【肿瘤基质重塑联合光热疗法治疗三阴性乳腺癌】。

J Zhang, Y Li, Y X Tang, F Y Wu, S J Wang
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Five injections of HF were given via tail vein (HF group), and tumor sections were stained with Masson stain and immunohistochemical staining for transforming growth factor β1 (TGFβ1), α-smooth muscle actin (α-SMA) and CD31 to observe the effect of tumor stromal degradation. Five injections of HF via tail vein followed by GNS-PEG (HF+ GNS-PEG group) were applied to determine the content of gold in tumor tissues by inductively coupled plasma mass spectrometry. The tumor sites of the mice in the GNS-PEG and HF+ GNS-PEG groups were irradiated with NIR laser and the temperature changes were recorded with an IR camera. The tumour growth and weight changes of mice in each group were observed. Ki-67 immunohistochemical staining, TdT-mediated dUTP nick-end labeling and HE staining were performed on tumor tissue sections from each group to observe tumor proliferation, apoptosis and necrosis. 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引用次数: 0

摘要

目的:构建聚乙二醇修饰金纳米颗粒(GNS-PEG),探讨其在三阴性乳腺癌细胞外基质降解后是否能改善GNS-PEG的肿瘤传递,增强光热治疗的疗效。方法:构建GNS-PEG,并对其理化性质和光热性质进行表征。在细胞水平上,检测了卤富酮(HF)的细胞毒性和光热治疗的效果。采用BALB/c裸鼠皮下接种4T1细胞建立小鼠三阴性乳腺癌模型。经尾静脉注射HF 5次(HF组),对肿瘤切片进行马松染色和免疫组化染色,检测转化生长因子β1 (tgf - β1)、α-平滑肌肌动蛋白(α-SMA)和CD31对肿瘤基质降解的影响。采用5次尾静脉注射HF,然后注射GNS-PEG (HF+ GNS-PEG组),采用电感耦合等离子质谱法测定肿瘤组织中金的含量。用近红外激光照射GNS-PEG组和HF+ GNS-PEG组小鼠肿瘤部位,用红外相机记录肿瘤温度变化。观察各组小鼠肿瘤生长情况及体重变化。各组肿瘤组织切片进行Ki-67免疫组化染色、tdt介导的dUTP镍端标记和HE染色,观察肿瘤的增殖、凋亡和坏死情况。对各组大鼠的心、肝、脾、肺、肾组织进行HE染色,观察细胞形态变化。结果:GNS-PEG纳米颗粒呈多支链结构,粒径为73.5±1.4 nm;GNS的吸收峰为810 nm,位于近红外区。GNS-PEG光热转化率高达79.3%,光热效应可由激光能量控制。HF具有浓度依赖性的细胞毒性,当HF浓度高达1 000 nmol/L时,细胞存活率低至(22.8±2.6)%。GNS-PEG光热杀伤肿瘤细胞效果显著,在25 pmol/L浓度下,细胞存活率为(32.7±5.2)%。HF组小鼠肿瘤组织的胶原面积分数、tgf - β1综合光密度和α-SMA综合光密度分别为(2.1±0.2)%、3.1±0.4和5.2±1.9,均低于对照组(均ppp)结论:三阴性乳腺癌细胞外基质重塑可显著改善GNS-PEG的瘤内传递,从而达到更好的光热治疗效果。
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[Remodeling of tumor stroma combined with photothermal therapy in the treatment of triple-negative breast cancer].

Objective: Polyethylene glycol-modified gold nanostar particles (GNS-PEG) were constructed to investigate whether the degradation of extracellular matrix in triple-negative breast cancer could improve the tumor delivery of GNS-PEG and enhance the efficacy of photothermal therapy. Methods: GNS-PEG were constructed and characterized for physicochemical properties as well as photothermal properties. At the cellular level, the cytotoxicity of halofuginone (HF) and the effect of photothermal therapy were detected. Mouse model of triple negative breast cancer was established by subcutaneous inoculation of 4T1 cells in BALB/c nude mice. Five injections of HF were given via tail vein (HF group), and tumor sections were stained with Masson stain and immunohistochemical staining for transforming growth factor β1 (TGFβ1), α-smooth muscle actin (α-SMA) and CD31 to observe the effect of tumor stromal degradation. Five injections of HF via tail vein followed by GNS-PEG (HF+ GNS-PEG group) were applied to determine the content of gold in tumor tissues by inductively coupled plasma mass spectrometry. The tumor sites of the mice in the GNS-PEG and HF+ GNS-PEG groups were irradiated with NIR laser and the temperature changes were recorded with an IR camera. The tumour growth and weight changes of mice in each group were observed. Ki-67 immunohistochemical staining, TdT-mediated dUTP nick-end labeling and HE staining were performed on tumor tissue sections from each group to observe tumor proliferation, apoptosis and necrosis. HE staining was performed on heart, liver, spleen, lung and kidney tissues from each group to observe the morphological changes of cells. Results: GNS-PEG nanoparticles showed a multi-branched structure with a particle size of 73.5±1.4 nm. The absorption peak of GNS was 810 nm, which is in the near infrared region. The photothermal conversion rate of GNS-PEG was up to 79.3%, and the photothermal effect could be controlled by the laser energy. HF has a concentration-dependent cytotoxicity, with a cell survival rate being as low as (22.8±2.6)% at HF concentration of up to 1 000 nmol/L. The photothermal effect of GNS-PEG was significant in killing tumor cells, with a cell survival rate of (32.7±5.2)% at the concentration of 25 pmol/L. The collagen area fraction, TGFβ1 integrated optical density and α-SMA integrated optical density in the tumor tissues of mice in the HF group were (2.1±0.2)%, 3.1±0.4 and 5.2±1.9, respectively, which were lower than those of the control group (all P<0.01), and the vessel diameter was 8.6±2.9 μm, which was higher than that of the control group (P<0.05). In the HF+ GNS-PEG group, the concentration of gold in tissues was 52.4 μg/g, higher than that in the GNS-PEG group (15.9 μg/g, P<0.05). After laser irradiation, the temperature of the tumor site in the HF+ GNS-PEG group was significantly higher than that in the GNS-PEG group. At the 4th minute, the temperatures of the tumor site in the GNS-PEG and HF+ GNS-PEG groups were 51.5 ℃ and 57.7 ℃ respectively; the tumor volume in the HF+ GNS-PEG group was effectively suppressed. The body weights of the mice in each group did not change significantly during the monitoring period. No significant abnormalities were observed in the main organs of the mice in the GNS-PEG group, but some hepatocytes in the HF and HF+ GNS-PEG groups showed edema and degeneration. Conclusion: The remodeling of extracellular matrix in triple-negative breast cancer could significantly improve the intratumoral delivery of GNS-PEG and thus achieve better photothermal therapy effect.

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中华肿瘤杂志
中华肿瘤杂志 Medicine-Medicine (all)
CiteScore
1.40
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10433
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