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101 results on '"Lepri, F"'

1. Activating mutations in RRAS underlie a phenotype within the RASopathy spectrum and contribute to leukaemogenesis

Author

Loh, Mignon, Flex, E, Jaiswal, M, Pantaleoni, F, Martinelli, S, Strullu, M, Fansa, EK, Caye, A, De, A, Lepri, F, and Dvorsky, R

Abstract

RASopathies, a family of disorders characterized by cardiac defects, defective growth, facial dysmorphism, variable cognitive deficits and predisposition to certain malignancies, are caused by constitutional dysregulation of RAS signalling predominantly th

Published
2014

3. Low-Grade Gliomas in Patients with Noonan Syndrome: Case-Based Review of the Literature

Author

Lodi, M., Boccuto, L., Carai, A., Cacchione, A., Miele, E., Colafati, G. S., Camassei, F. D., de Palma, L., de Benedictis, A., Ferretti, E., Catanzaro, G., Po, A., de Luca, A., Rinelli, M., Lepri, F. R., Agolini, E., Tartaglia, M., Locatelli, Franco, Mastronuzzi, A., Locatelli F. (ORCID:0000-0002-7976-3654), Lodi, M., Boccuto, L., Carai, A., Cacchione, A., Miele, E., Colafati, G. S., Camassei, F. D., de Palma, L., de Benedictis, A., Ferretti, E., Catanzaro, G., Po, A., de Luca, A., Rinelli, M., Lepri, F. R., Agolini, E., Tartaglia, M., Locatelli, Franco, Mastronuzzi, A., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Noonan syndrome (NS) is a congenital autosomic dominant condition characterized by a variable spectrum from a clinical and genetical point of view. Germline mutations in more than ten genes involved in RAS–MAPK signal pathway have been demonstrated to cause the disease. An higher risk for leukemia and solid malignancies, including brain tumors, is related to NS. A review of the published literature concerning low grade gliomas (LGGs) in NS is presented. We described also a 13-year-old girl with NS associated with a recurrent mutation in PTPN11, who developed three different types of brain tumors, i.e., an optic pathway glioma, a glioneuronal neoplasm of the left temporal lobe and a cerebellar pilocytic astrocytoma. Molecular characterization of the glioneuronal tumor allowed to detect high levels of phosphorylated MTOR (pMTOR); therefore, a therapeutic approach based on an mTOR inhibitor (everolimus) was elected. The treatment was well tolerated and proved to be effective, leading to a stabilization of the tumor, which was surgical removed. The positive outcome of the present case suggests considering this approach for patients with RASopathies and brain tumors with hyperactivated MTOR signaling.

Published
2020

5. Prominent and elongated coccyx, a new manifestation of KBG syndrome associated with novel mutation in ANKRD11

Author

De Bernardi, M. L., Ivanovski, I., Caraffi, S. G., Maini, I., Street, M. E., Bayat, A., Zollino, Marcella, Lepri, F. R., Gnazzo, M., Errichiello, E., Superti-Furga, A., Garavelli, L., Zollino M. (ORCID:0000-0003-4871-9519), De Bernardi, M. L., Ivanovski, I., Caraffi, S. G., Maini, I., Street, M. E., Bayat, A., Zollino, Marcella, Lepri, F. R., Gnazzo, M., Errichiello, E., Superti-Furga, A., Garavelli, L., and Zollino M. (ORCID:0000-0003-4871-9519)

Abstract

KBG syndrome is characterized by short stature, distinctive facial features, and developmental/cognitive delay and is caused by mutations in ANKRD11, one of the ankyrin repeat-containing cofactors. After the advent of whole exome sequencing, the number of clinical reports with KBG diagnosis has increased, leading to a revision of the phenotypic spectrum associated with this syndrome. Here, we report a female child showing clinical features of the KBG syndrome in addition to a caudal appendage at the coccyx with prominent skin fold and a peculiar calcaneus malformation. Exons and exon–intron junctions targeted resequencing of SH3PXD2B and MASP1 genes, known to be associated with prominent coccyx, gave negative outcome, whereas sequencing of ANKRD11 whose mutations matched the KBG phenotype of the proband showed a de novo heterozygous frameshift variant c.4528_4529delCC in exon 9 of ANKRD11. This report contributes to expand the knowledge of the clinical features of KBG syndrome and highlights the need to search for vertebral anomalies and suspect this condition in the presence of a prominent, elongated coccyx.

Published
2018

6. Structural, Functional, and Clinical Characterization of a Novel PTPN11 Mutation Cluster Underlying Noonan Syndrome

Author

Pannone, L, Bocchinfuso, G, Flex, E, Rossi, C, Baldassarre, G, Lissewski, C, Pantaleoni, F, Consoli, F, Lepri, F, Magliozzi, M, Anselmi, M, Delle Vigne, S, Sorge, G, Karaer, K, Cuturilo, G, Sartorio, A, Tinschert, S, Accadia, M, Digilio, M, Zampino, G, De Luca, A, Cave, H, Zenker, M, Gelb, B, Dallapiccola, B, Stella, L, Ferrero, G, Martinelli, S, and Tartaglia, M

Subjects
Models, Molecular, PTPN11 mutations, MAP Kinase Signaling System, Noonan syndrome, genotype-phenotype correlation analysis, structural and functional studies, Mutation, Missense, Protein Tyrosine Phosphatase, Non-Receptor Type 11, src Homology Domains, HEK293 Cells, Protein Domains, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Mutation, Genetics, Humans, Genetics (clinical), Genetic Predisposition to Disease, Settore CHIM/02 - Chimica Fisica, Protein Binding
Abstract

Germline mutations in PTPN11, the gene encoding the Src-homology 2 (SH2) domain-containing protein tyrosine phosphatase (SHP2), cause Noonan syndrome (NS), a relatively common, clinically variable, multisystem disorder. Here, we report on the identification of five different PTPN11 missense changes affecting residues Leu

Published
2017

7. Deficiency for the Ubiquitin Ligase UBE3B in a Blepharophimosis-Ptosis-Intellectual-Disability Syndrome

Author

Basel-Vanagaite, L, Dallapiccola, B, Ramirez-Solis, R, Segref, A, Thiele, H, Edwards, A, Arends, MJ, Miró, X, White, JK, Désir, J, Abramowicz, M, Dentici, ML, Lepri, F, Hofmann, K, Har-Zahav, A, Ryder, E, Karp, NA, Estabel, J, Gerdin, AKB, Podrini, C, Ingham, NJ, Altmüller, J, Nürnberg, G, Frommolt, P, Abdelhak, S, Pasmanik-Chor, M, Konen, O, Kelley, RI, Shohat, M, Nürnberg, P, Flint, J, Steel, KP, Hoppe, T, Kubisch, C, Adams, DJ, Borck, G, Schneider Children’s Medical Center of Israel [Petah Tikva], Raphael Recanati Genetics Institute [Petah Tikva], Rabin Medical Center, Felsenstein Medical Research Center [Petah Tikva], Sackler Faculty of Medicine, Tel Aviv University [Tel Aviv], IRCCS Ospedale Pediatrico Bambino Gesù [Roma], The Wellcome Trust Sanger Institute [Cambridge], Cologne Excellence Cluster on Cellular Stress Responses in Aging-Associated Diseases (CECAD), University of Cologne, Institute for Genetics [Cologne], Cologne Center for Genomics, The Wellcome Trust Centre for Human Genetics [Oxford], University of Oxford [Oxford], Addenbrooke's Hospital, Cambridge University NHS Trust, University of Bonn, Department of Medical Genetics [Bruxelles], Hôpital Erasme [Bruxelles] (ULB), Faculté de Médecine [Bruxelles] (ULB), Université libre de Bruxelles (ULB)-Université libre de Bruxelles (ULB)-Faculté de Médecine [Bruxelles] (ULB), Université libre de Bruxelles (ULB)-Université libre de Bruxelles (ULB), Instiitut de Recherche Interdisciplinaire en Biologie Humaine et Moléculaire (IRIBHM), Université libre de Bruxelles (ULB), Bioinformatics Group [Bergisch-Gladbach], Miltenyi Biotec GmbFl, Laboratoire de Génomique Biomédicale et Oncogénétique - Biomedical Genomics and Oncogenetics Laboratory (LR11IPT05), Université de Tunis El Manar (UTM)-Institut Pasteur de Tunis, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP), G.S.W. Faculty of Life Sciences [Tel Aviv], Schneider Children's Medical Center of Israel, Kennedy Krieger Institute [Baltimore], Center for Molecular Medicine [Cologne] (CMMC), Institute for Genetics, and Universität Ulm - Ulm University [Ulm, Allemagne]

