ADAR1在小鼠体内的过度表达不会启动或加速癌症的形成。

NAR Cancer Pub Date : 2023-06-01 DOI:10.1093/narcan/zcad023
Shannon Mendez Ruiz, Alistair M Chalk, Ankita Goradia, Jacki Heraud-Farlow, Carl R Walkley
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引用次数: 5

摘要

双链RNA (dsRNA)区域的腺苷-肌苷编辑(A-to-I)是由作用于RNA 1 (ADAR1)或ADAR2的腺苷脱氨酶介导的。ADAR1和A-to-I编辑水平在许多人类癌症中升高。抑制ADAR1已成为一个高度优先的肿瘤靶点,然而,ADAR1过表达是否会导致癌症的发生或进展尚未直接测试。我们建立了一系列体内模型,允许过表达全长ADAR1或其单个亚型,以测试ADAR1表达增加是否致癌。作为单一病变,ADAR1或p110或p150亚型的广泛过表达具有良好的耐受性,不会导致癌症的发生。因此,仅ADAR1过表达并不足以引发癌症。我们证明内源性ADAR1和A-to-I编辑在小鼠细胞的永生化过程中增加,与人类癌症的观察结果一致。我们使用骨肉瘤模型测试了ADAR1过表达是否与肿瘤抑制因子缺失引发的癌症有关。在评估的模型中,我们没有看到过表达ADAR1或其亚型的疾病增强或修饰作用。我们得出结论,癌症中ADAR1表达和a -to- i编辑的增加很可能是肿瘤形成的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Over-expression of ADAR1 in mice does not initiate or accelerate cancer formation in vivo.

Adenosine to inosine editing (A-to-I) in regions of double stranded RNA (dsRNA) is mediated by adenosine deaminase acting on RNA 1 (ADAR1) or ADAR2. ADAR1 and A-to-I editing levels are increased in many human cancers. Inhibition of ADAR1 has emerged as a high priority oncology target, however, whether ADAR1 overexpression enables cancer initiation or progression has not been directly tested. We established a series of in vivo models to allow overexpression of full-length ADAR1, or its individual isoforms, to test if increased ADAR1 expression was oncogenic. Widespread over-expression of ADAR1 or the p110 or p150 isoforms individually as sole lesions was well tolerated and did not result in cancer initiation. Therefore, ADAR1 overexpression alone is not sufficient to initiate cancer. We demonstrate that endogenous ADAR1 and A-to-I editing increased upon immortalization in murine cells, consistent with the observations from human cancers. We tested if ADAR1 over-expression could co-operate with cancer initiated by loss of tumour suppressors using a model of osteosarcoma. We did not see a disease potentiating or modifying effect of overexpressing ADAR1 or its isoforms in the models assessed. We conclude that increased ADAR1 expression and A-to-I editing in cancers is most likely a consequence of tumor formation.

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