CD13 靶向组织因子在 HT1080 人软组织肉瘤异种移植模型中增强了放射治疗的抗肿瘤活性。

Radiation synergizes with antitumor activity of CD13-targeted tissue factor in a HT1080 xenograft model of human soft tissue sarcoma.

机构信息

Department of Medicine A, Hematology, Oncology, University Hospital Muenster, Muenster, Germany.

Department of Radiation Therapy and Radiation-Oncology, University Hospital Muenster, Muenster, Germany.

出版信息

PLoS One. 2020 Feb 21;15(2):e0229271. doi: 10.1371/journal.pone.0229271. eCollection 2020.

DOI:10.1371/journal.pone.0229271

PMID:32084238

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7034830/

Abstract

BACKGROUND

Truncated tissue factor (tTF) retargeted by NGR-peptides to aminopeptidase N (CD13) in tumor vasculature is effective in experimental tumor therapy. tTF-NGR induces tumor growth inhibition in a variety of human tumor xenografts of different histology. To improve on the therapeutic efficacy we have combined tTF-NGR with radiotherapy.

METHODS

Serum-stimulated human umbilical vein endothelial cells (HUVEC) and human HT1080 sarcoma cells were irradiated in vitro, and upregulated early-apoptotic phosphatidylserine (PS) on the cell surface was measured by standard flow cytometry. Increase of cellular procoagulant function in relation to irradiation and PS cell surface concentration was measured in a tTF-NGR-dependent Factor X activation assay. In vivo experiments with CD-1 athymic mice bearing human HT1080 sarcoma xenotransplants were performed to test the systemic therapeutic effects of tTF-NGR on tumor growth alone or in combination with regional tumor ionizing radiotherapy.

RESULTS

As shown by flow cytometry with HUVEC and HT1080 sarcoma cells in vitro, irradiation with 4 and 6 Gy in the process of apoptosis induced upregulation of PS presence on the outer surface of both cell types. Proapoptotic HUVEC and HT1080 cells both showed significantly higher procoagulant efficacy on the basis of equimolar concentrations of tTF-NGR as measured by FX activation. This effect can be reverted by masking of PS with Annexin V. HT1080 human sarcoma xenografted tumors showed shrinkage induced by combined regional radiotherapy and systemic tTF-NGR as compared to growth inhibition achieved by either of the treatment modalities alone.

CONCLUSIONS

Irradiation renders tumor and tumor vascular cells procoagulant by PS upregulation on their outer surface and radiotherapy can significantly improve the therapeutic antitumor efficacy of tTF-NGR in the xenograft model used. This synergistic effect will influence design of future clinical combination studies.

摘要

背景

截短组织因子（tTF）经 NGR-肽靶向肿瘤血管中的氨基肽酶 N（CD13），可有效抑制实验性肿瘤。tTF-NGR 可抑制多种不同组织学来源的人肿瘤异种移植物的生长。为了提高治疗效果，我们将 tTF-NGR 与放射治疗相结合。

方法

体外照射血清刺激的人脐静脉内皮细胞（HUVEC）和人 HT1080 肉瘤细胞，并用标准流式细胞术测量细胞表面上调的早期凋亡磷脂酰丝氨酸（PS）。用 tTF-NGR 依赖性因子 X 激活测定法测量与照射和 PS 细胞表面浓度相关的细胞促凝功能的增加。用携带人 HT1080 肉瘤异种移植物的 CD-1 裸鼠进行体内实验，以测试 tTF-NGR 单独或与局部肿瘤离子放疗联合对肿瘤生长的全身治疗效果。

结果

体外 HUVEC 和 HT1080 肉瘤细胞的流式细胞术显示，凋亡过程中 4 和 6 Gy 的照射诱导两种细胞类型的外表面 PS 存在的上调。与等摩尔浓度的 tTF-NGR 相比，促凋亡 HUVEC 和 HT1080 细胞的 FX 激活显示出明显更高的促凝效力。这种效应可以通过用 Annexin V 掩盖 PS 来逆转。与单独使用任何一种治疗方法相比，联合局部放疗和全身 tTF-NGR 可使 HT1080 人肉瘤异种移植肿瘤缩小。

结论

照射通过外表面 PS 的上调使肿瘤和肿瘤血管细胞具有促凝性，放射治疗可显著提高异种移植模型中 tTF-NGR 的治疗抗肿瘤疗效。这种协同作用将影响未来临床联合研究的设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4909/7034830/8f92b54ab9f6/pone.0229271.g001.jpg

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CD13 靶向组织因子在 HT1080 人软组织肉瘤异种移植模型中增强了放射治疗的抗肿瘤活性。

Radiation synergizes with antitumor activity of CD13-targeted tissue factor in a HT1080 xenograft model of human soft tissue sarcoma.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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