge of the host and formed viable gametes. Motility depended on developmental stage and culture duration: PGCs obtained at earlier developmental stages and with shorter cultivation periods showed an increased rate of migration to the gonadal ridge. Offspring were obtained from natural spawning between normal females and chimeric males. These results provide the basis for new methods of gene preservation in zebrafish.     

Nuclear reprogramming in embryos generated by the transfer of yak (Bos grunniens) nuclei into bovine oocytes and comparison with bovine-bovine SCNT and bovine IVF embryos

Although inter-species SCNT may be useful for increasing and preserving populations of endangered species, there are many reports that inter-species nuclear transfer embryos only develop to the blastocyst stage. In this study, yak-bovine SCNT blastocysts were successfully implanted in the surrogate bovine uterus but failed to develop to term or aborted. To clarify the reasons, we examined yak-bovine SCNT blastocyst development, total cell number, inner cell mass (ICM) number, trophoblast (TE) cell number and relative gene expression in yak fibroblast cells and yak-bovine SCNT embryos at various stages. The potential for development of yak-bovine SCNT embryos to blastocysts was 30+/-5.7% (mean+/-S.E.M.); the total cell number was 85.3+/-16.3, fewer than in IVF bovine embryos (106.2+/-18.2) but within the reported range (60-300). The yak-bovine SCNT blastocysts had a lower ratio of TE cells to total cells (43.9+/-8.7%) than bovine IVF embryos (59.4+/-3.4%; P<0.05) or bovine-bovine SCNT (69.5+/-5.4%; P<0.05). Also, several yak-bovine SCNT embryos had abnormal initiation of expression of both Mash2 and IL6. However, expression of vimentin, collagen, Cx43 and PSMC3 were normal in yak fibroblast cells and yak-bovine SCNT embryos. In conclusion, we inferred that the normal allocation of ICM and TE cells in yak-bovine SCNT embryos and embryo-specific gene reprogramming may be important for successful inter-species animal cloning.     

Changes in extracellular osmolality initiate sperm motility in freshwater teleost rosy barb Puntius conchonius

The objective was to investigate the effects of extracellular osmolality and membrane osmotic-sensitive channels on the initiation of sperm motility and to explore mechanisms of sperm initiation in rosy barb (Puntius conchonius). We found that (1) sperm were immotile in seminal plasma and remained quiescent in electrolyte or nonelectrolyte solutions isotonic to seminal plasma; (2) sperm movement was initiated when the sperm were exposed to hypo-osmotic electrolyte or hypo-osmotic nonelectrolyte solutions, and that the responsiveness of sperm to changes in the extracellular osmolalities (100, 200, 250, 270, and 300 mOsm/kg) differed among sperm cells (P < 0.05); (3) sperm movement could be initiated and terminated repeatedly by decreasing and increasing the osmolality (in increments of 100 and 300 mOsm/kg) of a nonelectrolyte mannitol solution, respectively (P < 0.05); (4) gadolinium (20, 40, and 80 μM) inhibited the initiation of sperm motility and abolished the sperm activation caused by the hypo-osmotic media treatment in dose- and time-dependent manners (P < 0.05); and (5) sperm activation in a hypo-osmotic medium and inhibition in an isotonic solution were associated with swelling and shrinkage of the sperm sleeves, respectively. Therefore, we concluded that osmolality was a critical physiologic signal in regulating the initiation and termination of sperm motility in freshwater teleost rosy barb. Furthermore, we inferred that rosy barb sperm were hypo-osmotic–dependent conformers, and the osmotic-sensitive channel could be involved in the mechanism of sperm initiation.     

Birth of germline chimeras by transfer of chicken embryonic germ (EG) cells into recipient embryos

This study reports for the first time the production of chicken germline chimeras by transfer of embryonic germ (EG) cells into recipient embryos of different strain. EG cells were established by the subculture of gonadal tissue cells retrieved from stage 28 White Leghorn (WL) embryos with I/I gene. During primary culture (P(0)), gonadal primordial germ cells (gPGCs) in the stromal cells began to form colonies after 7 days in culture with significant (P < 0.0001) increase in cell population. Colonized gPGCs were then subcultured with chicken embryonic fibroblast monolayer for EG cell preparation. Prepared EG cells or gPGCs at P(0) were transferred to stage 17 Korean Ogol chicken (KOC) embryos with i/i gene. The recipient chickens were raised for 6 months to sexual maturity, then a testcross analysis by artificial insemination was conducted for evaluating germline chimerism. As results, transfer of EG cells and gPGCs yielded total 17 germline chimeras; 2 out of 15 (13.3%) and 15 of 176 sexually matured chickens (8.5%), respectively. The efficiency of germline transmission in the chimeras was 1.5-14.6% in EG cells, while 1.3-27.6% in gPGCs. In conclusion, chicken germline chimeras could be produced by the transfer of EG cells, as well as gPGCs, which might enormously contribute to establishing various innovative technologies in the field of avian transgenic research for bioreactor production.     

Aberrant gene expression at the creatine kinase loci during Barbus hybrid development (Cypriniformes, Teleostei)

The tissue specificity and ontogeny of creatine kinase (CK, EC 2.7.3.2) are reported for tiger, rosy, ruby, cherry and gold barbs, and in interspecific hybrids where the tiger barb is the maternal parent. The spatial expression of CK isoenzymes in Barbus is consistent with the tissue patterns reported in other teleosts. In general, as the taxonomic (genetic) distance between the parental species increases, a corresponding delay in embryonic gene expression occurs; suggestive of species-specific effector molecule/sensor gene induction thresholds.     

Regulation of hypocretin (orexin) expression in embryonic zebrafish

Hypocretins/orexins are neuropeptides involved in the regulation of sleep and energy balance in mammals. Conservation of gene sequence, hypothalamic localization of cell bodies, and projection patterns in adult zebrafish suggest that the architecture and function of the hypocretin system are conserved in fish. We report on the complete genomic structure of the zebrafish and Tetraodon hypocretin genes and the complete predicted hypocretin protein sequences from five teleosts. Using whole mount in situ hybridization, we have traced the development of hypocretin cells in zebrafish from onset of expression at 22 h post-fertilization through the first week of development. Promoter elements of similar size from zebrafish and Tetraodon were capable of driving efficient and specific expression of enhanced green fluorescent protein in developing zebrafish embryos, thus defining a minimal promoter region able to accurately mimic the native hypocretin pattern. This enhanced green fluorescent protein expression also revealed a complex pattern of projections within the hypothalamus, to the midbrain, and to the spinal cord. To further analyze the promoter, a series of deletion and substitution constructs were injected into embryos, and resulting promoter activity was monitored in the first week of development. A critical region of 250 base pairs was identified containing a core 13-base pair element essential for hypocretin expression.     

环境pH及渗透压对玫瑰无须鲃精子运动的影响

以玫瑰无须鲃Puntius conchonius精子为材料,应用计算机辅助精子分析系统(CASA),研究了精子在不同pH和不同渗透压的NaCl溶液中的运动百分率、运动时间和运动速率。结果表明,酸性(pH<7.0)或碱性较强(pH>9.0)的溶液均不利于精子运动,而弱碱性(pH7.5～8.5)的溶液较适合精子的运动;在渗透压较低(<75mOsm/kg)或较高(>175mOsm/kg)的NaCl溶液中,精子的运动时间和运动百分率都显著较100～150mOsm/kg渗透压溶液中的短或低(P<0.05);而运动时间最长,并且运动百分率最高的条件为pH8.0和125mOsm/kg渗透压的溶液环境。