High level of aneuploidy and recurrent loss of chromosome 11 as relevant features of somatotroph pituitary tumors.

IF 5.3 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Julia Rymuza, Paulina Kober, Maria Maksymowicz, Aleksandra Nyc, Beata J Mossakowska, Renata Woroniecka, Natalia Maławska, Beata Grygalewicz, Szymon Baluszek, Grzegorz Zieliński, Jacek Kunicki, Mateusz Bujko
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引用次数: 0

Abstract

Background: Somatotroph neuroendocrine pituitary tumors (sPitNET) are a subtype of pituitary tumors that commonly cause acromegaly. Our study aimed to determine the spectrum of DNA copy number abnormalities (CNAs) in sPitNETs and their relevance.

Methods: A landscape of CNAs in sPitNETs was determined using combined whole-genome approaches involving low-pass whole genome sequencing and SNP microarrays. Fluorescent in situ hybridization (FISH) was used for microscopic validation of CNAs. The tumors were also subjected to transcriptome and DNA methylation analyses with RNAseq and microarrays, respectively.

Results: We observed a wide spectrum of cytogenetic changes ranging from multiple deletions, recurrent chromosome 11 loss, stable genomes, to duplication of the majority of the chromosomes. The identified CNAs were confirmed with FISH. sPitNETs with multiple duplications were characterized by intratumoral heterogeneity in chromosome number variation in individual tumor cells, as determined with FISH. These tumors were separate CNA-related sPitNET subtype in clustering analyses with CNA signature specific for whole genome doubling-related etiology. This subtype encompassed GNAS-wild type, mostly densely granulated tumors with favorable expression level of known prognosis-related genes, notably enriched with POUF1/NR5A1-double positive PitNETs. Chromosomal deletions in sPitNETs are functionally relevant. They occurred in gene-dense DNA regions and were related to genes downregulation and increased DNA methylation in the CpG island and promoter regions in the affected regions. Recurrent loss of chromosome 11 was reflected by lowered MEN1 and AIP. No such unequivocal relevance was found for chromosomal gains. Comparisons of transcriptomes of selected most cytogenetically stable sPitNETs with tumors with recurrent loss of chromosome 11 showed upregulation of processes related to gene dosage compensation mechanism in tumors with deletion. Comparison of stable tumors with those with multiple duplications showed upregulation of processes related to mitotic spindle, DNA repair, and chromatin organization. Both comparisons showed upregulation of the processes related to immune infiltration in cytogenetically stable tumors and deconvolution of DNA methylation data indicated a higher content of specified immune cells and lower tumor purity in these tumors.

Conclusions: sPitNETs fall into three relevant cytogenetic groups: highly aneuploid tumors characterized by known prognostically favorable features and low aneuploidy tumors including specific subtype with chromosome 11 loss.

高度非整倍体和 11 号染色体反复缺失是体细胞垂体瘤的相关特征。
背景:嗜体细胞神经内分泌垂体瘤(sPitNET)是垂体瘤的一种亚型,通常导致肢端肥大症。我们的研究旨在确定sPitNET中DNA拷贝数异常(CNA)的范围及其相关性:方法:采用低通滤波全基因组测序和SNP芯片相结合的全基因组方法确定了sPitNET中的CNAs谱。荧光原位杂交(FISH)用于CNAs的显微验证。肿瘤还分别通过 RNAseq 和芯片进行了转录组和 DNA 甲基化分析:我们观察到了广泛的细胞遗传学变化,从多缺失、11号染色体反复缺失、稳定基因组到大部分染色体重复。经 FISH 鉴定,确定的 CNA 均得到证实。经 FISH 鉴定,具有多个重复的 sPitNET 的特点是肿瘤内单个肿瘤细胞的染色体数目变异具有异质性。在聚类分析中,这些肿瘤是单独的CNA相关sPitNET亚型,具有全基因组倍增相关病因的特异性CNA特征。该亚型包括GNAS-野生型肿瘤,多为致密肉芽肿,已知预后相关基因的表达水平良好,尤其富含POUF1/NR5A1双阳性PitNET。sPitNET 的染色体缺失与功能相关。它们发生在基因密集的DNA区域,与受影响区域的基因下调和CpG岛及启动子区域的DNA甲基化增加有关。MEN1 和 AIP 的降低反映了 11 号染色体的反复缺失。染色体增益则没有这种明确的相关性。将选定的细胞遗传最稳定的 sPitNET 与 11 号染色体复发性缺失的肿瘤的转录组进行比较,结果显示,缺失肿瘤中与基因剂量补偿机制相关的过程上调。将稳定的肿瘤与有多个重复的肿瘤进行比较,发现与有丝分裂纺锤体、DNA 修复和染色质组织有关的过程上调。结论:sPitNET 可分为三个相关的细胞遗传学组别:高非整倍体肿瘤,其特征是已知的预后良好的特征;低非整倍体肿瘤,包括 11 号染色体缺失的特定亚型。
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来源期刊
CiteScore
8.30
自引率
3.40%
发文量
1601
期刊介绍: ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.
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