Fatal leukodystrophy in Costello syndrome: a case report.

BACKGROUND: Costello syndrome (CS) is a rare genetic condition characterized by dysregulation of the signaling pathway, phenotypic alteration due to fetal macrosomia or growth retardation, facial abnormalities, loose skin, cardiovascular abnormalities, and a variable degree of intellectual disability. CASE PRESENTATION: We describe the case of a 20-month-old male patient with fetal macrosomia and polyhydramnios, presenting psychomotor development delay and growth limitation during the first months of life. CS was diagnosed at four months of age after detecting a variant of the HRAS gene c.35G > C (p.G12A). A clinical description of his condition was recorded throughout his life, including cardiovascular diseases, endocrine disorders, and recurrent infections. At 20 months of age, after presenting events of marked hypotonia and generalized seizures, brain magnetic resonance revealed symmetrical lesions of the infra- and supratentorial white matter in both cerebral hemispheres, which resulted in the diagnosis of cerebral leukodystrophy. The patient had a rapid and progressive deterioration that eventually led to death. CONCLUSIONS: This is the first report of a case of CS in Peru. In addition, this is a case that presented with multisystemic conditions culminating in leukodystrophy, which is a rare event according to the literature.

Dermatological manifestations, management, and care in RASopathies.

RASopathies are rare genetic disorders caused by germline pathogenic variants in genes belonging to the RAS/MAPK pathway, which signals cell proliferation, differentiation, survival and death. The dysfunction of such signaling pathway causes syndromes with overlapping clinical manifestations. Skin and adnexal lesions are the cardinal clinical signs of RASopathies, such as cardiofaciocutaneous syndrome, Noonan syndrome with multiple lentigines, formerly known as LEOPARD syndrome, Costello syndrome, neurofibromatosis (NF1), Legius syndrome, Noonan-like syndrome with loose anagen hair (NSLH) and Noonan syndrome. As NF1, one of the most common RASopathies, described in 1882, has its clinical features well delineated, we will focus on the dermatological diagnosis, management and care of non-NF1 RASopathies, which are less known and more recently described. Dermatological manifestations are important clinical diagnostic elements that can aid differential diagnosis among RASopathies. They can affect dermis and epidermis, causing pigmented lesions (melanocytic nevi, café-au-lait spots, and lentigines), hyperkeratosis (keratosis pilaris, ulerythema ophryogenes, and palmoplantar keratosis) or hyperplasia. To date there are rare known links to malignancy, but oftentimes skin lesions require close attention because they can highly affect quality of life.

Clinical and molecular characterization of Costello syndrome in unrelated Mexican patients.

This study intends to describe for the first time a cohort of Mexican patients with Costello syndrome. The five exons of the HRAS gene were amplified in DNA samples from 13 patients with a clinical suspicion of Costello syndrome. PCR products were sequenced using the Ready Reaction Big Dye Terminator v.3.0 Kit and an ABI PRISM 310 sequencer. Only five patients (38%) showed causal variant in codon 12 of the HRAS gene (four with the p.Gly12Ser and one with the p.Gly12Ala variant). Three patients showed silent polymorphic variants (p.His27His and p.Leu159Leu). Clinical features in patients carrying the causal variant were variable. The alternative diagnosis of cardio-facio-cutaneous syndrome was considered in patients who did not have a causative variant in HRAS.

Clinical and molecular characterization of children with Noonan syndrome and other RASopathies in Argentina. / Caracterización clínica y molecular de niños con síndrome de Noonan y otras RASopatías en Argentina.

INTRODUCTION: RASopathies are a set of syndromes with phenotypic overlapping features caused by gene mutations involved in the RAS/MAPK pathway. They are autosomal dominantly inherited and share common clinical characteristics, including short stature, craniofacial dysmorphisms, congenital heart disease, ectodermal manifestations, and a higher risk for cancer. A molecular diagnosis is a key factor. OBJECTIVE: To identify PTPN11, SOS1, RAF1, BRAF, and HRAS mutations and compare the main clinical characteristics of patients with molecular confirmation. Population and methods. Children with a clinical diagnosis of RASopathy assessed between August 2013 and February 2017. RESULTS: Mutations were identified in 71 % (87/122) of patients. The molecular test confirmed diagnosis in 73 % of patients with Noonan syndrome. The most prevalent mutation was c.922A>G (p.Asn308Asp) in the PTPN11 gene. A previously undescribed variant in RAF1 was detected: c.1467G>>C (p.Leu489Phe). Cardiofaciocutaneous syndrome was confirmed in 67 % of cases with BRAF mutations. Costello syndrome and Noonan syndrome with multiple lentigines were confirmed in all cases. CONCLUSION: The confirmation of clinical diagnosis allowed for a more accurate differential diagnosis. The prevalence of PTPN11 (58 %), SOS1 (10 %), and RAF1 mutations (5 %) in children with Noonan syndrome, of PTPN11 mutations (100 %) in those with Noonan syndrome with multiple lentigines, of BRAF mutations (67 %) in those with cardiofaciocutaneous syndrome, and of HRAS mutations (100 %) in those with Costello syndrome was determined.

