89Zr-leukocyte labelling for cell trafficking: in vitro and preclinical investigations

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2023-11-06 DOI:10.1186/s41181-023-00223-1
Maryke Kahts, Hua Guo, Harikrishna Kommidi, Yanping Yang, Haluk Burcak Sayman, Beverley Summers, Richard Ting, Jan Rijn Zeevaart, Mike Sathekge, Omer Aras
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Abstract

Background

The non-invasive imaging of leukocyte trafficking to assess inflammatory areas and monitor immunotherapy is currently generating great interest. There is a need to develop more robust cell labelling and imaging approaches to track living cells. Positron emission tomography (PET), a highly sensitive molecular imaging technique, allows precise signals to be produced from radiolabelled moieties. Here, we developed a novel leukocyte labelling approach with the PET radioisotope zirconium-89 (89Zr, half-life of 78.4 h). Experiments were carried out using human leukocytes, freshly isolated from whole human blood.

Results

The 89Zr-leukocyte labelling efficiency ranged from 46 to 87% after 30–60 min. Radioactivity concentrations of labelled cells were up to 0.28 MBq/1 million cells. Systemically administered 89Zr-labelled leukocytes produced high-contrast murine PET images at 1 h–5 days post injection. Murine biodistribution data showed that cells primarily distributed to the lung, liver, and spleen at 1 h post injection, and are then gradually trafficked to liver and spleen over 5 days. Histological analysis demonstrated that exogenously 89Zr-labelled human leukocytes were present in the lung, liver, and spleen at 1 h post injection. However, intravenously injected free [89Zr]Zr4+ ion showed retention only in the bone with no radioactivity in the lung at 5 days post injection, which implied good stability of radiolabelled leukocytes in vivo.

Conclusions

Our study presents a stable and generic radiolabelling technique to track leukocytes with PET imaging and shows great potential for further applications in inflammatory cell and other types of cell trafficking studies.

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89Zr白细胞标记用于细胞运输:体外和临床前研究。
背景:白细胞运输的非侵入性成像以评估炎症区域和监测免疫疗法目前正引起人们的极大兴趣。需要开发更强大的细胞标记和成像方法来追踪活细胞。正电子发射断层扫描(PET)是一种高度灵敏的分子成像技术,可以从放射性标记的部分产生精确的信号。在这里,我们用PET放射性同位素锆-89(89Zr,半衰期78.4小时)开发了一种新的白细胞标记方法。实验使用从全血中新鲜分离的人类白细胞进行。结果:30~60min后,89Zr白细胞标记率为46~87%。标记细胞的放射性浓度高达0.28MBq/100万个细胞。系统给药的89Zr标记的白细胞在注射后1小时-5天产生高对比度的鼠PET图像。小鼠的生物分布数据显示,细胞在注射后1小时主要分布在肺、肝和脾,然后在5天内逐渐输送到肝和脾。组织学分析表明,在注射后1小时,外源性89Zr标记的人白细胞存在于肺、肝和脾中。然而,静脉注射的游离[89Zr]Zr4+离子在注射后5天仅在骨中显示出滞留,而在肺中没有放射性,这意味着放射性标记的白细胞在体内具有良好的稳定性。结论:我们的研究提供了一种稳定通用的放射性标记技术,可以通过PET成像追踪白细胞,并在炎症细胞和其他类型的细胞运输研究中显示出巨大的应用潜力。
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来源期刊
CiteScore
7.20
自引率
8.70%
发文量
30
审稿时长
5 weeks
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