Magnetic nanoradiotracers for targeted neutrophil detection in pulmonary arterial hypertension.

IF 10.6 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Nanobiotechnology Pub Date : 2024-11-14 DOI:10.1186/s12951-024-03000-7
Lucía Fadón-Padilla, Claudia Miranda-Pérez de Alejo, Ana Beatriz Miguel-Coello, Marta Beraza, Desiré Di Silvio, Ainhize Urkola-Arsuaga, María Jesús Sánchez-Guisado, Irati Aiestaran-Zelaia, Laura Fernández-Méndez, Lydia Martinez-Parra, Ermal Ismalaj, Edurne Berra, Susana Carregal-Romero, Jesús Ruíz-Cabello
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Abstract

Background: Pulmonary arterial hypertension (PAH) is a severe disease characterized by elevated blood pressure in the pulmonary artery that can ultimately damage the right ventricle of the heart. PAH is pathophysiologically heterogeneous, which makes early diagnosis and treatment difficult. Inflammation is thought to be an important factor in the development and progression of this disease and may explain some of the observed interindividual differences. In the context of both acute and chronic inflammation, neutrophil recruitment to the lung has been suggested as a potential biomarker for studying PAH progression. However, there are currently no specific probes for its non-invasive in vivo detection. The imaging-based gold standard for assessing inflammation is [18F] fluorodeoxyglucose (18F-FDG), which is not cell specific. This highlights the urgent need for more specific molecular probes to support personalized medicine.

Methods: This study investigated the potential of magnetic nanoradiotracers based on ultrasmall iron oxide nanoparticles, functionalized with N-cinnamoyl-F-(D)L-F-(D)L-F peptide, to detect increased neutrophil infiltration in vivo in different PAH animal models via positron emission tomography. These nanoprobes target formyl peptide receptor 1, which is abundantly expressed in the cell membrane of neutrophils. To assess the benefit of these nanoprobes, their biodistribution was first assessed via magnetic resonance imaging and histology. Then, their lung uptake was compared by positron emission tomography with that of 18F-FDG in two types of PAH animal models with different profiles of inflammation and neutrophil infiltration: monocrotaline and double-hit Sugen-chronic hypoxia PAH rat models.

Results: Our targeted magnetic nanoradiotracer detected an increase in pulmonary neutrophil infiltration in both PAH models and distinguished between them, which was not possible with 18F-FDG PET.

Conclusions: This study underscores the importance of targeted imaging in providing an individualized and longitudinal evaluation of heterogeneous and multifactorial diseases such as PAH. The use of targeted multimodal nanoprobes, for magnetic resonance/positron emission tomography imaging has the potential to facilitate the diagnosis and monitoring of diseases, as well as the development of novel therapies.

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用于肺动脉高压中性粒细胞靶向检测的磁性纳米生物载体
背景:肺动脉高压(PAH)是一种严重的疾病,其特点是肺动脉血压升高,最终会损害心脏右心室。PAH 在病理生理学上具有异质性,这给早期诊断和治疗带来了困难。炎症被认为是该病发生和发展的一个重要因素,也可能是观察到的一些个体差异的原因。在急性和慢性炎症的背景下,中性粒细胞招募到肺部被认为是研究 PAH 进展的潜在生物标志物。然而,目前还没有特定的探针对其进行非侵入性的体内检测。基于成像的炎症评估金标准是[18F] 氟脱氧葡萄糖(18F-FDG),它不具有细胞特异性。这凸显了对更具特异性的分子探针的迫切需要,以支持个性化医疗:本研究探讨了基于超小氧化铁纳米粒子的磁性纳米生物标记物的潜力,这些纳米粒子由 N-肉桂酰-F-(D)L-F-(D)L-F 肽功能化,可通过正电子发射断层扫描检测不同 PAH 动物模型体内中性粒细胞浸润增加的情况。这些纳米探针以甲酰肽受体 1 为靶标,甲酰肽受体 1 在中性粒细胞的细胞膜上大量表达。为了评估这些纳米探针的益处,首先通过磁共振成像和组织学评估了它们的生物分布。然后,在两种具有不同炎症和中性粒细胞浸润特征的 PAH 动物模型(单克隆和双击苏根-慢性缺氧 PAH 大鼠模型)中,通过正电子发射断层扫描比较了它们与 18F-FDG 的肺摄取量:结果:我们的靶向磁性纳米生物示踪剂在两种 PAH 模型中都检测到了肺中性粒细胞浸润的增加,并将它们区分开来,这是 18F-FDG PET 无法做到的:这项研究强调了靶向成像在对 PAH 等异质性和多因素疾病进行个体化和纵向评估方面的重要性。在磁共振/正电子发射断层成像中使用靶向多模态纳米探针有可能促进疾病的诊断和监测,以及新型疗法的开发。
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来源期刊
Journal of Nanobiotechnology
Journal of Nanobiotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-NANOSCIENCE & NANOTECHNOLOGY
CiteScore
13.90
自引率
4.90%
发文量
493
审稿时长
16 weeks
期刊介绍: Journal of Nanobiotechnology is an open access peer-reviewed journal communicating scientific and technological advances in the fields of medicine and biology, with an emphasis in their interface with nanoscale sciences. The journal provides biomedical scientists and the international biotechnology business community with the latest developments in the growing field of Nanobiotechnology.
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