Recurrence of a nonsense mutation in the NF1 gene causing classical neurofibromatosis type 1

Summary The gene responsible for von Recklinghausen neurofibromatosis (NF1) has recently been identified, and several point mutations and deletions have been described. The availability of intron-exon boundaries of several exons of the NF1 gene facilitates the search for mutations in affected patients. We have analysed 38 patients for mutations in exon 4 of the NF1 gene, and found one patient with a CT transition at base position 1087 of the cDNA, changing an arginine codon to a stop codon, at amino acid position 365. Sequencing of other members of the family, including both parents, did not show the mutation, confirming that this mutation is responsible for this sporadic NF1 case. As the mutation described here was previously identified in an independent case by others, this case represents a recurrence of this mutation and suggests that codon 365 might be a hot spot for mutations in the NF1 gene. Thus, a specific search for this mutation should be performed when studying NF1 sporadic or familiar cases for genetic analysis.     

Phenotypic and genetic characterization of novel variant in the NF1 gene underlying neurofibromatosis type 1 in five Chinese families

Science China Life Sciences -     

The R1947X mutation of NF1 causing autosomal dominant neurofibromatosis type 1 in a Chinese family

Neurofibromatosis type 1 is a common autosomal dominant disorder with a high rate of penetrance. It is caused by the mutation of the tumor suppressor gene NF1, which encodes neurofibromin. The main function of neurofibromin is down-regulating the biological activity of the proto-oncoprotein Ras by acting as a Ras-specific GTPase activating protein. In this study, we identified a Chinese family affected with neurofibromatosis type 1. The known gene NF1 associated with NF1 was studied by linkage analysis and by direct sequencing of the entire coding region and exon-intron boundaries of the NF1 gene. The R1947X mutation of NF1 was identified, which was co-segregated with affected individuals in the Chinese family, but not present in unaffected family members. This is the first report, which states that the R1947X mutation of NF1 may be one of reasons for neurofibromatosis type 1 in Chinese population.     

A de novo nonsense mutation in exon 28 of the neurofibromatosis type l (NF1) gene

We have screened a total of 105 unrelated patients with neurofibromatosis type l (NF1) for mutations in exon 28 of the NF1 gene using heteroduplex analysis and single strand conformation polymorphism analysis. One novel mutation has been identified and characterised. This mutation involves a 13-bp deletion (AAACTGGCTGAGC or AACTGGCTGAGCA) from base position 5077 (or 5078) to 5089 (or 5090) of the cDNA coding sequence. This alteration leads to a reading frame shift with a premature amber termination signal (TAG) at codon 1694. In addition, there is a change from lysine to threonine at codon 1693. The truncated gene product is estimated to be 1125 amino acid residues shorter than the predicted normal protein (2818 amino acids).     

Toward a survey of somatic mutation of the NF1 gene in benign neurofibromas of patients with neurofibromatosis type 1

Neurofibromatosis type 1 (NF1), a common autosomal dominant disorder caused by mutations of the NF1 gene, is characterized by multiple neurofibromas, pigmentation anomalies, and a variety of other possible complications, including an increased risk of malignant neoplasias. Tumorigenesis in NF1 is believed to follow the two-hit hypothesis postulated for tumor-suppressor genes. Loss of heterozygosity (LOH) has been shown to occur in NF1-associated malignancies and in benign neurofibromas, but only few of the latter yielded a positive result. Here we describe a systematic approach of searching for somatic inactivation of the NF1 gene in neurofibromas. In the course of these studies, two new intragenic polymorphisms of the NF1 gene, a tetranucleotide repeat and a 21-bp duplication, could be identified. Three tumor-specific point mutations and two LOH events were detected among seven neurofibromas from four different NF1 patients. Our results suggest that small subtle mutations occur with similar frequency to that of LOH in benign neurofibromas and that somatic inactivation of the NF1 gene is a general event in these tumors. The spectrum of somatic mutations occurring in various tumors from individual NF1 patients may contribute to the understanding of variable expressivity of the NF1 phenotype.     

