Integrative Role of the SALL4 Gene: From Thalidomide Embryopathy to Genetic Defects of the Upper Limb, Internal Organs, Cerebral Midline, and Pituitary.

IF 2.6 3区医学 Q3 ENDOCRINOLOGY & METABOLISM Hormone Research in Paediatrics Pub Date : 2024-01-01 Epub Date: 2023-06-07 DOI:10.1159/000531452

Aneta Kodytková, Petra Dušátková, Shenali Anne Amaratunga, Lukáš Plachý, Štěpánka Průhová, Jan Lebl

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Abstract

Background: The thalidomide disaster resulted in tremendous congenital malformations in more than 10,000 children in the late 1950s and early 1960s.

Summary: Although numerous putative mechanisms were proposed to explain thalidomide teratogenicity, it was confirmed only recently that thalidomide, rather its derivative 5-hydroxythalidomide (5HT) in a complex with the cereblon protein, interferes with early embryonic transcriptional regulation. 5HT induces selective degradation of SALL4, a principal transcriptional factor of early embryogenesis. Genetic syndromes caused by pathogenic variants of the SALL4 gene phenocopy thalidomide embryopathy with congenital malformations ranging from phocomelia, reduced radial ray, to defects of the heart, kidneys, ear, eye, and possibly cerebral midline and pituitary. SALL4 interacts with TBX5 and a handful of other transcriptional regulators and downregulates the Sonic hedgehog signaling pathway. Cranial midline defects, microcephaly, and short stature due to growth hormone deficiency have been occasionally reported in children carrying SALL4 pathogenic variants associated with generalized stunting of growth rather than just the loss of height attributable to the shortening of leg bones in many children with thalidomide embryopathy.

Key messages: Thus, SALL4 joins the candidate gene list for monogenic syndromic pituitary insufficiency. In this review, we summarize the journey from the thalidomide disaster through the functions of the SALL4 gene to its link to the hormonal regulation of growth.

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SALL4 基因的整合作用：从沙利度胺胚胎病到上肢、内脏器官、大脑中线和脑垂体的遗传缺陷。

背景：摘要：尽管人们提出了许多解释沙利度胺致畸性的假定机制，但直到最近才证实沙利度胺及其衍生物 5-羟基酞胺（5HT）与脑龙蛋白的复合物干扰了早期胚胎的转录调控。5HT 可诱导早期胚胎发生的主要转录因子 SALL4 的选择性降解。由 SALL4 基因致病变体引起的遗传综合征表现为沙利度胺胚胎病，先天性畸形包括畸形趾骨、桡骨畸形、心脏、肾脏、耳、眼缺陷，可能还包括大脑中线和垂体缺陷。SALL4 与 TBX5 和其他一些转录调节因子相互作用，并下调音速刺猬信号通路。偶尔有报道称，携带 SALL4 致病变体的儿童会因生长激素缺乏而出现颅中线缺陷、小头畸形和身材矮小，这些变体与全身性生长发育迟缓有关，而不仅仅是许多沙利度胺类药物胚胎病患儿因腿骨缩短而导致的身高损失：因此，SALL4 成为单基因综合征垂体机能不全的候选基因之一。在这篇综述中，我们总结了从沙利度胺灾难到 SALL4 基因的功能，再到它与生长的激素调节之间的联系。

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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来源期刊

Hormone Research in Paediatrics ENDOCRINOLOGY & METABOLISM-PEDIATRICS

CiteScore

4.90

自引率

6.20%

发文量

审稿时长

4-8 weeks

期刊介绍： The mission of ''Hormone Research in Paediatrics'' is to improve the care of children with endocrine disorders by promoting basic and clinical knowledge. The journal facilitates the dissemination of information through original papers, mini reviews, clinical guidelines and papers on novel insights from clinical practice. Periodic editorials from outstanding paediatric endocrinologists address the main published novelties by critically reviewing the major strengths and weaknesses of the studies.