Subjects
Central Nervous System, Male, HECT domain, [SDV]Life Sciences [q-bio], Mice, 0302 clinical medicine, Ubiquitin, Blepharoptosis, Exome, Genetics(clinical), Child, Genetics (clinical), Mice, Knockout, Genetics, 0303 health sciences, biology, Brain, Syndrome, Sciences bio-médicales et agricoles, Magnetic Resonance Imaging, Ubiquitin ligase, Child, Preschool, Female, Genotype, Ubiquitin-Protein Ligases, Blepharophimosis, Article, Frameshift mutation, 03 medical and health sciences, Intellectual Disability, Angelman syndrome, UBE3A, medicine, Animals, Humans, Amino Acid Sequence, Caenorhabditis elegans, Alleles, 030304 developmental biology, Base Sequence, Facies, Infant, medicine.disease, Oxidative Stress, Proteasome, Mutation, biology.protein, 030217 neurology & neurosurgery
Abstract

Ubiquitination plays a crucial role in neurodevelopment as exemplified by Angelman syndrome, which is caused by genetic alterations of the ubiquitin ligase-encoding UBE3A gene. Although the function of UBE3A has been widely studied, little is known about its paralog UBE3B. By using exome and capillary sequencing, we here identify biallelic UBE3B mutations in four patients from three unrelated families presenting an autosomal-recessive blepharophimosis- ptosis-intellectual-disability syndrome characterized by developmental delay, growth retardation with a small head circumference, facial dysmorphisms, and low cholesterol levels. UBE3B encodes an uncharacterized E3 ubiquitin ligase. The identified UBE3B variants include one frameshift and two splice-site mutations as well as a missense substitution affecting the highly conserved HECT domain. Disruption of mouse Ube3b leads to reduced viability and recapitulates key aspects of the human disorder, such as reduced weight and brain size and a downregulation of cholesterol synthesis. We establish that the probable Caenorhabditis elegans ortholog of UBE3B, oxi-1, functions in the ubiquitin/proteasome system in vivo and is especially required under oxidative stress conditions. Our data reveal the pleiotropic effects of UBE3B deficiency and reinforce the physiological importance of ubiquitination in neuronal development and function in mammals. © 2012 The American Society of Human Genetics., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2012

8. Metastatic Group 3 Medulloblastoma in a Patient With Tuberous Sclerosis Complex: Case Description and Molecular Characterization of the Tumor

Author

Moavero, R, Folgiero, V, Carai, A, Miele, E, Ferretti, E, Po, A, DIOMEDI CAMASSEI, F, Lepri, F, Vigevano, F, Curatolo, P, Valeriani, M, Colafati, G, Locatelli, F, Tornesello, A, and Mastronuzzi, A

Subjects
Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Tuberous Sclerosis, TOR Serine-Threonine Kinases, Blotting, Western, DNA Mutational Analysis, TSC1/2, mTOR, medulloblastoma, Humans, Female, Cerebellar Neoplasms, Settore MED/39 - Neuropsichiatria Infantile
Abstract

Medulloblastoma is the most common pediatric brain tumor. We describe a child with tuberous sclerosis complex that developed a Group 3, myc overexpressed, metastatic medulloblastoma (MB). Considering the high risk of treatment-induced malignancies, a tailored therapy, omitting radiation, was given. Based on the evidence of mammalian target of rapamycin mTORC, mTOR Complex; RAS, Rat sarcoma; RAF, rapidly accelerated fibrosarcoma (mTOR) pathway activation in the tumor, targeted therapy was applied resulting in complete remission of disease. Although the PI3K/AKT/mTOR signaling pathway plays a role in MB, we did not find TSC1/TSC2 (TSC, tuberous sclerosis complex) mutation in our patient. We speculate that a different pathway resulting in mTOR activation is the basis of both TSC and MB in this child; HE, haematoxilin and eosin; Gd, gadolinium.

Published
2015

9. Metastatic Group 3 Medulloblastoma in a Patient With Tuberous Sclerosis Complex: Case Description and Molecular Characterization of the Tumor

Author

Moavero, R., Folgiero, V., Carai, A., Miele, E., Ferretti, E., Po, A., Diomedi Camassei, F., Lepri, F. R., Vigevano, F., Curatolo, P., Valeriani, M., Colafati, G. S., Locatelli, Franco, Tornesello, A., Mastronuzzi, A., Locatelli F. (ORCID:0000-0002-7976-3654), Moavero, R., Folgiero, V., Carai, A., Miele, E., Ferretti, E., Po, A., Diomedi Camassei, F., Lepri, F. R., Vigevano, F., Curatolo, P., Valeriani, M., Colafati, G. S., Locatelli, Franco, Tornesello, A., Mastronuzzi, A., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Medulloblastoma is the most common pediatric brain tumor. We describe a child with tuberous sclerosis complex that developed a Group 3, myc overexpressed, metastatic medulloblastoma (MB). Considering the high risk of treatment-induced malignancies, a tailored therapy, omitting radiation, was given. Based on the evidence of mammalian target of rapamycin mTORC, mTOR Complex; RAS, Rat sarcoma; RAF, rapidly accelerated fibrosarcoma (mTOR) pathway activation in the tumor, targeted therapy was applied resulting in complete remission of disease. Although the PI3K/AKT/mTOR signaling pathway plays a role in MB, we did not find TSC1/TSC2 (TSC, tuberous sclerosis complex) mutation in our patient. We speculate that a different pathway resulting in mTOR activation is the basis of both TSC and MB in this child; H&E, haematoxilin and eosin; Gd, gadolinium.

Published
2016

10. Advantages of a next generation sequencing targeted approach for the molecular diagnosis of retinoblastoma

Author

Grotta, S., D'Elia, G., Scavelli, R., Genovese, S., Surace, C., Sirleto, P., Cozza, R., Romanzo, A., De Ioris, M. A., Valente, P., Tomaiuolo, A. C., Lepri, F. R., Franchin, T., Ciocca, L., Russo, S., Locatelli, Franco, Angioni, A., Locatelli F. (ORCID:0000-0002-7976-3654), Grotta, S., D'Elia, G., Scavelli, R., Genovese, S., Surace, C., Sirleto, P., Cozza, R., Romanzo, A., De Ioris, M. A., Valente, P., Tomaiuolo, A. C., Lepri, F. R., Franchin, T., Ciocca, L., Russo, S., Locatelli, Franco, Angioni, A., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Background: Retinoblastoma (RB) is the most common malignant childhood tumor of the eye and results from inactivation of both alleles of the RB1 gene. Nowadays RB genetic diagnosis requires classical chromosome investigations, Multiplex Ligation-dependent Probe Amplification analysis (MLPA) and Sanger sequencing. Nevertheless, these techniques show some limitations. We report our experience on a cohort of RB patients using a combined approach of Next-Generation Sequencing (NGS) and RB1 custom array-Comparative Genomic Hybridization (aCGH). Methods: A total of 65 patients with retinoblastoma were studied: 29 cases of bilateral RB and 36 cases of unilateral RB. All patients were previously tested with conventional cytogenetics and MLPA techniques. Fifty-three samples were then analysed using NGS. Eleven cases were analysed by RB1 custom aCGH. One last case was studied only by classic cytogenetics. Finally, it has been tested, in a lab sensitivity assay, the capability of NGS to detect artificial mosaicism series in previously recognized samples prepared at 3 different mosaicism frequencies: 10, 5, 1 %. Results: Of the 29 cases of bilateral RB, 28 resulted positive (96.5 %) to the genetic investigation: 22 point mutations and 6 genomic rearrangements (four intragenic and two macrodeletion). A novel germline intragenic duplication, from exon18 to exon 23, was identified in a proband with bilateral RB. Of the 36 available cases of unilateral RB, 8 patients resulted positive (22 %) to the genetic investigation: 3 patients showed point mutations while 5 carried large deletion. Finally, we successfully validated, in a lab sensitivity assay, the capability of NGS to accurately measure level of artificial mosaicism down to 1 %. Conclusions: NGS and RB1-custom aCGH have demonstrated to be an effective combined approach in order to optimize the overall diagnostic procedures of RB. Custom aCGH is able to accurately detect genomic rearrangements allowing the characterization of t

