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 culture: Migration and spreading of zebrafish (Brachydanio rerio) pigmented retinal epithelium

Summary Blastoderm explants fromBrachydanio rerio (Teleostei: Cyprinidae) high blastulas exhibited limited differentiation of optic structures in culture. A number of explants showed migration of pigmented retinal epithelial cells and formation of monolayers. The findings permit comparative studies in vitro on phenomena pertaining to pigmented retinal epithelial cell morphology, function, and differentiation. This investigation was supported by a grant from the Natural Sciences and Engineering Research Council of Canada.     

Characterization of AluI repeats of zebrafish (Brachydanio rerio).

Two families of repetitive DNA sequences were isolated from the zebrafish genome and characterized. Eight different sequences were sequenced and classified by two standards, their (G + C) composition and their lengths. For convenience, the sequences were first divided into two types. Type I was (A + T)-rich, was repeated approximately 500,000 times, and constituted approximately 5% of the zebrafish genome. Type II was (G + C)-rich, was reiterated approximately 90,000 times, and comprised approximately 0.5% of the genome. Agarose gel electrophoresis of zebrafish DNA cleaved with AluI revealed three distinguishable bands of repetitive fragments: large (approximately 180 bp, designated RFAL), medium (approximately 140 bp, RFAM), and small (approximately 90 bp, RFAS). The RFAL fragments contained both type I and type II sequences. Limited digestion of genomic DNA indicated that RFAL and RFAM were tandemly arranged in the genome, whereas RFAS showed a mixed pattern of both tandem and interspersed repeated arrangements. Although inclusion of a repetitive sequence in a transgenic construct did not appreciably accelerate homologous integration of transgenes into the zebrafish genome, the AluI sequences could facilitate transgene mapping following chromosomal integration.     

Gill morphology in the zebrafish, Brachydanio rerio (Hamilton- Buchanan)

A light and electron microscopic study of the gills of the zebrafish, Brachydanio rerio , were made to serve as a morphological basis for future investigations. It was found that for fixation of B. rerio gills, a mixture of 1·5% gluturaldehyde and 1·5% paraformaldehyde gives a mucus-free surface. Morphometric measurements of structural components of the gill secondary lamellae were made. Observations at SEM were correlated with those made at TEM. The different cell types in the branchial epithelium were characterized. Chloride cells were mainly located in the interlamellar regions and on the afferent side of the primary lamellae. Two morphologically different chloride cells were seen. The first type communicates with the external environment through a reservoir-like lumen, which is normally absent in freshwater fishes. The second type of chloride cell has more direct contact with the ambient water, resembling chloride cells from other freshwater fishes. Another cell type with features similar to those of the rodlet cell was frequently observed. This cell is interposed between other types of cells in the epithelium, and sometimes junctional complexes were present between the rodlet cell and surrounding cells.     

Effects of lithium on pigmentation in the embryonic zebrafish (Brachydanio rerio)

Pigment cell precursors of the embryonic zebrafish give rise to melanophores, xanthophores and/or iridophores. Cell signaling mechanisms related to the development of pigmentation remain obscure. In order to examine the mechanisms involved in pigment cell signaling, we treated zebrafish embryos with various activators and inhibitors of signaling pathways. Among those chemicals tested, LiCl and LiCl/forskolin had a stimulatory effect on pigmentation, most notable in the melanophore population. We propose that the inositol phosphate (IP) pathway, is involved in pigment pattern formation in zebrafish through its involvement in the: (1) differentiation/proliferation of melanophores; (2) dispersion of melanosomes; and/or (3) synthesis/deposition of melanin. To discern at what level pigmentation was being effected we: (1) counted the number of melanophores in control and experimental animals 5 days after treatment; (2) measured tyrosinase activity and melanin content; and (3) employed immunoblotting techniques with anti-tyrosine-related protein-2 and anti-melanocyte-specific gene-1 as melanophore-specific markers. Although gross pigmentation increased dramatically in LiCl- and LiCl/forskolin treated embryos, the effect on pigmentation was not due to an increase in the proliferation of melanophores, but was possibly through an increase in melanin synthesis and/or deposition. Collectively, results from these studies suggest the involvement of an IP-signaling pathway in the stimulation of pigmentation in embryonic zebrafish through the synthesis/deposition of melanin within the neural crest-derived melanophores.     

