Faculty of Medicine, University of Belgrade, Belgrade, Serbia.
Clinic for Digestive Surgery - First Surgical Clinic, University Clinical Center of Serbia, Belgrade, Serbia.
Gene. 2023 Apr 5;859:147217. doi: 10.1016/j.gene.2023.147217. Epub 2023 Jan 20.
Considering the impact of SMAD7 deregulation in colorectal cancer (CRC) progression and the significance of single nucleotide variant (SNV)-mediated disruptions of microRNA (miRNA)-dependent regulation for cancer susceptibility, our study aimed to analyze genetic variation in the SMAD7 3' untranslated region ( 3'UTR) in CRC, measure differences in allelic mRNA expression, and evaluate its interference with miRNA-mediated post-transcriptional regulation.
This study included 80 patients with different CRC stages and six human colon cancer cell lines of various histological origins. SMAD7 3'UTR was analyzed by direct sequencing, followed by the relative quantification of differential allelic expression of detected variants by allele-specific qRT-PCR. In silico tools were employed for predictions of regulatory consequences of detected variants.
A total of four different SNVs in one cell line and nine patients were found, among which were a novel somatic point variant and three already known germline variants (rs16950113, rs1050799536, and rs1043778717). All evaluated SNVs exhibited variable extents of allelic imbalance in expression. In silico analysis predicted significant effects of SNVs on miRNA binding efficiency, with each SNV disrupting existing and creating new target sites for one or more miRNAs.
Imbalance observed in the expression of SNV alleles altering miRNA binding suggests that all investigated SNVs are potential contributing factors impacting SMAD7 expression regulation in CRC that further studies should investigate.
鉴于 SMAD7 失调对结直肠癌(CRC)进展的影响,以及单核苷酸变异(SNV)介导的 miRNA 依赖性调控破坏对癌症易感性的重要性,我们的研究旨在分析 CRC 中 SMAD7 3'非翻译区(3'UTR)的遗传变异,测量等位基因 mRNA 表达的差异,并评估其对 miRNA 介导的转录后调控的干扰。
本研究包括 80 例不同 CRC 分期的患者和 6 个人类结肠癌细胞系,具有不同的组织学起源。通过直接测序分析 SMAD7 3'UTR,然后通过等位基因特异性 qRT-PCR 对检测到的变异体的差异等位基因表达进行相对定量。采用计算机工具预测检测到的变异体的调控后果。
在一个细胞系和 9 名患者中发现了总共 4 个不同的 SNV,其中包括一个新的体细胞点变异和 3 个已发现的种系变异(rs16950113、rs1050799536 和 rs1043778717)。所有评估的 SNV 均表现出表达等位基因失衡的程度不同。计算机分析预测 SNV 对 miRNA 结合效率有显著影响,每个 SNV 破坏了一个或多个 miRNA 的现有和新的靶位点。
改变 miRNA 结合的 SNV 等位基因表达失衡表明,所有研究的 SNV 都是影响 CRC 中 SMAD7 表达调控的潜在致病因素,需要进一步研究。