Genotype-phenotype correlation in neurofibromatosis type-1: NF1 whole gene deletions lead to high tumor-burden and increased tumor-growth

Neurofibromatosis type-1 (NF1) patients suffer from cutaneous and subcutaneous neurofibromas (CNF) and large plexiform neurofibromas (PNF). Whole gene deletions of the NF1 gene can cause a more severe phenotype compared to smaller intragenic changes. Two distinct groups of NF1 whole gene deletions are type-1 deletions and atypical deletions. Our aim was to assess volumes and averaged annual growth-rates of CNF and PNF in patients with NF1 whole gene deletions and to compare these with NF1 patients without large deletions of the NF1 gene.We retrospectively evaluated 140 whole-body MR examinations of 38 patients with NF1 whole gene deletions (type-1 group: n = 27/atypical group n = 11) and an age- and sex matched collective of 38 NF1-patients. Age-dependent subgroups were created (0–18 vs >18 years). Sixty-four patients received follow-up MRI examinations (NF1whole gene deletion n = 32/control group n = 32). Whole-body tumor-volumes were semi-automatically assessed (MedX, V3.42). Tumor volumes and averaged annual growth-rates were compared.Median tumor-burden was significantly higher in the type-1 group (418ml; IQR 77 – 950ml, p = 0.012) but not in the atypical group (356ml;IQR 140–1190ml, p = 0.099) when compared to the controls (49ml; IQR 11–691ml). Averaged annual growth rates were significantly higher in both the type-1 group (14%/year; IQR 45–36%/year, p = 0.004) and atypical group (11%/year; IQR 5–23%/year, p = 0.014) compared to the controls (4%/year; IQR1–8%/year). Averaged annual growth rates were significantly higher in pediatric patients with type-1 deletions (21%/year) compared with adult patients (8%/year, p = 0.014) and also compared with pediatric patients without large deletions of the NF1 gene (3.3%/year, p = 0.0015).NF1 whole gene deletions cause a more severe phenotype of NF1 with higher tumor burden and higher growth-rates compared to NF1 patients without large deletions of the NF1 gene. In particular, pediatric patients with type-1 deletions display a pronounced tumor growth.     

A novel mutation in the neurofibromatosis type 1 (NF1) gene promotes skipping of two exons by preventing exon definition

Using a protein truncation assay, we have identified a new mutation in the neurofibromatosis type 1 (NF1) gene that causes a severe defect in NF1 pre-mRNA splicing. The mutation, which consists of a G to A transition at position +1 of the 5' splice site of exon 12a, is associated with the loss of both exons 11 and 12a in the NF1 mRNA. Through the use of in vivo and in vitro splicing assays, we show that the mutation inactivates the 5' splice site of exon 12a, and prevents the definition of exon 12a, a process that is normally required to stimulate the weak 3' splice site of exon 12a. Because the 5' splice site mutation weakens the interaction of splicing factors with the 3' splice site of exon 12a, we propose that exon 11/exon 12a splicing is also compromised, leading to the exclusion of both exons 11 and 12a. Our results provide in vivo support for the importance of the exon definition model during NF1 splicing, and suggest that the NF1 region containing exons 11 and 12a plays an important role in the activity of neurofibromin.     

A missense mutation in the NF2 gene results in moderate and mild clinical phenotypes of neurofibromatosis type 2

Since the identification of the NF2 tumor suppressor gene in 1993, various mutations have been found in NF2-related tumors and in lymphocytes from NF2 patients. Most of the reported mutations result in truncated gene products. Missense mutations affecting the tumor suppressor are rare. These missense mutations would provide valuable information for the understanding of the function of the tumor suppressor, since they should affect critical parts of the protein. In this study we describe a novel point mutation in exon 15 of the NF2 gene, which is found in lymphocyte DNA of two NF2 patients from one family. This mutation is expected to result in a substitution of Pro for Gln at codon 538. Though both of the two patients developed bilateral vestibular schwannomas, the first patient showed onset of the disease at the age of 31 years and presented with various central, peripheral and abdominal tumors, while the second patient showed later onset of clinical symptoms (at age 52 years) and presented with only two additional small spinal tumors.     

