Compound heterozygous ROBO1 gene variants in a neonate with congenital hypopituitarism, dysmorphic features and midline abnormalities: a case report and review of the literature.

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Journal of pediatric endocrinology & metabolism : JPEM Pub Date : 2025-09-01 DOI:10.1515/jpem-2025-0086

Panagiota Markopoulou, Amalia Sertedaki, Eirini Nikaina, Maria Binou, Ioanna Farakla, Tania Siahanidou, Christina Kanaka-Gantenbein

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Abstract

Objectives: The majority of congenital hypopituitarism (CH) cases remain genetically unexplained. The transmembrane receptor Roundabout-1 (ROBO1), activated through interaction with SLIT-family proteins, plays crucial role in axonal guidance, branching, targeting, and midline axonal crossing. ROBO1 variants have been associated with pituitary stalk interruption syndrome and highly variable pituitary-phenotypes, ranging from isolated growth hormone deficiency (IGHD) to combined pituitary hormone deficiency (CPHD). This study aimed to investigate the genetic basis of CH in a newborn and to review current evidence linking ROBO1 variants with CH.

Case presentation: We report the presence of two ROBO1 variants in compound heterozygosity, the NM_002941:c.2914G>A, p.(Ala972Thr) and the novel NM_002941:c.3757G>A, p.(Val1253Met), as well as the identification of the novel NOTCH3 variant NM_000435:c.1505C>T, p.(Ser502Phe) and the novel GPR161 variant NM_001375883.1:c.1117C>T, p.(His373Tyr), in a newborn with CPHD, dysmorphic features and midline abnormalities.

Conclusions: This case, together with accumulating evidence, supports ROBO1 as a potential causative gene for CH. ROBO1 should be considered during genetic evaluation of patients with CH and midline abnormalities. The co-occurrence of NOTCH3 and GPR161 variants raises the possibility of an oligogenic or multigenic etiology. The cross-talk between ROBO/SLIT and NOTCH signaling pathways may contribute to the complex phenotype observed and warrants further functional investigation.

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复合杂合ROBO1基因变异在新生儿先天性垂体功能低下，畸形特征和中线异常：1例报告和文献复习。

目的：大多数先天性垂体功能低下（CH）病例仍然无法解释遗传原因。跨膜受体Roundabout-1 （ROBO1）通过与slit家族蛋白相互作用激活，在轴突引导、分支、靶向和中线轴突交叉中起着至关重要的作用。ROBO1变异与垂体柄中断综合征和高度可变的垂体表型相关，范围从孤立生长激素缺乏症（IGHD）到联合垂体激素缺乏症（CPHD）。本研究旨在探讨新生儿CH的遗传基础，并回顾目前将ROBO1变异与CH联系起来的证据。病例介绍：我们报告了复合杂合性NM_002941:c中存在两个ROBO1变异。2914G>A, p.（Ala972Thr）和新NM_002941:c。3757G>A, p.(Val1253Met)，以及新的NOTCH3变体NM_000435:c的鉴定。1505C>T, p.（Ser502Phe）和新的GPR161变体NM_001375883.1:c。1117C>T, p.(His373Tyr)，新生儿CPHD，畸形特征和中线异常。结论：本病例和越来越多的证据支持ROBO1是CH的潜在致病基因，在对CH和中线异常患者进行遗传评估时应考虑ROBO1。NOTCH3和GPR161变异的共同出现增加了低基因或多基因病因的可能性。ROBO/SLIT和NOTCH信号通路之间的相互作用可能导致观察到的复杂表型，需要进一步的功能研究。

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Journal of pediatric endocrinology & metabolism : JPEM

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