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神经母细胞瘤中携带MYCN的双微体的二项式有丝分裂分离说明了随机性在癌基因扩增中的作用。

Binomial mitotic segregation of MYCN-carrying double minutes in neuroblastoma illustrates the role of randomness in oncogene amplification.

作者信息

Lundberg Gisela, Rosengren Anders H, Håkanson Ulf, Stewénius Henrik, Jin Yuesheng, Stewénius Ylva, Påhlman Sven, Gisselsson David

机构信息

Department of Clinical Genetics, Lund University Hospital, Lund, Sweden.

出版信息

PLoS One. 2008 Aug 29;3(8):e3099. doi: 10.1371/journal.pone.0003099.

DOI:10.1371/journal.pone.0003099
PMID:18769732
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2518122/
Abstract

BACKGROUND

Amplification of the oncogene MYCN in double minutes (DMs) is a common finding in neuroblastoma (NB). Because DMs lack centromeric sequences it has been unclear how NB cells retain and amplify extrachromosomal MYCN copies during tumour development.

PRINCIPAL FINDINGS

We show that MYCN-carrying DMs in NB cells translocate from the nuclear interior to the periphery of the condensing chromatin at transition from interphase to prophase and are preferentially located adjacent to the telomere repeat sequences of the chromosomes throughout cell division. However, DM segregation was not affected by disruption of the telosome nucleoprotein complex and DMs readily migrated from human to murine chromatin in human/mouse cell hybrids, indicating that they do not bind to specific positional elements in human chromosomes. Scoring DM copy-numbers in ana/telophase cells revealed that DM segregation could be closely approximated by a binomial random distribution. Colony-forming assay demonstrated a strong growth-advantage for NB cells with high DM (MYCN) copy-numbers, compared to NB cells with lower copy-numbers. In fact, the overall distribution of DMs in growing NB cell populations could be readily reproduced by a mathematical model assuming binomial segregation at cell division combined with a proliferative advantage for cells with high DM copy-numbers.

CONCLUSION

Binomial segregation at cell division explains the high degree of MYCN copy-number variability in NB. Our findings also provide a proof-of-principle for oncogene amplification through creation of genetic diversity by random events followed by Darwinian selection.

摘要

背景

在神经母细胞瘤(NB)中,致癌基因MYCN在双微体(DMs)中的扩增是一个常见现象。由于双微体缺乏着丝粒序列,目前尚不清楚NB细胞在肿瘤发展过程中如何保留并扩增染色体外的MYCN拷贝。

主要发现

我们发现,NB细胞中携带MYCN的双微体在从间期到前期的转变过程中,从细胞核内部转移至凝聚染色质的周边,并在整个细胞分裂过程中优先定位在染色体端粒重复序列附近。然而,端粒体核蛋白复合体的破坏并不影响双微体的分离,并且双微体能够在人/鼠细胞杂交体中轻易地从人类染色质迁移至鼠类染色质,这表明它们并不与人类染色体中的特定位置元件结合。对有丝分裂后期/末期细胞中的双微体拷贝数进行计数,结果显示双微体的分离情况可以通过二项式随机分布进行近似模拟。集落形成试验表明,与低双微体(MYCN)拷贝数的NB细胞相比,高双微体拷贝数的NB细胞具有强大的生长优势。事实上,通过一个数学模型可以很容易地再现生长中的NB细胞群体中双微体的总体分布情况,该模型假设细胞分裂时双微体进行二项式分离,并结合了高双微体拷贝数细胞的增殖优势。

结论

细胞分裂时的二项式分离解释了NB中MYCN拷贝数的高度变异性。我们的研究结果还为致癌基因通过随机事件创造遗传多样性并随后进行达尔文选择实现扩增提供了原理证明。

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Genes proximal and distal to MYCN are highly expressed in human neuroblastoma as visualized by comparative expressed sequence hybridization.通过比较表达序列杂交可视化显示,MYCN基因近端和远端的基因在人类神经母细胞瘤中高度表达。
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Imaging extrachromosomal DNA (ecDNA) in cancer.在癌症中成像染色体外 DNA(ecDNA)。
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EccBase: A high-quality database for exploration and characterization of extrachromosomal circular DNAs in cancer.EccBase:一个用于探索和表征癌症中染色体外环状DNA的高质量数据库。
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