聚焦伽马射线引导纳米颗粒介导的增敏剂递送增强 Lewis 肺癌荷瘤鼠脑肿瘤模型的放射治疗效果。

Enhancing Radiotherapeutic Effect With Nanoparticle-Mediated Radiosensitizer Delivery Guided By Focused Gamma Rays In Lewis Lung Carcinoma-Bearing Mouse Brain Tumor Models.

机构信息

Department of Neurosurgery, Chonnam National University Medical School and Hwasun Hospital, Hwasun, Korea.

Brain Tumor Research Laboratory, Chonnam National University Research Institute of Medical Sciences, Chonnam National University Hwasun Hospital, Hwasun, Korea.

出版信息

Int J Nanomedicine. 2019 Nov 13;14:8861-8874. doi: 10.2147/IJN.S227894. eCollection 2019.

DOI:10.2147/IJN.S227894

PMID:32009784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6859088/

Abstract

BACKGROUND

Targeting radiosensitizer-incorporated nanoparticles to a tumor could allow for less normal tissue toxicity with more efficient drug release, thus improving the efficacy and safety of radiation treatment. The aim of this study was to improve tumor-specific delivery and bioavailability of a nanoparticle-mediated radiosensitizer in mouse brain tumor models.

METHODS

A pH-sensitive nanoparticle, chitoPEGAcHIS, was conjugated to recombinant peptide HVGGSSV that could bind to tax-interaction protein 1 (TIP-1) as a radiation-inducible receptor. Then the c-Jun N-terminal kinase (JNK) inhibitor, SP600125 was incorporated into this copolymer to fabricate a HVGGSSV-chitoPEGAcHIS-SP600125 (HVSP-NP) nanoradiosensitizer. In vitro and in vivo radiation treatment were performed using a Gamma Knife unit. The tumor targetability of HVSP-NP was estimated by optical bioluminescence. Synergistic therapeutic effects of radiation treatment and HVSP-NP were investigated in Lewis lung carcinoma (LLC) cell-bearing mouse brain tumor models.

RESULTS

The SP600125 JNK inhibitor effectively reduced DNA damage repair to irradiated LLC cells. A pH sensitivity assay indicated that HVSP-NP swelled at acidic pH and increased in diameter, and its release rate gradually increased. Optical bioluminescence assay showed that radiation induced TIP-1 expression in mouse brain tumor and that the nanoradiosensitizer selectively targeted irradiated tumors. Radiation treatment with HVSP-NP induced greater apoptosis and significantly inhibited tumor growth compared to radiation alone.

CONCLUSION

As a novel nanoradiosensitizer, HVSP-NP was found to be able to selectively target irradiated tumors and significantly increase tumor growth delay in LLC-bearing mouse brain tumor models. This research shows that delivering a pH-sensitive nanoradiosensitizer to a brain tumor in which TIP-1 is induced by radiation can result in improved radiosensitizer-release in an acidic microenvironment of tumor tissue and in created synergistic effects in radiation treatment.

摘要

背景

将放射增敏剂纳米颗粒靶向肿瘤可以减少正常组织的毒性，同时更有效地释放药物，从而提高放射治疗的疗效和安全性。本研究旨在提高小鼠脑肿瘤模型中纳米颗粒介导的放射增敏剂的肿瘤特异性递送和生物利用度。

方法

将 pH 敏感的纳米颗粒 chitoPEGAcHIS 与能够结合到 tax-interaction protein 1（TIP-1）的重组肽 HVGGSSV 缀合，作为辐射诱导的受体。然后将 c-Jun N-末端激酶（JNK）抑制剂 SP600125 掺入到共聚物中，制备 HVGGSSV-chitoPEGAcHIS-SP600125（HVSP-NP）纳米联合放射增敏剂。使用 Gamma Knife 装置进行体外和体内放射治疗。通过光学生物发光法估计 HVSP-NP 的肿瘤靶向性。在 Lewis 肺癌（LLC）细胞荷瘤小鼠脑肿瘤模型中研究了放射治疗和 HVSP-NP 的协同治疗效果。

结果

SP600125 JNK 抑制剂有效降低了照射 LLC 细胞的 DNA 损伤修复。pH 敏感性试验表明，HVSP-NP 在酸性 pH 下膨胀，直径增大，释放速率逐渐增加。光学生物发光试验表明，辐射诱导了小鼠脑肿瘤中 TIP-1 的表达，纳米联合放射增敏剂选择性地靶向了照射的肿瘤。与单独放射治疗相比，HVSP-NP 联合放射治疗诱导了更大的细胞凋亡，并显著抑制了肿瘤生长。

结论

作为一种新型的纳米联合放射增敏剂，HVSP-NP 能够选择性地靶向照射的肿瘤，并显著增加 LLC 荷瘤小鼠脑肿瘤模型中的肿瘤生长延迟。这项研究表明，将 pH 敏感的纳米联合放射增敏剂递送到由辐射诱导 TIP-1 的脑肿瘤中，可以在肿瘤组织的酸性微环境中改善放射增敏剂的释放，并在放射治疗中产生协同作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bed8/6859088/2ba19a8a93c9/IJN-14-8861-g0001.jpg

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聚焦伽马射线引导纳米颗粒介导的增敏剂递送增强 Lewis 肺癌荷瘤鼠脑肿瘤模型的放射治疗效果。

Enhancing Radiotherapeutic Effect With Nanoparticle-Mediated Radiosensitizer Delivery Guided By Focused Gamma Rays In Lewis Lung Carcinoma-Bearing Mouse Brain Tumor Models.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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