Molecular control of vascular development in the zebrafish

The zebrafish is emerging as a novel model for the study of embryonic vascular development. In this review we summarize the advantages of this intriguing experimental system and the advances in our understanding of the molecular control of vascular development it has allowed.     

Plumbing the mysteries of vascular development using the zebrafish

The zebrafish has recently emerged as an advantageous model organism for studying how the stereotypic and evolutionarily conserved network of vertebrate blood vessels arises during development. The ability to screen for vascular-specific mutants and to image and experimentally manipulate blood vessels throughout living embryos has already yielded new insights into the anatomy of the early vasculature, the dynamics of growing blood vessels, the specification of early vascular progenitors, and arterial-venous differentiation of blood vessels.     

水平回转培养对斑马鱼血管发育的影响

随着空间生命科学的发展, 微重力对生命体的影响已成为科学家们日益关注的问题。多数研究表明, 微重力对生物体胚胎早期发育有着重要影响, 而血管系统作为胚胎最早行使功能的系统备受关注。目前关于微重力对血管发育影响的研究大多来自对离体培养细胞的体外回转模拟实验, 在体实验相对较少。文章利用斑马鱼作为模式动物, 在体探究水平回转培养环境下斑马鱼胚胎早期发育及水平回转培养对其血管系统发育的影响。在斑马鱼受精后24 h(24 hpf)时进行水平回转培养处理, 至36 hpf时收集胚胎, 通过体视显微镜观察斑马鱼表型变化, 通过半定量RT-PCR、qPCR及全胚原位杂交等手段对比水平回转培养环境下与对照组血管相关因子的表达情况, 并通过BrdU掺入及TUNEL法进行斑马鱼全胚细胞凋亡及增殖检测。结果表明, 在90 r/min水平回转培养环境下, 斑马鱼死亡数量没有差异, 24 hpf时破壳数量显著降低(10.3±0.41 vs. 0.0, P<0.05), 心率显著加快(223.5±2.32 vs. 185.0±3.23, P<0.05), 黑色素明显增加, 动静脉发育紊乱, 且在120 r/min转速下, 胚胎血管特异性表达因子flk1、flt4及 ephrinB2的表达均显著降低, 斑马鱼细胞凋亡明显增加, 而细胞增殖无显著差异, 提示水平回转培养对斑马鱼胚胎发育特别是早期血管发育具有重要影响。     

Endothelial cell–cell adhesion during zebrafish vascular development

The vertebrate vasculature is an essential organ network with major roles in health and disease. The establishment of balanced cell–cell adhesion in the endothelium is crucial for the functionality of the vascular system. Furthermore, the correct patterning and integration of vascular endothelial cell–cell adhesion drives the morphogenesis of new vessels, and is thought to couple physical forces with signaling outcomes during development. Here, we review insights into this process that have come from studies in zebrafish. First, we describe mutants in which endothelial adhesion is perturbed, second we describe recent progress using in vivo cell biological approaches that allow the visualization of endothelial cell–cell junctions. These studies underline the profound potential of this model system to dissect in great detail the function of both known and novel regulators of endothelial cell–cell adhesion.     

The vascular anatomy of the developing zebrafish: an atlas of embryonic and early larval development

We have used confocal microangiography to examine and describe the vascular anatomy of the developing zebrafish, Danio rerio. This method and the profound optical clarity of zebrafish embryos make it possible to view the entire developing vasculature with unprecedented resolution. A staged series of three-dimensional images of the vascular system were collected beginning shortly after the onset of circulation at 1 day postfertilization through early- to midlarval stages at approximately 7 days postfertilization. Blood vessels in every region of the animal were imaged at each stage, and detailed "wiring patterns" were derived describing the interconnections between every major vessel. We present an overview of these data here in this paper and in an accompanying Web site "The interactive atlas of zebrafish vascular anatomy" online at (http://eclipse.nichd.nih.gov/nichd/lmg/redirect.html). We find a highly dynamic but also highly stereotypic pattern of vascular connections, with different sets of primitive embryonic vessels severing connections and rewiring in new configurations according to a reproducible plan. We also find that despite variation in the details of the vascular anatomy, the basic vascular plan of the developing zebrafish shows strong similarity to that of other vertebrates. This atlas will provide an invaluable foundation for future genetic and experimental studies of vascular development in the zebrafish.     

In vivo synthesis of meganuclease for generating transgenic zebrafish Danio rerio

The authors show that co-injection at the one-cell stage of mRNA encoding a nuclear-targeted meganuclease I- Sce I together with expression cassettes flanked by cognate restriction sites results in efficient stable transgenesis in zebrafish Danio rerio .     