Published
2015

11. Activating Mutations Affecting the Dbl Homology Domain of SOS2 Cause Noonan Syndrome

Author

Cordeddu, V., Yin, J. C., Gunnarsson, C., Virtanen, C., Drunat, S., Lepri, F., De Luca, A., Rossi, C., Ciolfi, A., Pugh, T. J., Bruselles, A., Priest, J. R., Pennacchio, L. A., Lu, Z., Danesh, A., Quevedo, R., Hamid, A., Martinelli, S., Pantaleoni, F., Gnazzo, M., Daniele, P., Lissewski, C., Bocchinfuso, G., Stella, L., Odent, S., Philip, N., Faivre, L., Vlckova, M., Seemanova, E., Digilio, C., Zenker, M., Zampino, Giuseppe, Verloes, A., Dallapiccola, B., Roberts, A. E., Cave, H., Gelb, B. D., Neel, B. G., Tartaglia, M., Zampino G. (ORCID:0000-0003-3865-3253), Cordeddu, V., Yin, J. C., Gunnarsson, C., Virtanen, C., Drunat, S., Lepri, F., De Luca, A., Rossi, C., Ciolfi, A., Pugh, T. J., Bruselles, A., Priest, J. R., Pennacchio, L. A., Lu, Z., Danesh, A., Quevedo, R., Hamid, A., Martinelli, S., Pantaleoni, F., Gnazzo, M., Daniele, P., Lissewski, C., Bocchinfuso, G., Stella, L., Odent, S., Philip, N., Faivre, L., Vlckova, M., Seemanova, E., Digilio, C., Zenker, M., Zampino, Giuseppe, Verloes, A., Dallapiccola, B., Roberts, A. E., Cave, H., Gelb, B. D., Neel, B. G., Tartaglia, M., and Zampino G. (ORCID:0000-0003-3865-3253)

Abstract

The RASopathies constitute a family of autosomal-dominant disorders whose major features include facial dysmorphism, cardiac defects, reduced postnatal growth, variable cognitive deficits, ectodermal and skeletal anomalies, and susceptibility to certain malignancies. Noonan syndrome (NS), the commonest RASopathy, is genetically heterogeneous and caused by functional dysregulation of signal transducers and regulatory proteins with roles in the RAS/extracellular signal-regulated kinase (ERK) signal transduction pathway. Mutations in known disease genes account for approximately 80% of affected individuals. Here, we report that missense mutations altering Son of Sevenless, Drosophila, homolog 2 (SOS2), which encodes a RAS guanine nucleotide exchange factor, occur in a small percentage of subjects with NS. Four missense mutations were identified in five unrelated sporadic cases and families transmitting NS. Disease-causing mutations affected three conserved residues located in the Dbl homology (DH) domain, of which two are directly involved in the intramolecular binding network maintaining SOS2 in its autoinhibited conformation. All mutations were found to promote enhanced signaling from RAS to ERK. Similar to NS-causing SOS1 mutations, the phenotype associated with SOS2 defects is characterized by normal development and growth, as well as marked ectodermal involvement. Unlike SOS1 mutations, however, those in SOS2 are restricted to the DH domain.

Published
2015

12. Borderline cognitive level in a family with Bazex-Dupré-Christol syndrome

Author

Gonfiantini, M. V., Armando, M., Pucciarini, M. L., Macchiaiolo, M., Buonuomo, Paola Sabrina, Diociaiuti, Andrea, Lepri, F. R., Sirleto, P., Vicari, Stefano, Bartuli, A., Buonuomo P. S., Diociaiuti A., Vicari S. (ORCID:0000-0002-5395-2262), Gonfiantini, M. V., Armando, M., Pucciarini, M. L., Macchiaiolo, M., Buonuomo, Paola Sabrina, Diociaiuti, Andrea, Lepri, F. R., Sirleto, P., Vicari, Stefano, Bartuli, A., Buonuomo P. S., Diociaiuti A., and Vicari S. (ORCID:0000-0002-5395-2262)

Abstract

Bazex-Dupré-Christol syndrome (BDCS) [OMIM 301845] is an X-linked dominant disorder of the hair follicle characterized by multiple basal cell carcinomas, follicular atrophoderma, congenital hypotrichosis, and hypohidrosis. Additional features include multiple milia, trichoepitheliomas, and axillary hidradenitis suppurativa as well as a variety of other symptoms. Some patients with a diagnosis of BDCS have had poor school performance. But no other associated psychopathological disorders have been described in the literature. We describe the neuropsychological characteristics and the co-occurring psychopathological disorders in an Italian family (brother and sister, and their mother) affected by BDCS. The BDCS phenotype in this family was characterized by hypotrichosis, atrophoderma follicularis, milia, and trichoepitheliomas. No basal cell carcinomas were documented. At neuropsychological assessment the three affected family members all had a borderline cognitive level. Other identified psychopathological disorders included attention deficit hyperactivity disorder, executive deficits, academic difficulties, deficits in lexical skills, and internalizing problems. The presence of cognitive impairment in the three family members affected by BDCS suggests that cognitive impairment may be associated with the syndrome. It may be useful to assess neuropsychological performance in patients with BDCS to identify possible associated neuropsychological disorders.

Published
2015

16. Activating mutations in RRAS underlie a phenotype within the RASopathy spectrum and contribute to leukaemogenesis

Author

Flex, E., Jaiswal, M., Pantaleoni, F., Martinelli, S., Strullu, M., Fansa, E.K., Caye, A., Luca, A. De, Lepri, F., Dvorsky, R., Pannone, L., Paolacci, S., Zhang, S.C., Fodale, V., Bocchinfuso, G., Rossi, C., Burkitt-Wright, E.M., Farrotti, A., Stellacci, E., Cecchetti, S., Ferese, R., Bottero, L., Castro, S. de, Fenneteau, O., Brethon, B., Sanchez, M., Roberts, A.E., Yntema, H.G., Burgt, I. van der, Cianci, P., Bondeson, M.L., Digilio, M.C., Zampino, G., Kerr, B., Aoki, Y., Loh, M.L., Palleschi, A., Schiavi, E. Di, Care, A., Selicorni, A., Dallapiccola, B., Cirstea, I.C., Stella, L., Zenker, M., Gelb, B.D., Cave, H., Ahmadian, M.R., Tartaglia, M., Flex, E., Jaiswal, M., Pantaleoni, F., Martinelli, S., Strullu, M., Fansa, E.K., Caye, A., Luca, A. De, Lepri, F., Dvorsky, R., Pannone, L., Paolacci, S., Zhang, S.C., Fodale, V., Bocchinfuso, G., Rossi, C., Burkitt-Wright, E.M., Farrotti, A., Stellacci, E., Cecchetti, S., Ferese, R., Bottero, L., Castro, S. de, Fenneteau, O., Brethon, B., Sanchez, M., Roberts, A.E., Yntema, H.G., Burgt, I. van der, Cianci, P., Bondeson, M.L., Digilio, M.C., Zampino, G., Kerr, B., Aoki, Y., Loh, M.L., Palleschi, A., Schiavi, E. Di, Care, A., Selicorni, A., Dallapiccola, B., Cirstea, I.C., Stella, L., Zenker, M., Gelb, B.D., Cave, H., Ahmadian, M.R., and Tartaglia, M.

