Synergistic Genetic Interactions between Pkhd1 and Pkd1 Result in an ARPKD-Like Phenotype in Murine Models.

IF 0.3 4区 经济学 Q4 ECONOMICS
B E Journal of Theoretical Economics Pub Date : 2019-11-01 Epub Date: 2019-08-19 DOI:10.1681/ASN.2019020150
Rory J Olson, Katharina Hopp, Harrison Wells, Jessica M Smith, Jessica Furtado, Megan M Constans, Diana L Escobar, Aron M Geurts, Vicente E Torres, Peter C Harris
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引用次数: 0

Abstract

Background: Autosomal recessive polycystic kidney disease (ARPKD) and autosomal dominant polycystic kidney disease (ADPKD) are genetically distinct, with ADPKD usually caused by the genes PKD1 or PKD2 (encoding polycystin-1 and polycystin-2, respectively) and ARPKD caused by PKHD1 (encoding fibrocystin/polyductin [FPC]). Primary cilia have been considered central to PKD pathogenesis due to protein localization and common cystic phenotypes in syndromic ciliopathies, but their relevance is questioned in the simple PKDs. ARPKD's mild phenotype in murine models versus in humans has hampered investigating its pathogenesis.

Methods: To study the interaction between Pkhd1 and Pkd1, including dosage effects on the phenotype, we generated digenic mouse and rat models and characterized and compared digenic, monogenic, and wild-type phenotypes.

Results: The genetic interaction was synergistic in both species, with digenic animals exhibiting phenotypes of rapidly progressive PKD and early lethality resembling classic ARPKD. Genetic interaction between Pkhd1 and Pkd1 depended on dosage in the digenic murine models, with no significant enhancement of the monogenic phenotype until a threshold of reduced expression at the second locus was breached. Pkhd1 loss did not alter expression, maturation, or localization of the ADPKD polycystin proteins, with no interaction detected between the ARPKD FPC protein and polycystins. RNA-seq analysis in the digenic and monogenic mouse models highlighted the ciliary compartment as a common dysregulated target, with enhanced ciliary expression and length changes in the digenic models.

Conclusions: These data indicate that FPC and the polycystins work independently, with separate disease-causing thresholds; however, a combined protein threshold triggers the synergistic, cystogenic response because of enhanced dysregulation of primary cilia. These insights into pathogenesis highlight possible common therapeutic targets.

Pkhd1 和 Pkd1 之间的协同遗传相互作用导致小鼠模型出现类似 ARPKD 的表型。
背景:常染色体隐性多囊肾病(ARPKD)和常染色体显性多囊肾病(ADPKD)在遗传学上截然不同,ADPKD通常由PKD1或PKD2基因(分别编码多囊卵巢蛋白-1和多囊卵巢蛋白-2)引起,而ARPKD则由PKHD1基因(编码纤维胞浆蛋白/多导蛋白[FPC])引起。原发性纤毛症一直被认为是 PKD 发病机制的核心,因为在综合征纤毛症中,原发性纤毛症的蛋白质定位和常见的囊肿表型都是由原发性纤毛症引起的,但在单纯性 PKD 中,原发性纤毛症的相关性受到了质疑。与人类相比,ARPKD在小鼠模型中的表型较轻,这阻碍了对其发病机制的研究:为了研究 Pkhd1 和 Pkd1 之间的相互作用,包括剂量对表型的影响,我们建立了二基因小鼠和大鼠模型,并对二基因、单基因和野生型表型进行了表征和比较:结果:两种动物的基因相互作用具有协同作用,二基因动物表现出快速进展的PKD和类似典型ARPKD的早期致死表型。在二基因小鼠模型中,Pkhd1和Pkd1之间的遗传相互作用取决于剂量,在第二个基因位点表达量减少的阈值被突破之前,单基因表型不会显著增强。Pkhd1 的缺失并没有改变 ADPKD 多囊蛋白的表达、成熟或定位,也没有检测到 ARPKD FPC 蛋白与多囊蛋白之间的相互作用。在二基因小鼠和单基因小鼠模型中进行的RNA-seq分析突出表明,纤毛区是一个共同的失调靶标,在二基因模型中,纤毛表达增强,长度发生变化:这些数据表明,FPC 和多囊卵巢蛋白各自独立工作,具有不同的致病阈值;然而,由于初级纤毛的失调增强,联合蛋白阈值会触发协同的致囊反应。这些对发病机理的深入了解突显了可能的共同治疗靶点。
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来源期刊
CiteScore
0.80
自引率
25.00%
发文量
25
期刊介绍: We welcome submissions in all areas of economic theory, both applied theory and \"pure\" theory. Contributions can be either innovations in economic theory or rigorous new applications of existing theory. Pure theory papers include, but are by no means limited to, those in behavioral economics and decision theory, game theory, general equilibrium theory, and the theory of economic mechanisms. Applications could encompass, but are by no means limited to, contract theory, public finance, financial economics, industrial organization, law and economics, and labor economics.
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