Sex differences in mutational rate and mutational mechanism in the NF1 gene in neurofibromatosis type 1 patients

Neurofibromatosis type 1 (NF1) is an autosomal dominant disorder with a prevalence of around 1 in 3500, affecting all ethnic groups. The clinical manifestations of the disease are variable, even among members of the same family, and affect a variety of tissues and cell types, including skin, iris, central and peripheral nervous systems and skeletal system. It has been reported that the majority of sporadic mutations in NF1 arise in paternally inherited alleles. We present here a collaborative study of the parental origin and type of mutation in individuals with de novo NF1, who account for up to a half of all cases of clinically diagnosed NF1. We have studied intragenic and extragenic markers in 470 NF1 families. In 32 of these families it was possible to assess the parental origin of a de novo NF1 mutation either by linkage analysis (in families with three generations) or by the detection of an intragenic deletion in a sporadic NF1 case. Eleven of these 32 families have three generations (the second and third generation being affected), with the mutation (not a large deletion) being of paternal origin in 82% of them (P < 0.05). In the other 21 families an intragenic deletion was detected, in 76% being in the maternal chromosome and in 24% in the paternal one (P < 0.05). Our results suggest that in NF1 the majority of deletions occur in oogenesis, while other types of mutations should account for the paternally derived NF1 mutations. Received: 26 June 1996 / Revised: 1 August 1996     

Characterization and significance of nine novel mutations in exon 16 of the neurofibromatosis type 1 (NF1) gene

Nine novel mutations have been characterized as the result of screening exon 16 of the human NF1 gene in 465 unrelated neurofibromatosis type 1 patients. These lesions include three nonsense and two missense mutations, two deletions, one duplication, and one mutation in the 5′ splice site of intron 16. Although exon 16 is the largest NF1 exon, no mutations have so far been reported in this region. This apparent paucity of lesions may be due either to a reduced functional importance of exon 16 or a screening bias or both. However, consideration of the mutability of exon 16 in comparison with other exons suggests that, at least for single base pair substitutions, no such factors need be invoked. Any previous lack of exon 16 mutations in this category would be explicable in terms of a lower propensity to mutate for codons in this gene region. Received: 1 November 1996 / Revised: 5 December 1996     

A novel and very peculiar HincII polymorphism in the 5' region of the human neurofibromatosis type 1 (NF1) gene

We report a HincII polymorphism in the 5' end of the neurofibromatosis type 1 gene (NF1) as detected with a probe made of exons 1 to 4a (nucleotides 2 to 401 of the cDNA). This HincII site is most probably in an intron. Evidence presented suggests the probe reveals not one but two similar polymorphisms.     

Tightly bound zinc in human immunodeficiency virus type 1, human T-cell leukemia virus type I, and other retroviruses.

Human immunodeficiency virus type 1 (HIV-1) and human T-cell leukemia virus type I (HTLV-I) were purified by sucrose density gradient centrifugation in the presence of 1 mM EDTA. Pelleted gradient fractions were analyzed for total protein, total Gag capsid protein, and total zinc. Zinc was found to copurify and concentrate with the virus particles. Through successive cycles of resuspending in buffer containing EDTA and repelleting, the zinc content remained constant at about 1.7 mol of zinc per mol of Gag protein. Proteins from purified virus (HIV-1 and HTLV-I) were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, blotted to polyvinylidene fluoride paper, and probed with 65ZnCl2. Viral nucleocapsid (NC) proteins (HIV-1 p7NC and HTLV-I p15NC) bound 65Zn2+. Other retroviruses, including simian immunodeficiency virus, equine infectious anemia virus, bovine leukemia virus, Moloney murine leukemia virus, mouse mammary tumor virus, and Mason-Pfizer monkey virus, were found to contain amounts of zinc per milligram of total protein similar to those found in HIV-1 and HTLV-I. Collectively, these data support the hypothesis that retroviral NC proteins function as zinc finger proteins in mature viruses.     

