Noonan Syndrome and Related Disorders: A Review of Clinical Features and Mutations in Genes of the RAS/MAPK Pathway

Jorge, Alexander A L; Malaquias, Alexsandra C.; Arnhold, Ivo Jorge Prado; Mendonça, Berenice Bilharinho

doi:10.1159/000201106

Cited by 77 publications

(77 citation statements)

References 101 publications

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“…This protein participates in a wide variety of intracellular signal cascades elicited by a number of growth factors, cytokines and hormones, and is required in several developmental processes (Tartaglia et al, 2001(Tartaglia et al, , 2002. Mutations in the SOS1-, RAF1-, KRAS-, BRAF-, MAP2K1/2-, NRASand SHOC2-gene have been described to account for a small percentage of Noonan syndrome cases (Jorge et al, 2009). The above-mentioned genes, especially mutations in the RAS/MAPK pathway, are not only involved in the pathogenesis of Noonan syndrome but also in four syndromes with clinical features overlapping with Noonan syndrome; Leopard syndrome, Cardiofacio-cutaneous syndrome, Costello syndrome and Neurofibromatosis type 1 (Schubbert et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

Targeted ultrasound examination and DNA testing for Noonan syndrome, in fetuses with increased nuchal translucency and normal karyotype

et al. 2011

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Objective To define sonographic criteria that may improve the prenatal diagnosis of Noonan syndrome by targeted DNA testing.Methods We searched our Fetal Medicine Unit records for all cases with a final diagnosis of Noonan syndrome. A literature review was undertaken to identify the sonographic features of Noonan syndrome fetuses. Information was pooled to define the most common features.Results In our database, we identified three cases of Noonan syndrome. The diagnosis was suspected prenatally in two of them. Thirty-nine cases were identified in the literature. In the presented cases we show that suspicion of Noonan syndrome should arise when, after an increased nuchal translucency, ultrasound investigation in the second trimester shows a persistant nuchal fold (NF) or cystic hygroma in combination with at least one of the following features: hydrops fetalis, pleural effusion, cardiac anomalies, polyhydramnios or specific facial abnormalities. ConclusionPrenatal ultrasound findings in Noonan syndrome can be subtle and aspecific, but when specific characteristics are present additional targeted DNA analysis is indicated.

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Section: Discussionmentioning

confidence: 99%

Targeted ultrasound examination and DNA testing for Noonan syndrome, in fetuses with increased nuchal translucency and normal karyotype

et al. 2011

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“…Although mental retardation and delay on acquisition of developmental milestones are considered usual for patients with NS, our patient showed normal intellect [11]. Coagulation tests of the patient presented here were within normal limits, but bleeding diathesis is well documented in NS patients and involves either platelet dysfunction or factor XI or XII deficiencies [12]. This feature should be considered in the surgical procedures of the syndromic patients.…”

Section: Case Reportmentioning

confidence: 52%

“…Furthermore, giant cell lesions from both NS and cherubism are histologically and immunohistochemically indistinguishable. However, while cherubism is caused by mutations in SH3BP2 gene, NS is genetically heterogeneous and caused by mutations in PTPN11, KRAS, RAF1, MEK1 or SOS1 [12]. PTPN11 mutations are present in 29-60% of cases, and genetic testing should initially include screening of exons 3, 8 and 13, in which 75-80% of defects reside [9].…”

Section: Case Reportmentioning

confidence: 99%

Giant Cell Lesions in Noonan Syndrome: Case Report and Review of The Literature

Bufalino

Carrera

Carlos³

et al. 2010

Head and Neck Pathol

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Noonan-like/multiple giant cell lesion syndrome (NS/MGCLS) is a rare condition with phenotypic overlap with Noonan syndrome (NS). Once thought to be a specific and separate entity, it is now suggested to be a variant of the NS spectrum. We report a patient with classical cardinal features of NS, including short stature, mild ptosis, hypertelorism, down-slating palpebral fissures, low-set and posteriorly angulated ears, short neck, pectus excavatum, widely spaced nipples and cryptochidism, which were associated with bilateral central giant cell lesions in the mandible and germ-line mutation (C218T, Thr73Ile) in the exon 3 of the PTPN11 gene. The similar clinical and genetic aspects support the observation that NS/MGCLS is a variant of NS and giant cell lesions are an integrant part of this disorder.

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“…Indeed, all five samples carried heterozygous mutations in amino acid 12 (G12A, G12S; Table 1), which have previously been described as HRAS gain-of-function mutations in Costello syndrome, as well as various cancers. 8,10,12,13,15,16,37 We next prepared mRNA from fibroblasts from the five Costello syndrome cell lines, as well as two different unaffected individuals (normal 1 and 2), and determined C4ST-1 mRNA levels by qRT-PCR (Figure 1d). Although both normal samples showed high levels of C4ST-1 expression, C4ST-1 mRNA levels were severely reduced in all Costello syndrome samples, with lowest levels observed in C7669 and C563 cells (Figure 1d).…”

Section: Resultsmentioning

confidence: 99%

C4ST-1/CHST11-controlled chondroitin sulfation interferes with oncogenic HRAS signaling in Costello syndrome

et al. 2012

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Costello syndrome is a pediatric genetic disorder linked to oncogenic germline mutations in the HRAS gene. The disease is characterized by multiple developmental abnormalities, as well as predisposition to malignancies. Our recent observation that heart tissue from patients with Costello syndrome showed a loss of the glycosaminoglycan chondroitin-4-sulfate (C4S) inspired our present study aimed to explore a functional involvement of the chondroitin sulfate (CS) biosynthesis gene Carbohydrate sulfotransferase 11/Chondroitin-4-sulfotransferase-1 (CHST11/C4ST-1), as well as an impaired chondroitin sulfation balance, as a downstream mediator of oncogenic HRAS in Costello syndrome. Here we demonstrate a loss of C4S, as well as a reduction in C4ST-1 mRNA and protein expression, in primary fibroblasts from Costello syndrome patients. We go on to show that expression of oncogenic HRAS in normal fibroblasts can repress C4ST-1 expression, whereas interference with oncogenic HRAS signaling in Costello syndrome fibroblasts elevated C4ST-1 expression, thus identifying C4ST-1 as a negatively regulated target gene of HRAS signaling. Importantly, we show that forced expression of C4ST-1 in Costello fibroblasts could rescue the proliferation and elastogenesis defects associated with oncogenic HRAS signaling in these cells. Our results indicate reduced C4ST-1 expression and chondroitin sulfation imbalance mediating the effects of oncogenic HRAS signaling in the pathogenesis of Costello syndrome. Thus, our work identifies C4ST-1-dependent chondroitin sulfation as a downstream vulnerability in oncogenic RAS signaling, which might be pharmacologically exploited in future treatments of not only Costello syndrome and other RASopathies, but also human cancers associated with activating RAS mutations.

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Noonan Syndrome and Related Disorders: A Review of Clinical Features and Mutations in Genes of the RAS/MAPK Pathway

Cited by 77 publications

References 101 publications

Targeted ultrasound examination and DNA testing for Noonan syndrome, in fetuses with increased nuchal translucency and normal karyotype

Targeted ultrasound examination and DNA testing for Noonan syndrome, in fetuses with increased nuchal translucency and normal karyotype

Giant Cell Lesions in Noonan Syndrome: Case Report and Review of The Literature

C4ST-1/CHST11-controlled chondroitin sulfation interferes with oncogenic HRAS signaling in Costello syndrome

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