Characterization of isolated ventricular myocytes from adult zebrafish (Danio rerio)

The zebrafish is widely used for human related disease studies. Surprisingly, there is no information about the electrical activity of single myocytes freshly isolated from adult zebrafish ventricle. In this study, we present an enzymatic method to isolate ventricular myocytes from zebrafish heart that yield a large number of calcium tolerant cells. Ventricular myocytes from zebrafish were imaged using light and confocal microscopy. Myocytes were mostly rod shaped and responded by vigorous contraction to field electrical stimulation. Whole cell configuration of the patch clamp technique was used to record electrophysiological characteristics of myocytes. Action potentials present a long duration and a plateau phase and action potential duration decreases when increasing stimulation frequency (as observed in larger mammals). Together these results indicate that zebrafish is a species ideally suited for investigation of ion channels related mutation screening of cardiac alteration important in human.     

Overcoming a permeability barrier by microinjecting cryoprotectants into zebrafish embryos (Brachydanio rerio)

The goal of this research was to examine the developmental effects on zebrafish embryos (Brachydanio rerio) when cryoprotectants were directly microinjected into the yolk. Our objectives were to: (i) determine the final concentration of propylene glycol (PG) and dimethyl sulfoxide (Me(2)SO) that the embryos could tolerate without causing teratogenic effects; (ii) determine if the toxicity of Me(2)SO could be reduced by the simultaneous presence of various proportions of amides; and (iii) examine whether this intracellular cryoprotectant incorporation could reduce the cryodamage to the yolk syncytial layer (YSL) after vitrification trials. The rationale for conducting these microinjection experiments was to overcome the permeability barrier of the YSL. Intracellular PG produced better survival than Me(2)SO (P < 0.05). Embryos tolerated both 10- and 30-nl microinjections of PG, yielding final concentrations of 2.3 and 5.0 M within the yolk, resulting in 70 +/- 3 and 35 +/- 4% survival at day 5, respectively. In similar experiments with Me(2)SO, survival was lower than PG at 60 +/- 4 and 14 +/- 4% at 2.4 and 5.2 M. Unlike other cellular systems, the presence of amides, specifically acetamide or formamide, did not reduce the toxicity of Me(2)SO in zebrafish embryos (P > 0.05). During vitrification trials, we estimated a 25% dehydration of the yolk, yielding an effective PG concentration of 5.9 M. However, the incorporation of this vitrifiable concentration of PG was not sufficient to improve the postthaw morphology of the YSL (P > 0.05). Clearly, other factors need to be examined in establishing a successful vitrification protocol for zebrafish embryos.     

Stages of oocyte development in the zebrafish,Brachydanio rerio

Oocyte development has been divided into five stages in the zebrafish Brachydanio rerio, based on morphological criteria and on physiological and biochemical events. In stage I (primary growth stage), oocytes reside in nests with other oocytes (Stage IA) and then within a definitive follicle (Stage IB), where they greatly increase in size. In stage II (cortical alveolus stage), oocytes are distinguished by the appearance of variably sized cortical alveoli and the vitelline envelope becomes prominent. In stage III (vitellogenesis), yolk proteins appear in oocytes and yolk bodies with crystalline yolk accrue during this major growth stage. Ooctes develop the capacity to respond in vitro to the steroid 17α, 20β-dihydroxy-4-pregnen-3-one (DHP) by undergoing oocyte maturation. In stage IV (oocyte maturation), oocytes increase slightly in size, become translucent, and their yolk becomes non-crystalline as they undergo final meiotic maturation in vivo (and in response to DHP in vitro). In stage V (mature egg), eggs (approx. 0.75 mm) are ovulated into the ovarian lumen and are capable of fertilization. This staging series lays the foundation for future studies on the cellular processes occurring during oocyte development in zebrafish and should be useful for experimentation that requires an understanding of stage-specific events. © 1993 Wiley-Liss, Inc.     

High mortality due to Tetrahymena sp. infection in laboratory-maintained zebrafish (Brachydanio rerio)

A large colony of laboratory zebrafish (Brachydanio rerio) used in the study of early vertebrate embryogenesis began experiencing acute, unexplained mortality that approached 100% among approximately 30-day-old resident fry. The initial differential diagnosis included ammonia, nitrite, or chlorine toxicosis, as well as iatrogenically induced toxicosis associated with improper sanitation procedures of laboratory equipment. Necropsy of dead and moribund fry prior to fixation revealed swarms of ovoid-shaped, motile, ciliated protozoa with a "spiraling football" motion. Wet mount preparations of various water samples also contained high numbers of similar protozoa. Histologic examination of affected fry revealed numerous, periodic acid-Schiff-positive forms within the body coelom, and epithelial and muscle tissues. The protozoa were consistent morphologically with members of the genus Tetrahymena, which is usually a free-living, nonpathogenic ciliated protozoa in fresh and saltwater environments. Relevant disease associated with Tetrahymena spp. in viviparous fish has been reported as a result of concurrent disease, immunosuppression, or poor water quality conditions. To the authors' knowledge, this is the first report of an epizootic involving laboratory maintained zebrafish, and the diagnostic course and therapeutic interventions undertaken to alleviate Tetrahymena species-associated clinical disease.     