Evidence that a mutation in the MLH1 3'-untranslated region confers a mutator phenotype and mismatch repair deficiency in patients with relapsed leukemia

Defects in DNA mismatch repair (MMR) are the molecular basis of certain cancers, including hematological malignancies. The defects are often caused by mutations in coding regions of MMR genes or promoter methylation of the genes. However, in many cases, despite that a hypermutable phenotype is detected in a patient, no mutations/hypermethylations of MMR genes can be detected. We report here a novel mechanism that a mutation in the MLH1 3'-untranslated region (3'-UTR) leads to MMR deficiency. A relapsed leukemia patient displayed microsatellite instability, but no genetic and epigenetic alterations in key MMR genes were identifiable. Instead, a 3-nucleotide (TTC) deletion in the MLH1 3'-UTR was found in the patient's blood sample. The mutant MLH1 3'-UTR was found to significantly reduce the expressions of both a firefly luciferase reporter gene and an ectopic MLH1 gene in model cell lines. Consistent with these observations, a significant reduction in the steady-state level of MLH1 mRNA was observed in white blood cells of the patient. These findings suggest that the mutant MLH1 3'-UTR can cause a severely reduced/defective MMR activity conferring leukemia relapse, likely by down-regulating MLH1 expression at the mRNA level. Although the exact mechanism by which the mutant 3'-UTR down-regulates the MLH1 mRNA is not known, our findings provide a novel marker for cancers with MMR defects.     

Class I and II HLA genes are associated with susceptibility and age at onset in Finnish families with type 1 diabetes

OBJECTIVES: We explored the properties of the long-term survivor model (LTS) in the genetic association studies and studied allelic and haplotypic associations between the age at onset and partially latent susceptibility of type 1 diabetes (T1DM) and Human Leucocyte Antigen (HLA) A, B and DR loci. METHODS: The authors applied the long-term survivor model (LTS) for sibships collected in a population-based registry during a calendar time period. The method uses sibs that could not become probands and includes the proband's age at onset during the recruitment period. Association between the candidate gene and the partially latent susceptibility is modeled with logistic regression and the age at onset with a two-parameter gamma distribution, where a scale parameter depends on the candidate genotypes. We also performed a simulation study of nuclear families to compare the power of the likelihood ratio tests of the genetic association based on the LTS model with those obtained using family-based association method (FBAT) and bias of the case-pseudo control design. In addition, we analysed allele and haplotype associations between HLA A, B and DR loci (IDDM1) with T1DM, using population-based ascertainment of 705 sibships with complete HLA information. RESULTS: A simulation study showed that the estimates of the genetic association using an ascertainment-corrected LTS model are virtually unbiased and that the relative risk estimates obtained from case-pseudo control design (TDT) are negatively biased. In the analysis of the Finnish T1DM families we found that only B62 (p < 0.05) is positively significantly associated with susceptibility after adjusting for the haplotype effects. Five alleles were significantly associated with age at onset (B8 and DR3, p < 0.01; A2, B60 and DR6, p < 0.05). No significant three-locus haplotype associations with the susceptibility were found, but A3B18DR4 (p < 0.001) haplotype was associated with older age at onset than average. CONCLUSIONS: Estimates of genetic relative risk obtained from the case-pseudo control design are negatively biased and the prospective LTS model is an appropriate choice, when there are non-susceptible subjects in the population with variable age at onset. Based on the analysis of T1DM, we conclude that there are gene(s) in the HLA region that are associated with susceptibility and/or age at onset of T1DM, and this should be taken into account in future studies.