A novel noncanonical function for IRF6 in the recycling of E-cadherin.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-07-01 Epub Date: 2024-05-29 DOI:10.1091/mbc.E23-11-0430

Angelo Antiguas, Martine Dunnwald

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Abstract

Interferon Regulatory Factor 6 (IRF6) is a transcription factor essential for keratinocyte cell-cell adhesions. Previously, we found that recycling of E-cadherin was defective in the absence of IRF6, yet total E-cadherin levels were not altered, suggesting a previously unknown, nontranscriptional function for IRF6. IRF6 protein contains a DNA binding domain (DBD) and a protein binding domain (PBD). The transcriptional function of IRF6 depends on its DBD and PBD, however, whether the PBD is necessary for the interaction with cytoplasmic proteins has yet to be demonstrated. Here, we show that an intact PBD is required for recruitment of cell-cell adhesion proteins at the plasma membrane, including the recycling of E-cadherin. Colocalizations and coimmunoprecipitations reveal that IRF6 forms a complex in recycling endosomes with Rab11, Myosin Vb, and E-cadherin, and that the PBD is required for this interaction. These data indicate that IRF6 is a novel effector of the endosomal recycling of E-cadherin and demonstrate a non-transcriptional function for IRF6 in regulating cell-cell adhesions.

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IRF6在E-cadherin循环中的一种新的非规范功能

干扰素调节因子 6（IRF6）是角质形成细胞-细胞粘附所必需的转录因子。此前，我们发现在缺乏 IRF6 的情况下，E-cadherin 的再循环会出现缺陷，但 E-cadherin 的总水平并没有改变，这表明 IRF6 具有一种以前未知的非转录功能。IRF6 蛋白包含一个 DNA 结合域（DBD）和一个蛋白质结合域（PBD）。IRF6 的转录功能依赖于其 DBD 和 PBD，然而，PBD 是否是与细胞质蛋白相互作用的必要条件还有待证实。在这里，我们发现完整的 PBD 是在质膜上招募细胞-细胞粘附蛋白（包括 E-cadherin 的再循环）所必需的。共定位和共免疫沉淀显示，IRF6 在再循环内体中与 Rab11、肌球蛋白 Vb 和 E-cadherin 形成复合物，而这种相互作用需要 PBD。这些数据表明，IRF6 是 E-cadherin 内体再循环的新型效应物，并证明了 IRF6 在调节细胞-细胞粘附中的非转录功能。

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