Identification of two families of satellite-like repetitive DNA sequences from the zebrafish (Brachydanio rerio).

To further our understanding of the structure and organization of the zebrafish genome, we have undertaken the analysis of highly and middle-repetitive DNA sequences. We have cloned and sequenced two families of tandemly repeated DNA fragments. The monomer units of the Type I satellite-like sequence are 186 bp long, A+T-rich (65%), and exhibit a high degree of sequence conservation. The Type I satellite-like sequence constitutes 8% of the zebrafish genome, or approximately 8 x 10(5) copies per haploid genome. Southern analysis of genomic DNA, digested with several restriction endonucleases, shows a ladder of hybridizing bands, consistent with a tandem array, and suggests longer range periodic variations in the sequence of the tandem repeats. The Type II satellite has a monomer length of 165 bp, is also A+T-rich (68%), and constitutes 0.2% of the zebrafish genome (22,000 copies per haploid genome). Southern analysis reveals a complex pattern rather than a ladder of regularly spaced hybridizing bands.     

Neurulation in the anterior trunk region of the zebrafish Brachydanio rerio

We have studied the process of neurulation within the anterior trunk region of the zebrafish by means of serial sectioning of staged embryos and labelling cells by applications of the dye Dil and intracellular injections of fluoresceine dextran amine. The first morphological manifestation of the prospective neural plate is a dorsomedial ectodermal thickening which becomes visible immediately after gastrulation. Within 1–2 h, by the time somatogenesis begins, two bilaterally symmetrical thickenings have appeared more laterally, which eventually fuse with the medial thickening to form the neural keel. The central canal forms next by separation of the cells on either side of the midline of the neural keel, beginning ventrally at the 17-somite stage and progressing towards dorsal levels. By means of fluorescent dye labelling in the late gastrula, we found that both the medial and lateral thickenings contribute to the nerve cord. The medial thickening was found to contain, exclusively, neural progenitor cells from the 90–100% epiboly stage on, whereas the adjacent regions contained a mixture of neural and epidermal progenitor cells, as well as prospective neural crest cells. Between the 90–100% epiboly and 2-somite stages, this heterogeneity of developmental capabilities is resolved into territories, with epidermogenic and neurogenic cells clearly separated from each other. To achieve this segregation into neural and epidermal anlagen, cells from the lateral thickenings have to move over a distance of roughly 400 m within 1–2 h. Epidermal overgrowth of the nerve cord occurs during the morphogenetic movements that accompany nerve cord formation. Correspondence to: J.A. Campos-Ortega     

多氯联苯(PCB1254)对斑马鱼(Brachydanio rerio)毒性及其组织结构的影响

本文报道了多氯联苯(PCB₁₂₅₄)对斑马鱼(Brachydanio rerio)的亚急性毒性试验及其组织结构的影响。结果表明,PCB₁₂₅₄对斑马鱼存活最大无影响浓度(NOEC)为0.40μg·L^-1,最低有影响浓度(LOEC)为2.0μg·L^-1, PCB₁₂₅₄对斑马鱼30d半致死剂量为5.09μg·L^-1,95% 可信区间范围为3.79～6.52μg·L^-1。在不同浓度的PCB₁₂₅₄作用30d后,斑马鱼的组织结构发生明显变化, PCB₁₂₅₄浓度大于2μg·L^-1时,对斑马鱼鳃组织呼吸上皮细胞结构产生损伤而影响其呼吸代谢;高浓度PCB₁₂₅₄(50μg·L^-1)对斑马鱼肝脏细胞结构产生明显损害,肝脏细胞结构表现出异常,肝细胞核变形萎缩,并有大量脂褐素沉积。     

Diagnosis and management of atypical Mycobacterium spp. infections in established laboratory zebrafish (Brachydanio rerio) facilities

