Proteomic and cytokine profiling of a CTRP8-RXFP1 glioma mouse model

IF 5.3 2区医学 Q1 PHARMACOLOGY & PHARMACY Biochemical pharmacology Pub Date : 2025-02-01 DOI:10.1016/j.bcp.2024.116722

Thatchawan Thanasupawat , Yared Pages Mejia , Santhosh S. Anandhan , Yaxiong Guo , Jasneet Tiwana , Adline Fernando , Aleksandra Glogowska , Talia Shafai , Simone daSilva , Nimrat Kaur , Farhana Begum , Rene Zahedi , Sabine Hombach-Klonisch , Thomas Klonisch

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Abstract

Glioblastoma (GB) is the most prevalent and aggressive primary brain tumor with fatal outcome due to a lack of effective treatments. We previously identified C1q-tumor necrosis factor-related protein 8 (CTRP8), a new member of the adiponectin family, as a novel agonist of the relaxin family peptide receptor 1 (RXFP1) and showed that the CTRP8-RXFP1 ligand-receptor system facilitates increased invasiveness and chemoresistance in GB cells. In the present study, we have investigated the role of the CTRP8-RXFP1 signaling axis in glioma progression using an orthotopic mouse model xenografted with human U251 glioma cells stably expressing CTRP8 and RXFP1. Our results demonstrate that this in-vivo U251-CTRP8/RXFP1 glioma model promoted the formation of aggressive, highly proliferative glioma that resulted in significantly shorter survival times of xenografted mice. CTRP8/RXFP1 xenografts showed strongly elevated mitotic activity, increased expression of cathepsin B at the migrating front and promoted a pro-inflammatory tumor microenvironment characterized by a strong upregulation of cytokines, among them eotaxin-2 and-3, interleukin (IL)-6, IL-18 and others. Proteomic analysis of xenografted mouse brain identified both human and mouse proteome signatures unique to CTRP8/RXFP1 xenografts compared to U251 xenografts. In conclusion, our results suggest that co-expression of CTRP8 and RXFP1 promotes signaling pathways that generate unique tissue proteomic and inflammatory cytokine signatures which promote glioma aggressiveness. The CTRP-RXFP1 signaling pathway may represent an effective therapeutic target for the treatment of fast-progressing and currently untreatable GB.

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CTRP8-RXFP1胶质瘤小鼠模型的蛋白质组学和细胞因子分析。

胶质母细胞瘤（GB）是最普遍和侵袭性的原发性脑肿瘤，由于缺乏有效的治疗而导致致命的结局。我们之前发现c1q -肿瘤坏死因子相关蛋白8 （CTRP8）是脂联素家族的新成员，是松弛素家族肽受体1 （RXFP1）的一种新型激动剂，并表明CTRP8-RXFP1配体受体系统促进了GB细胞的侵袭性和化疗耐药的增加。在本研究中，我们通过移植稳定表达CTRP8和RXFP1的人U251胶质瘤细胞的原位小鼠模型，研究了CTRP8-RXFP1信号轴在胶质瘤进展中的作用。我们的研究结果表明，这种体内U251-CTRP8/RXFP1胶质瘤模型促进了侵袭性、高增殖胶质瘤的形成，导致异种移植小鼠的生存时间显著缩短。CTRP8/RXFP1异种移植物有丝分裂活性明显升高，迁移前沿组织蛋白酶B的表达增加，促进了以细胞因子（eotaxin-2和3、白细胞介素(IL)-6、IL-18等）强烈上调为特征的促炎肿瘤微环境。异种鼠脑移植的蛋白质组学分析鉴定出与U251异种移植物相比，CTRP8/RXFP1异种移植物特有的人和小鼠蛋白质组特征。总之，我们的研究结果表明，CTRP8和RXFP1的共同表达促进了产生独特的组织蛋白质组学和炎症细胞因子特征的信号通路，从而促进了胶质瘤的侵袭性。CTRP-RXFP1信号通路可能是治疗快速进展且目前无法治疗的GB的有效靶点。

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来源期刊

Biochemical pharmacology 医学-药学

CiteScore

10.30

自引率

1.70%

发文量

420

审稿时长

17 days

期刊介绍： Biochemical Pharmacology publishes original research findings, Commentaries and review articles related to the elucidation of cellular and tissue function(s) at the biochemical and molecular levels, the modification of cellular phenotype(s) by genetic, transcriptional/translational or drug/compound-induced modifications, as well as the pharmacodynamics and pharmacokinetics of xenobiotics and drugs, the latter including both small molecules and biologics. The journal''s target audience includes scientists engaged in the identification and study of the mechanisms of action of xenobiotics, biologics and drugs and in the drug discovery and development process. All areas of cellular biology and cellular, tissue/organ and whole animal pharmacology fall within the scope of the journal. Drug classes covered include anti-infectives, anti-inflammatory agents, chemotherapeutics, cardiovascular, endocrinological, immunological, metabolic, neurological and psychiatric drugs, as well as research on drug metabolism and kinetics. While medicinal chemistry is a topic of complimentary interest, manuscripts in this area must contain sufficient biological data to characterize pharmacologically the compounds reported. Submissions describing work focused predominately on chemical synthesis and molecular modeling will not be considered for review. While particular emphasis is placed on reporting the results of molecular and biochemical studies, research involving the use of tissue and animal models of human pathophysiology and toxicology is of interest to the extent that it helps define drug mechanisms of action, safety and efficacy.