Abstract

Item does not contain fulltext, RASopathies, a family of disorders characterized by cardiac defects, defective growth, facial dysmorphism, variable cognitive deficits and predisposition to certain malignancies, are caused by constitutional dysregulation of RAS signalling predominantly through the RAF/MEK/ERK (MAPK) cascade. We report on two germline mutations (p.Gly39dup and p.Val55Met) in RRAS, a gene encoding a small monomeric GTPase controlling cell adhesion, spreading and migration, underlying a rare (2 subjects among 504 individuals analysed) and variable phenotype with features partially overlapping Noonan syndrome, the most common RASopathy. We also identified somatic RRAS mutations (p.Gly39dup and p.Gln87Leu) in 2 of 110 cases of non-syndromic juvenile myelomonocytic leukaemia, a childhood myeloproliferative/myelodysplastic disease caused by upregulated RAS signalling, defining an atypical form of this haematological disorder rapidly progressing to acute myeloid leukaemia. Two of the three identified mutations affected known oncogenic hotspots of RAS genes and conferred variably enhanced RRAS function and stimulus-dependent MAPK activation. Expression of an RRAS mutant homolog in Caenorhabditis elegans enhanced RAS signalling and engendered protruding vulva, a phenotype previously linked to the RASopathy-causing SHOC2(S2G) mutant. Overall, these findings provide evidence of a functional link between RRAS and MAPK signalling and reveal an unpredicted role of enhanced RRAS function in human disease.

Published
2014

17. Germline BRAF mutations in Noonan, LEOPARD and cardiofaciocutaneous syndromes: molecular diversity and associated phenotypic spectrum

Author

Sarkozy, A, Carta, A, Moretti, S, Zampino, G, Digilio, Mc, Pantaleoni, F, Scioletti, Ap, Esposito, G, Cordeddu, V, Lepri, F, Petrangeli, V, Dentici, Ml, Mancini, Gms, Selicorni, A, Rossi, C, Mazzanti, L, Marino, B, Ferrero, Giovanni Battista, Cirillo, Margherita, Faravelli, F, Stuppia, L, Puxeddu, E, Gelb, Bd, Dallapiccola, B, and Tartaglia, M.

Published
2009

18. N-myristoylation of SHOC2 affects human development and growth

Author

Cordeddu, V, Di Schiavi, E, Pennacchio, La, Ma'Ayan, A, Sarkozy, A, Fodale, V, Cecchetti, S, Cardinale, A, Martin, J, Schackwitz, W, Lipzen, A, Zampino, G, Mazzanti, L, Digilio, Mc, Martinelli, S, Flex, E, Lepri, F, Bartholdi, D, Kutsche, K, Ferrero, Giovanni Battista, Anichini, C, Selicorni, A, Rossi, C, Tenconi, R, Zenker, M, Merlo, D, Dallapiccola, B, Iyengar, R, Bazzicalupo, P, Gelb, Bd, and Tartaglia, M.

Published
2009

20. Activating mutations in RRAS underlie a phenotype within the RASopathy spectrum and contribute to leukaemogenesis

Author

Flex, E., primary, Jaiswal, M., additional, Pantaleoni, F., additional, Martinelli, S., additional, Strullu, M., additional, Fansa, E. K., additional, Caye, A., additional, De Luca, A., additional, Lepri, F., additional, Dvorsky, R., additional, Pannone, L., additional, Paolacci, S., additional, Zhang, S.-C., additional, Fodale, V., additional, Bocchinfuso, G., additional, Rossi, C., additional, Burkitt-Wright, E. M. M., additional, Farrotti, A., additional, Stellacci, E., additional, Cecchetti, S., additional, Ferese, R., additional, Bottero, L., additional, Castro, S., additional, Fenneteau, O., additional, Brethon, B., additional, Sanchez, M., additional, Roberts, A. E., additional, Yntema, H. G., additional, Van Der Burgt, I., additional, Cianci, P., additional, Bondeson, M.-L., additional, Cristina Digilio, M., additional, Zampino, G., additional, Kerr, B., additional, Aoki, Y., additional, Loh, M. L., additional, Palleschi, A., additional, Di Schiavi, E., additional, Care, A., additional, Selicorni, A., additional, Dallapiccola, B., additional, Cirstea, I. C., additional, Stella, L., additional, Zenker, M., additional, Gelb, B. D., additional, Cave, H., additional, Ahmadian, M. R., additional, and Tartaglia, M., additional

Published
2014
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21. A variant in the carboxyl-terminus of connexin 40 alters GAP junctions and increases risk for tetralogy of Fallot

Author

Guida, V., Ferese, R., Rocchetti, M., Bonetti, M., Sarkozy, A., Cecchetti, S., Gelmetti, V., Lepri, F., Copetti, M., Lamorte, G., Cristina Digilio, M., Marino, B., Zaza, A., den Hertog, J., Dallapiccola, B., De Luca, A., Guida, V., Ferese, R., Rocchetti, M., Bonetti, M., Sarkozy, A., Cecchetti, S., Gelmetti, V., Lepri, F., Copetti, M., Lamorte, G., Cristina Digilio, M., Marino, B., Zaza, A., den Hertog, J., Dallapiccola, B., and De Luca, A.

Abstract

GJA5 gene (MIM no. 121013), localized at 1q21.1, encodes for the cardiac gap junction protein connexin 40. In humans, copy number variants of chromosome 1q21.1 have been associated with variable phenotypes comprising congenital heart disease (CHD), including isolated TOF. In mice, the deletion of Gja5 can cause a variety of complex CHDs, in particular of the cardiac outflow tract, corresponding to TOF in many cases. In the present study, we screened for mutations in the GJA5 gene 178 unrelated probands with isolated TOF. A heterozygous nucleotide change (c.793C>T) in exon 2 of the gene leading to the p.Pro265Ser variant at the carboxyl-terminus of the protein was found in two unrelated sporadic patients, one with classic anatomy and one with pulmonary atresia. This GJA5 missense substitution was not observed in 1568 ethnically-matched control chromosomes. Immunofluorescent staining and confocal microscopy revealed that cells expressing the mutant protein form sparse or no visible gap-junction plaques in the region of cell-cell contact. Moreover, analysis of the transfer of the gap junction permanent tracer lucifer yellow showed that cells expressing the mutant protein have a reduced rate of dye transfer compared with wild-type cells. Finally, use of a zebrafish model revealed that microinjection of the GJA5-p.Pro265Ser mutant disrupts overall morphology of the heart tube in the 37% (22/60) of embryos, compared with the 6% (4/66) of the GJA5 wild-type-injected embryos. These findings implicate GJA5 gene as a novel susceptibility gene for TOF., GJA5 gene (MIM no. 121013), localized at 1q21.1, encodes for the cardiac gap junction protein connexin 40. In humans, copy number variants of chromosome 1q21.1 have been associated with variable phenotypes comprising congenital heart disease (CHD), including isolated TOF. In mice, the deletion of Gja5 can cause a variety of complex CHDs, in particular of the cardiac outflow tract, corresponding to TOF in many cases. In the present study, we screened for mutations in the GJA5 gene 178 unrelated probands with isolated TOF. A heterozygous nucleotide change (c.793C>T) in exon 2 of the gene leading to the p.Pro265Ser variant at the carboxyl-terminus of the protein was found in two unrelated sporadic patients, one with classic anatomy and one with pulmonary atresia. This GJA5 missense substitution was not observed in 1568 ethnically-matched control chromosomes. Immunofluorescent staining and confocal microscopy revealed that cells expressing the mutant protein form sparse or no visible gap-junction plaques in the region of cell-cell contact. Moreover, analysis of the transfer of the gap junction permanent tracer lucifer yellow showed that cells expressing the mutant protein have a reduced rate of dye transfer compared with wild-type cells. Finally, use of a zebrafish model revealed that microinjection of the GJA5-p.Pro265Ser mutant disrupts overall morphology of the heart tube in the 37% (22/60) of embryos, compared with the 6% (4/66) of the GJA5 wild-type-injected embryos. These findings implicate GJA5 gene as a novel susceptibility gene for TOF.

