Miedema Iris H C, Wijngaarden Jessica E, Pouw Johanna E E, Zwezerijnen Gerben J C, Sebus Hylke J, Smit Egbert, de Langen Adrianus J, Bahce Idris, Thiele Andrea, Vugts Daniëlle J, Boellaard Ronald, Huisman Marc C, Menke-van der Houven van Oordt C Willemien
Department of Medical Oncology, Amsterdam UMC Location Vrije Universiteit Amsterdam, De Boelelaan 1117, 1081 HV Amsterdam, The Netherlands.
Cancer Center Amsterdam, Imaging and Biomarkers, De Boelelaan 1118, 1081 HV Amsterdam, The Netherlands.
Cancers (Basel). 2023 Nov 23;15(23):5546. doi: 10.3390/cancers15235546.
Zr-immuno-PET (positron emission tomography with zirconium-89-labeled monoclonal antibodies ([Zr]Zr-mAbs)) can be used to study the biodistribution of mAbs targeting the immune system. The measured uptake consists of target-specific and non-specific components, and it can be influenced by plasma availability of the tracer. To find evidence for target-specific uptake, i.e., target engagement, we studied five immune-checkpoint-targeting [Zr]Zr-mAbs to (1) compare the uptake with previously reported baseline values for non-specific organ uptake (ns-baseline) and (2) look for saturation effects of increasing mass doses.
Zr-immuno-PET data from five [Zr]Zr-mAbs, i.e., nivolumab and pembrolizumab (anti-PD-1), durvalumab (anti-PD-L1), BI 754,111 (anti-LAG-3), and ipilimumab (anti-CTLA-4), were analysed. For each mAb, 2-3 different mass doses were evaluated. PET scans and blood samples from at least two time points 24 h post injection were available. In 35 patients, brain, kidneys, liver, spleen, lungs, and bone marrow were delineated. Patlak analysis was used to account for differences in plasma activity concentration and to quantify irreversible uptake (K). To identify target engagement, K values were compared to ns-baseline K values previously reported, and the effect of increasing mass doses on K was investigated.
All mAbs, except ipilimumab, showed K values in spleen above the ns-baseline for the lowest administered mass dose, in addition to decreasing K values with higher mass doses, both indicative of target engagement. For bone marrow, no ns-baseline was established previously, but a similar pattern was observed. For kidneys, most mAbs showed K values within the ns-baseline for both low and high mass doses. However, with high mass doses, some saturation effects were seen, suggestive of a lower ns-baseline value. K values were near zero in brain tissue for all mass doses of all mAbs.
Using Patlak analysis and the established ns-baseline values, evidence for target engagement in (lymphoid) organs for several immune checkpoint inhibitors could be demonstrated. A decrease in the K values with increasing mass doses supports the applicability of Patlak analysis for the assessment of target engagement for PET ligands with irreversible uptake behavior.
锆免疫正电子发射断层扫描(Zr-immuno-PET,即使用89锆标记单克隆抗体的正电子发射断层扫描[Zr]Zr-mAbs)可用于研究靶向免疫系统的单克隆抗体的生物分布。所测量的摄取量包括靶点特异性和非特异性成分,并且可能受示踪剂的血浆可用性影响。为了找到靶点特异性摄取(即靶点结合)的证据,我们研究了五种靶向免疫检查点的[Zr]Zr-mAbs,以(1)将摄取量与先前报道的非特异性器官摄取基线值(ns-基线)进行比较,以及(2)寻找增加质量剂量的饱和效应。
分析了来自五种[Zr]Zr-mAbs的Zr-免疫PET数据,即纳武单抗和帕博利珠单抗(抗PD-1)、度伐鲁单抗(抗PD-L1)、BI 754,111(抗LAG-3)和伊匹木单抗(抗CTLA-4)。对于每种mAb,评估了2 - 3种不同的质量剂量。可获得注射后24小时至少两个时间点的PET扫描和血样。在35名患者中,勾勒出了脑、肾、肝、脾、肺和骨髓。使用Patlak分析来考虑血浆活性浓度的差异并量化不可逆摄取(K)。为了确定靶点结合,将K值与先前报道的ns-基线K值进行比较,并研究增加质量剂量对K的影响。
除伊匹木单抗外,所有mAb在最低给药质量剂量下脾脏中的K值均高于ns-基线,此外,随着质量剂量增加K值降低,这两者均表明存在靶点结合。对于骨髓,先前未建立ns-基线,但观察到类似模式。对于肾脏,大多数mAb在低质量剂量和高质量剂量下的K值均在ns-基线范围内。然而,在高质量剂量下,观察到一些饱和效应,提示ns-基线值较低。所有mAb的所有质量剂量在脑组织中的K值均接近零。
使用Patlak分析和已建立的ns-基线值,可以证明几种免疫检查点抑制剂在(淋巴)器官中存在靶点结合的证据。随着质量剂量增加K值降低,支持了Patlak分析在评估具有不可逆摄取行为的PET配体靶点结合方面的适用性。
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