Dall'Osso Claudia, Guella Ilaria, Duga Stefano, Locatelli Nadia, Paraboschi Elvezia Maria, Spreafico Marta, Afrasiabi Abdolreza, Pechlaner Christoph, Peyvandi Flora, Tenchini Maria Luisa, Asselta Rosanna
Department of Biology and Genetics for Medical Sciences, University of Milan, via Viotti 3/5, 20133 Milan, Italy.
Haematologica. 2008 Oct;93(10):1505-13. doi: 10.3324/haematol.12934. Epub 2008 Aug 25.
Factor V deficiency is a rare autosomal recessive hemorrhagic disorder, associated with bleeding manifestations of variable severity. In the present study, we investigated the molecular basis of factor V deficiency in three patients, and performed a comprehensive analysis of the factor V gene (F5) splicing pattern.
Mutational screening was performed by DNA sequencing. Wild-type and mutant F5 mRNA were expressed by transient transfection in COS-1 cells, followed by reverse-transcriptase polymerase chain reaction and sequencing. Real-time reverse-transcriptase polymerase chain reaction was used to evaluate degradation of mRNA carrying premature termination codons.
Mutational screening identified three hitherto unknown splicing mutations (IVS8+6T>C, IVS21+1G>A, and IVS24+1_+4delGTAG). Production of mutant transcripts in COS-1 cells demonstrated that both IVS21+1G>A and IVS24+1_+4delGTAG cause the activation of cryptic donor splice sites, whereas IVS8+6T>C causes exon-8 skipping (F5-Delta 8-mRNA). Interestingly, F5-Delta 8-mRNA was also detected in wild-type transfected samples, human liver, platelets, and HepG2 cells, demonstrating that F5 exon-8 skipping takes place physiologically. Since F5-Delta 8-mRNA bears a premature termination codons, we investigated whether this transcript is subjected to nonsense-mediated mRNA decay degradation. The results confirmed the involvement of nonsense-mediated mRNA decay in the degradation of F5 PTC(+) mRNA. Moreover, a comprehensive analysis of the F5 splicing pattern led to the identification of two in-frame splicing variants resulting from skipping of exons 3 and 5-6.
The functional consequences of three splicing mutations leading to FV deficiency were elucidated. Furthermore, we report the identification of three alternatively spliced F5 transcripts.
因子V缺乏症是一种罕见的常染色体隐性出血性疾病,与严重程度各异的出血表现相关。在本研究中,我们调查了三名患者因子V缺乏症的分子基础,并对因子V基因(F5)的剪接模式进行了全面分析。
通过DNA测序进行突变筛查。野生型和突变型F5 mRNA通过在COS-1细胞中瞬时转染来表达,随后进行逆转录聚合酶链反应和测序。实时逆转录聚合酶链反应用于评估携带提前终止密码子的mRNA的降解情况。
突变筛查鉴定出三个此前未知的剪接突变(IVS8 +6T>C、IVS21 +1G>A和IVS24 +1_+4delGTAG)。在COS-1细胞中产生突变转录本表明,IVS21 +1G>A和IVS24 +1_+4delGTAG均导致隐蔽供体剪接位点的激活,而IVS8 +6T>C导致外显子8跳跃(F5-Delta 8-mRNA)。有趣的是,在野生型转染样本、人肝脏、血小板和HepG2细胞中也检测到了F5-Delta 8-mRNA,表明F5外显子8跳跃在生理情况下会发生。由于F5-Delta 8-mRNA带有提前终止密码子,我们研究了该转录本是否会经历无义介导的mRNA降解。结果证实了无义介导的mRNA降解参与了F5 PTC(+) mRNA的降解。此外,对F5剪接模式的全面分析导致鉴定出两个由外显子3和5-6跳跃产生的框内剪接变体。
阐明了导致因子V缺乏的三个剪接突变的功能后果。此外,我们报告了三种选择性剪接的F5转录本的鉴定结果。
