氧增强磁共振成像(OE-MRI)的实施和膀胱癌异种移植物缺氧基因组试验研究。

IF 2.6 4区 医学 Q2 GENETICS & HEREDITY
Rekaya Shabbir, Brian A Telfer, Ben Dickie, Mark Reardon, Muhammad Babur, Kaye Williams, Catharine M L West, Ananya Choudhury, Tim A D Smith
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引用次数: 0

摘要

背景/目的:缺氧性膀胱癌患者可从放疗中添加的缺氧修饰中获益,但目前尚无生物标志物来识别缺氧性肿瘤患者。我们在此旨在对肌肉浸润性膀胱癌(MIBC)的异种移植物进行氧增强磁共振成像(OE-MRI),以用于未来的缺氧生物标志物发现工作;并生成基因表达数据,以用于未来的生物标志物发现工作:雌性 CD-1 裸鼠腹部接种 HT1376 MIBC 细胞。小鼠肿瘤较小(300 立方毫米)或较大(700 立方毫米),在注射波硝唑 1 小时后,先吸入空气,再吸入 100%氧气,在与布鲁克 Avance III 控制台连接的 Agilant 7T 16 厘米孔径磁体上进行成像,使用动态 MPRAGE 采集 T2-TurboRARE 序列。动态破坏梯度回波图像采集时间为 5 分钟,60 秒后注射 0.1mmol/kg Gd-DOTA(英国 Guerbet 公司的 Dotarem)(1 毫升/分钟)。动态对比增强(DCE)-MRI 和 OE-MRI 扫描的体素大小和视野相匹配。对被视为灌注并伴有明显对比后增强(p2)的体素进行切片,提取 RNA 并使用 Clariom S 微阵列分析转录组:结果:与小肿瘤相比,大肿瘤的缺氧区域更大。已知的缺氧诱导基因和 24 个膀胱癌缺氧评分基因的表达量在咪唑高浓度区高于低浓度区:CA9(p=0.012)和SLC2A1(p=0.012)的转录组表现符合预期:结论:OE-MRI 成功应用于 MIBC 衍生异种移植物。来自缺氧和非缺氧异种移植物区域的转录组数据将有助于未来的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implementation of Oxygen Enhanced Magnetic Resonance Imaging (OE-MRI) and a Pilot Genomic Study of Hypoxia in Bladder Cancer Xenografts.

Background/aim: Patients with hypoxic bladder cancer benefit from hypoxia modification added to radiotherapy, but no biomarkers exist to identify patients with hypoxic tumours. We, herein, aimed to implement oxygen-enhanced MRI (OE-MRI) in xenografts derived from muscle-invasive bladder cancer (MIBC) for future hypoxia biomarker discovery work; and generate gene expression data for future biomarker discovery.

Materials and methods: The flanks of female CD-1 nude mice inoculated with HT1376 MIBC cells. Mice with small (300 mm3) or large (700 mm3) tumours were imaged, breathing air then 100% O2, 1 h post injection with pimonidazole in an Agilant 7T 16cm bore magnet interfaced to a Bruker Avance III console with a T2-TurboRARE sequence using a dynamic MPRAGE acquisition. Dynamic Spoiled Gradient Recalled Echo images were acquired for 5 min, with 0.1mmol/kg Gd-DOTA (Dotarem, Guerbet, UK) injected after 60 s (1 ml/min). Voxel size and field of view of dynamic contrast enhanced (DCE)-MRI and OE-MRI scans were matched. The voxels considered as perfused with significant post-contrast enhancement (p<0.05) in DCE-MRI scans and tissue were further split into pOxyE (normoxic) and pOxyR (hypoxic) regions. Tumours harvested in liquid N2, sectioned, RNA was extracted and transcriptomes analysed using Clariom S microarrays.

Results: Imaged hypoxic regions were greater in the larger versus smaller tumour. Expression of known hypoxia-inducible genes and a 24 gene bladder cancer hypoxia score were higher in pimonidazole-high versus -low regions: CA9 (p=0.012) and SLC2A1 (p=0.012) demonstrating expected transcriptomic behaviour.

Conclusion: OE-MRI was successfully implemented in MIBC-derived xenografts. Transcriptomic data derived from hypoxic and non-hypoxic xenograft regions will be useful for future studies.

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来源期刊
Cancer Genomics & Proteomics
Cancer Genomics & Proteomics ONCOLOGY-GENETICS & HEREDITY
CiteScore
5.00
自引率
8.00%
发文量
51
期刊介绍: Cancer Genomics & Proteomics (CGP) is an international peer-reviewed journal designed to publish rapidly high quality articles and reviews on the application of genomic and proteomic technology to basic, experimental and clinical cancer research. In this site you may find information concerning the editorial board, editorial policy, issue contents, subscriptions, submission of manuscripts and advertising. The first issue of CGP circulated in January 2004. Cancer Genomics & Proteomics is a journal of the International Institute of Anticancer Research. From January 2013 CGP is converted to an online-only open access journal. Cancer Genomics & Proteomics supports (a) the aims and the research projects of the INTERNATIONAL INSTITUTE OF ANTICANCER RESEARCH and (b) the organization of the INTERNATIONAL CONFERENCES OF ANTICANCER RESEARCH.
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