Neurofibromatosis laríngea: a propósito de un caso / Laryngeal neurofibromatosis: a case report

Resumen El neurofibroma laríngeo es poco frecuente, representa menos del 0,1% de las neoplasias benignas de la laringe. Puede presentarse aislado, o más comúnmente asociado a neurofibromatosis tipo I. Se presenta el caso de un paciente varón de 40 años, ya diagnosticado de neurofibromatosis tipo I, que presenta masa supraglótica submucosa asintomática, diagnosticada como hallazgo casual en una intubación por una cirugía previa programada.

Abstract Laryngeal neurofibroma is rare, representing less than 0.1% of benign tumors of the larynx. It can occur in isolation or more commonly associated with type I neurofibromatosis. The case of a 40-year-old male patient, already diagnosed with type I neurofibromatosis, is presented with an asymptomatic submucosal supraglottic mass, diagnosed as a chance finding in intubation due to a previous scheduled surgery.

Mechanism study of neurofibromin 1 in gallbladder cancer / 中华消化外科杂志

Objective:To investigate the mechanism of neurofibromin 1 (NF1) in gallbla-dder cancer.Methods:The experimental study was conducted. Human gallbladder cancer cell lines, including GBC-SD, NOZ, SGC996, EH-GB1, ZJU0428, human embryonic kidneys cell line 293T and human cervical cancer cell line HELA, were cultured. The recombinant plasmids (mRFP-YAP1 FL-FLAG and eGFP-MYC-NF1 2650?2750-HA) were constructed for co-immunoprecipitation experiment. The truncated Yes associated protein 1(YAP1) and NF1 recombinant proteins were purified in vitro. The interaction between NF1 and YAP1 in vitro or in vivo were verified by isothermal titration calori-metry (ITC) assay, GST pull-down experiment, co-immunoprecipitation, immunofluorescence, laser confocal microscopy, and the expression of NF1 protein in different gallbladder cancer cell lines was verified by Western blot experiments. Observation indicators: (1) interaction between NF1 and YAP1 in vitro; (2) interaction between NF1 and YAP1 in cells; (3) expression of NF1 protein in different human gallbladder cancer cell lines. The dissociation constants were exported from ITC 200 software and represented as Mean± SD. Count data were represented as absolute numbers. Results:(1) Interaction between NF1 and YAP1 in vitro. ① Results of ITC assay showed that there was interac-tion between PPQY and YAP1-WW1, between PPQY and YAP1 (Amino acid residues 162?275), and the dissociation constants between PPQY and YAP1-WW1, between PPQY and YAP1(Amino acid residues 162?275) were (0.42±0.06)mmol/L, (0.69±0.14)mmol/L, respectively. ② GST pull-down results indicated that the target protein His-Sumo-YAP1 WW1 was obviouly observed in protein lane of reaction system between GST-PPQY recombinant protein and His-Sumo-YAP1 WW1, relative to the reaction system between GST protein and His-Sumo-YAP1 WW1. The target protein His-Sumo-YAP1 WW2 was obviouly observed in protein lane of reaction system between GST-PPQY recombinant protein and His-Sumo-YAP1 WW2, relative to the reaction system between GST protein and His-Sumo-YAP1 WW2. (2) Interaction between NF1 and YAP1 in cells. ① Co-immunoprecipitation results indica-ted that NF1 protein was observed in cell lysis solution which was incubated by FLAG gel beads and cotransfected with mRFP-YAP1 FL-FLAG and eGFP-MYC-NF1 2650?2750-HA. ② Immuno-fluorescence and laser confocal microscopy results indicated that YAP1 and NF1 with obvious fluorescence were co-localized in the cytoplasm of human gallbladder cancer NOZ cells. However, YAP1 with obvious fluorescence was localized in the nucleus of human gallbladder SGC996 cells and NF1 showed weak fluorescence. (3) Expression of NF1 protein in different human gallbladder cancer cell lines. Western blot results showed that with the expression level of NF1 protein in HELA cell line as the standard, the relative expression levels of NF1 protein in EH-GB1, GBC-SD, NOZ, SGC996, ZJU0428 cell lines were 1.28, 0, 1.01, 0, 0, respectively. Conclusion:NF1 affects the gallbladder cancer by directly acting on YAP1 protein.

