BICC1 与 PKD1 和 PKD2 相互作用,推动 ADPKD 的囊肿发生

Uyen Tran, Andrew J Streets, Devon Smith, Eva Decker, Annemarie Kirschfink, Lahoucine Izem, Jessie Hassey, Briana Ruthland, Manoj K Valluru, Jan Hinrich Bräsen, Elisabeth Ott, Daniel Epting, Tobias Eisenberger, Albert CM Ong, Carsten Bergmann, Oliver Wessely
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引用次数: 0

摘要

背景:常染色体显性多囊肾病(ADPKD)主要是由 PKD1 或 PKD2 的致病变异引起的成人发病。然而,疾病的表现形式千变万化,包括在子宫内或婴儿期发病的早期 PKD。在动物模型中,RNA结合分子Bicc1已被证明在PKD的发病机制中起着至关重要的作用。研究方法为了研究 BICC1、PKD1 和 PKD2 之间的相互作用,我们结合了生化方法、小鼠和爪蟾基因敲除研究、基因工程人类肾细胞以及大型 ADPKD 群体的遗传关联研究。结果:我们首先证明了 BICC1 可通过不同的蛋白结构域与 PKD1 和 PKD2 编码的多囊卵巢蛋白-1 和-2 进行物理结合。此外,在爪蟾和小鼠模型的功能缺失研究中,当 Bicc1 与 Pkd1 或 Pkd2 一起被剥夺时,PKD 会恶化,导致更严重的疾病。最后,在一个大型人类患者队列中,我们发现了一对同卵BICC1变体的兄弟姐妹和极早发性PKD(VEO-PKD)患者,他们的BICC1与PKD1和PKD2变体表现出复合杂合性。基因组编辑结果表明,这些BICC1变异具有低态性,会影响与疾病相关的信号通路。结论这些发现支持了 BICC1 与 PKD1 和 PKD2 在功能上合作的假设,而且 BICC1 变异可能会加重疾病的严重程度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BICC1 Interacts with PKD1 and PKD2 to Drive Cystogenesis in ADPKD
Background: Autosomal dominant polycystic kidney disease (ADPKD) is primarily of adult-onset and caused by pathogenic variants in PKD1 or PKD2. Yet, disease expression is highly variable and includes very early-onset PKD presentations in utero or infancy. In animal models, the RNA-binding molecule Bicc1 has been shown to play a crucial role in the pathogenesis of PKD. Methods: To study the interaction between BICC1, PKD1 and PKD2 we combined biochemical approaches, knockout studies in mice and Xenopus, genetic engineered human kidney cells as well as genetic association studies in a large ADPKD cohort. Results: We first demonstrated that BICC1 physically binds to the proteins Polycystin-1 and -2 encoded by PKD1 and PKD2 via distinct protein domains. Furthermore, PKD was aggravated in loss-of-function studies in Xenopus and mouse models resulting in more severe disease when Bicc1 was depleted in conjunction with Pkd1 or Pkd2. Finally, in a large human patient cohort, we identified a sibling pair with a homozygous BICC1 variant and patients with very early onset PKD (VEO-PKD) that exhibited compound heterozygosity of BICC1 in conjunction with PKD1 and PKD2 variants. Genome editing demonstrated that these BICC1 variants were hypomorphic in nature and impacted disease-relevant signaling pathways. Conclusions: These findings support the hypothesis that BICC1 cooperates functionally with PKD1 and PKD2, and that BICC1 variants may aggravate disease severity highlighting RNA metabolism as an important new concept for disease modification in ADPKD.
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