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多发性骨髓瘤原代细胞显示出高度重排的不平衡基因组,伴有扩增和纯合缺失,无论是否存在免疫球蛋白相关的染色体易位。

Multiple myeloma primary cells show a highly rearranged unbalanced genome with amplifications and homozygous deletions irrespective of the presence of immunoglobulin-related chromosome translocations.

作者信息

Largo Cristina, Saéz Borja, Alvarez Sara, Suela Javier, Ferreira Bibiana, Blesa David, Prosper Felipe, Calasanz M Jose, Cigudosa Juan C

机构信息

Molecular Cytogenetics Group, Centro Nacional de Investigaciones Oncológicas, Madrid, Spain.

出版信息

Haematologica. 2007 Jun;92(6):795-802. doi: 10.3324/haematol.11052.

DOI:10.3324/haematol.11052
PMID:17550852
Abstract

BACKGROUND AND OBJECTIVES

Multiple myeloma (MM) is a malignant plasma cell neoplasia in which genetic studies have shown that genomic changes may affect almost all chromosomes, as shown by fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH). Our objective was the genomic characterization of CD 138 positive primary MM samples by means of a high resolution array CGH platform.

DESIGN AND METHODS

For the first time, a high resolution array CGH with more than 40,000 probes, has been used to analyze 26 primary MM samples after the enrichment of CD138-positive plasma cells.

RESULTS

This approach identified copy number imbalances in all cases. Bioinformatics strategies were optimized to perform data analysis allowing the segregation of hyperdiploid and non-hyperdiploid cases by array CGH. Additional analysis showed that structural chromosome rearrangements were more frequently seen in hyperdiploid cases. We also identified the same Xq21 duplication in nearly 20% of the cases, which originated through unbalanced chromosome translocations. High level amplifications and homozygous deletions were recurrently observed in our series and involved genes with meaningful function in cancer biology.

INTERPRETATION AND CONCLUSIONS

High resolution array CGH allowed us to identify copy number changes in 100% of the primary MM samples. We segregated different MM subgroups based on their genomic profiles which made it possible to identify homozygous deletions and amplifications of great genetic relevance in MM.

摘要

背景与目的

多发性骨髓瘤(MM)是一种恶性浆细胞瘤,基因研究表明,通过荧光原位杂交(FISH)和比较基因组杂交(CGH)显示,基因组变化可能影响几乎所有染色体。我们的目的是通过高分辨率阵列CGH平台对CD138阳性原发性MM样本进行基因组特征分析。

设计与方法

首次使用具有40,000多个探针的高分辨率阵列CGH分析26例富集CD138阳性浆细胞后的原发性MM样本。

结果

该方法在所有病例中均鉴定出拷贝数失衡。优化了生物信息学策略以进行数据分析,从而通过阵列CGH区分超二倍体和非超二倍体病例。进一步分析表明,染色体结构重排在超二倍体病例中更常见。我们还在近20%的病例中鉴定出相同的Xq21重复,其通过不平衡染色体易位产生。在我们的系列研究中反复观察到高水平扩增和纯合缺失,且涉及在癌症生物学中具有重要功能的基因。

解读与结论

高分辨率阵列CGH使我们能够在100%的原发性MM样本中鉴定出拷贝数变化。我们根据基因组图谱区分了不同的MM亚组,这使得识别MM中具有重大遗传相关性的纯合缺失和扩增成为可能。

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