Identification of bi-allelic LFNG variants in three patients and further clinical and molecular refinement of spondylocostal dysostosis 3.
Mauro LeccaMaria Francesca BedeschiClaudia IzziChiara DordoniBerardo RinaldiFrancesca PelusoStefano Giuseppe CaraffiFederico PrefumoMarino SignorelliMatteo ZanzucchiSilvia BioneClaudia GhignaSilvia SassiAntonio NovelliEnza Maria ValenteAndrea Superti-FurgaLivia GaravelliEdoardo ErrichielloPublished in: Clinical genetics (2023)
Spondylocostal dysostosis (SCD), a condition characterized by multiple segmentation defects of the vertebrae and rib malformations, is caused by bi-allelic variants in one of the genes involved in the Notch signaling pathway that tunes the "segmentation clock" of somitogenesis: DLL3, HES7, LFNG, MESP2, RIPPLY2, and TBX6. To date, seven individuals with LFNG variants have been reported in the literature. In this study we describe two newborns and one fetus with SCD, who were found by trio-based exome sequencing (trio-ES) to carry homozygous (c.822-5C>T) or compound heterozygous (c.[863dup];[1063G>A]) and (c.[521G>T];[890T>G]) variants in LFNG. Notably, the c.822-5C>T change, affecting the polypyrimidine tract of intron 5, is the first non-coding variant reported in LFNG. This study further refines the clinical and molecular features of spondylocostal dysostosis 3 and adds to the numerous investigations supporting the usefulness of trio-ES approach in prenatal and neonatal settings.
Keyphrases
- copy number
- signaling pathway
- end stage renal disease
- systematic review
- pregnant women
- deep learning
- ejection fraction
- newly diagnosed
- convolutional neural network
- chronic kidney disease
- epithelial mesenchymal transition
- preterm infants
- early onset
- oxidative stress
- peritoneal dialysis
- genome wide
- machine learning
- cell proliferation
- single molecule
- endoplasmic reticulum stress