细胞表面CD55通过诱导PRC2和染色质上的H3K27三甲基化迁移到细胞核,导致卵巢癌的顺铂耐药性和干性。

IF 27.7 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Cancer Pub Date : 2024-06-10 DOI:10.1186/s12943-024-02028-5
Rashmi Bharti, Goutam Dey, Debjit Khan, Alex Myers, Olivia G Huffman, Caner Saygin, Chad Braley, Elliott Richards, Naseer Sangwan, Belinda Willard, Justin D Lathia, Paul L Fox, Feng Lin, Babal Kant Jha, J Mark Brown, Jennifer S Yu, Mohammed Dwidar, Amy Joehlin-Price, Roberto Vargas, Chad M Michener, Michelle S Longworth, Ofer Reizes
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引用次数: 0

摘要

背景:铂类抗药性是卵巢癌(OC)患者生存率低下的主要原因。靶向疗法和化疗耐药性生物标志物对治疗卵巢癌患者至关重要。我们之前的研究发现,细胞表面 CD55(补体调节蛋白的成员之一)可驱动化疗耐药性和癌症干细胞(CSCs)的维持。CSCs与多种癌症的肿瘤复发和转移有关:方法:采用免疫荧光和亚细胞分馏等蛋白质定位检测方法来鉴定癌细胞细胞表面和细胞核中的 CD55。蛋白质半衰期测定用于比较细胞表面和细胞核 CD55 的稳定性。生成 CD55 基因缺失突变体并将其导入癌细胞,以确定核转运密码、顺铂敏感性和干细胞频率,并使用体外和体内模型进行检测。CD55结合蛋白的检测是通过免疫沉淀法和质谱法进行分析的。通过 RNA 测序确定了 CD55 激活的靶途径:结果:CD55定位于一部分OC标本和化疗耐药患者腹水的细胞核中,并富集于化疗耐药的OC细胞中。我们确定核CD55是糖基化的,来自细胞表面的CD55池。核定位由包含 CD55 的丝氨酸/苏氨酸(S/T)结构域的转运代码驱动。核 CD55 是 OC 细胞耐顺铂性、干性和细胞增殖的必要条件。在体外和体内模型中,CD55 S/T 结构域是核进入和诱导顺铂化疗耐药性的必要条件。CD55 S/T结构域的缺失足以使对顺铂具有化疗耐药性的OC细胞对顺铂敏感。在细胞核中,CD55与表观遗传调节因子和肿瘤抑制因子ZMYND8结合并减弱其作用,同时增加H3K27三甲基化和多角体抑制复合体2的成员:我们首次发现 CD55 在 OC 中定位到细胞核,并促进 CSC 和化疗耐受性。我们的研究发现了一种通过阻断 CD55 进入细胞核来治疗铂类耐药卵巢癌的治疗机制。
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Cell surface CD55 traffics to the nucleus leading to cisplatin resistance and stemness by inducing PRC2 and H3K27 trimethylation on chromatin in ovarian cancer.

Background: Platinum resistance is the primary cause of poor survival in ovarian cancer (OC) patients. Targeted therapies and biomarkers of chemoresistance are critical for the treatment of OC patients. Our previous studies identified cell surface CD55, a member of the complement regulatory proteins, drives chemoresistance and maintenance of cancer stem cells (CSCs). CSCs are implicated in tumor recurrence and metastasis in multiple cancers.

Methods: Protein localization assays including immunofluorescence and subcellular fractionation were used to identify CD55 at the cell surface and nucleus of cancer cells. Protein half-life determinations were used to compare cell surface and nuclear CD55 stability. CD55 deletion mutants were generated and introduced into cancer cells to identify the nuclear trafficking code, cisplatin sensitivity, and stem cell frequency that were assayed using in vitro and in vivo models. Detection of CD55 binding proteins was analyzed by immunoprecipitation followed by mass spectrometry. Target pathways activated by CD55 were identified by RNA sequencing.

Results: CD55 localizes to the nucleus of a subset of OC specimens, ascites from chemoresistant patients, and enriched in chemoresistant OC cells. We determined that nuclear CD55 is glycosylated and derived from the cell surface pool of CD55. Nuclear localization is driven by a trafficking code containing the serine/threonine (S/T) domain of CD55. Nuclear CD55 is necessary for cisplatin resistance, stemness, and cell proliferation in OC cells. CD55 S/T domain is necessary for nuclear entry and inducing chemoresistance to cisplatin in both in vitro and in vivo models. Deletion of the CD55 S/T domain is sufficient to sensitize chemoresistant OC cells to cisplatin. In the nucleus, CD55 binds and attenuates the epigenetic regulator and tumor suppressor ZMYND8 with a parallel increase in H3K27 trimethylation and members of the Polycomb Repressive Complex 2.

Conclusions: For the first time, we show CD55 localizes to the nucleus in OC and promotes CSC and chemoresistance. Our studies identify a therapeutic mechanism for treating platinum resistant ovarian cancer by blocking CD55 nuclear entry.

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来源期刊
Molecular Cancer
Molecular Cancer 医学-生化与分子生物学
CiteScore
54.90
自引率
2.70%
发文量
224
审稿时长
2 months
期刊介绍: Molecular Cancer is a platform that encourages the exchange of ideas and discoveries in the field of cancer research, particularly focusing on the molecular aspects. Our goal is to facilitate discussions and provide insights into various areas of cancer and related biomedical science. We welcome articles from basic, translational, and clinical research that contribute to the advancement of understanding, prevention, diagnosis, and treatment of cancer. The scope of topics covered in Molecular Cancer is diverse and inclusive. These include, but are not limited to, cell and tumor biology, angiogenesis, utilizing animal models, understanding metastasis, exploring cancer antigens and the immune response, investigating cellular signaling and molecular biology, examining epidemiology, genetic and molecular profiling of cancer, identifying molecular targets, studying cancer stem cells, exploring DNA damage and repair mechanisms, analyzing cell cycle regulation, investigating apoptosis, exploring molecular virology, and evaluating vaccine and antibody-based cancer therapies. Molecular Cancer serves as an important platform for sharing exciting discoveries in cancer-related research. It offers an unparalleled opportunity to communicate information to both specialists and the general public. The online presence of Molecular Cancer enables immediate publication of accepted articles and facilitates the presentation of large datasets and supplementary information. This ensures that new research is efficiently and rapidly disseminated to the scientific community.
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