肝细胞核因子1A突变体Ala180Val:确定家族性糖尿病中一种罕见肝细胞核因子1A变体因果关系的临床挑战
The HNF1A mutant Ala180Val: Clinical challenges in determining causality of a rare HNF1A variant in familial diabetes.
作者信息
Sagen J V, Bjørkhaug L, Haukanes B I, Grevle L, Molnes J, Nedrebø B G, Søvik O, Njølstad P R, Johansson S, Molven A
机构信息
Hormone Laboratory, Haukeland University Hospital, Bergen, Norway; Department of Clinical Science, University of Bergen, Bergen, Norway; KG Jebsen Center for Diabetes Research, Department of Clinical Science, University of Bergen, Bergen, Norway.
Department of Clinical Science, University of Bergen, Bergen, Norway; KG Jebsen Center for Diabetes Research, Department of Clinical Science, University of Bergen, Bergen, Norway; Department of Biomedical Laboratory Sciences, Western Norway University of Applied Sciences, Bergen, Norway.
出版信息
Diabetes Res Clin Pract. 2017 Nov;133:142-149. doi: 10.1016/j.diabres.2017.08.001. Epub 2017 Sep 1.
AIMS
Heterozygous mutations in hepatocyte nuclear factor-1A (HNF1A) cause maturity-onset diabetes of the young type 3 (MODY3). Our aim was to compare two families with suspected dominantly inherited diabetes and a new HNF1A variant of unknown clinical significance.
METHODS
The HNF1A gene was sequenced in two independently recruited families from the Norwegian MODY Registry. Both familes were phenotyped clinically and biochemically. Microsatellite markers around and within the HNF1A locus were used for haplotyping. Chromosomal linkage analysis was performed in one family, and whole-exome sequencing was undertaken in two affected family members from each family. Transactivation activity, DNA binding and nuclear localization of wild type and mutant HNF-1A were assessed.
RESULTS
The novel HNF1A variant c.539C>T (p.Ala180Val) was found in both families. The variant fully co-segregated with diabetes in one family. In the other family, two subjects with diabetes mellitus and one with normal glucose levels were homozygous variant carriers. Chromosomal linkage of diabetes to the HNF1A locus or to other genomic regions could not be established. The protein functional studies did not reveal significant differences between wild type and variant HNF-1A. In each family, whole-exome sequencing failed to identify any other variant that could explain the disease.
CONCLUSIONS
The HNF1A variant p.Ala180Val does not seem to cause MODY3, although it may confer risk for type 2 diabetes mellitus. Our data demonstrate challenges in causality evaluation of rare variants detected in known diabetes genes.
目的
肝细胞核因子1A(HNF1A)的杂合突变会导致青少年发病的成年型糖尿病3型(MODY3)。我们的目的是比较两个疑似显性遗传糖尿病的家族以及一个具有临床意义未知的新HNF1A变异体。
方法
对来自挪威MODY登记处的两个独立招募的家族中的HNF1A基因进行测序。两个家族均进行了临床和生化表型分析。使用HNF1A基因座周围和内部的微卫星标记进行单倍型分析。在一个家族中进行了染色体连锁分析,并对每个家族的两名受影响家庭成员进行了全外显子组测序。评估了野生型和突变型HNF-1A的反式激活活性、DNA结合和核定位。
结果
在两个家族中均发现了新的HNF1A变异体c.539C>T(p.Ala180Val)。该变异体在一个家族中与糖尿病完全共分离。在另一个家族中,两名糖尿病患者和一名血糖水平正常的个体是纯合变异体携带者。无法确定糖尿病与HNF1A基因座或其他基因组区域的染色体连锁关系。蛋白质功能研究未发现野生型和变异型HNF-1A之间存在显著差异。在每个家族中,全外显子组测序未能鉴定出任何其他可解释该疾病的变异体。
结论
HNF1A变异体p.Ala180Val似乎不会导致MODY3,尽管它可能会增加患2型糖尿病的风险。我们的数据表明,对已知糖尿病基因中检测到的罕见变异体进行因果关系评估存在挑战。
Zotero 插件