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用于量化不同肿瘤微环境中靶向药物递送的荧光寿命成像

Fluorescence Lifetime Imaging for Quantification of Targeted Drug Delivery in Varying Tumor Microenvironments.

作者信息

Verma Amit, Pandey Vikas, Sherry Catherine, Humphrey Taylor, James Christopher, Matteson Kailie, Smith Jason T, Rudkouskaya Alena, Intes Xavier, Barroso Margarida

机构信息

Department of Molecular and Cellular Physiology, Albany Medical College, Albany, NY, 12208, USA.

Department of Biomedical Engineering, Rensselaer Polytechnic Institute, Troy, NY, 12180, USA.

出版信息

Adv Sci (Weinh). 2025 Jan;12(3):e2403253. doi: 10.1002/advs.202403253. Epub 2024 Nov 27.

DOI:10.1002/advs.202403253
PMID:39600235
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11744649/
Abstract

Trastuzumab (TZM) is a monoclonal antibody that targets the human epidermal growth factor receptor 2 (HER2) and is clinically used for the treatment of HER2-positive breast tumors. However, the tumor microenvironment can limit the access of TZM to the HER2 targets across the whole tumor and thereby compromising TZM's therapeutic efficacy. An imaging methodology that can non-invasively quantify the binding of TZM-HER2, which is required for therapeutic action, and distribution within tumors with varying tumor microenvironments is much needed. Near-infrared (NIR) fluorescence lifetime (FLI) Forster Resonance Energy Transfer (FRET) is performed to measure TZM-HER2 binding, using in vitro microscopy and in vivo widefield macroscopy, in HER2 overexpressing breast and ovarian cancer cells and tumor xenografts, respectively. Immunohistochemistry is used to validate in vivo imaging results. NIR FLI FRET in vitro microscopy data show variations in intracellular distribution of bound TZM in HER2-positive breast AU565 and AU565 tumor-passaged XTM cell lines in comparison to SKOV-3 ovarian cancer cells. Macroscopy FLI (MFLI) FRET in vivo imaging data show that SKOV-3 tumors display reduced TZM binding compared to AU565 and XTM tumors, as validated by ex vivo immunohistochemistry. Moreover, AU565/XTM and SKOV-3 tumor xenografts display different amounts and distributions of TME components, such as collagen and vascularity. Therefore, these results suggest that SKOV-3 tumors are refractory to TZM delivery due to their disrupted vasculature and increased collagen content. The study demonstrates that FLI is a powerful analytical tool to monitor the delivery of antibodydrugs both in cell cultures and in vivo live systems. Especially, MFLI FRET is a unique imaging modality that can directly quantify target engagement with the potential to elucidate the role of the TME in drug delivery efficacy in intact live tumor xenografts.

摘要

曲妥珠单抗(TZM)是一种靶向人表皮生长因子受体2(HER2)的单克隆抗体,临床上用于治疗HER2阳性乳腺肿瘤。然而,肿瘤微环境会限制TZM在整个肿瘤中与HER2靶点的结合,从而降低TZM的治疗效果。因此,迫切需要一种成像方法,能够非侵入性地量化TZM与HER2的结合(这是治疗作用所必需的)以及在不同肿瘤微环境的肿瘤中的分布。分别在HER2过表达的乳腺癌和卵巢癌细胞以及肿瘤异种移植模型中,利用体外显微镜和体内宽视野宏观成像,通过近红外(NIR)荧光寿命(FLI)Förster共振能量转移(FRET)来测量TZM与HER2的结合。采用免疫组织化学法验证体内成像结果。NIR FLI FRET体外显微镜数据显示,与SKOV-3卵巢癌细胞相比,HER2阳性乳腺癌AU565和经AU565肿瘤传代的XTM细胞系中,结合的TZM在细胞内的分布存在差异。体内宏观成像FLI(MFLI)FRET数据显示,与AU565和XTM肿瘤相比,SKOV-3肿瘤的TZM结合减少,体外免疫组织化学验证了这一结果。此外,AU565/XTM和SKOV-3肿瘤异种移植模型显示出不同数量和分布的肿瘤微环境成分,如胶原蛋白和血管。因此,这些结果表明,SKOV-3肿瘤由于其血管结构破坏和胶原蛋白含量增加,对TZM递送具有抗性。该研究表明FLI是一种强大的分析工具,可用于监测抗体药物在细胞培养和体内活体系统中的递送。特别是,MFLI FRET是一种独特的成像方式,能够直接量化靶点结合情况,有潜力阐明肿瘤微环境在完整活体肿瘤异种移植模型中药物递送效果的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/915907cd061b/ADVS-12-2403253-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/a848c0721cc7/ADVS-12-2403253-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/fa9ff130cc77/ADVS-12-2403253-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/fd9c21e581cd/ADVS-12-2403253-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/974538fe297c/ADVS-12-2403253-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/ad67dcd95728/ADVS-12-2403253-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d883686eb105/ADVS-12-2403253-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d2f0df8a55a9/ADVS-12-2403253-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d2b2ad1717a8/ADVS-12-2403253-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/915907cd061b/ADVS-12-2403253-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/a848c0721cc7/ADVS-12-2403253-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/fa9ff130cc77/ADVS-12-2403253-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/fd9c21e581cd/ADVS-12-2403253-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/974538fe297c/ADVS-12-2403253-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/ad67dcd95728/ADVS-12-2403253-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d883686eb105/ADVS-12-2403253-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d2f0df8a55a9/ADVS-12-2403253-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/d2b2ad1717a8/ADVS-12-2403253-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9d/11744649/915907cd061b/ADVS-12-2403253-g009.jpg

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