Published
2013

22. A variant in the carboxyl-terminus of connexin 40 alters GAP junctions and increases risk for tetralogy of Fallot

Author

Guida, V, Ferese, R, Rocchetti, M, Bonetti, M, Sarkozy, A, Cecchetti, S, Gelmetti, V, Lepri, F, Copetti, M, Lamorte, G, Cristina Digilio, M, Marino, B, Zaza, A, den Hertog, J, Dallapiccola, B, De Luca, A, De Luca, A., ROCCHETTI, MARCELLA, ZAZA, ANTONIO, Guida, V, Ferese, R, Rocchetti, M, Bonetti, M, Sarkozy, A, Cecchetti, S, Gelmetti, V, Lepri, F, Copetti, M, Lamorte, G, Cristina Digilio, M, Marino, B, Zaza, A, den Hertog, J, Dallapiccola, B, De Luca, A, De Luca, A., ROCCHETTI, MARCELLA, and ZAZA, ANTONIO

Abstract

GJA5 gene (MIM no. 121013), localized at 1q21.1, encodes for the cardiac gap junction protein connexin 40. In humans, copy number variants of chromosome 1q21.1 have been associated with variable phenotypes comprising congenital heart disease (CHD), including isolated TOF. In mice, the deletion of Gja5 can cause a variety of complex CHDs, in particular of the cardiac outflow tract, corresponding to TOF in many cases. In the present study, we screened for mutations in the GJA5 gene 178 unrelated probands with isolated TOF. A heterozygous nucleotide change (c.793C>T) in exon 2 of the gene leading to the p.Pro265Ser variant at the carboxyl-terminus of the protein was found in two unrelated sporadic patients, one with classic anatomy and one with pulmonary atresia. This GJA5 missense substitution was not observed in 1568 ethnically-matched control chromosomes. Immunofluorescent staining and confocal microscopy revealed that cells expressing the mutant protein form sparse or no visible gap-junction plaques in the region of cell-cell contact. Moreover, analysis of the transfer of the gap junction permanent tracer lucifer yellow showed that cells expressing the mutant protein have a reduced rate of dye transfer compared with wild-type cells. Finally, use of a zebrafish model revealed that microinjection of the GJA5-p.Pro265Ser mutant disrupts overall morphology of the heart tube in the 37% (22/60) of embryos, compared with the 6% (4/66) of the GJA5 wild-type-injected embryos. These findings implicate GJA5 gene as a novel susceptibility gene for TOF.

Published
2013

23. SOS1 mutations in Noonan syndrome: molecular spectrum, structural insights on pathogenic effects, and genotype-phenotype correlations.

Author

Lepri, F, De Luca, A, Stella, L, Rossi, C, Baldassarre, G, Pantaleoni, F, Cordeddu, V, Williams, B. J, Dentici, M. L, Caputo, Viviana, Venanzi, S, Bonaguro, M, Kavamura, I, Pilotta, A, Faienza, M. F, Stanzial, F, Faravelli, F, Gabrielli, O, Marino, B, Neri, Giovanni, Silengo, Mc, Ferrero, Gb, Torrente, I, Selicorni, A, Mazzanti, L, Zampino, Giuseppe, Digilio, Mc, Dallapiccola, B, Gelb, Bd, Tartaglia, Marco, Zampino, Giuseppe (ORCID:0000-0003-3865-3253), Lepri, F, De Luca, A, Stella, L, Rossi, C, Baldassarre, G, Pantaleoni, F, Cordeddu, V, Williams, B. J, Dentici, M. L, Caputo, Viviana, Venanzi, S, Bonaguro, M, Kavamura, I, Pilotta, A, Faienza, M. F, Stanzial, F, Faravelli, F, Gabrielli, O, Marino, B, Neri, Giovanni, Silengo, Mc, Ferrero, Gb, Torrente, I, Selicorni, A, Mazzanti, L, Zampino, Giuseppe, Digilio, Mc, Dallapiccola, B, Gelb, Bd, Tartaglia, Marco, and Zampino, Giuseppe (ORCID:0000-0003-3865-3253)

Abstract

Noonan syndrome (NS) is among the most common nonchromosomal disorders affecting development and growth. NS is caused by aberrant RAS-MAPK signaling and is genetically heterogeneous, which explains, in part, the marked clinical variability documented for this Mendelian trait. Recently, we and others identified SOS1 as a major gene underlying NS. Here, we explored further the spectrum of SOS1 mutations and their associated phenotypic features. Mutation scanning of the entire SOS1 coding sequence allowed the identification of 33 different variants deemed to be of pathological significance, including 16 novel missense changes and in-frame indels. Various mutation clusters destabilizing or altering orientation of regions of the protein predicted to contribute structurally to the maintenance of autoinhibition were identified. Two previously unappreciated clusters predicted to enhance SOS1's recruitment to the plasma membrane, thus promoting a spatial reorientation of domains contributing to inhibition, were also recognized. Genotype-phenotype analysis confirmed our previous observations, establishing a high frequency of ectodermal anomalies and a low prevalence of cognitive impairment and reduced growth. Finally, mutation analysis performed on cohorts of individuals with nonsyndromic pulmonic stenosis, atrial septal defects, and ventricular septal defects excluded a major contribution of germline SOS1 lesions to the isolated occurrence of these cardiac anomalies. Hum Mutat 32:1-13, 2011. © 2011 Wiley-Liss, Inc

Published
2011

24. Heterozygous germline mutations in the CBL tumor-suppressor gene cause a Noonan syndrome-like phenotype.

Author

Martinelli, S., Luca, A. De, Stellacci, E., Rossi, C., Checquolo, S., Lepri, F., Caputo, V., Silvano, M., Buscherini, F., Consoli, F., Ferrara, G., Digilio, M.C., Cavaliere, M.L., Hagen, J.M. van, Zampino, G., Burgt, C.J.A.M. van der, Ferrero, G.B., Mazzanti, L., Screpanti, I., Yntema, H.G., Nillesen, W.M., Savarirayan, R., Zenker, M., Dallapiccola, B., Gelb, B.D., Tartaglia, M., Martinelli, S., Luca, A. De, Stellacci, E., Rossi, C., Checquolo, S., Lepri, F., Caputo, V., Silvano, M., Buscherini, F., Consoli, F., Ferrara, G., Digilio, M.C., Cavaliere, M.L., Hagen, J.M. van, Zampino, G., Burgt, C.J.A.M. van der, Ferrero, G.B., Mazzanti, L., Screpanti, I., Yntema, H.G., Nillesen, W.M., Savarirayan, R., Zenker, M., Dallapiccola, B., Gelb, B.D., and Tartaglia, M.

Abstract

Contains fulltext : 88373.pdf (publisher's version ) (Closed access), RAS signaling plays a key role in controlling appropriate cell responses to extracellular stimuli and participates in early and late developmental processes. Although enhanced flow through this pathway has been established as a major contributor to oncogenesis, recent discoveries have revealed that aberrant RAS activation causes a group of clinically related developmental disorders characterized by facial dysmorphism, a wide spectrum of cardiac disease, reduced growth, variable cognitive deficits, ectodermal and musculoskeletal anomalies, and increased risk for certain malignancies. Here, we report that heterozygous germline mutations in CBL, a tumor-suppressor gene that is mutated in myeloid malignancies and encodes a multivalent adaptor protein with E3 ubiquitin ligase activity, can underlie a phenotype with clinical features fitting or partially overlapping Noonan syndrome (NS), the most common condition of this disease family. Independent CBL mutations were identified in two sporadic cases and two families from among 365 unrelated subjects who had NS or suggestive features and were negative for mutations in previously identified disease genes. Phenotypic heterogeneity and variable expressivity were documented. Mutations were missense changes altering evolutionarily conserved residues located in the RING finger domain or the linker connecting this domain to the N-terminal tyrosine kinase binding domain, a known mutational hot spot in myeloid malignancies. Mutations were shown to affect CBL-mediated receptor ubiquitylation and dysregulate signal flow through RAS. These findings document that germline mutations in CBL alter development to cause a clinically variable condition that resembles NS and that possibly predisposes to malignancies.

