CD271 promotes proliferation and migration in bladder cancer

IF 1.3 4区生物学 Q4 CELL BIOLOGY Genes to Cells Pub Date : 2023-11-28 DOI:10.1111/gtc.13087

Shingo Myoen, Mai Mochizuki, Rie Shibuya-Takahashi, Haruna Fujimori, Norihisa Shindo, Kazunori Yamaguchi, Jun Yasuda, Jiro Abe, Takayuki Imai, Ikuro Sato, Hisanobu Adachi, Sadafumi Kawamura, Akihiro Ito, Keiichi Tamai

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Abstract

Bladder cancer is a urothelial cancer and effective therapeutic strategies for its advanced stages are limited. Here, we report that CD271, a neurotrophin receptor, promotes the proliferation and migration of bladder cancer cells. CD271 knockdown decreased proliferation in both adherent and spheroid cultures, and vice versa when CD271 was overexpressed in bladder cancer cell lines. CD271 depletion impaired tumorigenicity in vivo. Migration activity was reduced by CD271 knockdown and TAT-Pep5, a known CD271-Rho GDI-binding inhibitor. Apoptosis was induced by CD271 knockdown. Comprehensive gene expression analysis revealed alterations in E2F- and Myc-related pathways upon CD271 expression. In clinical cases, patients with high CD271 expression showed significantly shortened overall survival. In surgically resected specimens, pERK, a known player in proliferation signaling, colocalizes with CD271. These data indicate that CD271 is involved in bladder cancer malignancy by promoting cell proliferation and migration, resulting in poor prognosis.

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CD271促进膀胱癌的增殖和迁移。

膀胱癌是一种泌尿上皮肿瘤，其晚期的有效治疗策略有限。在这里，我们报道了CD271，一种神经营养因子受体，促进膀胱癌细胞的增殖和迁移。当CD271在膀胱癌细胞系中过表达时，CD271敲低可降低贴壁和球形培养中的增殖，反之亦然。CD271缺失在体内损害了致瘤性。CD271敲除和TAT-Pep5(一种已知的CD271- rho gdi结合抑制剂)降低了迁移活性。CD271敲低诱导细胞凋亡。综合基因表达分析显示，E2F和myc相关通路在CD271表达上发生改变。在临床病例中，CD271高表达患者的总生存期明显缩短。在手术切除的标本中，已知的增殖信号参与者pERK与CD271共定位。这些数据表明，CD271通过促进细胞增殖和迁移参与膀胱癌恶性，导致预后不良。

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

Genes to Cells 生物-细胞生物学

CiteScore

3.40

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Genes to Cells provides an international forum for the publication of papers describing important aspects of molecular and cellular biology. The journal aims to present papers that provide conceptual advance in the relevant field. Particular emphasis will be placed on work aimed at understanding the basic mechanisms underlying biological events.