斑马鱼整体原位杂交法研究MMP15a的发育相关表达的初步观察

克隆斑马鱼基质金属蛋白酶15a（MMP15a）基因,并研究其在斑马鱼胚胎早期发育中的时空表达状况。收集不同发育时期的斑马鱼胚胎,制备DIG标记的MMP15a RNA探针,采用全胚胎原位杂交方法研究MMP15a基因在胚胎斑马鱼的表达。结果MMP15a基因在胚胎受精后一个细胞时期就开始表达,从受精后24h起,在眼睛处表达明显,从受精后48h MMP15a在胸鳍和耳囊有特异性表达至到受精后96h。MMP15a在斑马鱼胚胎发育不同时期表达明显,且在胸鳍和耳囊处有持续表达。     

MicroRNAs对斑马鱼发育的调控

microRNAs(miRNAs)是一类长度约为22nt的非编码小RNA,从单细胞到多细胞真核生物中都广泛存在,在进化过程中高度保守,对动物发育、生理功能及病理过程都具有重要调控作用。斑马鱼(Danio rerio)是现代生物学研究中广泛使用的模式动物,以斑马鱼为模型研究miRNAs可以揭示miRNAs在脊椎动物中的功能。文章就miRNAs整体缺失对斑马鱼胚胎发育的影响及一些miRNAs在斑马鱼早期发育过程中的调控机制进行了综述,从而为探索miRNAs在脊椎动物中的功能及鱼类的生产育种提供理论基础。     

A transgenic zebrafish for in vivo visualization of cilia

Cilia are organelles for cellular signalling and motility. Mutations affecting ciliary function are also associated with cilia-related disorders (ciliopathies). The identification of cilia markers is critical for studying their function at the cellular level. Due to the lack of a conserved, short ciliary localization motif, the full-length ARL13b or 5HT₆ proteins are normally used for cilia labelling. Overexpression of these genes, however, can affect the function of cilia, leading to artefacts in cilia studies. Here, we show that Nephrocystin-3 (Nphp3) is highly conserved among vertebrates and demonstrate that the N-terminal truncated peptide of zebrafish Nphp3 can be used as a gratuitous cilia-specific marker. To visualize the dynamics of cilia in vivo, we generated a stable transgenic zebrafish Tg (β-actin: nphp3N-mCherry)^sx1001. The cilia in multiple cell types are efficiently labelled by the encoded fusion protein from embryonic stages to adulthood, without any developmental and physiological defects. We show that the line allows live imaging of ciliary dynamics and trafficking of cilia proteins, such as Kif7 and Smo, key regulators of the Hedgehog signalling pathway. Thus, we have generated an effective new tool for in vivo cilia studies that will help shed further light on the roles of these important organelles.     

整体原位杂交法初步研究MMP11b在斑马鱼胚胎发育过程中的表达

克隆斑马鱼基质金属蛋白酶11b（MMP11b）基因,并研究其在斑马鱼胚胎早期发育中的时空表达状况。收集不同发育时期的斑马鱼胚胎,制备DIG标记的MMP11b RNA探针,采用全胚胎原位杂交方法研究MMP11b基因在斑马鱼胚胎的表达。MMP11b基因在胚胎受精后一个细胞时期就开始表达,并且一直持续到96h,从受精后24h起,在耳囊处表达明显,在受精后48h时期在胸鳍和肛门处也有特异性表达。MMP11b在斑马鱼胚胎发育不同时期表达明显,且在耳囊处有持续表达。     

Morphological development of the gonads in zebrafish

Gonadogenesis of zebrafish Danio rerio was investigated by means of light microscopy to test the suitability of gonad histology as an endpoint in hazard assessment of endocrine‐active compounds. At age 2 weeks post‐fertilization (pf), primordial germ cells were found in a dorsocaudal position in the body cavity. At 4 weeks pf, the majority of the fish (86%) possessed paired gonads with meiotic germ cells; these gonads represented presumptive ovaries. At week 5 pf, 87% of the fish examined had ovaries with perinucleolar oocytes. Further development of the gonads in female zebrafish up to week 11 pf was characterized by an increase in gonad size as well as in the number and size of perinucleolar oocytes. Starting with week 5, some fish showed alterations of gonad morphology, including a decrease in the number and size of the oocytes, an enhanced basophilia and irregular shape of the oocytes, and finally their degeneration into residual bodies. With the decline in oocyte number, stromal cells became more numerous and they infiltrated the gonadal matrix. In several 7 week‐old zebrafish with altered gonadal morphology, enhanced numbers of gonial cells arranged in cyst‐like groups appeared. These gonads were interpreted as presumptive testes. In one fish out of 32 individuals examined, spermatocytes were detected, in addition to the gonial cells. During the subsequent weeks, the percentage of fish showing early testes with spermatogonia, spermatocytes and spermatids increased and reached 40% at 11 weeks pf. The sequence of gonadal alterations taking place in some of the individuals from week 5 pf onwards was interpreted to reflect the transition of protogynic ovaries into testes. The developmental pattern described identifies zebrafish to be a juvenile hermaphrodite. The results of this study are of relevance for the use of gonadal histopathology as endpoint in endocrine disruption testing, particularly in order to avoid false diagnoses of ‘intersex gonads’ in zebrafish.     

