[Update on the treatment of RASopathies]. / Actualizacion del tratamiento de las rasopatias.

INTRODUCTION: The term 'RASopathies' covers a series of diseases that present mutations in the genes that code for the proteins of the RAS/MAPK pathway. These diseases include neurofibromatosis type 1, Noonan syndrome, Legius syndrome, LEOPARD syndrome, Costello syndrome and cardiofaciocutaneous syndrome. Involvement of the RAS/MAPK pathway not only increases predisposition to develop tumours, but also determines the presence of phenotypic anomalies and alterations in learning processes. AIM: To review the use of therapeutic strategies with mechanisms that have a selective action on RASopathies. DEVELOPMENT: The fact that the RAS pathway is involved in a third of all neoplasms has led to the development and study of different drugs at this level. Some of these pharmaceutical agents have been tested in RASopathies, mainly in neurofibromatosis type 1. Here we analyse the use of different antitarget treatments: drugs that act on the membrane receptors, such as tyrosine kinase inhibitors, in the mTOR pathway or MEK inhibitors. These latter have shown potential benefits in recent studies conducted on different RASopathies. CONCLUSIONS: Today, thanks to the results from the first studies conducted with MEK inhibitor based mainly on animal models, a number of promising clinical trials are being carried out.

TITLE: Actualizacion del tratamiento de las rasopatias.Introduccion. El termino 'rasopatias' agrupa una serie de enfermedades que presentan mutaciones en genes que codifican las proteinas de la via RAS/MAPK. Estas enfermedades incluyen la neurofibromatosis de tipo 1, el sindrome de Noonan, el sindrome de Legius, el sindrome LEOPARD, el sindrome de Costello y el sindrome cardiofaciocutaneo. La afectacion de la via RAS/MAPK no solo aumenta la predisposicion a desarrollar tumores, sino que tambien determina la presencia de anomalias fenotipicas y alteraciones en los procesos de aprendizaje. Objetivo. Revisar el papel del uso de estrategias terapeuticas con mecanismos de accion selectivo en las rasopatias. Desarrollo. El hecho de que la via RAS participe en un tercio de las neoplasias ha motivado el desarrollo y el estudio de distintos farmacos a este nivel. Algunos de estos farmacos han sido probados en las rasopatias, principalmente en la neurofibromatosis de tipo 1. Analizamos el uso de distintos tratamientos antidiana: farmacos que actuan en los receptores de membrana, como los inhibidores de la tirosincinasa, en la via mTOR o los inhibidores de MEK. Existe un potencial beneficio de estos ultimos en estudios recientes realizados en distintas rasopatias. Conclusiones. Actualmente, gracias a los resultados de los primeros trabajos desarrollados con inhibidor de MEK basados principalmente en modelos animales, se estan realizando multiples ensayos clinicos prometedores.

Targeting protein tyrosine phosphatase SHP2 for the treatment of PTPN11-associated malignancies.

Activating mutations in PTPN11 (encoding SHP2), a protein tyrosine phosphatase (PTP) that plays an overall positive role in growth factor and cytokine signaling, are directly associated with the pathogenesis of Noonan syndrome and childhood leukemias. Identification of SHP2-selective inhibitors could lead to the development of new drugs that ultimately serve as treatments for PTPN11-associated diseases. As the catalytic core of SHP2 shares extremely high homology to those of SHP1 and other PTPs that play negative roles in cell signaling, to identify selective inhibitors of SHP2 using computer-aided drug design, we targeted a protein surface pocket that is adjacent to the catalytic site, is predicted to be important for binding to phosphopeptide substrates, and has structural features unique to SHP2. From computationally selected candidate compounds, #220-324 effectively inhibited SHP2 activity with an IC50 of 14 µmol/L. Fluorescence titration experiments confirmed its direct binding to SHP2. This active compound was further verified for its ability to inhibit SHP2-mediated cell signaling and cellular function with minimal off-target effects. Furthermore, mouse myeloid progenitors with the activating mutation (E76K) in PTPN11 and patient leukemic cells with the same mutation were more sensitive to this inhibitor than wild-type cells. This study provides evidence that SHP2 is a "druggable" target for the treatment of PTPN11-associated diseases. As the small-molecule SHP2 inhibitor identified has a simple chemical structure, it represents an ideal lead compound for the development of novel anti-SHP2 drugs. Mol Cancer Ther; 12(9); 1738-48. ©2013 AACR.

[Calcium-phosphate metabolism and bone markers in two patients with Noonan's syndrome treated with growth hormone]. / Metabolismo calcio-fosforico e markers ossei in due pazienti con Sindrome di Noonan trattati con ormone della crescita.

AIM: To evaluate the possible effects of recombinant growth hormone (rhGH) therapy on mineral homeostasis and bone turnover, the authors studied calcium-phosphate metabolism parameters, including some bone markers, in 2 prepubertal subjects with Noonan's syndrome (NS). METHODS: Two prepubertal males suffering from NS, short stature (-3.9 and -5.4 SDS respectively) and low growth velocity (3.9 and 3.3 cm/year), were treated with rhGH (0.85 U/kg/week) for 1 year. Serum levels of total calcium (Ca), inorganic phosphate (P), magnesium (Mg), parathyroid hormone (PTH), calcitonin (CT), 25OH vitamin D, 1.25(OH)(2)D, osteocalcin (BGP), type I procollagen carboxy-terminal propeptide (PICP) and its telopeptide (ICTP) were measured. RESULTS: The baseline values were in the normal range; during the treatment no remarkable difference in the values of every one parameters was detected in the 2 patients studied. In one of them, who responded to GH treatment with significantly improved growth velocity, serum levels of the BGP increased during the first semester, and then progressively declined; conversely, serum levels of the ICTP remained stable during the first 6 months of GH-therapy, whereas increased in the following 6 months. CONCLUSION: The results suggest that in Noonan's syndrome patients responding to GH-therapy, a stimulation of bone turnover, with ensuing increase of height velocity, takes place, at least during the first year of GH-therapy. The authors underline the necessity of confirming their results on a larger group of patients with Noonan's syndrome.