Lgl 皮质动力学独立于与 Scrib-Dlg 复合物的结合，但需要 Dlg 依赖性限制 aPKC。

Lgl cortical dynamics are independent of binding to the Scrib-Dlg complex but require Dlg-dependent restriction of aPKC.

机构信息

i3S (Instituto de Investigação e Inovação em Saúde, Universidade do Porto) and IBMC (Instituto de Biologia Molecular e Celular), Rua Alfredo Allen, 208, 4200-135 Porto, Portugal.

i3S (Instituto de Investigação e Inovação em Saúde, Universidade do Porto) and IBMC (Instituto de Biologia Molecular e Celular), Rua Alfredo Allen, 208, 4200-135 Porto, Portugal

出版信息

Development. 2020 Aug 7;147(15):dev186593. doi: 10.1242/dev.186593.

DOI:10.1242/dev.186593

PMID:32665243

Abstract

Apical-basal polarity underpins the formation of epithelial barriers that are crucial for metazoan physiology. Although apical-basal polarity is long known to require the basolateral determinants Lethal Giant Larvae (Lgl), Discs Large (Dlg) and Scribble (Scrib), mechanistic understanding of their function is limited. Lgl plays a role as an aPKC inhibitor, but it remains unclear whether Lgl also forms complexes with Dlg or Scrib. Using fluorescence recovery after photobleaching, we show that Lgl does not form immobile complexes at the lateral domain of follicle cells. Optogenetic depletion of plasma membrane PIP or mutants accelerate Lgl cortical dynamics. However, Dlg and Scrib are required only for Lgl localization and dynamic behavior in the presence of aPKC function. Furthermore, light-induced oligomerization of basolateral proteins indicates that Lgl is not part of the Scrib-Dlg complex in the follicular epithelium. Thus, Scrib and Dlg are necessary to repress aPKC activity in the lateral domain but do not provide cortical binding sites for Lgl. Our work therefore highlights that Lgl does not act in a complex but in parallel with Scrib-Dlg to antagonize apical determinants.

摘要

顶端-基底极性是形成上皮屏障的基础，而上皮屏障对于后生动物生理学至关重要。尽管顶端-基底极性早已被认为需要基底外侧决定因子致死性巨人幼虫（Lethal Giant Larvae，Lgl）、Discs Large（Dlg）和 Scribble（Scrib），但其功能的机制理解仍有限。Lgl 作为 aPKC 抑制剂发挥作用，但尚不清楚 Lgl 是否也与 Dlg 或 Scrib 形成复合物。通过光漂白后荧光恢复实验，我们发现 Lgl 不在滤泡细胞的侧域形成固定复合物。光遗传学耗竭质膜 PIP 或突变体加速了 Lgl 的皮质动力学。然而，Dlg 和 Scrib 仅在 aPKC 功能存在的情况下才需要 Lgl 的定位和动态行为。此外，基底外侧蛋白的光诱导寡聚化表明，Lgl 不是滤泡上皮中 Scrib-Dlg 复合物的一部分。因此，Scrib 和 Dlg 有必要抑制侧域中的 aPKC 活性，但不能为 Lgl 提供皮质结合位点。因此，我们的工作强调了 Lgl 不是通过复合物而是通过与 Scrib-Dlg 平行作用来拮抗顶端决定因子。

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Lgl 皮质动力学独立于与 Scrib-Dlg 复合物的结合，但需要 Dlg 依赖性限制 aPKC。

Lgl cortical dynamics are independent of binding to the Scrib-Dlg complex but require Dlg-dependent restriction of aPKC.

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