In vivo mapping of vascular inflammation using multimodal imaging

Background

Plaque vulnerability to rupture has emerged as a critical correlate to risk of adverse coronary events but there is as yet no clinical method to assess plaque stability in vivo. In the search to identify biomarkers of vulnerable plaques an association has been found between macrophages and plaque stability—the density and pattern of macrophage localization in lesions is indicative of probability to rupture. In very unstable plaques, macrophages are found in high densities and concentrated in the plaque shoulders. Therefore, the ability to map macrophages in plaques could allow noninvasive assessment of plaque stability. We use a multimodality imaging approach to noninvasively map the distribution of macrophages in vivo. The use of multiple modalities allows us to combine the complementary strengths of each modality to better visualize features of interest. Our combined use of Positron Emission Tomography and Magnetic Resonance Imaging (PET/MRI) allows high sensitivity PET screening to identify putative lesions in a whole body view, and high resolution MRI for detailed mapping of biomarker expression in the lesions.

Methodology/Principal Findings

Macromolecular and nanoparticle contrast agents targeted to macrophages were developed and tested in three different mouse and rat models of atherosclerosis in which inflamed vascular plaques form spontaneously and/or are induced by injury. For multimodal detection, the probes were designed to contain gadolinium (T1 MRI) or iron oxide (T2 MRI), and Cu-64 (PET). PET imaging was utilized to identify regions of macrophage accumulation; these regions were further probed by MRI to visualize macrophage distribution at high resolution. In both PET and MR images the probes enhanced contrast at sites of vascular inflammation, but not in normal vessel walls. MRI was able to identify discrete sites of inflammation that were blurred together at the low resolution of PET. Macrophage content in the lesions was confirmed by histology.

Conclusions/Significance

The multimodal imaging approach allowed high-sensitivity and high-resolution mapping of biomarker distribution and may lead to a clinical method to predict plaque probability to rupture.     

生物力学——胚胎血管系统发育研究新视野

胚胎血管系统发育是一个复杂的过程, 其进程受多种刺激和抑制信号的调控, 这些信号必须协调作用, 以确保血管发育的每个阶段得以正常进行。血管发育过程在一定程度上是由基因控制的, 而且其研究也在很广的范围展开。但是近年研究发现, 生物力学作用是胚胎血管发育的必要因素, 胚胎血管发育过程中涉及到不同的细胞生物力学机制。文章主要就生物力学因素在血管系统发育过程中所起的作用及最新相关研究进展作一概述。     

Visualization of rod photoreceptor development using GFP-transgenic zebrafish

Zebrafish retina contains five morphologically distinct classes of photoreceptors, each expressing a distinct type of opsin gene. Molecular mechanisms underlying specification of opsin expression and differentiation among the cell types are largely unknown. This is partly because mutants affected with expression of a particular class of opsin gene are difficult to find. In this study we established the transgenic lines of zebrafish carrying green fluorescent protein (GFP) gene under the 1.1-kb and 3.7-kb upstream regions of the rod-opsin gene. In transgenic fish, GFP expression initiated and proceeded in the same spatiotemporal pattern with rod-opsin gene. The retinal section from adult transgenic fish showed GFP expression throughout the rod cell layer. These results indicate that the proximal 1.1-kb region is sufficient to drive gene expression in all rod photoreceptor cells. These transgenic fish should facilitate screening of mutants affected specifically with rod-opsin expression or rod cell development by visualization of rod cells by GFP.     

In vivo characterization of tumor and tumor vascular network using multi‐modal imaging approach

We present a multi‐modal optical diagnostic approach utilizing a combined use of Fluorescence Intravital Microscopy (FIM), Dynamic Light Scattering (DLS) and Spectrally Enhanced Microscopy (SEM) modalities for in vivo imaging of tumor vascular network and blood microcirculation. FIM is used for imaging of tumor surroundings and microenvironment, SEM provides information regarding blood vessels topography, whereas DLS is applied for functional imaging of vascular network and blood microcirculation. This complementary combination of the imaging approaches is extremely useful for functional in vivo imaging of blood vasculature and tumor microenvironment. The technique has also a great potential in vascular biology and can significantly expand the capabilities of tumor angiogenesis studies and notably contribute to the development of cancer treatment. (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)