Physiologically based pharmacokinetics of molecular imaging nanoparticles for mRNA detection determined in tumor-bearing mice.

Oligonucleotides Pub Date : 2010-06-01 DOI:10.1089/oli.2009.0216

Armin W Opitz, Eric Wickstrom, Mathew L Thakur, Norman J Wagner

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引用次数: 22

Abstract

Disease detection and management might benefit from external imaging of disease gene mRNAs. Previously we designed molecular imaging nanoparticles (MINs) based on peptide nucleic acids complementary to cancer gene mRNAs. The MINs included contrast agents and analogs of insulin-like growth factor 1 (IGF-1). Analysis of MIN tumor uptake data showed stronger binding in tumors than in surrounding tissues. We hypothesized that MINs with an IGF-1 analog stay in circulation by binding to IGF-binding proteins. To test that hypothesis, we fit the tissue distribution results of several MINs in xenograft-bearing mice to a physiological pharmacokinetics model. Fitting experimental tissue distribution data to model-predicted mass transfer of MINs from blood into organs and tumors converged only when the parameter for MINs bound to circulating IGF-binding proteins was set to 10%-20% of the injected MIN dose. This result suggests that previous mouse imaging trials used more MINs than necessary. This prediction can be tested by a ramp of decreasing doses.

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用于mRNA检测的分子成像纳米颗粒在荷瘤小鼠体内的生理药代动力学测定。

疾病检测和管理可能受益于疾病基因mrna的外部成像。之前我们设计了基于与癌症基因mrna互补的肽核酸的分子成像纳米颗粒(MINs)。MINs包括造影剂和胰岛素样生长因子1 (IGF-1)类似物。对MIN肿瘤摄取数据的分析显示，与周围组织相比，肿瘤的结合更强。我们假设具有IGF-1类似物的MINs通过与igf结合蛋白结合而留在循环中。为了验证这一假设，我们将几种min在异种移植物小鼠中的组织分布结果拟合到生理药代动力学模型中。只有当与循环igf结合蛋白结合的MIN的参数设置为注射MIN剂量的10%-20%时，将实验组织分布数据与模型预测的MIN从血液到器官和肿瘤的传质拟合才会趋近。这一结果表明，以前的小鼠成像试验使用了过多的min。这一预测可以通过剂量递减的斜坡来检验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Oligonucleotides 生物-生化与分子生物学

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>12 weeks