BTD 基因突变对体外生物素酶活性的影响。
Effect of BTD gene variants on in vitro biotinidase activity.
机构信息
Post Graduate Program in Genetics and Molecular Biology, Universidade Federal do Rio Grande do Sul (UFRGS), Porto Alegre, RS, Brazil,; BRAIN Laboratory, Center for Experimental Research (CPE), Hospital de Clínicas de Porto Alegre (HCPA), Porto Alegre, RS, Brazil.
Post Graduate Program in Genetics and Molecular Biology, Universidade Federal do Rio Grande do Sul (UFRGS), Porto Alegre, RS, Brazil,; BRAIN Laboratory, Center for Experimental Research (CPE), Hospital de Clínicas de Porto Alegre (HCPA), Porto Alegre, RS, Brazil,.
出版信息
Mol Genet Metab. 2019 Aug;127(4):361-367. doi: 10.1016/j.ymgme.2019.07.006. Epub 2019 Jul 17.
INTRODUCTION
Biotinidase deficiency (BD), an autosomal recessive disease, is classified into profound (activity <10%) or partial BD (activity 10-30%). The most frequent variant in patients worldwide is c.1330G > C (p.Asp444His), which is associated with partial BD. In vivo studies indicate that this variant reduces the biotinidase activity by 50%. The objective of this study was to evaluate the in vitro effect of p.Asp444His and of five novel variants identified among Brazilian individuals showing low activity of biotinidase in serum.
METHODS
The variants c.119 T > C (p.Leu40Pro), c.479G > A (p.Cys160Tyr), c.664G > A (p.Asp222Asn), c.1330G > C (p.Asp444His), c.1337 T > C (p.Leu446Pro), c.1466A > G (p.Asn489Ser) and the wild type (wt) BTD gene were expressed in HEK 293 cells. Biotinidase activity was quantified by colorimetric method in cells homogenates and culture medium. The wtBTD activity was considered 100%.
RESULTS
The p.Leu40Pro, p.Cys160Tyr and p.Leu446Pro variants were associated to impaired biotinidase activity (activity in cells: 33%, 14%, 0%, respectively; activity in medium: 7%, 0.3%, 2%, respectively) and undetectable amount of protein in intra and extracellular space. The p.Asn489Ser variant had these effects restricted to the extracellular space (activity in medium: 43%), and the p.Asp222Asn variant showed normal activity. The expression of p.Asp444His variant resulted in detectable protein and slightly reduced activity only in cells (activity in cells: 46%; activity in medium: 115%).
CONCLUSION
Our findings suggest that the p.Leu40Pro, p.Cys160Tyr and p.Leu446Pro variants are deleterious; the p.Asn489Ser is probably related to a mild biochemical phenotype; and p.Asp222Asn variant is probably not deleterious. The p.Asp444His variant seems to code for a protein with variable activity.
介绍
生物素酶缺乏症(BD)是一种常染色体隐性疾病,可分为严重型(活性<10%)和部分型(活性 10-30%)。全世界患者中最常见的变异是 c.1330G>C(p.Asp444His),与部分型 BD 相关。体内研究表明,该变异使生物素酶活性降低 50%。本研究的目的是评估 c.119T>C(p.Leu40Pro)、c.479G>A(p.Cys160Tyr)、c.664G>A(p.Asp222Asn)、c.1330G>C(p.Asp444His)、c.1337T>C(p.Leu446Pro)、c.1466A>G(p.Asn489Ser)和在血清中生物素酶活性较低的巴西个体中发现的 5 种新型变异的体外效应。
方法
在 HEK 293 细胞中表达 c.119T>C(p.Leu40Pro)、c.479G>A(p.Cys160Tyr)、c.664G>A(p.Asp222Asn)、c.1330G>C(p.Asp444His)、c.1337T>C(p.Leu446Pro)、c.1466A>G(p.Asn489Ser)和野生型(wt)BTD 基因。通过比色法在细胞匀浆和培养基中定量生物素酶活性。wtBTD 活性被认为是 100%。
结果
p.Leu40Pro、p.Cys160Tyr 和 p.Leu446Pro 变异与生物素酶活性受损相关(细胞内活性:分别为 33%、14%、0%;细胞外活性:分别为 7%、0.3%、2%),且细胞内外空间均无法检测到蛋白。p.Asn489Ser 变异仅使细胞外空间的活性受到影响(细胞外活性:43%),而 p.Asp222Asn 变异则表现出正常活性。p.Asp444His 变异仅在细胞中检测到蛋白且活性略有降低(细胞内活性:46%;细胞外活性:115%)。
结论
我们的研究结果表明,p.Leu40Pro、p.Cys160Tyr 和 p.Leu446Pro 变异是有害的;p.Asn489Ser 可能与轻度生化表型有关;而 p.Asp222Asn 变异可能不是有害的。p.Asp444His 变异似乎编码一种活性可变的蛋白。
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