Chen Xiaowei, Truong Tuyet-Trinh N, Weaver JoEllen, Bove Betsy A, Cattie Kimberly, Armstrong Brock A, Daly Mary B, Godwin Andrew K
Department of Medical Oncology, Fox Chase Cancer Center, Philadelphia, Pennsylvania 19111, USA.
Hum Mutat. 2006 May;27(5):427-35. doi: 10.1002/humu.20319.
Germline mutations in the human breast cancer susceptibility genes BRCA1 and BRCA2 account for the majority of hereditary breast and ovarian cancer. In spite of the large number of sequence variants identified in BRCA1 and BRCA2 mutation analyses, many of these genetic alterations are still classified as variants of unknown significance (VUS). In this study, we evaluated 12 BRCA1/2 intronic variants in order to differentiate their pathogenic or polymorphic effects on the mRNA splicing process. We detected the existence of aberrant splicing in three BRCA1 variants (c.301-2delA/IVS6-2delA, c.441+1G>A/IVS7+1G>A, and c.4986+6T>G/IVS16+6T>G) and two BRCA2 variants (c.8487+1G>A/IVS19+1G>A and c.8632-2A>G/IVS20-2A>G). All but one of the aberrant transcripts arise from mutations affecting the conserved splice acceptor or donor sequences and all would be predicted to result in expression of truncated BRCA1 or BRCA2 proteins. However, we demonstrated that four of these splice-site mutations (i.e., c.301-2delA, c.441+1G>A, c.4986+6T>G, and c.8632-2A>G) with premature termination codons were highly unstable and were unlikely to encode for abundant expression of a mutant protein. Three variants of BRCA1 (c.212+3A>G/IVS5+3A>G, c.593+8A>G/IVS9+8A>G, and c.4986-20A>G/IVS16-20A>G) and four variants of BRCA2 (c.516-19C>T/IVS6-19C>T, c.7976-4_7976_3delTT/IVS17-4delTT, c.8487+19A>G/IVS19+19A>G, and c.9256- 18C>A/IVS24- 18C>A) in our studies show no effects on the normal splicing process, and they are considered to be benign polymorphic alterations. Our studies help to clarify the aberrant splicing in BRCA1 and BRCA2 as well as provide information that can be used clinically to help counsel breast/ovarian cancer prone families.
人类乳腺癌易感基因BRCA1和BRCA2中的种系突变是遗传性乳腺癌和卵巢癌的主要原因。尽管在BRCA1和BRCA2突变分析中鉴定出大量序列变异,但其中许多基因改变仍被归类为意义未明的变异(VUS)。在本研究中,我们评估了12个BRCA1/2内含子变异,以区分它们对mRNA剪接过程的致病或多态性影响。我们检测到3个BRCA1变异(c.301-2delA/IVS6-2delA、c.441+1G>A/IVS7+1G>A和c.4986+6T>G/IVS16+6T>G)和2个BRCA2变异(c.8487+1G>A/IVS19+1G>A和c.8632-2A>G/IVS20-2A>G)存在异常剪接。除一个异常转录本外,所有异常转录本均源于影响保守剪接受体或供体序列的突变,并且预计所有这些突变都会导致截短的BRCA1或BRCA2蛋白表达。然而,我们证明这些剪接位点突变中的4个(即c.301-2delA、c.441+1G>A、c.4986+6T>G和c.8632-2A>G)带有过早终止密码子,高度不稳定,不太可能编码出大量表达的突变蛋白。我们研究中的3个BRCA1变异(c.212+3A>G/IVS5+3A>G、c.593+8A>G/IVS9+8A>G和c.4986-20A>G/IVS16-20A>G)和4个BRCA2变异(c.516-19C>T/IVS6-19C>T、c.7976-4_7976_3delTT/IVS17-4delTT、c.8487+19A>G/IVS19+19A>G和c.9256-18C>A/IVS24-18C>A)对正常剪接过程无影响,它们被认为是良性多态性改变。我们的研究有助于阐明BRCA1和BRCA2中的异常剪接,并提供可用于临床帮助为乳腺癌/卵巢癌易感家族提供咨询的信息。
