Congenital hyperinsulinemic hypoglycemia with a new HADH mutation and pancreatic overexpression of GLP-1 receptors.

The Journal of clinical endocrinology and metabolism Pub Date : 2025-07-24 DOI:10.1210/clinem/dgaf423

Andrea Widmer, Urs Zumsteg, Gabor Szinnai, Isabel Filges, Stephanie Meier, Julie De Geyter, Kwadwo Antwi, Damian Wild, Jean-Marc Nuoffer, Emanuel Christ

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Abstract

Background: The most common cause of endogenous hyperinsulinemic hypoglycemia in neonates (congenital hyperinsulinemic hypoglycemia; CHH) are different monogenic form of gene mutations. About 50% of the mutations are known. We present a new mutation within the short-chain L-3-hydroxyacyl-CoA dehydrogenase (HADH) gene causing CHH in two related patients.

Methods: The course of two consanguineous patients with CHH are presented with a follow-up of >30 years. NextSeq 500 sequencing was performed and confined on known genes with autosomal recessive inheritance, namely ABCC8 (MANE Select: NM_00352.6), HADH (MANE Select: NM_005327.7) and KCNJ11 (MANE Select: NM_00525.4). Acylcarnitine-profiles were measured and 68Ga-DOTA Exendin PET/CT was performed.

Results: CHH was diagnosed in both patients in the neonatal period. A therapy with Diazoxid was initiated, which initially stabilized the disease in both children. With advancing age more hypoglycemic events occurred with an increase in carbohydrate intake leading to obesity in both patients. In addition to Diazoxide Somatostatin analogues were successfully added in adulthood. A genetic analysis documented a new homozygote mutation in the HADH gene (HADH-variant c.796G>T). Acyl-Carnitine profile showed an increased plasma Butyryl-carnitine, consistent with a dysfunction of the HADH enzyme. 68Gallium-DOTA-exendin showed an increased uptake in the whole pancreas in both patients.

Conclusion: Clinical presentation, biochemical work-up and therapeutical response to Diazoxide and somatostatin analogues are consistent with previous reports of HADH-mutations. The overexpression of GLP-1 receptors in this context warrants further research.

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先天性高胰岛素性低血糖伴新的HADH突变和胰腺GLP-1受体过表达。

背景：新生儿内源性高胰岛素性低血糖症最常见的病因(先天性高胰岛素性低血糖症；CHH是不同的单基因突变形式。大约50%的突变是已知的。我们提出了短链l- 3-羟基酰基辅酶a脱氢酶（HADH）基因内的新突变，导致两个相关患者的CHH。方法：对2例同源CHH患者的病程进行随访，随访30年。对已知常染色体隐性遗传基因ABCC8 （MANE Select: NM_00352.6）、HADH （MANE Select: NM_005327.7）和KCNJ11 （MANE Select: NM_00525.4）进行NextSeq 500测序。测量酰基肉碱谱，并在PET/CT上进行68Ga-DOTA Exendin检查。结果：两例患者均在新生儿期诊断出CHH。开始使用二氮唑类药物治疗，最初使两名儿童的病情稳定下来。随着年龄的增长，随着碳水化合物摄入量的增加，两例患者发生了更多的低血糖事件，导致肥胖。除了二氮氧化合物外，生长抑素类似物也在成年期成功添加。遗传分析记录了一个新的HADH基因纯合子突变（HADH-variant c.796G >t）。酰基-肉碱谱显示血浆丁基-肉碱增加，与HADH酶功能障碍一致。68在两名患者中，镓- dota -exendin在整个胰腺中的摄取增加。结论：临床表现、生化检查和对二氮卓和生长抑素类似物的治疗反应与先前报道的hadh突变一致。在这种情况下GLP-1受体的过表达值得进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of clinical endocrinology and metabolism

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