Genomic Insights into Short Stature in Children Born Small for Gestational Age: A Korean Multicenter Exome Study.

IF 5.1

The Journal of clinical endocrinology and metabolism Pub Date : 2025-09-26 DOI:10.1210/clinem/dgaf533

Yena Lee, Hwal Rim Jeong, Eun Young Kim, Eu-Seon Noh, Hye Young Jin, Eun Byul Kwon, Hye Jin Lee, Sang Hee Park, Young-Jun Seo, Go Hun Seo, Su Jin Kim, Ji-Eun Lee, Nan Young Kim, Sangkyoon Hong, Min Jae Kang, Il Tae Hwang

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Abstract

Context: Most infants born small for gestational age (SGA) experience catch-up growth within two years, while 10‒15% remain short. The cause of this persistent growth failure remains unknown.

Objective: To investigate the genetic causes of SGA with short stature (SGA-SS) due to failure of catch-up growth.

Methods: A total of 191 children from multicenter SGA-SS cohorts across seven hospitals in South Korea underwent whole-exome sequencing. Identified copy number variants (CNVs) were confirmed via chromosomal microarray analysis.

Results: Genetic variants were identified in 34 children (17.8% diagnostic rate). CNVs accounted for 50% (17/34), including six children with 22q11.2 microdeletion syndrome, predominantly exhibiting mild dysmorphic features without severe intellectual disability (ID), developmental delay (DD) or severe anomalies. Single-nucleotide variants (SNVs) were identified in 17 children (17/34, 50%). One had compound heterozygous mutations in SLC26A2, one likely pathogenic mutation, and another of uncertain significance. The remaining children had heterozygous variants, including 5 pathogenic variants in COL2A1, ACAN, SALL1, TAOK1, ANKRD11 and 11 likely pathogenic variants in PIK3R1, PLAG1, SCUBE3, COL9A2 [in two patients], SMAD4, PTPN11 [in two patients], CDKN1C, ACAN, NF1. A novel familial Silver-Russell syndrome case was linked to a CDKN1C mutation. Genetic causes were identified in 14 (58.3%) of 24 patients with ID/DD: 9 with CNVs and 5 with SNVs.

Conclusion: SGA-SS has a heterogeneous genetic basis, with CNVs significantly contributing. The variable presentation of 22q11.2 microdeletion syndrome highlights its relevance. A genetic diagnosis is more likely in familial cases or those with ID/DD, supporting the utility of genetic testing.

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在出生时胎龄小的儿童矮小身材的基因组见解：一项韩国多中心外显子组研究。

背景：大多数出生时小于胎龄（SGA）的婴儿在两年内经历了追赶性生长，而10-15%的婴儿仍然矮小。这种持续生长失败的原因尚不清楚。目的：探讨追赶生长失败导致SGA- ss身材矮小的遗传原因。方法：来自韩国7家医院多中心SGA-SS队列的191名儿童进行了全外显子组测序。通过染色体微阵列分析确定拷贝数变异（CNVs）。结果：34例患儿发现遗传变异，诊断率为17.8%。CNVs占50%(17/34)，包括6例22q11.2微缺失综合征患儿，主要表现为轻度畸形特征，无严重智力残疾（ID）、发育迟缓（DD）或严重异常。17例儿童（17/ 34,50 %）发现单核苷酸变异（snv）。其中一个在SLC26A2中有复合杂合突变，一个可能是致病突变，另一个意义不确定。其余患儿为杂合变异体，包括COL2A1、ACAN、SALL1、TAOK1、ANKRD11 5个致病变异体，PIK3R1、PLAG1、SCUBE3、COL9A2[2例]、SMAD4、PTPN11[2例]、CDKN1C、ACAN、NF1 11个可能致病变异体。一个新的家族性银罗素综合征病例与CDKN1C突变有关。24例ID/DD患者中有14例（58.3%）确定了遗传原因：9例为CNVs， 5例为SNVs。结论：SGA-SS具有异质性遗传基础，其中CNVs起着重要作用。22q11.2微缺失综合征的可变表现突出了其相关性。遗传诊断在家族性病例或ID/DD患者中更有可能，这支持了基因检测的效用。

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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