Two established zebrafish colonies experienced increased mortality and decreased reproductive performance. Initial examination of several fish from one facility revealed hyperemic gills, petechia around the opercula, abdominal distention, and emaciation. Affected fish had congested liver with inflammation and multifocal hepatic necrosis. Large numbers of acid-fast-positive, rod-shaped bacteria were evident in multiple tissues and the blood. Mycobacterium fortuitum was subsequently isolated from several fish. Zebrafish from the second facility had skin erosions and ulceration along the flank just caudal to the pectoral fins. Large numbers of acid-fast-positive, rod-shaped bacteria were observed within the necrotic centers of well-demarcated, multifocal granulomas in gonads, liver, and peritoneum from affected fish. Mycobacterium abscessus and M. chelonae were isolated and identified biochemically. Definitive diagnosis in these outbreaks was obtained by culture on selective media. Because Mycobacterium spp. grow extremely slowly and positive confirmation may require 45 to 60 days, Mycobacterium species-specific polymerase chain reaction analysis was used to provide a rapid screening assay for Mycobacterium spp. as well as for verification of culture results. To our knowledge, this is the first documentation of mycobacterial infection in laboratory-maintained zebrafish and provides guidelines for diagnosis, management, and prevention of atypical mycobacteriosis in laboratory zebrafish colonies.     

Embryonic substances induce alarm response in adult zebrafish (Danio rerio)

Many aquatic animals rely on chemicals released by injured individuals of the same species to assess predation risk. Among these chemical cues, alarm substances released from the injured skin of ostariophysan fishes have been extensively examined. In most fish species examined, these cues appear to be released by all injured individuals (including larvae, juveniles and adults) and elicit alarm responses in conspecifics. Adult alarm cues also affect development and physiology of embryos. Nonetheless, whether embryos produce alarm cues that affect adults is not known. This study reports that extracts of zebrafish (Danio rerio) embryos at 36 h post-fertilization or later induce antipredator behaviours reminiscent of those induced by skin alarm substances. At an equivalent of 10⁻⁶ g embryo per millilitre, the extract induced bottom-dwelling and freezing in adults. These behaviours are consistent with those induced by adult alarm substances. This study concludes that zebrafish embryos produce alarm substances.     

The biology and use of zebrafish, Brachydanio rerio in fisheries research.

PREFACE TO THE REVIEW BY PROFESSOR H. LAALE ON THE BIOLOGY AND USE OF THE ZEBRAFISH, BRACHYDANIO RERIO IN FISHERIES RESEARCH
The growing demand for increasingly sophisticated information on the toxic hazards of potential water pollutants has focused attention on the need for a suitable 'standard' animal model which could be accepted internationally. The Zebrafish, Brachydanio rerio (Hamilton-Buchanan, 1822, 1823) is considered to be the most likely candidate. It is relatively easy to maintain and breed in laboratory aquaria and it has proved to be responsive to a wide range of mutagens, carcinogens and teratogens, as well as direct toxicants. B. rerio has been the subject of a considerable number of investigations involving a diverse spectrum of disciplines in a number of countries. Professor Hans Laale, who has himself contributed to our knowledge of the embryopathology of B. rerio , has summarized and collated the findings of 450 publications, a number of which are unlikely to have become available to fishery scientists. We hope the publication of this review will aid those who are working with B. rerio and provide comprehensive data on the advantages and limitations of B. rerio as a contender for the standard laboratory fish for the safety evaluation of aquatic pollutants.
T he E ditor     

Development of the hypochord and dorsal aorta in the zebrafish embryo (Danio rerio)

The hypochord of the zebrafish embryo (Danio rerio) emerges at the 9-somite stage as a single row of cells in the dorsomedial endoderm immediately ventral to the notochord. It is recognizable from the 2(nd) or 3(rd) somite and extends along the trunk to the same extent as the somites. A basal lamina surrounds the hypochord and its cells are slightly larger than the nearby endoderm cells. TEM studies have shown that the hypochord cells contain, in addition to mitochondria, well-developed rough endoplasmic reticula and Golgi networks, indicating synthetic activity. Once formed, the hypochord will stay in close association with the notochord, and this axial complex gradually moves dorsally, separating the hypochord from the endoderm as a one-cell-wide, rod-like structure that is bean-shaped in transverse section. This is the situation in the 15-somite embryo, at the level of the 4-5(th) somites. In the gap between the hypochord and the endoderm, angioblast cells aggregate and start to form the dorsal aorta, which becomes intimately associated with the hypochord. In the 17-somite embryo the aortic rudiment is established just ventral to the hypochord as a tube with a lumen. As development proceeds, the size of the hypochord decreases. In the pec fin embryo the hypochord is still recognizable in the posterior trunk, but has apparently vanished in anterior regions. The temporal correlation between the appearance of the hypochord and the formation of the dorsal aorta, coupled with the intimate relationship between these structures, suggest that the hypochord may play a role in the positioning of the dorsal aorta.