Published
2010

25. Spectrum of MEK1 and MEK2 gene mutations in cardio-facio-cutaneous syndrome and genotype -phenotype correlations.

Author

Dentici, Ml, Sarkozy, A, Pantaleoni, F, Carta, C, Lepri, F, Ferese, R, Cordeddu, V, Martinelli, S, Briuglia, S, Digilio, Mc, Zampino, Giuseppe, Tartaglia, Marco, Dallapiccola, B., Zampino, Giuseppe (ORCID:0000-0003-3865-3253), Dentici, Ml, Sarkozy, A, Pantaleoni, F, Carta, C, Lepri, F, Ferese, R, Cordeddu, V, Martinelli, S, Briuglia, S, Digilio, Mc, Zampino, Giuseppe, Tartaglia, Marco, Dallapiccola, B., and Zampino, Giuseppe (ORCID:0000-0003-3865-3253)

Abstract

N/A

Published
2009

26. Gain-of-function RAF1 mutations cause Noonan and LEOPARD syndromes with hypertrophic cardiomyopathy

Author

Pandit, B., Sarkozy, A., Pennacchio, L. A., Carta, C., Oishi, K., Martinelli, S., Pogna, E. A., Schackwitz, W., Ustaszewska, A., Landstrom, A., Bos, J. M., Ommen, S. R., Esposito, G., Lepri, F., Faul, C., Mundel, P., Lopez Siguero, J. P., Tenconi, Romano, Selicorni, A., Rossi, C., Mazzanti, L., Torrente, I., Marino, Bruno, Digilio, M. C., Zampino, Giuseppe, Ackerman, M. J., Dallapiccola, Bruno, Tartaglia, Marco, Gelb, B. T., Zampino, Giuseppe (ORCID:0000-0003-3865-3253), Pandit, B., Sarkozy, A., Pennacchio, L. A., Carta, C., Oishi, K., Martinelli, S., Pogna, E. A., Schackwitz, W., Ustaszewska, A., Landstrom, A., Bos, J. M., Ommen, S. R., Esposito, G., Lepri, F., Faul, C., Mundel, P., Lopez Siguero, J. P., Tenconi, Romano, Selicorni, A., Rossi, C., Mazzanti, L., Torrente, I., Marino, Bruno, Digilio, M. C., Zampino, Giuseppe, Ackerman, M. J., Dallapiccola, Bruno, Tartaglia, Marco, Gelb, B. T., and Zampino, Giuseppe (ORCID:0000-0003-3865-3253)

Published
2007

28. RASopathies: Clinical Diagnosis in the First Year of Life

Author

Digilio, M.C., primary, Lepri, F., additional, Baban, A., additional, Dentici, M.L., additional, Versacci, P., additional, Capolino, R., additional, Ferese, R., additional, De Luca, A., additional, Tartaglia, M., additional, Marino, B., additional, and Dallapiccola, B., additional

Published
2010
Full Text
View/download PDF

33. Errata: BRF1 mutations alter RNA polymerase III-dependent transcription and cause neurodevelopmental anomalies (Genome Research (2015) 25 (155-166))

Author

Borck, G., Hög, F., Dentici, M. L., Tan, P. L., Sowada, N., Medeira, A., Gueneau, L., Thiele, H., Kousi, M., Lepri, F., Wenzeck, L., Blumenthal, I., Radicioni, A., Schwarzenberg, T. L., Mandriani, B., Fischetto, R., Morris-Rosendahl, D. J., Altmüller, J., Reymond, A., Nürnberg, P., Merla, G., Bruno Dallapiccola, Katsanis, N., Cramer, P., and Kubisch, C.

39. Heterozygous Germline Mutations in the CBL Tumor-Suppressor Gene Cause a Noonan Syndrome-like Phenotype

Author

Helger G. Yntema, Marco Tartaglia, Giovanni Battista Ferrero, Johanna M. van Hagen, Alessandro De Luca, Bruno Dallapiccola, Laura Mazzanti, Saula Checquolo, Ravi Savarirayan, Ineke van der Burgt, Maria Cristina Digilio, Federica Consoli, Francesco Buscherini, Emilia Stellacci, Willy M. Nillesen, Maria Luigia Cavaliere, Cesare Rossi, Marianna Silvano, Viviana Caputo, G Ferrara, Giuseppe Zampino, Bruce D. Gelb, Francesca Romana Lepri, Martin Zenker, Isabella Screpanti, Simone Martinelli, Human genetics, CCA - Oncogenesis, Martinelli S, De Luca A, Stellacci E, Rossi C, Checquolo S, Lepri F, Caputo V, Silvano M, Buscherini F, Consoli F, Ferrara G, Digilio MC, Cavaliere ML, van Hagen JM, Zampino G, van der Burgt I, Ferrero GB, Mazzanti L, Screpanti I, Yntema HG, Nillesen WM, Savarirayan R, Zenker M, Dallapiccola B, Gelb BD, and Tartaglia M.

Subjects
Male, Heterozygote, Genetics and epigenetic pathways of disease [NCMLS 6], Tumor suppressor gene, DNA Mutational Analysis, Molecular Sequence Data, Biology, RASopathy, medicine.disease_cause, Germline, 03 medical and health sciences, 0302 clinical medicine, Germline mutation, Report, medicine, Genetics, Humans, Genetics(clinical), Proto-Oncogene Proteins c-cbl, Genetics (clinical), Germ-Line Mutation, 030304 developmental biology, 0303 health sciences, Base Sequence, Genetic heterogeneity, Tumor Suppressor Proteins, Noonan Syndrome, GAIN-OF-FUNCTION, JUVENILE MYELOMONOCYTIC LEUKEMIA, ACQUIRED UNIPARENTAL DISOMY, ACUTE MYELOID-LEUKEMIA, GROWTH-FACTOR RECEPTOR, C-CBL, EGF RECEPTOR, NEUROFIBROMATOSIS TYPE-1, COSTELLO-SYNDROME, ADAPTER PROTEIN, medicine.disease, 3. Good health, RING finger domain, Phenotype, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Amino Acid Substitution, 030220 oncology & carcinogenesis, Noonan syndrome, Female, Mutant Proteins, Carcinogenesis
Abstract

Contains fulltext : 88373.pdf (Publisher’s version ) (Closed access) RAS signaling plays a key role in controlling appropriate cell responses to extracellular stimuli and participates in early and late developmental processes. Although enhanced flow through this pathway has been established as a major contributor to oncogenesis, recent discoveries have revealed that aberrant RAS activation causes a group of clinically related developmental disorders characterized by facial dysmorphism, a wide spectrum of cardiac disease, reduced growth, variable cognitive deficits, ectodermal and musculoskeletal anomalies, and increased risk for certain malignancies. Here, we report that heterozygous germline mutations in CBL, a tumor-suppressor gene that is mutated in myeloid malignancies and encodes a multivalent adaptor protein with E3 ubiquitin ligase activity, can underlie a phenotype with clinical features fitting or partially overlapping Noonan syndrome (NS), the most common condition of this disease family. Independent CBL mutations were identified in two sporadic cases and two families from among 365 unrelated subjects who had NS or suggestive features and were negative for mutations in previously identified disease genes. Phenotypic heterogeneity and variable expressivity were documented. Mutations were missense changes altering evolutionarily conserved residues located in the RING finger domain or the linker connecting this domain to the N-terminal tyrosine kinase binding domain, a known mutational hot spot in myeloid malignancies. Mutations were shown to affect CBL-mediated receptor ubiquitylation and dysregulate signal flow through RAS. These findings document that germline mutations in CBL alter development to cause a clinically variable condition that resembles NS and that possibly predisposes to malignancies.

