Robinow Syndrome DVL1 mutations disrupt morphogenesis and appendage formation in a Drosophila disease model

bioRxiv - Developmental Biology Pub Date : 2024-09-10 DOI:10.1101/2024.09.10.612347

Gamze Akarsu, Katja R MacCharles, Kenneth Kin Lam Wong, Joy Richman, Esther M. Verheyen

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Abstract

Robinow Syndrome is a rare developmental syndrome caused by mutations in numerous genes involved in Wnt signaling pathways. We previously showed that expression of patient variants in Drosophila and a chicken model disrupts the balance of canonical and non-canonical/PCP Wnt signaling. We also noted neomorphic effects that warranted further investigation. In this study, we examine morphological changes that occur as a result of one variant, DVL11519ΔT, that serves as a prototype for the other mutations. We show that epithelial imaginal disc development is disrupted in legs and wings. Shortened leg segments are reminiscent of shortened limb bones seen in RS patients. We find that imaginal disc development is disrupted and accompanied by increased cell death, without changes in cell proliferation. Furthermore, we find altered dynamics of basement membrane components and modulators. Notably we find increased MMP1 expression and tissue distortion, which is dependent on Jnk signaling. We also find enhanced collagen IV (Viking) secreted from cells expressing DVL11519ΔT. Through these studies we have gained more insight into developmental consequences of DVL1 mutations implicated in autosomal dominant Robinow Syndrome.

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罗宾诺综合征 DVL1 突变破坏果蝇疾病模型的形态发生和附肢形成

罗宾诺综合征是一种罕见的发育综合征，是由涉及 Wnt 信号通路的多个基因突变引起的。我们以前的研究表明，患者变异基因在果蝇和鸡模型中的表达会破坏规范和非规范/PCP Wnt 信号转导的平衡。我们还注意到了需要进一步研究的新变态效应。在本研究中，我们研究了一个变异体 DVL11519ΔT 导致的形态学变化，该变异体是其他变异体的原型。我们发现，腿和翅膀的上皮想象盘发育受到破坏。缩短的腿节让人联想到 RS 患者缩短的肢骨。我们发现成像盘的发育受到破坏，并伴有细胞死亡增加，而细胞增殖没有变化。此外，我们还发现基底膜成分和调节剂的动态发生了改变。值得注意的是，我们发现 MMP1 表达和组织变形增加，这依赖于 Jnk 信号传导。我们还发现表达 DVL11519ΔT 的细胞分泌的胶原蛋白 IV (Viking) 增加。通过这些研究，我们对常染色体显性罗宾诺综合征所涉及的 DVL1 基因突变的发育后果有了更深入的了解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Developmental Biology

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