Photoreceptor progenitor dynamics in the zebrafish embryo retina and its modulation by primary cilia and N-cadherin.

IF 1 4区 生物学 Q4 DEVELOPMENTAL BIOLOGY
Gonzalo Aparicio, Magela Rodao, José L Badano, Flavio R Zolessi
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引用次数: 1

Abstract

Photoreceptor cells of the vertebrate neural retina originate in the neuroepithelium, and like other neurons, must undergo cell body translocation and polarity transitions to acquire their final functional morphology, which includes features of neuronal and epithelial cells. We analyzed this process in detail in zebrafish embryos using in vivo confocal microscopy and electron microscopy. Photoreceptor progenitors were labeled by the transgenic expression of enhanced green fluorescent protein under the regulation of the photoreceptor-specific promoter crx, and structures of interest were disrupted using morpholino oligomers to knock-down specific genes. Photoreceptor progenitors detached from the basal retina at pre-mitotic stages, rapidly retracting a short basal process as the cell body translocated apically. They remained at an apical position indefinitely to form the outer nuclear layer (ONL), initially extending and retracting highly dynamic neurite-like processes, tangential to the apical surface. Many photoreceptor progenitors presented a short apical primary cilium. The number and length of these cilia was gradually reduced until nearly disappearing around 60 hpf. Their disruption by knocking-down ift88 and elipsa caused a notorious defect on basal process retraction. To assess the role of cell adhesion in the organization of photoreceptor progenitors, we knocked-down cdh2/N-cadherin and observed the cell behavior by time-lapse microscopy. The ectopic photoreceptor progenitors initially migrated in an apparent random manner, profusely extending cell processes, until they encountered other cells to establish cell rosettes in which they stayed, acquiring photoreceptor-like polarity. Altogether, our observations indicate a complex regulation of photoreceptor progenitor dynamics to form the retinal ONL, previous to the post-mitotic maturation stages.

斑马鱼胚胎视网膜的光感受器祖细胞动力学及其受初级纤毛和n -钙粘蛋白的调节。
脊椎动物神经视网膜的感光细胞起源于神经上皮,与其他神经元一样,必须经过细胞体易位和极性转变才能获得最终的功能形态,包括神经元和上皮细胞的特征。我们使用体内共聚焦显微镜和电子显微镜详细分析了斑马鱼胚胎的这一过程。在光感受器特异性启动子crx的调控下,通过转基因表达增强的绿色荧光蛋白来标记光感受器祖细胞,并使用morpholino低聚物破坏感兴趣的结构以敲除特定基因。光感受器祖细胞在有丝分裂前阶段从基底视网膜分离,随着细胞体顶端移位,迅速撤回一个短的基底过程。它们无限期地停留在顶端位置,形成外核层(ONL),最初伸展和收缩高度动态的神经突状突起,切向顶端表面。许多光感受器祖细胞表现为短的顶端初级纤毛。这些纤毛的数量和长度逐渐减少,直到60 hpf左右几乎消失。通过敲除ift88和elipsa,它们的破坏导致了基底突内收的臭名昭著的缺陷。为了评估细胞粘附在光感受器祖细胞组织中的作用,我们敲除cdh2/N-cadherin,并通过延时显微镜观察细胞行为。异位光感受器祖细胞最初以一种明显的随机方式迁移,大量扩展细胞过程,直到它们遇到其他细胞建立细胞莲座,并在其中停留,获得光感受器样极性。总之,我们的观察结果表明,在有丝分裂后成熟阶段之前,光感受器祖细胞动力学的复杂调节形成了视网膜ONL。
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来源期刊
CiteScore
1.90
自引率
0.00%
发文量
16
审稿时长
2 months
期刊介绍: The International Journal of Developmental Biology (ISSN: 0214- 6282) is an independent, not for profit scholarly journal, published by scientists, for scientists. The journal publishes papers which throw light on our understanding of animal and plant developmental mechanisms in health and disease and, in particular, research which elucidates the developmental principles underlying stem cell properties and cancer. Technical, historical or theoretical approaches also fall within the scope of the journal. Criteria for acceptance include scientific excellence, novelty and quality of presentation of data and illustrations. Advantages of publishing in the journal include: rapid publication; free unlimited color reproduction; no page charges; free publication of online supplementary material; free publication of audio files (MP3 type); one-to-one personalized attention at all stages during the editorial process. An easy online submission facility and an open online access option, by means of which papers can be published without any access restrictions. In keeping with its mission, the journal offers free online subscriptions to academic institutions in developing countries.
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