研究罗米司亭在啮齿类动物中的药代动力学，重点关注清除机制。

Investigation of the pharmacokinetics of romiplostim in rodents with a focus on the clearance mechanism.

机构信息

Pharmacokinetics and Drug Metabolism Department, Amgen Inc., One Amgen Center Drive, 28-3-B, Thousand Oaks, California 91320, USA.

出版信息

Pharm Res. 2011 Aug;28(8):1931-8. doi: 10.1007/s11095-011-0420-y. Epub 2011 Apr 8.

DOI:10.1007/s11095-011-0420-y

PMID:21476045

Abstract

PURPOSE

Romiplostim, a treatment for adults with immune thrombocytopenia (ITP), is a novel thrombopoietin mimetic agent with a similar mechanism of action as thrombopoietin with no sequence homology. Structurally, it is a peptibody containing thrombopoietin mimetic peptides and the Fc portion of human IgG(1). We investigated romiplostim pharmacokinetics in rodents with a focus on the clearance mechanism.

METHODS

Studies with appropriate controls were conducted in four models: FcRn knockout mice, thrombocytopenic mice, splenectomized rats, and bilateral nephrectomized rats. Catabolic breakdown of romiplostim was investigated in normal rats. The primary analytical method determines the intact/active romiplostim concentration, and the secondary method determines the sum of romiplostim and its catabolic degradants.

RESULTS

FcRn interaction results in prolonged exposure. Platelets are involved in the target-mediated elimination, a saturable process and more prominent at low dose. Splenectomy does not affect the romiplostim pharmacokinetics in rats, an observation not unexpected. Nephrectomy in rats results in a greater increase of romiplostim exposure at a higher romiplostim dose, a nonlinearity likely due to saturation of competing pathway. Catabolism plays a major role in romiplostim elimination.

CONCLUSION

Romiplostim clearance involves multiple mechanisms, including a nonlinear pathway. Consequently, the relative contribution of different mechanisms appears to be dose dependent.

摘要

目的

罗米司亭是一种治疗成人免疫性血小板减少症（ITP）的药物，是一种新型的促血小板生成素模拟剂，其作用机制与促血小板生成素相似，无序列同源性。在结构上，它是一种肽结合物，包含促血小板生成素模拟肽和人 IgG(1)的 Fc 部分。我们研究了罗米司亭在啮齿动物中的药代动力学，重点研究其清除机制。

方法

在四个模型中进行了适当对照的研究：FcRn 敲除小鼠、血小板减少症小鼠、脾切除术大鼠和双侧肾切除术大鼠。在正常大鼠中研究了罗米司亭的代谢分解。主要分析方法测定完整/活性罗米司亭浓度，次要方法测定罗米司亭及其代谢降解产物的总和。

结果

FcRn 相互作用导致暴露时间延长。血小板参与了靶向介导的消除，这是一个饱和过程，在低剂量下更为明显。脾切除术不影响大鼠罗米司亭的药代动力学，这一观察结果并不出人意料。大鼠肾切除术后，在较高的罗米司亭剂量下，罗米司亭暴露量增加更大，这种非线性可能是由于竞争途径饱和所致。代谢分解在罗米司亭消除中起主要作用。

结论

罗米司亭的清除涉及多种机制，包括非线性途径。因此，不同机制的相对贡献似乎与剂量有关。

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研究罗米司亭在啮齿类动物中的药代动力学，重点关注清除机制。

Investigation of the pharmacokinetics of romiplostim in rodents with a focus on the clearance mechanism.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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