{"title":"药物/ADA 复合物的生物分布:免疫复合物的形成对抗体分布的影响","authors":"","doi":"10.1208/s12248-024-00899-6","DOIUrl":null,"url":null,"abstract":"<h3>Abstract</h3> <p>The clinical use of therapeutic monoclonal antibodies (mAbs) for the treatment of cancer, inflammation, and other indications has been successfully established. A critical aspect of drug-antibody pharmacokinetics is immunogenicity, which triggers an immune response via an anti-drug antibody (ADA) and forms drug/ADA immune complexes (ICs). As a consequence, there may be a reduced efficacy upon neutralization by ADA or an accelerated drug clearance. It is therefore important to understand immunogenicity in biological therapies. A drug-like immunoglobulin G (IgG) was radiolabeled with tritium, and ICs were formed using polyclonal ADA, directed against the complementary-determining region of the drug-IgG, to investigate <em>in vivo</em> biodistribution in rodents. It was demonstrated that 65% of the radioactive IC dose was excreted within the first 24 h, compared with only 6% in the control group who received non-complexed <sup>3</sup>H-drug. Autoradiographic imaging at the early time point indicated a deposition of immune complexes in the liver, lung, and spleen indicated by an increased radioactivity signal. A biodistribution study confirmed the results and revealed further insights regarding excretion and plasma profiles. It is assumed that the immune complexes are readily taken up by the reticuloendothelial system. The ICs are degraded proteolytically, and the released radioactively labeled amino acids are redistributed throughout the body. These are mainly renally excreted as indicated by urine measurements or incorporated into protein synthesis. These biodistribution studies using tritium-labeled immune complexes described in this article underline the importance of understanding the immunogenicity induced by therapeutic proteins and the resulting influence on biological behavior.</p> <span> <h3>Graphical Abstract</h3> <p>Created with BioRender.com</p> <p> <span> <span> <img alt=\"\" src=\"https://static-content.springer.com/image/MediaObjects/12248_2024_899_Figa_HTML.png\"/> </span> </span></p> </span>","PeriodicalId":501692,"journal":{"name":"The AAPS Journal","volume":"10 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-03-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Biodistribution of Drug/ADA Complexes: The Impact of Immune Complex Formation on Antibody Distribution\",\"authors\":\"\",\"doi\":\"10.1208/s12248-024-00899-6\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<h3>Abstract</h3> <p>The clinical use of therapeutic monoclonal antibodies (mAbs) for the treatment of cancer, inflammation, and other indications has been successfully established. A critical aspect of drug-antibody pharmacokinetics is immunogenicity, which triggers an immune response via an anti-drug antibody (ADA) and forms drug/ADA immune complexes (ICs). As a consequence, there may be a reduced efficacy upon neutralization by ADA or an accelerated drug clearance. It is therefore important to understand immunogenicity in biological therapies. A drug-like immunoglobulin G (IgG) was radiolabeled with tritium, and ICs were formed using polyclonal ADA, directed against the complementary-determining region of the drug-IgG, to investigate <em>in vivo</em> biodistribution in rodents. It was demonstrated that 65% of the radioactive IC dose was excreted within the first 24 h, compared with only 6% in the control group who received non-complexed <sup>3</sup>H-drug. Autoradiographic imaging at the early time point indicated a deposition of immune complexes in the liver, lung, and spleen indicated by an increased radioactivity signal. A biodistribution study confirmed the results and revealed further insights regarding excretion and plasma profiles. It is assumed that the immune complexes are readily taken up by the reticuloendothelial system. The ICs are degraded proteolytically, and the released radioactively labeled amino acids are redistributed throughout the body. These are mainly renally excreted as indicated by urine measurements or incorporated into protein synthesis. 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引用次数: 0
摘要
摘要 用于治疗癌症、炎症和其他适应症的治疗性单克隆抗体(mAbs)已成功应用于临床。药物-抗体药代动力学的一个重要方面是免疫原性,它通过抗药物抗体(ADA)引发免疫反应,形成药物/ADA免疫复合物(ICs)。因此,被 ADA 中和后的药物疗效可能会降低,或者药物清除速度会加快。因此,了解生物疗法的免疫原性非常重要。用氚对药物样免疫球蛋白 G(IgG)进行放射性标记,并使用针对药物-IgG 互补决定区的多克隆 ADA 形成 IC,以研究啮齿动物体内的生物分布。结果表明,在最初的 24 小时内,65% 的放射性 IC 剂量被排出体外,而接受非络合 3H 药物的对照组只有 6%。早期时间点的自动放射成像显示,免疫复合物沉积在肝脏、肺部和脾脏,放射性信号增加。生物分布研究证实了这一结果,并进一步揭示了排泄和血浆分布情况。据推测,免疫复合物很容易被网状内皮系统吸收。免疫复合物会被蛋白质分解,释放出的放射性标记氨基酸会在体内重新分布。根据尿液测量结果,这些氨基酸主要经肾脏排出体外,或融入蛋白质合成过程中。本文介绍的这些使用氚标记免疫复合物进行的生物分布研究强调了了解治疗蛋白质诱导的免疫原性及其对生物行为的影响的重要性。 图形摘要由 BioRender.com 创建
Biodistribution of Drug/ADA Complexes: The Impact of Immune Complex Formation on Antibody Distribution
Abstract
The clinical use of therapeutic monoclonal antibodies (mAbs) for the treatment of cancer, inflammation, and other indications has been successfully established. A critical aspect of drug-antibody pharmacokinetics is immunogenicity, which triggers an immune response via an anti-drug antibody (ADA) and forms drug/ADA immune complexes (ICs). As a consequence, there may be a reduced efficacy upon neutralization by ADA or an accelerated drug clearance. It is therefore important to understand immunogenicity in biological therapies. A drug-like immunoglobulin G (IgG) was radiolabeled with tritium, and ICs were formed using polyclonal ADA, directed against the complementary-determining region of the drug-IgG, to investigate in vivo biodistribution in rodents. It was demonstrated that 65% of the radioactive IC dose was excreted within the first 24 h, compared with only 6% in the control group who received non-complexed 3H-drug. Autoradiographic imaging at the early time point indicated a deposition of immune complexes in the liver, lung, and spleen indicated by an increased radioactivity signal. A biodistribution study confirmed the results and revealed further insights regarding excretion and plasma profiles. It is assumed that the immune complexes are readily taken up by the reticuloendothelial system. The ICs are degraded proteolytically, and the released radioactively labeled amino acids are redistributed throughout the body. These are mainly renally excreted as indicated by urine measurements or incorporated into protein synthesis. These biodistribution studies using tritium-labeled immune complexes described in this article underline the importance of understanding the immunogenicity induced by therapeutic proteins and the resulting influence on biological behavior.
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