Hay Robert, MacRae Erin, Barber Duane, Khalil Moosa, Demetrick Douglas J
Calgary Laboratory Services, University of Calgary, Alberta.
Arch Pathol Lab Med. 2007 Sep;131(9):1361-7. doi: 10.5858/2007-131-1361-BMIMLA.
Mutations of the proto-oncogene B-raf (BRAF) have been detected in melanocytic lesions and papillary carcinomas of the thyroid, and identification of these mutations could be useful in resolving some diagnostic problems.
To develop a method to evaluate mutations of BRAF that could provide results much more rapidly than conventional polymerase chain reaction and DNA sequencing assays.
An assay using a LightCycler was developed to evaluate DNA sequences encoding amino acids within the activation loop of BRAF.
Using this real-time polymerase chain reaction method, we analyzed 55 paraffin-embedded melanoma or nevus samples. The V600E mutation was found in 0 (0%) of 13 samples diagnosed histologically as Spitz nevi, 9 (24.3%) of 37 invasive melanomas, and 5 (100%) of 5 other melanocytic nevi. Two additional mutations, V600K and VK600-1E, also were identified in cases of invasive melanoma. We analyzed 14 paraffin-embedded papillary thyroid cancer (PTC) samples, 6 of which showed the V600E mutation. We found that our test worked efficiently with fine-needle aspirate specimens, and it identified 6 V600E mutations in 10 fine-needle aspirate specimens diagnosed as PTC. We also identified 4 V600E mutations in 6 specimens of PTC metastatic to lymph node. Unlike the melanocytic lesions, the PTC specimens yielded only V600E mutations. Comparison of our real-time polymerase chain reaction results with conventional polymerase chain reaction and DNA sequencing demonstrated 100% concordance. Surprisingly, we did not identify the previously reported VK600-1E or K601E mutations in our PTC specimens.
Our results show that the real-time polymerase chain reaction method is a rapid and accurate method for identifying BRAF mutations, such as V600E, in both paraffin-embedded tissue and fine-needle aspirate specimens.
在黑素细胞性病变和甲状腺乳头状癌中已检测到原癌基因B-raf(BRAF)的突变,这些突变的鉴定可能有助于解决一些诊断问题。
开发一种评估BRAF突变的方法,该方法能比传统聚合酶链反应和DNA测序检测更快地得出结果。
开发了一种使用LightCycler的检测方法来评估编码BRAF激活环内氨基酸的DNA序列。
使用这种实时聚合酶链反应方法,我们分析了55个石蜡包埋的黑色素瘤或痣样本。在组织学诊断为Spitz痣的13个样本中,0个(0%)发现V600E突变;在37个浸润性黑色素瘤样本中,9个(24.3%)发现该突变;在其他5个黑素细胞痣样本中,5个(100%)发现该突变。在浸润性黑色素瘤病例中还鉴定出另外两种突变,即V600K和VK600-1E。我们分析了14个石蜡包埋的甲状腺乳头状癌(PTC)样本,其中6个显示V600E突变。我们发现我们的检测方法对细针穿刺标本有效,并且在10个诊断为PTC的细针穿刺标本中鉴定出6个V600E突变。我们还在6个转移至淋巴结的PTC标本中鉴定出4个V600E突变。与黑素细胞性病变不同,PTC标本仅产生V600E突变。将我们的实时聚合酶链反应结果与传统聚合酶链反应和DNA测序结果进行比较,显示一致性为100%。令人惊讶的是,我们在PTC标本中未鉴定出先前报道的VK600-1E或K601E突变。
我们的结果表明,实时聚合酶链反应方法是一种快速、准确的方法,可用于在石蜡包埋组织和细针穿刺标本中鉴定BRAF突变,如V600E。
