下一代测序技术鉴定垂体腺瘤中的新型线粒体变异。

Next-generation sequencing identifies novel mitochondrial variants in pituitary adenomas.

机构信息

2nd Department of Internal Medicine, Semmelweis University, Budapest, Hungary.

"Lendulet" Hereditary Endocrine Tumours Research Group, Hungarian Academy of Sciences and Semmelweis University, 46 Szentkiralyi Street, Budapest, H-1088, Hungary.

出版信息

J Endocrinol Invest. 2019 Aug;42(8):931-940. doi: 10.1007/s40618-019-1005-6. Epub 2019 Jan 25.

DOI:10.1007/s40618-019-1005-6

PMID:30684245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6647476/

Abstract

PURPOSE

Disrupted mitochondrial functions and genetic variants of mitochondrial DNA (mtDNA) have been observed in different human neoplasms. Next-generation sequencing (NGS) can be used to detect even low heteroplasmy-level mtDNA variants. We aimed to investigate the mitochondrial genome in pituitary adenomas by NGS.

METHODS

We analysed 11 growth hormone producing and 33 non-functioning [22 gonadotroph and 11 hormone immunonegative] pituitary adenomas using VariantPro™ Mitochondrion Panel on Illumina MiSeq instrument. Revised Cambridge Reference Sequence (rCRS) of the mtDNA was used as reference. Heteroplasmy was determined using a 3% cutoff.

RESULTS

496 variants were identified in pituitary adenomas with overall low level of heteroplasmy (7.22%). On average, 35 variants were detected per sample. Samples harbouring the highest number of variants had the highest Ki-67 indices independently of histological subtypes. We identified eight variants (A11251G, T4216C, T16126C, C15452A, T14798C, A188G, G185A, and T16093C) with different prevalences among different histological groups. T16189C was found in 40% of non-recurrent adenomas, while it was not present in the recurrent ones. T14798C and T4216C were confirmed by Sanger sequencing in all 44 samples. 100% concordance was found between NGS and Sanger method.

CONCLUSIONS

NGS is a reliable method for investigating mitochondrial genome and heteroplasmy in pituitary adenomas. Out of the 496 detected variants, 414 have not been previously reported in pituitary adenoma. The high number of mtDNA variants may contribute to adenoma genesis, and some variants (i.e., T16189C) might associate with benign behaviour.

摘要

目的

在不同的人类肿瘤中观察到线粒体功能障碍和线粒体 DNA（mtDNA）的遗传变异。下一代测序（NGS）可用于检测甚至低异质性水平的 mtDNA 变体。我们旨在通过 NGS 研究垂体腺瘤的线粒体基因组。

方法

我们使用 Illumina MiSeq 仪器上的 VariantPro™ Mitochondrion Panel 分析了 11 例生长激素分泌型和 33 例非功能性（22 例促性腺激素和 11 例激素免疫阴性）垂体腺瘤。使用修订后的剑桥参考序列（rCRS）作为参考。使用 3%的截值来确定异质性。

结果

在垂体腺瘤中发现了 496 种变体，总体异质性水平较低（7.22%）。平均每个样本检测到 35 个变体。样本中携带最多变体的样本，无论组织学亚型如何，Ki-67 指数都较高。我们发现了 8 种变体（A11251G、T4216C、T16126C、C15452A、T14798C、A188G、G185A 和 T16093C），它们在不同的组织学组中具有不同的流行率。T16189C 在 40%的非复发性腺瘤中发现，而在复发性腺瘤中不存在。T14798C 和 T4216C 通过 Sanger 测序在所有 44 个样本中得到证实。NGS 和 Sanger 方法之间发现了 100%的一致性。

结论

NGS 是一种可靠的方法，可用于研究垂体腺瘤中的线粒体基因组和异质性。在检测到的 496 种变体中，有 414 种以前未在垂体腺瘤中报道过。大量的 mtDNA 变体可能有助于腺瘤的发生，一些变体（如 T16189C）可能与良性行为有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e999/6647476/c48405a712bc/40618_2019_1005_Fig1_HTML.jpg

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下一代测序技术鉴定垂体腺瘤中的新型线粒体变异。

Next-generation sequencing identifies novel mitochondrial variants in pituitary adenomas.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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