Published
2010
Full Text
View/download PDF

40. A restricted spectrum of NRAS mutations causes Noonan syndrome

Author

Len A. Pennacchio, Francesca Pantaleoni, Ion C. Cirstea, Bruce D. Gelb, Cesare Rossi, Torsten Merbitz-Zahradnik, Lothar Gremer, Francesca Romana Lepri, Stefan Mundlos, Claudio Carta, Martin Zenker, Rainer König, Victoria A. Joshi, Christian P. Kratz, Kerstin Kutsche, Raju Kucherlapati, Cristina Digilio, Maria Lisa Dentici, Mohammad Reza Ahmadian, Margherita Silengo, Bruno Dallapiccola, Michael A. Patton, Liborio Stuppia, Marco Tartaglia, Eva Seemanova, Radovan Dvorsky, Laura Mazzanti, Giuseppe Zampino, Denise Horn, Alfred Wittinghofer, Amy E. Roberts, University of Groningen, Cirstea IC, Kutsche K, Dvorsky R, Gremer L, Carta C, Horn D, Roberts AE, Lepri F, Merbitz-Zahradnik T, König R, Kratz CP, Pantaleoni F, Dentici ML, Joshi VA, Kucherlapati RS, Mazzanti L, Mundlos S, Patton MA, Silengo MC, Rossi C, Zampino G, Digilio C, Stuppia L, Seemanova E, Pennacchio LA, Gelb BD, Dallapiccola B, Wittinghofer A, Ahmadian MR, Tartaglia M, and Zenker M.

Subjects
Neuroblastoma RAS viral oncogene homolog, Male, Models, Molecular, Adolescent, DISORDERS, DNA Mutational Analysis, Molecular Sequence Data, RASopathy, Biology, medicine.disease_cause, Transfection, Article, RAS-MAPK PATHWAY, Young Adult, Chlorocebus aethiops, Genetics, medicine, KRAS, Animals, Humans, SWITCH, Amino Acid Sequence, Phosphorylation, Child, Mutation, RAS PROTEINS, Base Sequence, Sequence Homology, Amino Acid, Middle Aged, medicine.disease, Osteochondrodysplasia, CANCER, NOONAN SYNDROME, Protein Structure, Tertiary, Developmental disorder, Genes, ras, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Child, Preschool, COS Cells, NRAS MUTATIONS, Noonan syndrome, Female, Mitogen-Activated Protein Kinases, Noonan Syndrome with Multiple Lentigines
Abstract

Noonan syndrome, a developmental disorder characterized by congenital heart defects, reduced growth, facial dysmorphism and variable cognitive deficits, is caused by constitutional dysregulation of the RAS-MAPK signaling pathway. Here we report that germline NRAS mutations conferring enhanced stimulus-dependent MAPK activation account for some cases of this disorder. These findings provide evidence for an obligate dependency on proper NRAS function in human development and growth.

Published
2010

41. A variant in the carboxyl-terminus of connexin 40 alters GAP junctions and increases risk for tetralogy of Fallot

Author

Massimiliano Copetti, Valentina Guida, Giuseppe Lamorte, Antonio Zaza, Vania Gelmetti, Monica Bonetti, Marcella Rocchetti, Jeroen den Hertog, Serena Cecchetti, Alessandro De Luca, Rosangela Ferese, Anna Sarkozy, Maria Cristina Digilio, Bruno Dallapiccola, Francesca Romana Lepri, Bruno Marino, Guida, V, Ferese, R, Rocchetti, M, Bonetti, M, Sarkozy, A, Cecchetti, S, Gelmetti, V, Lepri, F, Copetti, M, Lamorte, G, Cristina Digilio, M, Marino, B, Zaza, A, den Hertog, J, Dallapiccola, B, De Luca, A, and Hubrecht Institute for Developmental Biology and Stem Cell Research

Subjects
Heterozygote, Embryo, Nonmammalian, Microinjections, Mutant, Mutation, Missense, Connexin, Biology, medicine.disease_cause, Article, Connexins, chemistry.chemical_compound, Exon, connexin 40, Mutant protein, Genetics, medicine, Animals, Humans, Missense mutation, Genetic Predisposition to Disease, tetralogy of Fallot, Gene, Zebrafish, Genetics (clinical), Fluorescent Dyes, gap junction, tetralogy of Fallot, Lucifer yellow, Mutation, Myocardium, Gap Junctions, Heart, Molecular biology, congenital heart disease, tetralogy of Fallot, 1q21.1, GJA5 , connexin 40, congenital heart disease, 1q21.1, Amino Acid Substitution, chemistry, GJA5, Chromosomes, Human, Pair 1, Pulmonary Atresia
Abstract

GJA5 gene (MIM no. 121013), localized at 1q21.1, encodes for the cardiac gap junction protein connexin 40. In humans, copy number variants of chromosome 1q21.1 have been associated with variable phenotypes comprising congenital heart disease (CHD), including isolated TOF. In mice, the deletion of Gja5 can cause a variety of complex CHDs, in particular of the cardiac outflow tract, corresponding to TOF in many cases. In the present study, we screened for mutations in the GJA5 gene 178 unrelated probands with isolated TOF. A heterozygous nucleotide change (c.793C>T) in exon 2 of the gene leading to the p.Pro265Ser variant at the carboxyl-terminus of the protein was found in two unrelated sporadic patients, one with classic anatomy and one with pulmonary atresia. This GJA5 missense substitution was not observed in 1568 ethnically-matched control chromosomes. Immunofluorescent staining and confocal microscopy revealed that cells expressing the mutant protein form sparse or no visible gap-junction plaques in the region of cell-cell contact. Moreover, analysis of the transfer of the gap junction permanent tracer lucifer yellow showed that cells expressing the mutant protein have a reduced rate of dye transfer compared with wild-type cells. Finally, use of a zebrafish model revealed that microinjection of the GJA5-p.Pro265Ser mutant disrupts overall morphology of the heart tube in the 37% (22/60) of embryos, compared with the 6% (4/66) of the GJA5 wild-type-injected embryos. These findings implicate GJA5 gene as a novel susceptibility gene for TOF.

Published
2013

42. SOS1 mutations in Noonan syndrome: molecular spectrum, structural insights on pathogenic effects, and genotype-phenotype correlations

