Extrajunctional CLDN10 cooperates with LAT1 and accelerates clear cell renal cell carcinoma progression.

IF 8.2 2区生物学 Q1 CELL BIOLOGY Cell Communication and Signaling Pub Date : 2024-12-05 DOI:10.1186/s12964-024-01964-5

Akifumi Onagi, Kotaro Sugimoto, Makoto Kobayashi, Yumi Sato, Yasuyuki Kobayashi, Kei Yaginuma, Satoru Meguro, Seiji Hoshi, Jyunya Hata, Yuko Hashimoto, Yoshiyuki Kojima, Hideki Chiba

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Abstract

Background & aims: In addition to their adhesive properties, cell adhesion molecules such as claudins (CLDNs) exhibit signaling ability to organize diverse cellular events. Although the CLDN-adhesion signaling stimulates or inhibits cancer progression, the underlying mechanism remains poorly established. Here, we verified whether and how CLDN10 promotes intracellular signals and malignant phenotypes in clear cell renal cell carcinoma (ccRCC).

Methods: We developed a novel monoclonal antibody that specifically recognizes CLDN10. By immunohistochemistry using this antibody, the clinicopathological significance of aberrant CLDN10 expression in 165 ccRCC patients was determined. We next generated the ccRCC cells (786-O, ACHN, and OS-RC-2) expressing CLDN10, and compared their phenotypes with those of control cells. Immunoprecipitation-mass spectrometry was used to identify a CLDN10-interacting protein, followed by evaluation of its association with CLDN10 and loss-of-functions in ccRCC cells.

Results: High CLDN10 expression predicted poor outcome in ccRCC patients and represented an independent prognostic marker for cancer-specific survival. Cell surface CLDN10 promoted cell viability, proliferation, and migration of ccRCC cells, as well as their tumor growth. CLDN10 also activated mTOR signaling and expression of downstream targets, including MYC target genes. Notably, we found that CLDN10 forms a complex with an amino acid transporter, LAT1, and that CLDN10-LAT1 signaling facilitates malignant phenotypes in ccRCC cells. Structural prediction and immunoprecipitation analysis results strongly suggest an interaction between CLDN10-TM1 (transmembrane domain 1) and LAT1-TM4.

Conclusions: We conclude that CLDN10-LAT1 signaling drives ccRCC progression. Taken together with our previous findings on CLDN-Src-family kinases signaling, CLDNs propagate distinct intracellular signals depending on their association with different binding partners.

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结外CLDN10与LAT1协同作用，加速透明细胞肾细胞癌的进展。

背景与目的：细胞粘附分子（如cldn）除了具有粘附特性外，还表现出组织多种细胞事件的信号能力。虽然cldn -粘附信号刺激或抑制癌症进展，但其潜在机制尚不清楚。在这里，我们验证了CLDN10是否以及如何促进透明细胞肾细胞癌（ccRCC）的细胞内信号和恶性表型。方法：制备一种特异性识别CLDN10的单克隆抗体。应用该抗体进行免疫组化，测定165例ccRCC患者中CLDN10异常表达的临床病理意义。接下来，我们生成了表达CLDN10的ccRCC细胞（786-O、ACHN和OS-RC-2），并将它们的表型与对照细胞进行了比较。使用免疫沉淀-质谱法鉴定CLDN10相互作用蛋白，随后评估其与CLDN10的关联以及ccRCC细胞的功能丧失。结果：高表达的CLDN10预测ccRCC患者预后不良，是癌症特异性生存的独立预后指标。细胞表面CLDN10促进ccRCC细胞活力、增殖和迁移，促进肿瘤生长。CLDN10还激活mTOR信号传导和下游靶标的表达，包括MYC靶基因。值得注意的是，我们发现CLDN10与氨基酸转运体LAT1形成复合物，并且CLDN10-LAT1信号传导促进ccRCC细胞的恶性表型。结构预测和免疫沉淀分析结果强烈提示CLDN10-TM1（跨膜结构域1）和LAT1-TM4之间存在相互作用。结论：我们得出CLDN10-LAT1信号驱动ccRCC进展的结论。结合我们之前关于cldn - src家族激酶信号传导的研究结果，cldn根据与不同结合伙伴的关联传播不同的细胞内信号。

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来源期刊

Cell Communication and Signaling CELL BIOLOGY-

CiteScore

11.00

自引率

0.00%

发文量

180

期刊介绍： Cell Communication and Signaling (CCS) is a peer-reviewed, open-access scientific journal that focuses on cellular signaling pathways in both normal and pathological conditions. It publishes original research, reviews, and commentaries, welcoming studies that utilize molecular, morphological, biochemical, structural, and cell biology approaches. CCS also encourages interdisciplinary work and innovative models, including in silico, in vitro, and in vivo approaches, to facilitate investigations of cell signaling pathways, networks, and behavior. Starting from January 2019, CCS is proud to announce its affiliation with the International Cell Death Society. The journal now encourages submissions covering all aspects of cell death, including apoptotic and non-apoptotic mechanisms, cell death in model systems, autophagy, clearance of dying cells, and the immunological and pathological consequences of dying cells in the tissue microenvironment.