The roles of tight junction protein cingulin in human endometrioid endometrial cancer.

IF 3.6 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Tissue Barriers Pub Date : 2024-06-02 DOI:10.1080/21688370.2024.2361976

Arisa Kura, Kimihito Saito, Takumi Konno, Takayuki Kohno, Hiroshi Shimada, Tadahi Okada, Soshi Nishida, Daichi Ishii, Motoki Matsuura, Tsuyoshi Saito, Takashi Kojima

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引用次数: 0

Abstract

The bicellular tight junction molecule cingulin (CGN) binds to microtubules in centrosomes. Furthermore, CGN contributes to the tricellular tight junction (tTJ) proteins lipolysis-stimulated lipoprotein receptor (LSR) and tricellulin (TRIC). CGN as well as LSR decreased during the malignancy of endometrioid endometrial cancer (EEC). Although tTJ protein LSR is involved in the malignancy of some cancers, including EEC, the role of CGN is unknown. In this study, we investigated the roles of CGN with tTJ proteins in human EEC cells by using the CGN-overexpressing EEC cell line Sawano. In 2D cultures, CGN was colocalized with LSR and TRIC at tTJ or at γ-tubulin-positive centrosomes. In immunoprecipitation with CGN antibodies, CGN directly bound to LSR, TRIC, and β-tubulin. Knockdown of CGN by the siRNA decreased the epithelial barrier and enhanced cell proliferation, migration and invasion, as well as knockdown of LSR. In the Sawano cells cocultured with normal human endometrial stromal cells, knockdown of CGN decreased expression of LSR and TRIC via MAPK and AMPK pathways. In 2.5D cultures, knockdown of CGN induced the formation of abnormal cysts and increased the permeability of FD-4 to the lumen. In 2D and 2.5D cultures, treatment with β-estradiol with or without EGF or TGF-β decreased CGN expression and the epithelial permeability barrier and enhanced cell migration, and pretreatment with EW7197+AG1478, U0126 or an anti-IL-6 antibody prevented this. In conclusion, CGN, with tTJ proteins might suppress the malignancy of human EEC and its complex proteins are sensitive to estrogen and growth factors derived from stromal cells.

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紧密连接蛋白cingulin在人类子宫内膜样内膜癌中的作用。

双细胞紧密连接分子鞘磷脂（CGN）与中心体中的微管结合。此外，CGN 对三细胞紧密连接蛋白（tTJ）中的脂溶刺激脂蛋白受体（LSR）和三纤维蛋白（TRIC）也有贡献。在子宫内膜样内膜癌（EEC）恶变过程中，CGN 和 LSR 都会减少。虽然 tTJ 蛋白 LSR 与包括 EEC 在内的一些癌症的恶性程度有关，但 CGN 的作用尚不清楚。在本研究中，我们利用过表达 CGN 的 EEC 细胞系 Sawano，研究了 CGN 与 tTJ 蛋白在人类 EEC 细胞中的作用。在二维培养中，CGN与LSR和TRIC共定位在tTJ或γ-微管蛋白阳性的中心体上。在用 CGN 抗体进行免疫沉淀时，CGN 直接与 LSR、TRIC 和 β-微管蛋白结合。用 siRNA 敲除 CGN 会降低上皮屏障，增强细胞的增殖、迁移和侵袭能力，同时也会敲除 LSR。在与正常人子宫内膜基质细胞共培养的 Sawano 细胞中，通过 MAPK 和 AMPK 通路敲除 CGN 会降低 LSR 和 TRIC 的表达。在2.5D培养物中，敲除CGN会诱导异常囊肿的形成，并增加FD-4对管腔的通透性。在2D和2.5D培养物中，用β-雌二醇加或不加EGF或TGF-β处理可降低CGN的表达和上皮通透性屏障，并增强细胞迁移，而用EW7197+AG1478、U0126或抗IL-6抗体预处理可防止这种情况。总之，CGN与tTJ蛋白可抑制人EEC的恶性程度，其复合蛋白对雌激素和来自基质细胞的生长因子敏感。

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

Tissue Barriers MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

6.60

自引率

6.50%

发文量

期刊介绍： Tissue Barriers is the first international interdisciplinary journal that focuses on the architecture, biological roles and regulation of tissue barriers and intercellular junctions. We publish high quality peer-reviewed articles that cover a wide range of topics including structure and functions of the diverse and complex tissue barriers that occur across tissue and cell types, including the molecular composition and dynamics of polarized cell junctions and cell-cell interactions during normal homeostasis, injury and disease state. Tissue barrier formation in regenerative medicine and restoration of tissue and organ function is also of interest. Tissue Barriers publishes several categories of articles including: Original Research Papers, Short Communications, Technical Papers, Reviews, Perspectives and Commentaries, Hypothesis and Meeting Reports. Reviews and Perspectives/Commentaries will typically be invited. We also anticipate to publish special issues that are devoted to rapidly developing or controversial areas of research. Suggestions for topics are welcome. Tissue Barriers objectives: Promote interdisciplinary awareness and collaboration between researchers working with epithelial, epidermal and endothelial barriers and to build a broad and cohesive worldwide community of scientists interesting in this exciting field. Comprehend the enormous complexity of tissue barriers and map cross-talks and interactions between their different cellular and non-cellular components. Highlight the roles of tissue barrier dysfunctions in human diseases. Promote understanding and strategies for restoration of tissue barrier formation and function in regenerative medicine. Accelerate a search for pharmacological enhancers of tissue barriers as potential therapeutic agents. Understand and optimize drug delivery across epithelial and endothelial barriers.