This report presents two families with interstitial 11q24.2q24.3 deletion, associated with malformations, hematologic features, and typical facial dysmorphism, observed in Jacobsen syndrome (JS), except for intellectual disability (ID). The smallest 700 Kb deletion contains only two genes: FLI1 and ETS1, and a long noncoding RNA, SENCR, narrowing the minimal critical region for some features of JS. Consistent with recent literature, it adds supplemental data to confirm the crucial role of FLI1 and ETS1 in JS, namely FLI1 in thrombocytopenia and ETS1 in cardiopathy and immune deficiency. It also supports that combined ETS1 and FLI1 haploinsufficiency explains dysmorphic features, notably ears, and nose anomalies. Moreover, it raises the possibility that SENCR, a long noncoding RNA, could be responsible for limb defects, because of its early role in endothelial cell commitment and function. Considering ID and autism spectrum disorder, which are some of the main features of JS, a participation of ETS1, FLI1, or SENCR cannot be excluded. But, considering the normal neurodevelopment of our patients, their role would be either minor or with an important variability in penetrance. Furthermore, according to literature, ARHGAP32 and KIRREL3 seem to be the strongest candidate genes in the 11q24 region for other Jacobsen patients.
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Prenatal diagnosis of Jacobsen syndrome associated with a distal 11q deletion and a distal 8q duplication by chromosome microarray analysis in a fetus with a de novo unbalanced translocation of 46,XX,der(11)t(8;11)(q24.13;q23.3) and multiple congenital anomalies on fetal ultrasound.
Taiwan J Obstet Gynecol
November 2024
Department of Medical Research, MacKay Memorial Hospital, Taipei, Taiwan.
Article Synopsis
- The study discusses the prenatal diagnosis of Jacobsen syndrome in a 41-year-old pregnant woman, which was linked to specific chromosomal abnormalities detected through advanced genetic testing.
- The fetus exhibited multiple congenital anomalies including growth restrictions, heart defects, and physical deformities, prompting amniocentesis for further analysis.
- Chromosome microarray analysis (CMA) revealed significant deletions and duplications in chromosomes 11 and 8, respectively, confirming the diagnosis and illustrating the effectiveness of CMA in identifying complex genetic issues in prenatal cases.
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