Demiral M, Çelebi H B G, Cander S, Yerci O, Eren E, Demirbilek H
Balıkesir Atatürk City Hospital, Department of Paediatric Endocrinology, Balıkesir.
Balıkesir Atatürk City Hospital, Department of Medical Genetic, Balıkesir.
Acta Endocrinol (Buchar). 2022 Oct-Dec;18(4):458-465. doi: 10.4183/aeb.2022.458.
Heterozygous gain-of-function mutations in the glucokinase (GCK) gene cause hyperinsulinaemic hypoglycaemia (GCK-HI), while loss-of-function mutations lead to a monogenic type of diabetes (GCK-MODY). We, herein, report a heterozygous GCK gene mutation in a large family with GCK-MODY and insulinoma in one individual from the same family.
The proband, an 11-year-old male, was referred for asymptomatic mild hyperglycemia (fasting glucose:121 mg/dL) and HbA1c of 6.1%. Segregation analysis of the family revealed multiplex members with asymptomatic fasting hyperglycaemia or non-insulin-dependent diabetes and 33-year-old maternal uncle of the proband case had a history of distal pancreatectomy due to the diagnosis of insulinoma. His preoperative investigations were revealed fasting glucose of 31 mg/dL, insulin: 7µU/mL, C-peptide: 2.6 mg/dL, and a low HbA1c(4.0%) which was suggestive for recurring hypoglycaemia episodes. Post-pancreatectomy he developed mild fasting hyperglycemia (115-136 mg/dL).
Genetic analysis revealed heterozygous p.Ser453Leu(c.1358C> T) mutation in the GCK gene in the proband. In segregation analysis, the identical heterozygous p.Ser453Leu(c.1358C> T) GCK gene mutation was detected in all of the other affected family members for whom a DNA analysis was applicable. The maternal uncle was first diagnosed with insulinoma and underwent a pancreatectomy. He also had an identical mutation in a heterozygous state.
We, to the best of our knowledge, firstly identified these two entirely distinct phenotypes of glucose metabolism, GCK-MODY and GCK-HI, due to an identical heterozygous p.Ser453Leu (c.1358C> T) mutation in the GCK. Further studies required to elucidate this new phenomenon and understanding the genotype-phenotype relationship of GCK gene mutations.
葡萄糖激酶(GCK)基因的杂合功能获得性突变导致高胰岛素血症性低血糖(GCK-HI),而功能丧失性突变则导致单基因糖尿病(GCK-MODY)。在此,我们报告一个患有GCK-MODY的大家族中的杂合GCK基因突变,且来自同一家庭的一名个体患有胰岛素瘤。
先证者为一名11岁男性,因无症状性轻度高血糖(空腹血糖:121mg/dL)和糖化血红蛋白(HbA1c)为6.1%前来就诊。对该家族进行的系谱分析显示,多名成员有无症状性空腹高血糖或非胰岛素依赖型糖尿病,先证者33岁的舅舅因诊断为胰岛素瘤而接受了远端胰腺切除术。其术前检查显示空腹血糖为31mg/dL,胰岛素:7µU/mL,C肽:2.6mg/dL,糖化血红蛋白较低(4.0%),提示反复出现低血糖发作。胰腺切除术后,他出现了轻度空腹高血糖(115 - 136mg/dL)。
基因分析显示先证者的GCK基因存在杂合性p.Ser453Leu(c.1358C>T)突变。在系谱分析中,在所有其他适用DNA分析的受影响家族成员中均检测到相同的杂合性p.Ser453Leu(c.1358C>T)GCK基因突变。舅舅最初被诊断为胰岛素瘤并接受了胰腺切除术。他也存在相同的杂合突变。
据我们所知,我们首次发现由于GCK基因中相同的杂合性p.Ser453Leu(c.1358C>T)突变导致了两种完全不同的糖代谢表型,即GCK-MODY和GCK-HI。需要进一步研究以阐明这一新现象并了解GCK基因突变的基因型-表型关系。