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在一例艾滋病相关伯基特淋巴瘤病例中,通过比较基因组杂交(CGH)、荧光原位杂交(FISH)和胰酶-吉姆萨染色(GTG)带型分析评估染色体畸变情况。

Chromosomal aberrations evaluated by CGH, FISH and GTG-banding in a case of AIDS-related Burkitt's lymphoma.

作者信息

Zunino A, Viaggi S, Ottaggio L, Fronza G, Schenone A, Roncella S, Abbondandolo A

机构信息

Mutagenesis Laboratory, National Cancer Institute (IST), largo Rosanna Benzi 10, 16132 Genova, Italy.

出版信息

Haematologica. 2000 Mar;85(3):250-5.

Abstract

BACKGROUND AND OBJECTIVE

We have previously reported on a complex chromosome rearrangement [der(17)] in a B-cell line, BRG A, established from an AIDS patient with Burkitt's lymphoma (BL). The aim of the present study was the definition of der(17) composition and the identification of complete or partial chromosome gains and losses in two cell clones (BRG A and BRG M) derived from this patient.

DESIGN AND METHODS

We applied comparative genome hybridization (CGH) to detect the DNA misrepresentations in the genome of the two cell clones. Findings from CGH and banding analysis could then direct the choice of probes for chromosome painting experiments to elucidate der(17) composition.

RESULTS

CGH analysis identified gains of chromosomes 1q, 7q, 12q, 13q, 15q, 17p, 20p,q and losses of chromosomes 3p and 5q in BRG A and gain of chromosome 1q and loss in chromosome 6q in BRG M. Some of the detected alterations had already been described in lymphomas, while others appeared to be new. The combination of these techniques allowed a precise definition of der(17), composed by translocated regions from chromosomes 12 and 15.

INTERPRETATION AND CONCLUSIONS

We demonstrated CGH to be a powerful tool in the identification of recurrent chromosome aberrations in an AIDS-related BL and in ascertaining the origin of marker chromosomes. We were also able to identify a different pattern of aberrations and assess an independent sequence of events leading to the 1p gain in the two subclones.

摘要

背景与目的

我们之前报道过在一个从患有伯基特淋巴瘤(BL)的艾滋病患者建立的B细胞系BRG A中存在一种复杂的染色体重排[der(17)]。本研究的目的是确定der(17)的组成,并鉴定源自该患者的两个细胞克隆(BRG A和BRG M)中完整或部分染色体的增减情况。

设计与方法

我们应用比较基因组杂交(CGH)来检测这两个细胞克隆基因组中的DNA错配情况。然后,CGH和带型分析的结果可指导选择用于染色体涂染实验的探针,以阐明der(17)的组成。

结果

CGH分析确定BRG A中染色体1q、7q、12q、13q、15q、17p、20p、q增加,染色体3p和5q缺失,BRG M中染色体1q增加,染色体6q缺失。一些检测到的改变在淋巴瘤中已有报道,而其他改变似乎是新的。这些技术的结合使得能够精确确定由染色体12和15的易位区域组成的der(17)。

解释与结论

我们证明CGH是识别艾滋病相关BL中反复出现的染色体畸变以及确定标记染色体起源的有力工具。我们还能够识别不同的畸变模式,并评估导致两个亚克隆中1p增加的独立事件序列。

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