Marucci Antonella, Derhourhi Mehdi, Menzaghi Claudia, Fini Grazia, Valenzano Marina, Zampetti Simona, Doria Alessandro, Froguel Philippe, Bonnefond Amélie, Trischitta Vincenzo, Di Paola Rosa
Research Unit of Diabetes and Endocrine Diseases, Fondazione IRCCS Casa Sollievo della Sofferenza, San Giovanni Rotondo, Foggia, Italy.
Inserm/CNRS UMR 1283/8199, Institut Pasteur de Lille, EGID, Lille, France.
Diabetologia. 2025 Jul 2. doi: 10.1007/s00125-025-06485-5.
AIMS/HYPOTHESIS: Biallelic pathogenic variants in SLC19A2 (the solute carrier family 19 member 2, which encodes thiamine transporter 1, responsible for thiamine intake) cause a recessive syndromic diabetes of infancy or early childhood in the context of thiamine-responsive megaloblastic anaemia, characterised by sensorineural deafness. Indeed, it has been reported, although only once, that even a heterozygous missense loss-of-function variant of SLC19A2 causes dominantly inherited non-syndromic diabetes. Finally, it is unknown whether rare SLC19A2 pathogenic variants modulate the risk of type 2 diabetes at the population level. We investigated the role of SLC19A2 heterozygous variants in both autosomal dominant mild hyperglycaemia and type 2 diabetes.
We performed whole exome sequencing in two probands with mild hyperglycaemia and in 191,140 samples from the UK Biobank.
Here we report two different heterozygous missense likely pathogenic variants of SLC19A2 (NM_006996.2) associated with non-syndromic mild hyperglycaemia in two pedigrees (c.515G>T and c.1063A>C missense variants, respectively), clearly confirming the only report available so far suggesting this link. In both pedigrees, individuals who carried an additional variant in one of the established monogenic diabetes genes (i.e. PDX1, NM_000209.3 and KCNJ11, NM_000525.3) showed an anticipation of disease onset of 25-31 years. Finally, 12 rare null variants in SLC19A2 were associated with type 2 diabetes (p=0.00033; OR 3.7; 95% CI 1.3, 227) and increased HbA levels (p=0.019, effect [π]=2.2 ± 0.92) in the UK Biobank.
CONCLUSIONS/INTERPRETATION: Taken together with previous evidence, these data indicate that SLC19A2 variability modulates glucose homeostasis, from recessive syndromic diabetes, to autosomal dominant mild hyperglycaemia, to type 2 diabetes.
目的/假设:SLC19A2(溶质载体家族19成员2,编码硫胺素转运蛋白1,负责硫胺素摄取)的双等位基因致病变异在硫胺素反应性巨幼细胞贫血背景下会导致婴儿期或幼儿期的隐性综合征性糖尿病,其特征为感音神经性耳聋。事实上,尽管仅有一次报道,但已报道SLC19A2的杂合错义功能丧失变异会导致显性遗传的非综合征性糖尿病。最后,尚不清楚罕见的SLC19A2致病变异在人群水平上是否会调节2型糖尿病的风险。我们研究了SLC19A2杂合变异在常染色体显性轻度高血糖症和2型糖尿病中的作用。
我们对两名轻度高血糖症先证者以及英国生物银行的191,140份样本进行了全外显子组测序。
我们在此报告了SLC19A2(NM_006996.2)的两种不同的杂合错义可能致病变异,分别与两个家系中的非综合征性轻度高血糖症相关(分别为c.515G>T和c.1063A>C错义变异),这清楚地证实了迄今为止唯一表明这种关联的报告。在两个家系中,在已确定的单基因糖尿病基因之一(即PDX1,NM_000209.3和KCNJ11,NM_000525.3)中携带另一种变异的个体疾病发作提前了25 - 31年。最后,在英国生物银行中,SLC19A2的12种罕见无效变异与2型糖尿病相关(p = 0.00033;比值比3.7;95%置信区间1.3,227)且HbA水平升高(p = 0.019,效应[π]=2.2±0.92)。
结论/解读:结合先前的证据,这些数据表明SLC19A2的变异性会调节葡萄糖稳态,从隐性综合征性糖尿病到常染色体显性轻度高血糖症,再到2型糖尿病。
