对甲状腺髓样癌的外显子组测序揭示了 RET 和 RAS 中的显性和互斥致癌突变。

Exomic sequencing of medullary thyroid cancer reveals dominant and mutually exclusive oncogenic mutations in RET and RAS.

机构信息

Ludwig Center for Cancer Genetics and Howard Hughes Medical Institutions, Baltimore, Maryland 21287, USA.

出版信息

J Clin Endocrinol Metab. 2013 Feb;98(2):E364-9. doi: 10.1210/jc.2012-2703. Epub 2012 Dec 21.

DOI:10.1210/jc.2012-2703

PMID:23264394

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3565108/

Abstract

CONTEXT

Medullary thyroid cancer (MTC) is a rare thyroid cancer that can occur sporadically or as part of a hereditary syndrome.

OBJECTIVE

To explore the genetic origin of MTC, we sequenced the protein coding exons of approximately 21,000 genes in 17 sporadic MTCs.

PATIENTS AND DESIGN

We sequenced the exomes of 17 sporadic MTCs and validated the frequency of all recurrently mutated genes and other genes of interest in an independent cohort of 40 MTCs comprised of both sporadic and hereditary MTC.

RESULTS

We discovered 305 high-confidence mutations in the 17 sporadic MTCs in the discovery phase, or approximately 17.9 somatic mutations per tumor. Mutations in RET, HRAS, and KRAS genes were identified as the principal driver mutations in MTC. All of the other additional somatic mutations, including mutations in spliceosome and DNA repair pathways, were not recurrent in additional tumors. Tumors without RET, HRAS, or KRAS mutations appeared to have significantly fewer mutations overall in protein coding exons.

CONCLUSIONS

Approximately 90% of MTCs had mutually exclusive mutations in RET, HRAS, and KRAS, suggesting that RET and RAS are the predominant driver pathways in MTC. Relatively few mutations overall and no commonly recurrent driver mutations other than RET, HRAS, and KRAS were seen in the MTC exome.

摘要

背景

甲状腺髓样癌（MTC）是一种罕见的甲状腺癌，可偶发，也可作为遗传性综合征的一部分。

目的

为了探究 MTC 的遗传起源，我们对 17 例散发性 MTC 进行了约 21000 个基因的蛋白编码外显子测序。

患者与设计

我们对 17 例散发性 MTC 进行了外显子组测序，并在一个由散发性和遗传性 MTC 组成的 40 例 MTC 独立队列中验证了所有高频突变基因和其他感兴趣基因的突变频率。

结果

在发现阶段，我们在 17 例散发性 MTC 中发现了 305 个高频突变，即每个肿瘤约有 17.9 个体细胞突变。RET、HRAS 和 KRAS 基因突变被鉴定为 MTC 的主要驱动突变。所有其他额外的体细胞突变，包括剪接体和 DNA 修复途径的突变，在其他肿瘤中并未重现。没有 RET、HRAS 或 KRAS 突变的肿瘤似乎在蛋白编码外显子中整体突变明显较少。

结论

大约 90%的 MTC 存在 RET、HRAS 和 KRAS 相互排斥的突变，提示 RET 和 RAS 是 MTC 的主要驱动途径。MTC 外显子中总体突变较少，除了 RET、HRAS 和 KRAS 之外，没有常见的高频驱动突变。

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