体内磁共振成像显示表达人铁蛋白的转基因小鼠。

In vivo magnetic resonance imaging of transgenic mice expressing human ferritin.

机构信息

Department of Radiology, Seoul National University Hospital, 101 Daehangno, Jongno-gu, Seoul, 110-744, Korea.

出版信息

Mol Imaging Biol. 2013 Feb;15(1):48-57. doi: 10.1007/s11307-012-0567-x.

DOI:10.1007/s11307-012-0567-x

PMID:22733452

Abstract

OBJECTIVE

This study aims to produce the transgenic mice (TG) engineered for magnetic resonance imaging (MRI) studies based on the ubiquitous expression of ferritin MRI reporter gene in diverse tissues.

PROCEDURES

Transgenic mice (TG) expressing myc-tagged human heavy chain ferritin (myc-hFTH) under the control of a ubiquitous CAG promoter were produced. The expression of myc-hFTH in diverse tissues of the myc-hFTH TG was assessed by RT-PCR, Western blotting, and immunohistochemistry. The iron accumulation and the deposition of ferritin aggregates in tissues of myc-hFTH TG and WT were analyzed by Prussian blue staining and transmission electron microscopy. The myc-hFTH TG (n = 9) and wild-type mice (WT) (n = 4) were subjected to MRI on 9.4 T MR scanner. An eight-point T(2)* mapping was performed using a multiple gradient echo sequence, and T(2)* value was estimated pixel by pixel by using a routine least-squares fitting algorithm.

RESULTS

We generated the myc-hFTH TG expressing myc-hFTH in brain, heart, liver, lung, spleen, pancreas, kidney, and intestine. The myc-hFTH TG showed no apparent pathological symptoms and no histological changes compared to WT. The expression of myc-hFTH in the brain and liver tissues of myc-hFTH TG led to a significant decrease in T(2)* values, as shown by noninvasive MRI, compared to WT (P < 0.05, TG vs. WT).

CONCLUSIONS

This study demonstrates that the novel myc-hFTH TG, which expresses an MRI reporter in many tissues, would be a valuable animal model of FTH-based molecular imaging in which to study potential therapies for cell and tissue grafting using an MRI technique. These mice could also serve to study disease related with iron metabolism.

摘要

目的

本研究旨在构建一种基于铁蛋白 MRI 报告基因在多种组织中广泛表达的磁共振成像（MRI）研究用转基因（TG）小鼠。

方法

构建了在组成型 CAG 启动子控制下表达 myc 标记的人重链铁蛋白（myc-hFTH）的 TG 小鼠。通过 RT-PCR、Western blot 和免疫组织化学评估 myc-hFTH 在 myc-hFTH TG 多种组织中的表达。通过普鲁士蓝染色和透射电子显微镜分析 myc-hFTH TG 和 WT 组织中的铁积累和铁蛋白聚集体沉积。将 myc-hFTH TG（n=9）和野生型小鼠（WT）（n=4）在 9.4TMR 扫描仪上进行 MRI。使用多梯度回波序列进行八点 T(2)* 映射，并通过常规最小二乘拟合算法逐像素估计 T(2)* 值。

结果

我们构建了在脑、心、肝、肺、脾、胰腺、肾和肠中表达 myc-hFTH 的 myc-hFTH TG。与 WT 相比，myc-hFTH TG 无明显病理症状和组织学变化。与 WT 相比，myc-hFTH TG 大脑和肝脏组织中 myc-hFTH 的表达导致 T(2)* 值显著降低（P<0.05，TG 与 WT 相比），可通过非侵入性 MRI 显示。

结论

本研究表明，这种新型 myc-hFTH TG 在许多组织中表达 MRI 报告基因，可作为基于铁蛋白的分子成像的有价值的动物模型，用于使用 MRI 技术研究细胞和组织移植的潜在治疗方法。这些小鼠还可用于研究与铁代谢相关的疾病。

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体内磁共振成像显示表达人铁蛋白的转基因小鼠。

In vivo magnetic resonance imaging of transgenic mice expressing human ferritin.

机构信息

出版信息

OBJECTIVE

PROCEDURES

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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