Jeuken Judith, Cornelissen Sandra, Boots-Sprenger Sandra, Gijsen Sabine, Wesseling Pieter
Department of Pathology, Radboud University Nijmegen Medical Centre, P.O. Box 9101, 6500 HB Nijmegen, The Netherlands.
J Mol Diagn. 2006 Sep;8(4):433-43. doi: 10.2353/jmoldx.2006.060012.
Genetic aberrations in tumors are predictive for chemosensitivity and survival. A test is needed that allows simultaneous detection of multiple changes and that is widely applicable in a routine diagnostic setting. Multiplex ligation-dependent probe amplification (MLPA) allows detection of DNA copy number changes of up to 45 loci in one relatively simple, semiquantitative polymerase chain reaction-based assay. To assess the applicability of MLPA, we performed MLPA analysis to detect relevant genetic markers in a spectrum of 88 gliomas. The vast majority of these tumors (n = 79) were previously characterized by comparative genomic hybridization. With MLPA kit P088 (78 cases), complete and partial loss of 1p and 19q were reliably identified, even in samples containing only 50% tumor DNA. Distinct 1p deletions exist with different clinically prognostic consequences, and in contrast to the commonly used diagnostic strategies (loss of heterozygosity or fluorescent in situ hybridization 1p36), P088 allows detection of such distinct 1p losses. Combining P088 with P105 will further increase the accurate prediction of clinical behavior because this kit identified markers (EGFR, PTEN, and CDKN2A) of high-grade malignancy in 41 cases analyzed. We conclude that MLPA is a reliable diagnostic tool for simultaneous identification of different region-specific genetic aberrations of tumors.
肿瘤中的基因畸变可预测化疗敏感性和生存率。需要一种能够同时检测多种变化且可广泛应用于常规诊断环境的检测方法。多重连接依赖探针扩增(MLPA)可在一项相对简单的、基于半定量聚合酶链反应的检测中检测多达45个位点的DNA拷贝数变化。为了评估MLPA的适用性,我们进行了MLPA分析,以检测88例胶质瘤中的相关基因标记。这些肿瘤中的绝大多数(n = 79)之前已通过比较基因组杂交进行了特征分析。使用MLPA试剂盒P088(78例),即使在仅含有50%肿瘤DNA的样本中,也能可靠地识别1p和19q的完全和部分缺失。存在具有不同临床预后后果的不同1p缺失,并且与常用的诊断策略(杂合性缺失或荧光原位杂交1p36)不同,P088能够检测到这种不同的1p缺失。将P088与P105结合使用将进一步提高对临床行为的准确预测,因为该试剂盒在分析的41例病例中识别出了高级别恶性肿瘤的标记物(EGFR、PTEN和CDKN2A)。我们得出结论,MLPA是一种可靠的诊断工具,可同时识别肿瘤不同区域特异性的基因畸变。