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: Annexin-A1 is a 37 kDa phospholipid-binding protein which is concentrated in a truncated 34 kDa form (AnnA1) in caveolae on the tumor vascular endothelial cell surface with expression in many tumor types. PRISM developed the monoclonal mouse antibody mAnnA1 against AnnA1 for evaluation of AnnA1 as a potential target for imaging and therapy in oncology. mAnnA1 was humanized to make hAnnA1 for translation to clinical studies. Both PRISM-produced mAnnA1 and cGMP contractor-produced hAnnA1 were investigated using noninvasive PET/CT imaging, and dosimetry was evaluated to enable clinical translation of this strategy and to investigate in vivo behavior of hAnnA1. : Antibodies mAnnA1 and hAnnA1 (PRISM "hAnnA1-P" or contractor generated "hAnnA1-C") were conjugated with the chelator deferoxamine and evaluated for immunoreactivity with ELISA. Conjugated antibodies were radiolabeled with zirconium-89. Naïve mice, rats, and non-human primates (NHP) were injected with [Zr]mAnnA1 or [Zr]hAnnA1 and imaged with PET/CT up to 10 days post injection. After imaging, mice and rats were euthanized and organs were collected, weighed, and radioactivity was quantified using a gamma counter. Dosimetry in mice and NHPs were calculated using OLINDA. : [Zr]mAnnA1 showed similar biodistribution to other antibodies with slow clearance through the liver. Transition to [Zr]hAnnA1-C during the dosimetry studies revealed substantial uptake in the spleen (130 ± 48% ID/g at day 5 post injection in female BALB/c), which was not observed with [Zr]mAnnA1 (5.6 ± 1.7% ID/g at day 7 PI). Further studies in multiple strains of mice showed variable elevated splenic uptake of [Zr]hAnnA1-C across mouse strains, with the highest uptake observed in female BALB/c mice (118.4 ± 23.1% ID/g) and the lowest uptake observed in male CD1 mice (34.7 ± 10.2% ID/g). Additionally, splenic uptake of hAnnA1-C was observed in Fischer rats (2.8 ± 0.6% ID/organ) and NHPs (1.6 ± 0.6% ID/organ), although at lower levels than what was observed in BALB/c mice (8.8 ± 1.8% ID/organ). Dosimetry results showed similar values between estimates based on mouse and NHP data, with the largest difference seen in the spleen (5.2 vs. 2.6 mSv/MBq in females respectively). Sequencing of hAnnA1-C revealed a frameshift mutation in the antibody sequence introduced during cGMP manufacture. Restoration of the antibody sequence by PRISM returned the antibody distribution into alignment with mAnnA1. : An aberration introduced during cGMP production of hAnnA1-C resulted in increased splenic uptake and alteration of the biodistribution in mice. PET imaging enabled quantitative detection of the immunogenic behavior of hAnnA1, which led to detection of the sequence error. Restoration of the sequence resulted in an antibody which was non-immunogenic to mice.

膜联蛋白 - A1是一种37 kDa的磷脂结合蛋白，它以截短的34 kDa形式（AnnA1）集中在肿瘤血管内皮细胞表面的小窝中，在多种肿瘤类型中均有表达。PRISM研发了针对AnnA1的单克隆小鼠抗体mAnnA1，以评估AnnA1作为肿瘤学成像和治疗潜在靶点的可能性。mAnnA1经人源化改造制成hAnnA1，以便开展临床研究。使用无创PET/CT成像对PRISM生产的mAnnA1和cGMP承包商生产的hAnnA1进行了研究，并评估了剂量学，以推动该策略的临床转化并研究hAnnA1的体内行为。

将抗体mAnnA1和hAnnA1（PRISM的“hAnnA1 - P”或承包商生产的“hAnnA1 - C”）与螯合剂去铁胺偶联，并通过ELISA评估其免疫反应性。将偶联抗体用锆 - 89进行放射性标记。给未免疫的小鼠、大鼠和非人灵长类动物（NHP）注射[Zr]mAnnA1或[Zr]hAnnA1，并在注射后长达10天内用PET/CT成像。成像后，对小鼠和大鼠实施安乐死并收集器官，称重，并用伽马计数器对放射性进行定量。使用OLINDA计算小鼠和NHP的剂量学。

[Zr]mAnnA1显示出与其他抗体相似的生物分布，通过肝脏的清除速度较慢。在剂量学研究过程中转换为[Zr]hAnnA1 - C后，发现脾脏有大量摄取（雌性BALB/c小鼠在注射后第5天为130±48% ID/g），而[Zr]mAnnA1未观察到这种情况（注射后第7天为5.6±1.7% ID/g）。在多种品系小鼠中进行的进一步研究表明，[Zr]hAnnA1 - C在不同小鼠品系中的脾脏摄取升高情况各不相同，在雌性BALB/c小鼠中摄取最高（118.4±23.1% ID/g），在雄性CD1小鼠中摄取最低（34.7±10.2% ID/g）。此外，在Fischer大鼠（2.8±0.6% ID/器官）和NHP（1.6±0.6% ID/器官）中也观察到了hAnnA1 - C的脾脏摄取，尽管其水平低于在BALB/c小鼠中观察到的水平（8.8±1.8% ID/器官）。剂量学结果显示，基于小鼠和NHP数据的估计值相似，最大差异出现在脾脏（雌性分别为5.2和2.6 mSv/MBq）。对hAnnA1 - C的测序揭示了cGMP生产过程中引入的抗体序列移码突变。PRISM对抗体序列进行修复后，抗体分布恢复到与mAnnA1一致。

hAnnA1 - C的cGMP生产过程中引入的异常导致小鼠脾脏摄取增加和生物分布改变。PET成像能够定量检测hAnnA1的免疫原性行为，从而检测到序列错误。序列修复后得到的抗体对小鼠无免疫原性。