Heterogeneous distribution of Retinal Degeneration Protein 3 in normal human fetal tissues: Exploring the possible relevance to neuroblastoma genesis

N. Aravindan, Dinesh Babu Somasundaram, S. Aravindan, Zhongxin Yu, Karthikeyan Subramanian, A. Esmaeili, T. Herman
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Abstract

Background: Our studies identified the loss of Retinal degeneration Protein 3 (RD3) in the predominant infant tumor, neuroblastoma, indicated its novel regulatory function in neuroblastoma pathogenesis and, showed its localization in tissues beyond retina. To explore the possible physiological role of RD3 in regulating the genesis of neuroblastoma, we examined its distribution in human fetal normal tissues. Methods: Constitutive mRNA levels (QPCR, RNAScope), protein expression (immunohistochemistry), and sub-cellular localization of RD3 were investigated in the array (20 sites) of human (n=5) fetal normal tissues. In silico RNA sequencing data from seven independent studies (total n = 407) of human fetal tissues (101 sites) was utilized to validate the differential expression of RD3 in developing tissues. Results: RNAscope and QPCR analysis indicated a steady state of RD3 transcription across the fetal tissues with measurable inter-tissue differences (For e.g. high in GI tissues vs low in adrenal gland). RNA-seq data on varying stages of development clearly indicated stage-dependent dynamic fluctuations in RD3 transcription as the development progress. Notably, RD3 transcription is stably expressed in choroid plexus and are relatively absent in spinal cord through the developmental stages. IHC analysis recognized the presence of RD3 protein in array of fetal normal tissues, the tissue- and cell-specific distinctions in protein expression, and the variances in sub-cellular localization with each tissue. Conclusion: For the first time, the results presented here revealed the tissue-specific transcription, expression and localization of RD3 in fetal tissues. Recognizing the heterogeneous expression of RD3 between and within the fetal tissues signify its possible function beyond photoreceptor cell survival and could shed light on its functional relevance in neuroblastoma genesis and/or evolution.
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视网膜变性蛋白3在正常人类胎儿组织中的不均匀分布:探索与神经母细胞瘤发生的可能关联
背景:我们的研究发现视网膜变性蛋白3 (RD3)在主要的婴儿肿瘤神经母细胞瘤中缺失,表明其在神经母细胞瘤发病机制中具有新的调节功能,并显示其在视网膜以外的组织中有定位。为了探讨RD3在调节神经母细胞瘤发生中的可能生理作用,我们检测了RD3在人胎儿正常组织中的分布。方法:在人(n=5)胎正常组织阵列(20个位点)中检测RD3的组成mRNA水平(QPCR、RNAScope)、蛋白表达(免疫组化)和亚细胞定位。来自7个独立的人类胎儿组织(101个位点)的RNA测序数据(共n = 407)被用来验证RD3在发育组织中的差异表达。结果:RNAscope和QPCR分析表明,胎儿组织中RD3的转录处于稳定状态,并存在可测量的组织间差异(例如,GI组织高转录而肾上腺组织低转录)。不同发育阶段的RNA-seq数据清楚地表明,随着发育的进展,RD3转录会发生阶段依赖性的动态波动。值得注意的是,在整个发育阶段,RD3转录在脉络丛中稳定表达,而在脊髓中相对缺失。免疫组化分析确认了RD3蛋白在胎儿正常组织阵列中的存在,蛋白质表达的组织和细胞特异性差异,以及每个组织的亚细胞定位差异。结论:本研究结果首次揭示了RD3在胎儿组织中的组织特异性转录、表达和定位。认识到胎儿组织间和胎儿组织内RD3的异质表达,表明其可能在光感受器细胞存活之外发挥作用,并可能揭示其在神经母细胞瘤发生和进化中的功能相关性。
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