Kaneda Toshio, Honda Asako, Hakozaki Atsushi, Fuse Tetsuya, Muto Akihiro, Yoshida Tadashi
Department of Pathophysiology, Hoshi University, Shinagawa, Tokyo 142-8501, Japan.
Endocrinology. 2007 May;148(5):2335-44. doi: 10.1210/en.2006-1077. Epub 2007 Jan 25.
In Graves' disease, the overstimulation of the thyroid gland and hyperthyroidism are caused by autoantibodies directed against the TSH receptor (TSHR) that mimics the action of TSH. The establishment of an animal model is an important step to study the pathophysiology of autoimmune hyperthyroidism and for immunological analysis. In this study, we adopted the technique of electroporation (EP) for genetic immunization to achieve considerable enhancement of in vivo human TSHR (hTSHR) expression and efficient induction of hyperthyroidism in mice. In a preliminary study using beta-galactosidase (beta-gal) expression vectors, beta-gal introduced into the muscle by EP showed over 40-fold higher enzymatic activity than that introduced via previous direct gene transfer methods. The sustained hTSHR mRNA expression derived from cDNA transferred by EP was detectable in muscle tissue for at least 2 wk by RT-PCR. Based on these results, we induced hyperthyroidism via two expression vectors inserted with hTSHR or hTSHR289His cDNA. Consequently, 12.0-31.8% BALB/c mice immunized with hTSHR and 79.2-95.7% immunized with hTSHR289His showed high total T(4) levels due to the TSHR-stimulating antibody after three to four times repeated immunization by EP, and thyroid follicles of which were hyperplastic and had highly irregular epithelium. Moreover, TSHR-stimulating antibody surprisingly persisted more than 8 months after the last immunization. These results demonstrate that genetic immunization by in vivo EP is more efficient than previous procedures, and that it is useful for delineating the pathophysiology of Graves' disease.
在格雷夫斯病中,针对促甲状腺激素受体(TSHR)的自身抗体模拟促甲状腺激素(TSH)的作用,导致甲状腺过度刺激和甲状腺功能亢进。建立动物模型是研究自身免疫性甲状腺功能亢进病理生理学和进行免疫学分析的重要步骤。在本研究中,我们采用电穿孔(EP)技术进行基因免疫,以显著增强体内人TSHR(hTSHR)的表达,并有效诱导小鼠甲状腺功能亢进。在一项使用β-半乳糖苷酶(β-gal)表达载体的初步研究中,通过EP导入肌肉的β-gal的酶活性比通过先前直接基因转移方法导入的酶活性高40倍以上。通过反转录聚合酶链反应(RT-PCR)可在肌肉组织中至少2周检测到由EP转移的cDNA产生的持续hTSHR mRNA表达。基于这些结果,我们通过插入hTSHR或hTSHR289His cDNA的两种表达载体诱导甲状腺功能亢进。因此,在用hTSHR免疫的BALB/c小鼠中,12.0%-31.8%以及在用hTSHR289His免疫的小鼠中,79.2%-95.7%在通过EP进行三到四次重复免疫后,由于TSHR刺激抗体而显示出高总T4水平,并且其甲状腺滤泡增生且上皮高度不规则。此外,TSHR刺激抗体在最后一次免疫后惊人地持续存在超过8个月。这些结果表明,体内EP基因免疫比以前的方法更有效,并且对于阐明格雷夫斯病的病理生理学是有用的。
