Detection of PD-L1 expression levels in malignant pleural mesothelioma with a targeted MRI nanoprobe in vivo.

IF 3.8 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Frontiers in Chemistry Pub Date : 2024-12-02 eCollection Date: 2024-01-01 DOI:10.3389/fchem.2024.1508912

Zhenghua Zhang, Yang Tian, Wenjun Gao, Yubin Hu, Liangping Luo, Lichang Lei, Shasha Shen, Dan Han

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Abstract

Objectives: Immune checkpoint inhibitors (ICIs) have demonstrated potential in inhibiting the growth of malignant pleural mesothelioma (MPM), and their efficacy is associated with the expression of programmed death-ligand 1(PD-L1). This study evaluated a PD-L1-targeted nanoprobe for detecting PD-L1 expression in a nude mouse model of malignant pleural mesothelioma (MPM).

Methods: A PD-L1-binding peptide (WL-12) was conjugated with superparamagnetic iron oxide nanoparticles (SPIONs) to create the nanoprobe WL-12@Fe₃O₄. The nanoprobe's stability, biotoxicity, targeting ability, and in vivo magnetic resonance (MR) imaging effects were assessed and compared to non-targeted Fe₃O₄ nanoparticles. ΔT2 values and PD-L1 expression were measured in H226 and MSTO-211H tumor tissues over 4 weeks to analyze correlations.

Results: The WL-12@Fe₃O₄ nanoprobe demonstrated uniform distribution and a spherical shape, with a larger size (43.82 nm) and lower surface potential (-9.34 ± 0.54 mV) compared to Fe₃O₄ (32.67 nm, -20.20 ± 0.88 mV, P < 0.05). The XPS and FT-IR analysis results indicate the successful coupling of WL-12 with Fe₃O_4. It was well dispersed in serum and saline and showed no cytotoxicity or organ damage in vivo. The probe selectively accumulated in PD-L1-expressing MPM cells, especially MSTO-211H, and exhibited significantly higher uptake in high PD-L1-expressing H460 cells (930.22 ± 11.75 ng/mL) compared to low PD-L1-expressing A549 cells (254.89 ± 17.33 ng/mL, P < 0.05). Tumor iron levels in the WL-12@Fe₃O₄ group were significantly elevated (141.02 ± 17.33 μg/g) compared to controls (36.43 ± 3.56 μg/g, P < 0.05), with no significant differences in other organs (P > 0.05). The T2 values of H226 and MSTO-211H tumors decreased after probe injection, with ΔT2 values significantly higher in the targeted group than the nontargeted group (P < 0.05). ΔT2 values increased over 4 weeks, correlating strongly with PD-L1 expression (P < 0.05).

Conclusion: The PD-L1-targeted nanoprobe with MRI is a promising tool for noninvasive, real-time assessment of PD-L1 expression in MPM.

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靶向MRI纳米探针在体内检测恶性胸膜间皮瘤中PD-L1的表达水平。

免疫检查点抑制剂（ICIs）已被证明具有抑制恶性胸膜间皮瘤（MPM）生长的潜力，其疗效与程序性死亡配体1（PD-L1）的表达有关。本研究评估了PD-L1靶向纳米探针在恶性胸膜间皮瘤（MPM）裸鼠模型中检测PD-L1表达的效果。方法：将pd - l1结合肽（WL-12）与超顺磁性氧化铁纳米颗粒（SPIONs）偶联制备纳米探针WL-12@Fe₃O₄。评估了纳米探针的稳定性、生物毒性、靶向能力和体内磁共振（MR）成像效果，并与非靶向Fe₃O₄纳米颗粒进行了比较。在4周内测定H226和MSTO-211H肿瘤组织中ΔT2值和PD-L1表达，分析相关性。结果：WL-12@Fe₃O₄纳米探针分布均匀，呈球形，比Fe₃O₄（32.67 nm, -20.20±0.88 mV, P < 0.05）具有更大的尺寸（43.82 nm）和更低的表面电位（-9.34±0.54 mV）。XPS和FT-IR分析结果表明WL-12与Fe3O4的耦合成功。在体内无细胞毒性和器官损伤，在血清和生理盐水中分散良好。探针在pd - l1表达的MPM细胞中选择性积累，尤其是msto211h，在pd - l1高表达的H460细胞（930.22±11.75 ng/mL）中明显高于低表达的A549细胞（254.89±17.33 ng/mL, P < 0.05）。WL-12@Fe₃O₄组肿瘤铁水平（141.02±17.33 μg/g）显著高于对照组（36.43±3.56 μg/g, P < 0.05），其他脏器铁水平差异无统计学意义（P < 0.05）。注射探针后，H226、MSTO-211H肿瘤的T2值均降低，靶点组的ΔT2值显著高于非靶点组（P < 0.05）。ΔT2值在4周内升高，与PD-L1表达强烈相关（P < 0.05）。结论：基于MRI的PD-L1靶向纳米探针是一种无创、实时评估MPM中PD-L1表达的有前景的工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Chemistry Chemistry-General Chemistry

CiteScore

8.50

自引率

3.60%

发文量

1540

审稿时长

12 weeks

期刊介绍： Frontiers in Chemistry is a high visiblity and quality journal, publishing rigorously peer-reviewed research across the chemical sciences. Field Chief Editor Steve Suib at the University of Connecticut is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to academics, industry leaders and the public worldwide. Chemistry is a branch of science that is linked to all other main fields of research. The omnipresence of Chemistry is apparent in our everyday lives from the electronic devices that we all use to communicate, to foods we eat, to our health and well-being, to the different forms of energy that we use. While there are many subtopics and specialties of Chemistry, the fundamental link in all these areas is how atoms, ions, and molecules come together and come apart in what some have come to call the “dance of life”. All specialty sections of Frontiers in Chemistry are open-access with the goal of publishing outstanding research publications, review articles, commentaries, and ideas about various aspects of Chemistry. The past forms of publication often have specific subdisciplines, most commonly of analytical, inorganic, organic and physical chemistries, but these days those lines and boxes are quite blurry and the silos of those disciplines appear to be eroding. Chemistry is important to both fundamental and applied areas of research and manufacturing, and indeed the outlines of academic versus industrial research are also often artificial. Collaborative research across all specialty areas of Chemistry is highly encouraged and supported as we move forward. These are exciting times and the field of Chemistry is an important and significant contributor to our collective knowledge.