儿童原发性转移性髓母细胞瘤中通过端粒酶激活和端粒延长的替代性端粒延长（ALT）。

Telomere elongation via alternative lengthening of telomeres (ALT) and telomerase activation in primary metastatic medulloblastoma of childhood.

机构信息

Department of Radiological, Oncological and Anatomo-Pathological Sciences, Sapienza University of Rome, Rome, Italy.

Department of Human Neurosciences, Sapienza University of Rome, Rome, Italy.

出版信息

J Neurooncol. 2019 May;142(3):435-444. doi: 10.1007/s11060-019-03127-w. Epub 2019 Mar 4.

DOI:10.1007/s11060-019-03127-w

PMID:30830680

Abstract

PURPOSE

Elongation of telomeres is necessary for tumor cell immortalization and senescence escape; neoplastic cells use to alternative pathways to elongate telomeres: telomerase reactivation or a telomerase-independent mechanism termed alternative lengthening of telomeres (ALT). Telomerase and ALT pathway has been explored in adult and pediatric gliomas and medulloblastomas (MDBs); however, these mechanisms were not previously investigated in MDBs metastatic at the onset. Therefore, we analyzed the activation of telomerase and ALT pathway in a homogenous cohort of 43 pediatric metastatic medulloblastomas, to investigate whether telomere elongation could play a role in the biology of metastatic MDB.

METHODS

We evaluated telomeres length via telomere-specific fluorescence in situ hybridization (Telo-FISH); we assessed nuclear expression of ATRX by immunohistochemistry (IHC). H3F3A and TERT promoter mutations were analyzed by pyrosequencing, while UTSS methylation status was analyzed via methylation-specific-PCR (MS-PCR).

RESULTS

H3F3A mutations were absent in all MDBs, 30% of samples showed ATRX nuclear loss, 18.2% of cases were characterized by TERT promoter mutations, while 60.9% harboured TERT promoter hyper-methylation in the UTSS region. Elongation of telomeres was found in 42.8% of cases. Metastatic MDBs control telomere elongation via telomerase activation (10.7%), induced by TERT promoter mutations in association with UTSS hyper-methylation, and ALT mechanism (32.1%), triggered by ATRX inactivation. Among non-metastatic MDBs, only 5.9% (1/17) showed ATRX nuclear loss with activation of ALT.

CONCLUSIONS

Our metastatic cases frequently activate ALT pathway, suggesting that it is a common process for senescence escape in primary metastatic medulloblastomas. Furthermore, the activation of mechanisms for telomere elongation is not restricted to certain molecular subgroups in this high-risk group of MDBs.

摘要

目的

端粒的延长对于肿瘤细胞的永生化和衰老逃逸是必要的；肿瘤细胞利用替代途径来延长端粒：端粒酶的重新激活或称为端粒非依赖性机制的替代性端粒延长（ALT）。端粒酶和 ALT 途径已在成人和儿科脑胶质瘤和髓母细胞瘤（MDB）中进行了探索；然而，这些机制在发病时就已经转移的 MDB 中尚未进行过研究。因此，我们分析了 43 例儿童转移性髓母细胞瘤同质队列中端粒酶和 ALT 途径的激活情况，以研究端粒延长是否在转移性 MDB 的生物学中发挥作用。

方法

我们通过端粒特异性荧光原位杂交（Telo-FISH）评估端粒长度；通过免疫组织化学（IHC）评估 ATRX 的核表达。通过焦磷酸测序分析 H3F3A 和 TERT 启动子突变，同时通过甲基化特异性-PCR（MS-PCR）分析 UTSS 甲基化状态。

结果

所有 MDB 中均未发现 H3F3A 突变，30%的样本显示 ATRX 核丢失，18.2%的病例存在 TERT 启动子突变，而 60.9%的病例在 UTSS 区域存在 TERT 启动子高甲基化。42.8%的病例发现端粒延长。转移性 MDB 通过端粒酶激活（10.7%）控制端粒延长，这种激活是由 TERT 启动子突变与 UTSS 高甲基化共同诱导的，以及 ALT 机制（32.1%），这是由 ATRX 失活引发的。在非转移性 MDB 中，只有 5.9%（1/17）显示 ATRX 核丢失并激活 ALT。

结论

我们的转移性病例经常激活 ALT 途径，这表明它是原发性转移性髓母细胞瘤衰老逃逸的常见过程。此外，在这个高危 MDB 组中，端粒延长机制的激活不仅限于某些分子亚组。

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儿童原发性转移性髓母细胞瘤中通过端粒酶激活和端粒延长的替代性端粒延长（ALT）。

Telomere elongation via alternative lengthening of telomeres (ALT) and telomerase activation in primary metastatic medulloblastoma of childhood.

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