Multiple functions of the scaffold protein Discs large 5 in the control of growth, cell polarity and cell adhesion in Drosophila melanogaster.

Q2 Biochemistry, Genetics and Molecular Biology

BMC Developmental Biology Pub Date : 2020-06-18 DOI:10.1186/s12861-020-00218-0

Parvathy Venugopal, Hugo Veyssière, Jean-Louis Couderc, Graziella Richard, Caroline Vachias, Vincent Mirouse

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引用次数: 7

Abstract

Background: Scaffold proteins support a variety of key processes during animal development. Mutant mouse for the MAGUK protein Discs large 5 (Dlg5) presents a general growth impairment and moderate morphogenetic defects.

Results: Here, we generated null mutants for Drosophila Dlg5 and show that it owns similar functions in growth and epithelial architecture. Dlg5 is required for growth at a cell autonomous level in several tissues and at the organism level, affecting cell size and proliferation. Our results are consistent with Dlg5 modulating hippo pathway in the wing disc, including the impact on cell size, a defect that is reproduced by the loss of yorkie. However, other observations indicate that Dlg5 regulates growth by at least another way that may involve Myc protein but nor PI3K neither TOR pathways. Moreover, epithelia cells mutant for Dlg5 also show a reduction of apical domain determinants, though not sufficient to induce a complete loss of cell polarity. Dlg5 is also essential, in the same cells, for the presence at Adherens junctions of N-Cadherin, but not E-Cadherin. Genetic analyses indicate that junction and polarity defects are independent.

Conclusions: Together our data show that Dlg5 own several conserved functions that are independent of each other in regulating growth, cell polarity and cell adhesion. Moreover, they reveal a differential regulation of E-cadherin and N-cadherin apical localization.

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支架蛋白disc large 5在果蝇生长、细胞极性和细胞粘附调控中的多种功能。

背景:支架蛋白支持动物发育过程中的多种关键过程。MAGUK蛋白disc large 5 (Dlg5)突变小鼠表现为一般生长障碍和中度形态发生缺陷。结果:在这里，我们为果蝇Dlg5生成了零突变体，并表明它在生长和上皮结构上具有相似的功能。Dlg5是多种组织和生物体在细胞自主水平上生长所必需的，影响细胞的大小和增殖。我们的结果与Dlg5调节翼盘中的河马通路一致，包括对细胞大小的影响，这是由于yorkie的损失而再现的缺陷。然而，其他观察结果表明，Dlg5至少通过另一种方式调节生长，这种方式可能涉及Myc蛋白，但不涉及PI3K或TOR途径。此外，Dlg5的上皮细胞突变也显示出顶端结构域决定因素的减少，尽管不足以诱导细胞极性的完全丧失。在相同的细胞中，Dlg5对于存在于n -钙粘蛋白的粘附连接处，而不是e -钙粘蛋白，也是必不可少的。遗传分析表明，结缺陷和极性缺陷是独立的。结论:我们的数据表明，Dlg5在调节生长、细胞极性和细胞粘附方面具有几个相互独立的保守功能。此外，它们还揭示了E-cadherin和N-cadherin顶端定位的差异调控。

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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来源期刊

BMC Developmental Biology 生物-发育生物学

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.