PHENOTYPIC CONSEQUENCES AND THE MALIGNANCY RISK IN FAMILIAL NOONAN SYNDROME DUE TO A RARE P.S427G RAF1 MUTATION.
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Mutations leading to dysregulation of the Ras/MAPK signal transduction cascade are a common cause of Noonan syndrome (NS) and play a key role in the pathogenesis of many human malignancies. To date, about 24 various RAF1 germline mutations were identified in NS. The incidence of malignancies in NS patients with RAF1 mutations has not been reported so far. However, in a few cases somatic RAF1 mutations were observed in cancer, including two described in therapy-related acute myeloid leukaemia (t-AML). We present a case of an adult female patient with Noonan syndrome and her affected mother with a rare RAF] germline mutation c.1279A>G (p.S427G), located within the highly conserved domain (CR3) of serine/threonine kinase C-RAF. Interestingly, this mutation has been reported for the first time in a patient with t-AML as a somatic change and so far has been identified in only one individual with NS phenotype and his mother. Our report presents the second familial case of Noonan syndrome due to a germline p.S427G substitution in RAF] with no occurrence of a malignant tumor. It may suggest that carrying a germline mutation in the RAF1 oncogene is not associated with an increased risk of tumor development. Since RAF1 mutations have been observed as a somatic event in many types of cancer, this report might be of importance for the genetic counselling and management of patients both with germline and somatic alterations in this gene.Keywords:
Noonan Syndrome
Costello syndrome
Germline mosaicism
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Costello syndrome is a rare congenital anomaly syndrome associated with mental retardation and predisposition to benign and malignant tumors, caused by heterozygous missense mutations in the HRAS oncogene. Previously, all molecularly analyzed mutations appeared de novo, and most arose in the paternal germline. A single patient with somatic mosaicism for a Costello syndrome causing HRAS mutation has been reported. Here we describe the first documented transmission of an HRAS mutation from a parent with somatic mosaicism to a child with typical Costello syndrome. Prior to the identification of the underlying gene mutation in Costello syndrome, this family had been identified clinically. The proband was subsequently found to carry a G12S HRAS germline mutation. Testing of the parents for parental origin identified his father as mosaic for the same HRAS mutation. The mother was found not to carry an HRAS mutation. The causative familial mutation is identified as a c.34G > A, which is the most common mutation in the HRAS gene in patients with Costello syndrome. The father carries the mutation in 7-8% of his alleles. This is the second case of mosaicism observed in Costello syndrome and the first direct molecular evidence of father-to-son transmission of the disease-causing mutation. Our observation underlines the importance of parental evaluation, and may have implications for genetic counseling and clinical practice.
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Mutations leading to dysregulation of the Ras/MAPK signal transduction cascade are a common cause of Noonan syndrome (NS) and play a key role in the pathogenesis of many human malignancies. To date, about 24 various RAF1 germline mutations were identified in NS. The incidence of malignancies in NS patients with RAF1 mutations has not been reported so far. However, in a few cases somatic RAF1 mutations were observed in cancer, including two described in therapy-related acute myeloid leukaemia (t-AML). We present a case of an adult female patient with Noonan syndrome and her affected mother with a rare RAF] germline mutation c.1279A>G (p.S427G), located within the highly conserved domain (CR3) of serine/threonine kinase C-RAF. Interestingly, this mutation has been reported for the first time in a patient with t-AML as a somatic change and so far has been identified in only one individual with NS phenotype and his mother. Our report presents the second familial case of Noonan syndrome due to a germline p.S427G substitution in RAF] with no occurrence of a malignant tumor. It may suggest that carrying a germline mutation in the RAF1 oncogene is not associated with an increased risk of tumor development. Since RAF1 mutations have been observed as a somatic event in many types of cancer, this report might be of importance for the genetic counselling and management of patients both with germline and somatic alterations in this gene.
Noonan Syndrome
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Germline instability at human minisatellites frequently involves complex inter-allelic transfers of repeat units usually restricted to one end of the repeat array and apparently regulated by flanking DNA. In contrast, nothing is known about the structural basis of somatic instability at minisatellites. An electrophoretic size-enrichment strategy was therefore developed at minisatellite MS32 ( D1S8 ) to enable rare abnormal-length mutants to be detected, validated and quantitated in blood DNA by single molecule PCR. Structural analysis of rare mutant alleles in blood revealed simple deletions/duplications of repeat unit blocks located at random along the tandem repeat array, a mode of mutation completely different from that seen in sperm. Furthermore, allele-specific suppression of sperm instability at MS32 did not affect somatic instability. These data suggest that conversion-based minisatellite mutation in sperm is completely germline-specific and most likely meiotic in origin. Somatic instability appears to occur by a separate pathway involving replication slippage or, more likely, intra-allelic unequal crossing over.
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Germline mutations cause or predispose to most disease. Hemophilia B is a useful model for studying the underlying pattern of recent germline mutations in humans because the observed pattern of mutation in factor IX more closely reflects the underlying pattern of mutation than the observed pattern for many other genes. In addition, it is possible to identify and correct for biases inherent in ascertaining only those mutations that cause hemophilia. Aspects of the pattern of germline mutation in the factor IX gene are becoming clear: 1) in the United States, two-thirds of mutations causing mild disease arose from three founders whereas almost all the mutations resulting in either moderate or severe disease arose independently, generally within the past 150 years; 2) direct estimates of the rates of mutation in humans indicate that transitions are more frequent than transversions, which in turn are more frequent than deletions and insertions; 3) transitions at CpG are elevated approximately 24-fold relative to transitions at non-CpG dinucleotides; 4) transversions at CpG are elevated approximately eightfold relative to transversions at non-CpG dinucleotides; 5) the sum total of the dinucleotide mutation rates produces a bias against G and C bases that would be sufficient to maintain the G+C content of the factor IX gene at its evolutionarily conserved level of 40%; and 6) the pattern of mutation is similar for Caucasians residing in the United States and for Asians residing in Asia. Two ideas emerge from this and from an analysis of the pattern of recent deleterious mutations compared with ancient neutral mutations that have been fixed during evolution into the factor IX gene. First, the bulk of germline mutations are likely to arise from endogenous processes rather than environmental mutagens. Second, the factor IX protein is composed mostly of two classes of amino acids: critical residues in which all single-base missense changes will disrupt protein function, and "spacer" residues in which the precise nature of the residue is unimportant but the peptide bond is necessary to keep the critical residues in register. More work is necessary to assess the veracity and generality of these ideas.
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Mutations with a deleterious effect that is expressed after the average reproductive period are not effectively selected against and can accumulate in the germline. A conservative estimate is that at least 1–2% of new deleterious mutations affect some aspect of DNA replication, repair, or chromosome segregation. Since deleterious mutations can have an effect even as heterozygotes, this mutation accumulation can create an inherited background of late-acting mutations that themselves enhance mutation rate. This can have an interactive effect, in that it may increase the rate of somatic mutation during an individual's lifetime. The aging individual therefore becomes increasingly mosaic for somatic mutations, which in turn could potentially contribute to the gradual deterioration of biological processes and influence what we experience as senescence. Interventions that reduce somatic and germ cell mutations should, therefore, reduce the aging process in present and future generations.
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