用于识别白血病中标记染色体和复杂易位的反向染色体描绘

Reverse chromosome painting for the identification of marker chromosomes and complex translocations in leukemia.

作者信息

Arkesteijn G, Jumelet E, Hagenbeek A, Smit E, Slater R, Martens A

机构信息

Institute of Hematology, Erasmus University, Rotterdam, The Netherlands.

出版信息

Cytometry. 1999 Feb 1;35(2):117-24. doi: 10.1002/(sici)1097-0320(19990201)35:2<117::aid-cyto2>3.0.co;2-l.

DOI:10.1002/(sici)1097-0320(19990201)35:2<117::aid-cyto2>3.0.co;2-l

PMID:10554166

Abstract

BACKGROUND

Chromosome banding techniques and in situ hybridization reveal the majority of chromosomal aberrations. However, difficulties remain in cases of highly contracted chromosomes, poor quality of the metaphases or the presence of markers with the involvement of several chromosomes. Here, it is demonstrated that reverse painting can be applied successfully starting with bone marrow cells from primary acute myelocytic leukemias (AML).

METHODS

This was accomplished by culturing the leukemic cells with a cocktail of various growth factors, which yielded sufficient numbers of cells in cycle to harvest chromosomes for sorting. Aberrant chromosomes were flow-sorted and amplified by degenerate oligonucleotide-primed PCR. The resulting products were labeled by nick-translation and hybridized on normal metaphase spreads.

RESULTS

Two patients with marker chromosomes in their leukemia cells were analyzed in detail. The hybridization pattern displayed the composition of the aberrant sorted chromosome. Results were compared with conventional cytogenetic analyses that were performed on material obtained from the same aspirate. The reverse-painting technique enabled identification of aberrations that were not detected by conventional cytogenetic analysis.

CONCLUSIONS

Primary AML cells can be cultured in vitro, using optimal culture conditions, facilitating the production of high quality flow karyotypes, suitable for sorting of marker chromosomes to produce DOP-PCR derived chromosome painting probes for reverse painting. Valuable additional cytogenetic information can thus be obtained about complex chromosomal rearrangements or structural aberrations that could not be completely resolved by conventional cytogenetic analysis.

摘要

背景

染色体显带技术和原位杂交可揭示大多数染色体畸变。然而，在染色体高度收缩、中期相质量差或存在涉及多条染色体的标记物的情况下，仍存在困难。在此，证明了从原发性急性髓细胞白血病（AML）的骨髓细胞开始，反向染色体涂染可以成功应用。

方法

通过用多种生长因子的混合物培养白血病细胞来实现这一点，这产生了足够数量处于细胞周期中的细胞以收获用于分选的染色体。异常染色体通过流式细胞分选并通过简并寡核苷酸引物PCR进行扩增。所得产物通过切口平移进行标记，并与正常中期相涂片杂交。

结果

对两名白血病细胞中存在标记染色体的患者进行了详细分析。杂交模式显示了分选的异常染色体的组成。将结果与对从同一抽吸物获得的材料进行的传统细胞遗传学分析进行了比较。反向染色体涂染技术能够识别传统细胞遗传学分析未检测到的畸变。

结论

原发性AML细胞可以在体外培养，使用最佳培养条件，有助于产生高质量的流式核型，适用于分选标记染色体以产生用于反向染色体涂染的DOP-PCR衍生的染色体涂染探针。因此，可以获得关于复杂染色体重排或传统细胞遗传学分析无法完全解析的结构畸变的有价值的额外细胞遗传学信息。

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用于识别白血病中标记染色体和复杂易位的反向染色体描绘

Reverse chromosome painting for the identification of marker chromosomes and complex translocations in leukemia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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