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Haemophilia B, severe childhood obesity and other extra‐haematological features associated with similar 4Mb‐deletions on Xq27: Clinical findings, molecular insights and literature update

Introduction Haemophilia B (HB) is associated with pathogenic variants in F9. Hemizygous deletions encompassing the entire F9 and proximate genes may express extra‐haematological clinical phenotypes. Aim To analyse the genotype/phenotype correlations in two unrelated boys with severe early childhood...

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Published in:Haemophilia : the official journal of the World Federation of Hemophilia 2023-05, Vol.29 (3), p.844-854
Main Authors: Radic, Claudia P., Abelleyro, Miguel M., Ziegler, Betiana, Marchione, Vanina D., Nevado, Julián, Lapunzina, Pablo, Sciuccati, Gabriela, Neme, Daniela, Rossetti, Liliana C., Bonduel, Mariana, De Brasi, Carlos D.
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Language:English
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Summary:Introduction Haemophilia B (HB) is associated with pathogenic variants in F9. Hemizygous deletions encompassing the entire F9 and proximate genes may express extra‐haematological clinical phenotypes. Aim To analyse the genotype/phenotype correlations in two unrelated boys with severe early childhood obesity (SCO), global developmental delay (GDD) and similar bleeding phenotype associated with comparable Xq27 deletions spanning the entire F9 and proximate genes, and characterise the pathogenic events estimating the most likely mutational mechanism involved. Methods Entire F9‐deletions were detected in three hemizygous unrelated probands with HB: two cases, C#1/C#2, presented SCO and GDD and a control patient (Co), who only had severe bleeding symptoms. Dense SNP‐array and case‐specific STS walking scan allowed characterisation of the deletion breakpoints. Extensive use of bioinformatics, statistics and clinical databases allowed the investigation of genotype‐phenotype associations. Results Patients C#1/C#2 and Co resulted in a complete F9 and additional gene deletions of variable extensions on Xq26.3‐Xq27.2 (C#1/C#2/Co: 4.3Mb/3.9Mb/160Kb). C#1/C#2 common deleted gene SOX3 is directly associated with SCO, GDD and pituitary hypothyroidism (PH) whilst C#2 extra‐deleted gene MAGEC2 indirectly relates to anal atresia (AA). Breakpoint analysis revealed the involvement of the mechanisms of Alu/Alu recombination for the first time in HB and non‐homologous or alternative end‐joining. Conclusion Our results represent the first report of unrelated patients with HB, SCO and GDD. This study and the literature update expand the spectrum of clinical findings and molecular insights observed in patients with HB caused by complete F9 and nearby SOX3 and MAGEC2 gene deletions, which may configure a contiguous gene syndrome.
ISSN:1351-8216
1365-2516
DOI:10.1111/hae.14779