皮下和静脉注射 IgG1 聚体后在小鼠体内的荧光成像。

In vivo fluorescence imaging of IgG1 aggregates after subcutaneous and intravenous injection in mice.

机构信息

Division of Drug Delivery Technology Leiden Academic Center for Drug Research, Leiden University, Einsteinweg 55, 2333 CC, Leiden, The Netherlands.

出版信息

Pharm Res. 2014 Jan;31(1):216-27. doi: 10.1007/s11095-013-1154-9. Epub 2013 Aug 15.

DOI:10.1007/s11095-013-1154-9

PMID:23949250

Abstract

PURPOSE

To monitor the biodistribution of IgG1 aggregates upon subcutaneous (SC) and intravenous (IV) administration in mice and measure their propensity to stimulate an early immune response.

METHODS

A human mAb (IgG1) was fluorescently labeled, aggregated by agitation stress and injected in SKH1 mice through SC and IV routes. The biodistribution of monomeric and aggregated formulations was monitored over 47 days by fluorescence imaging and the early immune response was measured by quantifying the level of relevant cytokines in serum using a Bio-plex assay.

RESULTS

The aggregates remained at the SC injection site for a longer time than monomers but after entry into the systemic circulation disappeared faster than monomers. Upon IV administration, both monomers and aggregates spread rapidly throughout the circulation, and a strong accumulation in the liver was observed for both species. Subsequent removal from the circulation was faster for aggregates than monomers. No accumulation in lymph nodes was observed after SC or IV administration. Administration of monomers and aggregates induced similar cytokine levels, but SC injection resulted in higher cytokine levels than IV administration.

CONCLUSION

These results show differences in biodistribution and residence time between IgG1 aggregates and monomers. The long residence time of aggregates at the SC injection site, in conjunction with elevated cytokine levels, may contribute to an enhanced immunogenicity risk of SC injected aggregates compared to that of monomers.

摘要

目的

监测 IgG1 聚集物经皮下（SC）和静脉内（IV）给药后在小鼠体内的分布，并测量其刺激早期免疫应答的倾向。

方法

对人源单克隆抗体（IgG1）进行荧光标记，通过搅拌应激使其聚集，并通过 SC 和 IV 途径注入 SKH1 小鼠体内。通过荧光成像监测单体和聚集物配方在 47 天内的分布情况，并通过生物素标记的蛋白芯片（Bio-plex）分析测定血清中相关细胞因子的水平来测量早期免疫应答。

结果

聚集物在 SC 注射部位的停留时间长于单体，但进入体循环后消失速度快于单体。IV 给药后，单体和聚集物均迅速扩散至整个循环系统，两种物质在肝脏中均有强烈的蓄积。随后，聚集物从循环系统中的清除速度快于单体。SC 或 IV 给药后均未观察到淋巴结蓄积。单体和聚集物给药均诱导相似的细胞因子水平，但 SC 给药导致的细胞因子水平高于 IV 给药。

结论

这些结果显示 IgG1 聚集物与单体在分布和停留时间上存在差异。聚集物在 SC 注射部位的停留时间较长，同时细胞因子水平升高，可能导致与单体相比，SC 注射的聚集物具有更高的免疫原性风险。

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皮下和静脉注射 IgG1 聚体后在小鼠体内的荧光成像。

In vivo fluorescence imaging of IgG1 aggregates after subcutaneous and intravenous injection in mice.

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