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通过杂交微型基因对DNA变异进行功能分类:鉴定BRCA2基因第17和18外显子的30个剪接变异体

Functional classification of DNA variants by hybrid minigenes: Identification of 30 spliceogenic variants of BRCA2 exons 17 and 18.

作者信息

Fraile-Bethencourt Eugenia, Díez-Gómez Beatriz, Velásquez-Zapata Valeria, Acedo Alberto, Sanz David J, Velasco Eladio A

机构信息

Splicing and genetic susceptibility to cancer, Instituto de Biología y Genética Molecular (CSIC-UVa), Valladolid, Spain.

出版信息

PLoS Genet. 2017 Mar 24;13(3):e1006691. doi: 10.1371/journal.pgen.1006691. eCollection 2017 Mar.

DOI:10.1371/journal.pgen.1006691
PMID:28339459
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5384790/
Abstract

Mutation screening of the breast cancer genes BRCA1 and BRCA2 identifies a large fraction of variants of uncertain clinical significance (VUS) whose functional and clinical interpretations pose a challenge for genomic medicine. Likewise, an increasing amount of evidence indicates that genetic variants can have deleterious effects on pre-mRNA splicing. Our goal was to investigate the impact on splicing of a set of reported variants of BRCA2 exons 17 and 18 to assess their role in hereditary breast cancer and to identify critical regulatory elements that may constitute hotspots for spliceogenic variants. A splicing reporter minigene with BRCA2 exons 14 to-20 (MGBR2_ex14-20) was constructed in the pSAD vector. Fifty-two candidate variants were selected with splicing prediction programs, introduced in MGBR2_ex14-20 by site-directed mutagenesis and assayed in triplicate in MCF-7 cells. Wild type MGBR2_ex14-20 produced a stable transcript of the expected size (1,806 nucleotides) and structure (V1-[BRCA2_exons_14-20]-V2). Functional mapping by microdeletions revealed essential sequences for exon recognition on the 3' end of exon 17 (c.7944-7973) and the 5' end of exon 18 (c.7979-7988, c.7999-8013). Thirty out of the 52 selected variants induced anomalous splicing in minigene assays with >16 different aberrant transcripts, where exon skipping was the most common event. A wide range of splicing motifs were affected including the canonical splice sites (15 variants), novel alternative sites (3 variants), the polypyrimidine tract (3 variants) and enhancers/silencers (9 variants). According to the guidelines of the American College of Medical Genetics and Genomics (ACMG), 20 variants could be classified as pathogenic (c.7806-2A>G, c.7806-1G>A, c.7806-1G>T, c.7806-1_7806-2dup, c.7976+1G>A, c.7977-3_7978del, c.7977-2A>T, c.7977-1G>T, c.7977-1G>C, c.8009C>A, c.8331+1G>T and c.8331+2T>C) or likely pathogenic (c.7806-9T>G, c.7976G>C, c.7976G>A, c.7977-7C>G, c.7985C>G, c.8023A>G, c.8035G>T and c.8331G>A), accounting for 30.8% of all pathogenic/likely pathogenic variants of exons 17-18 at the BRCA Share database. The remaining 8 variants (c.7975A>G, c.7977-6T>G, c.7988A>T, c.7992T>A, c.8007A>G, c.8009C>T, c.8009C>G, and c.8072C>T) induced partial splicing anomalies with important ratios of the full-length transcript (≥70%), so that they remained classified as VUS. Aberrant splicing is therefore especially prevalent in BRCA2 exons 17 and 18 due to the presence of active ESEs involved in exon recognition. Splicing functional assays with minigenes are a valuable strategy for the initial characterization of the splicing outcomes and the subsequent clinical interpretation of variants of any disease-gene, although these results should be checked, whenever possible, against patient RNA.

摘要

乳腺癌基因BRCA1和BRCA2的突变筛查发现,很大一部分变异的临床意义不明确(VUS),其功能和临床解释给基因组医学带来了挑战。同样,越来越多的证据表明,基因变异可能对前体mRNA剪接产生有害影响。我们的目标是研究一组报道的BRCA2外显子17和18变异对剪接的影响,以评估它们在遗传性乳腺癌中的作用,并确定可能构成剪接变异热点的关键调控元件。在pSAD载体中构建了一个包含BRCA2外显子14至20的剪接报告小基因(MGBR2_ex14-20)。通过剪接预测程序选择了52个候选变异,通过定点诱变将其引入MGBR2_ex14-20,并在MCF-7细胞中进行了三次重复检测。野生型MGBR2_ex14-20产生了预期大小(1806个核苷酸)和结构(V1-[BRCA2外显子_14-20]-V2)的稳定转录本。通过微缺失进行的功能定位揭示了外显子17 3'端(c.7944-7973)和外显子18 5'端(c.7979-7988,c.7999-8013)上外显子识别的必需序列。在小基因检测中,52个选定变异中的30个诱导了异常剪接,产生了>16种不同的异常转录本,其中外显子跳跃是最常见的事件。广泛的剪接基序受到影响,包括经典剪接位点(15个变异)、新的替代位点(3个变异)、多嘧啶序列(3个变异)和增强子/沉默子(9个变异)。根据美国医学遗传学与基因组学学会(ACMG)的指南,20个变异可被分类为致病性(c.7806-2A>G、c.7806-1G>A、c.7806-1G>T、c.7806-1_7806-2dup、c.7976+1G>A、c.7977-3_7978del、c.7977-2A>T、c.7977-1G>T、c.7977-1G>C、c.8009C>A、c.8331+1G>T和c.8331+2T>C)或可能致病性(c.7806-9T>G、c.7976G>C、c.7976G>A、c.7977-7C>G、c.7985C>G、c.8023A>G、c.8035G>T和c.8331G>A),占BRCA共享数据库中外显子17-18所有致病性/可能致病性变异的30.8%。其余8个变异(c.7975A>G、c.7977-6T>G、c.7988A>T、c.7992T>A、c.8007A>G、c.8009C>T、c.8009C>G和c.8072C>T)诱导了部分剪接异常,全长转录本的比例较高(≥70%),因此它们仍被分类为VUS。因此,由于存在参与外显子识别的活性外显子增强子,异常剪接在BRCA2外显子17和18中尤为普遍。用小基因进行的剪接功能检测是对任何疾病基因变异的剪接结果进行初步表征以及随后进行临床解释的一种有价值的策略,尽管这些结果应尽可能与患者RNA进行核对。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/48395e861986/pgen.1006691.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/a810b0387bec/pgen.1006691.g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/341e62d31b67/pgen.1006691.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/1820fc4e058a/pgen.1006691.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/48395e861986/pgen.1006691.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/a810b0387bec/pgen.1006691.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/11fb81a3b322/pgen.1006691.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/341e62d31b67/pgen.1006691.g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/1820fc4e058a/pgen.1006691.g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1331/5384790/48395e861986/pgen.1006691.g005.jpg

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2
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3
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