Introducción. Las RASopatías son un conjunto de síndromes fenotípicamente superpuestos causados por mutaciones en genes implicados en la vía RAS/MAPK. La herencia es autosómica dominante, presentan características clínicas comunes, como baja talla, dismorfias craneofaciales, cardiopatía congénita, manifestaciones ectodérmicas y mayor riesgo de cáncer. El diagnóstico molecular es clave. Objetivo. Identificar mutaciones en los genes PTPN11, SOS1, RAF1, BRAF y HRAS, y comparar las principales características clínicas en pacientes con confirmación molecular. Población y métodos. Se estudiaron niños con diagnóstico clínico de RASopatía evaluados entre agosto de 2013 y febrero de 2017. Resultados. Se identificaron mutaciones en el 71 % (87/122) de los pacientes. El estudio molecular confirmó el diagnóstico en el 73 % de los pacientes con síndrome de Noonan. La mutación más prevalente fue c.922A>G (p.Asn308Asp) en el gen PTPN11. Se detectó una variante no descrita en RAF1, c.1467G>C (p.Leu489Phe). Se confirmó el síndrome cardiofaciocutáneo en el 67 % de los casos con mutaciones en el gen BRAF. El síndrome de Costello y el síndrome de Noonan con múltiples lentigos se confirmaron en todos los casos. Conclusión. La confirmación del diagnóstico clínico permitió un diagnóstico diferencial más preciso. Se determinó la prevalencia de las mutaciones en PTPN11 (el 58 %), SOS1 (el 10 %) y RAF1 (el 5 %) en niños con síndrome de Noonan, en PTPN11 (el 100 %) en el síndrome de Noonan con múltiples lentigos, en BRAF (el 67 %) en el síndrome cardiofaciocutáneo y en HRAS (el 100 %) en el síndrome de Costello.

Estudo descritivo molecular de pacientes com RASopatia / Descriptive molecular study of patients with RASopathy

As RASopatias são um grupo de doenças cujos pacientes apresentam alterações constitucionais em genes que participam de uma mesma via de sinalização celular denominada Ras/MAPK, que desempenha um papel importante na proliferação, diferenciação, migração celular e apoptose, além de estar associada a processos carcinogênicos. Apesar dos avanços em métodos diagnósticos, cerca de 20 a 25% dos casos permanecem inconclusivos, o que impulsiona pesquisas que buscam alterações em outros níveis de regulação da via, como RNAs não codificantes e proteínas. O primeiro capítulo deste estudo, avalia um grupo de 6 pacientes diagnosticados clinicamente com RASopatia e com exomas sequenciados. Foram obtidos dados sobre mutações em seus miRNAs. O segundo capítulo relata o caso de um paciente com suspeita clínica de síndrome de Costello, mas sem mutações detectadas. Foram avaliados, in silico, dados sobre miRNAs reguladores do gene HRAS, bem como os diferentes tecidos nos quais o HRAS é expresso. Para o capítulo 3 foi realizado um estudo comparativo entre gêmeas com diagnóstico clínico de síndrome de Noonan, mas com fenótipo discordante. Foi realizado um array por RT-qPCR para diferentes RNAs reguladores e um estudo comparativo de proteoma com análise de vias biológicas, processos biológicos e genes alvo da regulação de fatores de transcrição putativos. No estudo de miRNAs foram encontradas mutações em heterozigose, que são de difícil avaliação em ensaios de expressão. No estudo de caso do paciente S4 (síndrome de Costello), não foram encontradas mutações nos miR-181d-5p, let-7a-5p, miR-143-3p, miR-181a-5p, miR-139-5p, miR-663a e let-7b-5p, descritos como reguladores do HRAS. Também não foram encontrados tecidos viáveis para coleta e análise da expressão do HRAS. Na expressão de RNAs reguladores nas gêmeas (S16 e S17) foram encontrados níveis de expressão aumentados em S17 para Lnc-C21orf33-1, ERBS3/SBNO2e, miR-200be, CTBP1-AS e Lnc_DC. Na análise do proteoma, foram encontradas diferenças de expressão em vias de integrinas, proteoglicanos e trombinas, além de diferenças em processos de transdução de sinal, crescimento e manutenção celular e metabolismo. Os genes com sítio de ligação para os fatores de transcrição como RREB1, ETS1, EGR1 e TBX5 também possuíam expressão diferente entre as gêmeas. Os resultados aqui apresentados apontam novos caminhos para estudos moleculares das RASopatias que possam preencher as lacunas diagnósticas ainda pendentes.

