Katherine Christensen scite author profile

Encephalocraniocutaneous lipomatosis (ECCL) is a sporadic condition characterized by ocular, cutaneous, and central nervous system anomalies. Key clinical features include a well-demarcated hairless fatty nevus on the scalp, benign ocular tumors, and central nervous system lipomas. Seizures, spasticity, and intellectual disability can be present, although affected individuals without seizures and with normal intellect have also been reported. Given the patchy and asymmetric nature of the malformations, ECCL has been hypothesized to be due to a post-zygotic, mosaic mutation. Despite phenotypic overlap with several other disorders associated with mutations in the RAS-MAPK and PI3K-AKT pathways, the molecular etiology of ECCL remains unknown. Using exome sequencing of DNA from multiple affected tissues from five unrelated individuals with ECCL, we identified two mosaic mutations, c.1638C>A (p.Asn546Lys) and c.1966A>G (p.Lys656Glu) within the tyrosine kinase domain of FGFR1, in two affected individuals each. These two residues are the most commonly mutated residues in FGFR1 in human cancers and are associated primarily with CNS tumors. Targeted resequencing of FGFR1 in multiple tissues from an independent cohort of individuals with ECCL identified one additional individual with a c.1638C>A (p.Asn546Lys) mutation in FGFR1. Functional studies of ECCL fibroblast cell lines show increased levels of phosphorylated FGFRs and phosphorylated FRS2, a direct substrate of FGFR1, as well as constitutive activation of RAS-MAPK signaling. In addition to identifying the molecular etiology of ECCL, our results support the emerging overlap between mosaic developmental disorders and tumorigenesis.

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Deletion and duplication of 15q24: Molecular mechanisms and potential modification by additional copy number variants

El‐Hattab

Zhang

Maxim

et al. 2010

Genetics in Medicine

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Purpose: To investigate the potential influence of additional copy number variants in patients with 15q24 rearrangements and the possible underlying mechanisms for these rearrangements. Methods: Oligonucleotide-based chromosomal microarray analyses were performed, and the results were subsequently confirmed by fluorescence in situ hybridization analyses. Long-range polymerase chain reaction amplification and DNA sequencing analysis were used for breakpoint junction sequencing. Results: We describe a 15-year-old boy with cognitive impairment and dysmorphic features with deletions in 15q24 and 3q21, a 2-month-old female infant with growth deficiency, heterotaxy, cardiovascular malformations, intestinal atresia, and duplications in 15q24 and 16q22, and a 3.5-year-old boy with developmental delay, microcephaly, and dysmorphic features, with duplications in 15q24 and 2q36.3q37.1. Breakpoint sequencing for the 15q24 deletion in the first patient revealed microhomology and suggested the underlying mechanism of either nonhomologous end joining or fork stalling and template switching/microhomology-mediated break-induced replication. Conclusions: The three described patients with 15q24 rearrangements have copy number variants at other loci and exhibit additional clinical features with a more severe phenotype than that observed in previously reported patients with isolated 15q24 rearrangements, suggesting that the genomic mutational load may contribute to the phenotypic severity and variability in patients with 15q24 rearrangements. Genet Med 2010:12(9):573-586.

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Phenotypic spectrum and transcriptomic profile associated with germline variants in TRAF7

Castilla‐Vallmanya

Selmer

Dimartino

et al. 2020

Genetics in Medicine

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Somatic variants in tumor necrosis factor receptor-associated factor 7 (TRAF7) cause meningioma and other cancers, while germline variants have recently been identified in seven patients with a syndrome associating cardiac, facial and digital anomalies with developmental delay. We aimed to define the clinical and mutational spectrum associated with TRAF7 germline variants through identification and description of 45 new patients, and to determine the effects of the variants at a molecular level through transcriptomic analysis of patient fibroblasts.Methods We performed exome, targeted capture and Sanger sequencing in a series of patients with undiagnosed developmental disorders. Phenotypic and mutational comparisons Powered by Editorial Manager® and ProduXion Manager® from Aries Systems Corporation We hope you will consider our manuscript for publication in Genetics in Medicine and we look forward to hearing your response.

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An assessment of the salient olfactory environment of formula-fed infants

Porter

Makin

Davis

et al. 1991

Physiology & Behavior

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