BCL11B-related disease: a single phenotypic entity?

IF 4.6 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY European Journal of Human Genetics Pub Date : 2025-03-03 DOI:10.1038/s41431-025-01824-x

J. Heather Vedovato-dos-Santos, Rebecca S. Tooze, Sivagamy Sithambaram, Emma McCann, Yasemin Alanay, Ozlem A. Dogan, Meltem Kilercik, Aysen Bingol, Memet M. Ozek, David Johnson, Christoffer Nellaker, Andrew O. M. Wilkie, Stephen R. F. Twigg

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Abstract

Craniosynostosis (CRS), the premature fusion of sutures between the skull bones, is characterised by a long “tail” of rare genetic diagnoses. This means that pathogenic variants in many genes are responsible for a minority of cases, and identifying these disease genes and delineating the associated phenotype is extremely important for patient diagnosis and for genetic counselling of families. One such gene is BCL11B. Heterozygous pathogenic variants in BCL11B have been described as causative for two Mendelian phenotypes, but until recently the gene remained only marginally associated with CRS. We have carried out a systematic review of literature, providing evidence that BCL11B-related disease (BRD) should be regarded as a single phenotypic entity. Furthermore, we describe four new patients, all of whom presented with CRS, thus expanding the phenotype of BRD and highlighting CRS as an important diagnostic clue.

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bcl11b相关疾病：单一表型实体？

颅缝闭合症（CRS）是指颅骨之间的缝合线过早融合，其特征是罕见的遗传诊断的长“尾巴”。这意味着许多基因的致病变异是少数病例的原因，识别这些疾病基因并描述相关表型对于患者诊断和家庭遗传咨询极为重要。其中一个基因是BCL11B。BCL11B的杂合致病变异体已被描述为两种孟德尔表型的病因，但直到最近，该基因与CRS的相关性仍然很小。我们对文献进行了系统回顾，提供了bcl11b相关疾病（BRD）应被视为单一表型实体的证据。此外，我们描述了4例新患者，他们都表现为CRS，从而扩大了BRD的表型，并突出了CRS作为重要的诊断线索。

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来源期刊

European Journal of Human Genetics 生物-生化与分子生物学

CiteScore

9.90

自引率

5.80%

发文量

216

审稿时长

2 months

期刊介绍： The European Journal of Human Genetics is the official journal of the European Society of Human Genetics, publishing high-quality, original research papers, short reports and reviews in the rapidly expanding field of human genetics and genomics. It covers molecular, clinical and cytogenetics, interfacing between advanced biomedical research and the clinician, and bridging the great diversity of facilities, resources and viewpoints in the genetics community. Key areas include: -Monogenic and multifactorial disorders -Development and malformation -Hereditary cancer -Medical Genomics -Gene mapping and functional studies -Genotype-phenotype correlations -Genetic variation and genome diversity -Statistical and computational genetics -Bioinformatics -Advances in diagnostics -Therapy and prevention -Animal models -Genetic services -Community genetics