GSTP1 功能多态性在结直肠癌分子发病机制中的作用

IF 0.5 Q4 GENETICS & HEREDITY Human Gene Pub Date : 2024-09-13 DOI:10.1016/j.humgen.2024.201335
Sravanthi Malempati , Neelam Agrawal , Devalaraju Ravisankar , Venkata Sai Rahul Trivedi Kothapalli , Srinivasulu Cheemanapalli , Raghava Rao Tamanam , Suresh Govatati , Pasupuleti Sreenivasa Rao
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引用次数: 0

摘要

谷胱甘肽 S 转移酶 P1(GSTP1)在有害物质和致癌物质的解毒过程中发挥着至关重要的作用。GSTP1 中的单核苷酸多态性(SNPs)会影响其催化反应和解毒能力,从而影响罹患结直肠癌(CRC)的风险。本研究旨在调查 GSTP1 中的功能 SNPs(fSNPs)对 CRC 风险的影响及其结构和功能后果。我们利用血液样本中的基因组 DNA 进行 PCR 序列分析,分析了南印度裔 CRC 患者(103 人)和对照组(107 人)中总共 126 个选定的 GSTP1 SNPs,包括 fSNPs rs1695 A > G (I105V) 和 rs1138272 C > T (A114V)。为了评估 GSTP1 fSNPs 的结构完整性,我们使用多种工具进行了硅分析,如 Swiss PDB Viewer、pyMOL 诱变向导、ProSA-Web 和 Pdbsum。此外,我们还利用细胞和分子生物学技术对 GSTP1 fSNPs 进行了功能表征。我们的研究结果表明,I105V fSNP 与 CRC 风险之间存在显著关联,而 A114V fSNP 则不存在任何显著关联。然而,与对照组相比,这两个 fSNPs 在患者中表现出更强的连锁不平衡。硅学分析表明,与原生型(I105/A114)或单突变型(V105/A114 和 I105/V114)相比,双突变型 GSTP1(V105/V114)结构完整性丧失,静电势能降低。此外,与野生型 GSTP1 的携带者相比,转染了 GSTP1 I105V 变体的 FHC 细胞表现出增殖、侵袭和集落形成增加,同时 GST 活性降低。另一方面,GSTP1 A114V 变体没有显示出明显的影响。有趣的是,与 GSTP1 I105V 变体相比,转染了双突变 GSTP1 变体(V105/V114)的 FHC 细胞显示出协同和增强效应。与这些发现相一致的是,与单个或无 fSNPs 的单倍群相比,携带两个 fSNPs 的单倍群血浆 GST 活性明显较低。总之,我们的研究结果表明,虽然 GSTP1 I105V 单独会对 CRC 的病因学产生影响,但 A114V 并不会;不过,它们的共同存在会产生更重要的影响。
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Role of GSTP1 functional polymorphisms in molecular pathogenesis of colorectal cancer

Glutathione S-transferase P1 (GSTP1) plays a crucial role in the detoxification of harmful substances and cancer-causing agents. Single nucleotide polymorphisms (SNPs) in GSTP1 can affect its ability to catalyze reactions and detoxify, thereby influencing the risk of developing colorectal cancer (CRC). This study aimed to investigate the impact of functional SNPs (fSNPs) in GSTP1 on the risk of CRC, as well as their structural and functional consequences. We analyzed a total of 126 selected GSTP1 SNPs, including fSNPs rs1695 A > G (I105V) and rs1138272 C > T (A114V), in CRC patients (n = 103) and controls (n = 107) of south Indian origin using PCR-sequencing analysis with genomic DNA from blood samples. To assess the structural integrity of GSTP1 fSNPs, we conducted in silico analysis using various tools such as Swiss PDB Viewer, pyMOL mutagenesis wizard, ProSA-Web, and Pdbsum. Additionally, we performed functional characterization of GSTP1 fSNPs using cell and molecular biology techniques. Our findings revealed a significant association between the I105V fSNP and CRC risk, while the A114V fSNP did not show any significance. However, both fSNPs exhibited stronger linkage disequilibrium in patients compared to controls. In silico analysis indicated a loss of structural integrity and reduced electrostatic potential energy in the double mutant GSTP1 (V105/V114) compared to the native (I105/A114) or single mutant (V105/A114 and I105/V114) forms. Furthermore, FHC cells transfected with the GSTP1 I105V variant exhibited increased proliferation, invasion, and colony formation, along with decreased GST activity compared to carriers of the wild-type GSTP1. On the other hand, the GSTP1 A114V variant did not show a significant effect. Interestingly, FHC cells transfected with the double mutant GSTP1 variant (V105/V114) demonstrated synergistic and enhanced effects compared to the GSTP1 I105V variant. Consistent with these findings, plasma GST activity was significantly lower in haplogroups carrying both fSNPs compared to haplogroups with single or no fSNPs. To summarize, our findings indicate that while GSTP1 I105V alone contributes to the etiology of CRC, A114V does not; however, their combined presence has a more significant impact.

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来源期刊
Human Gene
Human Gene Biochemistry, Genetics and Molecular Biology (General), Genetics
CiteScore
1.60
自引率
0.00%
发文量
0
审稿时长
54 days
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