糖尿病患者中该基因一种新突变c.422_423InsT的鉴定与功能分析
Identification and functional analysis of c.422_423InsT, a novel mutation of the gene in a patient with diabetes.
作者信息
Magaña-Cerino Jesús Miguel, Luna-Arias Juan P, Labra-Barrios María Luisa, Avendaño-Borromeo Bartolo, Boldo-León Xavier Miguel, Martínez-López Mirian Carolina
机构信息
Centro de Investigación y Posgrado Laboratorio de Diagnóstico Molecular División Académica de Ciencias de la Salud (DACS) Universidad Juárez Autónoma de Tabasco (UJAT) Ave. Gregorio Méndez Magaña. No 2838-A, Col. Tamulté de las Barrancas Villahermosa C.P. 86150 México.
Departamento de Biología Celular Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional (CINVESTAV-IPN) Ave. Instituto Politécnico Nacional 2508, Col. San Pedro Zacatenco Ciudad de México C.P. 07360 México.
出版信息
Mol Genet Genomic Med. 2016 Nov 30;5(1):50-65. doi: 10.1002/mgg3.261. eCollection 2017 Jan.
BACKGROUND
gene regulates liver-specific genes, and genes that have a role in glucose metabolism, transport, and secretion of insulin. gene mutations are frequently associated with type 2 diabetes. HNF1A protein has three domains: the dimerization domain, the DNA-binding domain, and the trans-activation domain. Some mutations in the dimerization or DNA-binding domains have no influence on the normal allele, while others have dominant negative effects. The I27L, A98V, and S487N polymorphisms are common variants of the gene; they have been found in T2D and non-diabetic subjects.
METHODS AND RESULTS
We searched for mutations in the first three exons of the gen in an Amerindian population of 71 diabetic patients. DNA sequencing revealed the previously reported I27L polymorphism (c.79A>C) in 53% of diabetic patients and in 67% of the control group. Thus, the I27L/L27L polymorphism might be a marker of Amerindians. In addition, we found the c.422_423InsT mutation in the gene of one patient, which had not been previously reported. This mutation resulted in a frame shift of the open reading frame and a new translation stop in codon 187, leading to a truncated polypeptide of 186 amino acids (Q141Hfs*47). This novel mutation affects the DNA-binding capacity of the mutant HNF1A protein by EMSA; its intracellular localization by fluorescence and confocal microscopy, and a dominant-negative effect affecting the DNA-binding capacity of the normal HNF1A by EMSA. We also studied the homology modeling structure to understand the effect of this mutation on its DNA-binding capacity and its dominant negative effect.
CONCLUSION
The HNF1A Q141Hfs*47 mutant polypeptide has no DNA-binding capacity and exerts a dominant negative effect on the HNF1A protein. Therefore, it might produce severe phenotypic effects on the expression levels of a set of -cell genes. Consequently, its screening should be included in the genetic analysis of diabetic patients after more functional studies are performed.
背景
基因调控肝脏特异性基因以及在葡萄糖代谢、转运和胰岛素分泌中起作用的基因。基因突变常与2型糖尿病相关。肝细胞核因子1α(HNF1A)蛋白有三个结构域:二聚化结构域、DNA结合结构域和反式激活结构域。二聚化或DNA结合结构域中的一些突变对正常等位基因无影响,而其他突变则具有显性负效应。I27L、A98V和S487N多态性是该基因的常见变异;它们在2型糖尿病患者和非糖尿病患者中均有发现。
方法与结果
我们在71名糖尿病患者的美洲印第安人群体中搜索了HNF1A基因前三个外显子中的突变。DNA测序显示,53%的糖尿病患者和67%的对照组中存在先前报道的I27L多态性(c.79A>C)。因此,I27L/L27L多态性可能是美洲印第安人的一个标志物。此外,我们在一名患者的HNF1A基因中发现了c.422_423InsT突变,该突变先前未被报道。此突变导致开放阅读框移码,并在密码子187处出现新的翻译终止,产生一个由186个氨基酸组成的截短多肽(Q141Hfs*47)。通过电泳迁移率变动分析(EMSA),这种新突变影响突变型HNF1A蛋白的DNA结合能力;通过荧光和共聚焦显微镜观察其细胞内定位,以及通过EMSA观察其对正常HNFIA的DNA结合能力的显性负效应。我们还研究了同源建模结构,以了解这种突变对其DNA结合能力及其显性负效应的影响。
结论
HNF1A Q141Hfs*47突变多肽无DNA结合能力,并对HNF1A蛋白产生显性负效应。因此,它可能对一组β细胞基因的表达水平产生严重的表型影响。因此,在进行更多功能研究后,其筛查应纳入糖尿病患者的基因分析中。
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