RASopathies are a group of diseases whose patients present constitutional changes in genes that participate in the same cellular signaling pathway called the Ras/MAPK, which plays an important role in proliferation, differentiation, cell migration and apoptosis, in addition to being associated with carcinogenic processes. Despite advances in diagnostic methods, about 20 to 25% of cases remain inconclusive, which drives research that seeks changes in other levels of pathway regulation, such as non-coding RNAs and proteins. The first chapter of this study evaluates a group of 6 patients clinically diagnosed with RASopathy and sequenced exomes. Data were obtained on mutations in their miRNAs. The second chapter reports the case of a patient with clinical suspicion of Costello syndrome, but without mutations detected. Data on the miRNAs regulating the HRAS gene, as well as the different tissues in which HRAS is expressed, were evaluated in silico. For chapter 3 a comparative study was performed between twins with clinical diagnosis of Noonan syndrome, but with a discordant phenotype. An array was performed by RT-qPCR for different regulatory RNAs and a comparative proteome study with analysis of biological pathways, biological processes and genes targeting the regulation of putative transcription factors. In the study of miRNAs, mutations were found in heterozygosis, which are difficult to evaluate in expression assays. In the case study of S4 patient (Costello syndrome), no mutations were found in miR-181d-5p, let-7a-5p, miR-143-3p, miR-181a-5p, miR-139-5p, miR-663a and let-7b -5p, described as HRAS regulators. No available tissues were also found for collection and analysis of HRAS expression. In expression of regulatory RNAs in the S16 and S17 twins, increased levels of S17 expression were found for Lnc-C21orf33-1, ERBS3 / SBNO2e, miR-200b, CTBP1-AS and Lnc_DC. In the proteome analysis, expression differences were found in integrins, proteoglycans and thrombin pathways, as well as differences in signal transduction processes, cell growth and maintenance, and metabolism. Genes with binding site for transcription factors such as RREB1, ETS1, EGR1 and TBX5 also had different expression between the twins. The results presented here point out new ways for molecular studies of RASopathies that may close the remaining diagnostic gaps.

Phenotypic spectrum of Costello syndrome individuals harboring the rare HRAS mutation p.Gly13Asp.

Costello syndrome is part of the RASopathies, a group of neurocardiofaciocutaneous syndromes caused by deregulation of the RAS mitogen-activated protein kinase pathway. Heterozygous mutations in HRAS are responsible for Costello syndrome, with more than 80% of the patients harboring the specific p.Gly12Ser variant. These individuals show a homogeneous phenotype. The clinical characteristics of the Costello syndrome individuals harboring rarer HRAS mutations are less understood, due to the small number of reported cases. Here, we describe the phenotypic spectrum of five additional individuals with HRAS c.38G>A; p.Gly13Asp, including one with somatic mosaicism, and review five previously described cases. The facial and hair abnormalities of the HRAS p.Gly13Asp individuals differ from the typical pattern observed in those showing the common HRAS (p.Gly12Ser) mutation, with less coarse facial features and slow growing, sparse hair with abnormal texture, the latter resembling the pattern observed in Noonan syndrome-like disorder with loose anagen hair and individuals harboring another amino acid substitution in HRAS (p.Gly13Cys). Although some individuals with HRAS p.Gly13Asp developed papillomata and vascular proliferation lesions, no malignant tumors occurred, similar to what was reported for individuals harboring the HRAS p.Gly13Cys. The fact that no malignant tumors were described in these individuals does not allow definitive conclusions about the risk for cancer development. It remains to be determined if substitutions of amino acid 13 in HRAS (p.Gly13Asp and p.Gly13Cys) increase the risk of tumor development.