Preimplantation genetic testing and prenatal diagnosis in a family with type Ⅰ neurofibromatosis / 中华围产医学杂志

We report the implantation genetic testing and prenatal diagnosis of a family with neurofibromatosis type I (NF1). High-throughput sequencing combined with multiplex ligation-dependent probe amplification was performed to identify the pathogenic mutation sites, then verified by Sanger sequencing. The pathogenic mutation of c.4172G>C in the NF1 gene was found in the proband and his mother. After sequencing and single nucleotide polymorphism (SNP) haplotyping of the mutation sites in the embryos by establishing the SNP-linked haplotype, a well-developed blastocyst, without pathogenic mutations, was transplanted, and 28 d later, the ultrasound confirmed that the patient was pregnant. Amniotic fluid samples of the fetus were obtained at 19 +3 weeks for karyotyping and detection of the gene mutation site, which found the fetus did not carry the maternal c.4172G>C mutation of NF1 gene or any copy number variants of clear clinical significance. The patient delivered a healthy term girl by cesarean section, and no significant abnormalities were found during the follow-up to 10 months of age.

A Novel c.6766_6767insAA Mutation in the Neurofibromin Gene in a Patient with Neurofibromatosis Type 1-Associated Glioblastoma / 대한소아신경학회지

Neurofibromatosis type 1 (NF-1) is an autosomal dominant neurocutaneous syndrome caused by mutations in the neurofibromin gene. NF-1 patients have a high risk of tumors, and optic glioma is the most commonly observed central nervous system tumor in these patients. However, glioblastoma is extremely rare in pediatric NF-1 patients. Here we report the discovery of a novel heterozygous c.6766_6767insAA (p.Ser2256Lysfs*4), pathogenic mutation in the neurofibromin gene in a 17-year-old boy with NF-1-associated glioblastoma.

Neurofibromatosis tipo 1 (NF1) y su diagnóstico molecular como estrategia del diagnóstico diferencial y a edades tempranas / Molecular diagnosis as a strategy for differential diagnosis and at early ages of neurofibromatosis type 1 (NF1)

Neurofibromatosis type 1 (NF1), is a haploinsufficient and multisystemic disease, caused by inherited or sporadic mutations in the NF1 gene. Its incidence is one in 2,500 to 3,000 individuals, it has an autosomal dominant pattern of inheritance, high clinical variability, complete penetrance and age-dependent complications. Neurofibromin is the product of the NF1 gene and is believed to act as a tumor suppressor since the loss of its function has been associated with benign and malignant tumors in neural crest-derived tissues. Only two correlations between clinical phenotype and mutant alleles in the NF1 gene have been observed. The established criteria for disease diagnosis are very efficient in adults and children older than 3 years of age, but not for children under this age. Mutational analysis is therefore recommended to confirm the disease in young children with a negative family history. A pathogenic mutation in the NF1 should be added to the list of diagnostic criteria. Mutational analysis is also recommended for differential diagnosis and for prenatal or pre-implantation genetic diagnosis, taking into consideration the family history and the type of method to be applied. Molecular studies of this disease using different complimentary molecular techniques and bioinformatics tools have characterized NF1 gene mutations at both the DNA and mRNA levels, increasing the mutational spectrum. Consequently, about 1,289 defects have been reported to date, mainly nonsense/missense mutations, deletions and splice site defects.

Biological features of osteoblasts isolated from patients with type Ⅰ neurofibromatosis / 中华骨科杂志

Objective To detect the neurofibromin expression and observe the biological features of the osteoblasts of patients with type 1 neurofibromatosis and scoliosis. Methods 10 cases of congenital scoliosis and 8 cases of NF1 scoliosis were chosen. The two groups were with the similar age(with the average of 11.7 years and 12.5 years) and Cobb angle(with the average of 85? and 94?). Cancellous bone was harvested from the ilia and the bone explants culture system was used. Proliferation of the osteoblasts, and also the specific differentiation index including alkaline phosphatase, type Ⅰ collagen and osteocalcin was assayed in sewnd generation osteoblasts. Neurofibromin expression in the two kinds of osteoblasts was detected with immunoprecipitation followed by Western blot. Results Compared to the osteoblasts of patients with congenital scoliosis, lower level of neurofibromin was expressed in osteoblasts of patients with NF1 scoliosis, (the OD value was 1.05?0.06 and 2.59?1.40 respectively, P=0.002). The level of alkaline phosphatase, type Ⅰ collagen and osteocalcin were significant lower in osteoblasts of patients with NF1 scoliosis than those of CS patients (44.69 IU/mg vs 51.38 IU/mg, P=0.019; 226.34 ng/mg vs 249.93 ng/mg, P=0.014; 7.41 ng/mg vs 8.87 ng/mg, P=0.049). But the proliferation rate of the NF1 osteoblasts was significant higher than that of the CS osteoblasts (3.34 and 2.70 respectively, P=0.049). Conclusion With the decrease of neurofibromin expression, the NF1 osteoblasts show some defects in their function, these function defects may contribute to varieties of skeletal abnormalities as dystrophic change and decreased bone density.