Song Ping, Dudinsky Lynn, Fogerty Joseph, Gaivin Robert, Perkins Brian D
Department of Ophthalmic Research, Cole Eye Institute, Cleveland Clinic, Cleveland, Ohio, United States.
Department of Biology, Texas A&M University, College Station, Texas, United States.
Invest Ophthalmol Vis Sci. 2016 Aug 1;57(10):4517-26. doi: 10.1167/iovs.16-19898.
Mutations in the gene ARL13B cause the classical form of Joubert syndrome, an autosomal recessive ciliopathy with variable degrees of retinal degeneration. As second-site modifier alleles can contribute to retinal pathology in ciliopathies, animal models provide a unique platform to test how genetic interactions modulate specific phenotypes. In this study, we analyzed the zebrafish arl13b mutant for retinal degeneration and for epistatic relationships with the planar cell polarity protein (PCP) component vangl2.
Photoreceptor and cilia structure was examined by light and electron microscopy. Immunohistochemistry was performed to examine ciliary markers. Genetic interactions were tested by pairwise crosses of heterozygous animals. Genetic mosaic animals were generated by blastula transplantation and analyzed by fluorescence microscopy.
At 5 days after fertilization, photoreceptor outer segments were shorter in zebrafish arl13b-/- mutants compared to wild-type larvae, no overt signs of retinal degeneration were observed by light or electron microscopy. Starting at 14 days after fertilization (dpf) and continuing through 30 dpf, cells lacking Arl13b died following transplantation into wild-type host animals. Photoreceptors of arl13b-/-;vangl2-/- mutants were more compromised than the photoreceptors of single mutants. Finally, when grown within a wild-type retina, the vangl2-/- mutant cone photoreceptors displayed normal basal body positioning.
We show that arl13b-/- mutants have shortened cilia and photoreceptor outer segments and exhibit a slow, progressive photoreceptor degeneration that occurs over weeks. The data suggest that loss of Arl13b leads to slow photoreceptor degeneration, but can be exacerbated by the loss of vangl2. Importantly, the data show that Arl13b can genetically and physically interact with Vangl2 and this association is important for normal photoreceptor structure. The loss of vangl2, however, does not affect basal body positioning.
ARL13B基因的突变会导致经典型乔伯特综合征,这是一种常染色体隐性纤毛病,伴有不同程度的视网膜变性。由于第二位点修饰等位基因可导致纤毛病中的视网膜病变,动物模型为测试基因相互作用如何调节特定表型提供了一个独特的平台。在本研究中,我们分析了斑马鱼arl13b突变体的视网膜变性情况以及与平面细胞极性蛋白(PCP)成分vangl2的上位关系。
通过光学和电子显微镜检查光感受器和纤毛结构。进行免疫组织化学以检测纤毛标记物。通过杂合动物的成对杂交测试基因相互作用。通过囊胚移植产生基因镶嵌动物,并通过荧光显微镜进行分析。
在受精后5天,与野生型幼虫相比,斑马鱼arl13b-/-突变体的光感受器外段较短,通过光学或电子显微镜未观察到明显的视网膜变性迹象。从受精后14天(dpf)开始并持续到30 dpf,缺乏Arl13b的细胞在移植到野生型宿主动物后死亡。arl13b-/-;vangl2-/-突变体的光感受器比单突变体的光感受器受损更严重。最后,当在野生型视网膜内生长时,vangl2-/-突变体视锥光感受器显示出正常的基体定位。
我们表明,arl13b-/-突变体的纤毛和光感受器外段缩短,并表现出在数周内发生的缓慢、进行性光感受器变性。数据表明,Arl13b的缺失导致光感受器缓慢变性,但vangl2的缺失会使其加剧。重要的是,数据表明Arl13b可在基因和物理层面与Vangl发生相互作用,且这种关联对正常光感受器结构很重要。然而,vangl2的缺失并不影响基体定位。
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