Author

Francesca Faravelli, Margherita Silengo, Giovanni Battista Ferrero, Ines Kavamura, Orazio Gabrielli, Marco Tartaglia, Serenella Venanzi, Angelo Selicorni, Franco Stanzial, Lorenzo Stella, Michela Bonaguro, Giuseppe Zampino, Laura Mazzanti, Bruce D. Gelb, Maria Cristina Digilio, Maria Lisa Dentici, Giuseppina Baldassarre, Francesca Romana Lepri, Cesare Rossi, Francesca Pantaleoni, Viviana Cordeddu, Maria Felicia Faienza, Viviana Caputo, Bradley Williams, Alessandro De Luca, Alba Pilotta, Bruno Dallapiccola, Bruno Marino, Giovanni Neri, Isabella Torrrente, Laboratorio Mendel, Istituto di Ricovero e Cura a Carattere Scientifico, Ospedale Casa Sollievo della Sofferenza [San Giovanni Rotondo] (IRCCS), Dipartimento di Scienze e Tecnologie Chimiche, Università degli Studi di Roma Tor Vergata [Roma], UO Genetica Medica, Policlinico S.Orsola-Malpighi, Pediatria, Università degli studi di Torino (UNITO), Ematologia, Oncologia e Medicina Molecolare, Istituto Superiore di Sanita', GeneDx [Gaithersburg, MD, USA], Ematologia, Oncologia, Medicina Molecolare, Medical Genetics, Federal University of Sao Paulo, Department of Biomedicine of Developmental Age, Università degli studi di Bari Aldo Moro (UNIBA), Auxoendocrinologia, Ospedale Pediatrico, Servizio aziendale di Consulenza Genetica, Ospedale di Bolzano, Department of Human Genetics, Galliera Hospital, Istituto di Scienze Materno-Infantili, Università Politecnica delle Marche [Ancona] (UNIVPM), Policlinico 'Umberto I', Universita' 'La Sapienza', Universita Cattolica del Sacro Cuore, Università cattolica del Sacro Cuore [Milano] (Unicatt), Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Università di Bologna, Policlinico S. Orsola-Malpighi, IRCCS Ospedale Pediatrico Bambino Gesù [Roma], Clinica Pediatrica, Pediatrics and Human Genetics, Icahn School of Medicine at Mount Sinai [New York] (MSSM), Lepri F, De Luca A, Stella L, Rossi C, Baldassarre G, Pantaleoni F, Cordeddu V, Williams BJ, Dentici ML, Caputo V, Venanzi S, Bonaguro M, Kavamura I, Faienza MF, Pilotta A, Stanzial F, Faravelli F, Gabrielli O, Marino B, Neri G, Silengo MC, Ferrero GB, Torrrente I, Selicorni A, Mazzanti L, Digilio MC, Zampino G, Dallapiccola B, Gelb BD, Tartaglia M., Ist Super Sanita, IRCCS Casa Sollievo Sofferenza, Univ Roma Tor Vergata, St Orsola Marcello Malpighi Hosp, Univ Turin, GeneDx, Universidade Federal de São Paulo (UNIFESP), Univ Bari, Osped Pediat, Osped Bolzano, Ospedali Galliera, Univ Politecn Marche, Univ Roma La Sapienza, Univ Cattolica Sacro Cuore, Univ Milano Bicocca, Univ Bologna, IRCCS, and Mt Sinai Sch Med

Subjects
Heart Septal Defects, Ventricular, Male, genotype-phenotype correlations, Protein Conformation, SOS1 MUTATIONS, mutation analysis, noonan syndrome, ns, sos1, structural analysis, medicine.disease_cause, Heart Septal Defects, Atrial, INDEL Mutation, Missense mutation, Noonan syndrome, SOS1, Child, Genetics (clinical), Settore CHIM/02 - Chimica Fisica, Genetics, 0303 health sciences, Mutation, 030305 genetics & heredity, NOONAN SYNDOME, Life Sciences, Exons, Phenotype, Major gene, Pulmonary Valve Stenosis, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Female, SOS1 Protein, Research Article, Adult, Adolescent, Mutation, Missense, Biology, NS, Atrial septal defects, genotype–phenotype correlations, RAS-MAPK PATHWAY, 03 medical and health sciences, medicine, Humans, Genetic Association Studies, 030304 developmental biology, Mitogen-Activated Protein Kinase Kinases, Genetic heterogeneity, medicine.disease, Introns
Abstract

Telethon-Italy ERA-Net for research programs on rare diseases 2009 (European network on Noonan Syndrome and related disorders) Associazione Italiana Sindromi di Costello e Cardiofaciocutanea NIH Italian Ministry of Health Italian Ministry of Education, University and Research Noonan syndrome (NS) is among the most common nonchromosomal disorders affecting development and growth. NS is caused by aberrant RAS-MAPK signaling and is genetically heterogeneous, which explains, in part, the marked clinical variability documented for this Mendelian trait. Recently, we and others identified SOS1 as a major gene underlying NS. Here, we explored further the spectrum of SOS1 mutations and their associated phenotypic features. Mutation scanning of the entire SOS1 coding sequence allowed the identification of 33 different variants deemed to be of pathological significance, including 16 novel missense changes and in-frame indels. Various mutation clusters destabilizing or altering orientation of regions of the protein predicted to contribute structurally to the maintenance of autoinhibition were identified. Two previously unappreciated clusters predicted to enhance SOS1's recruitment to the plasma membrane, thus promoting a spatial reorientation of domains contributing to inhibition, were also recognized. Genotype-phenotype analysis confirmed our previous observations, establishing a high frequency of ectodermal anomalies and a low prevalence of cognitive impairment and reduced growth. Finally, mutation analysis performed on cohorts of individuals with nonsyndromic pulmonic stenosis, atrial septal defects, and ventricular septal defects excluded a major contribution of germline SOS1 lesions to the isolated occurrence of these cardiac anomalies. Hum Mutat 32:760-772, 2011. (C) 2011 Wiley-Liss, Inc. Ist Super Sanita, Dept Hematol Oncol & Mol Med, I-00161 Rome, Italy IRCCS Casa Sollievo Sofferenza, Lab Mendel, San Giovanni Rotondo, Italy Univ Roma Tor Vergata, Dipartimento Sci & Tecnol Chim, Rome, Italy St Orsola Marcello Malpighi Hosp, UO Genet Med, Bologna, Italy Univ Turin, Dipartimento Pediat, Turin, Italy GeneDx, Gaithersburg, MD USA Universidade Federal de São Paulo, São Paulo, Brazil Univ Bari, Dept Biomed Dev Age, Bari, Italy Osped Pediat, Brescia, Italy Osped Bolzano, Serv Aziendale Consulenza Genet, Bolzano, Italy Ospedali Galliera, SC Genet Umana, Genoa, Italy Univ Politecn Marche, Ist Sci Materno Infantili, Ancona, Italy Univ Roma La Sapienza, Dept Pediat, Div Pediat Cardiol, Rome, Italy Univ Cattolica Sacro Cuore, Ist Genet Med, Rome, Italy Univ Milano Bicocca, AOS Gerardo Fdn MBBM, Pediat Clin, Monza, Italy Univ Bologna, Dipartimento Pediat, Bologna, Italy IRCCS, Osped Pediat Bambino Gesu, Rome, Italy Univ Cattolica Sacro Cuore, Ist Clin Pediat, Rome, Italy Mt Sinai Sch Med, Child Hlth & Dev Inst, New York, NY USA Universidade Federal de São Paulo, EPM, São Paulo, Brazil Telethon-Italy: GGP07115 Telethon-Italy: GGP10020 NIH: HL71207 Italian Ministry of Health: RC2009 Italian Ministry of Health: RC2010 Italian Ministry of Education, University and Research: FIRB RBIP06PMF2_005 Web of Science

Published
2010

43. Mutation of SHOC2 promotes aberrant protein N-myristoylation and causes Noonan-like syndrome with loose anagen hair

Author

Elisabetta Flex, Bruce D. Gelb, Kerstin Kutsche, Francesca Romana Lepri, Giovanni Battista Ferrero, Martin Zenker, Marco Tartaglia, Anna Lipzen, Valentina Fodale, Maria Cristina Digilio, Alessio Cardinale, Bruno Dallapiccola, Elia Di Schiavi, Angelo Selicorni, Laura Mazzanti, Deborah Bartholdi, Len A. Pennacchio, Serena Cecchetti, Cecilia Anichini, Viviana Cordeddu, Joel Martin, Wendy Schackwitz, Simone Martinelli, Anna Sarkozy, Daniela Merlo, Romano Tenconi, Ravi Iyengar, Paolo Bazzicalupo, Giuseppe Zampino, Cesare Rossi, Avi Ma'ayan, Cordeddu V., Di Schiavi E., Pennacchio L.A., Ma'ayan A., Sarkozy A., Fodale V., Cecchetti S., Cardinale A., Martin J., Schackwitz W., Lipzen A., Zampino G., Mazzanti L., Digilio M.C., Martinelli S., Flex E., Lepri F., Bartholdi D., Kutsche K., Ferrero G.B., Anichini C., Selicorni A., Rossi C., Tenconi R., Zenker M., Merlo D., Dallapiccola B., Iyengar R., Bazzicalupo P., Gelb B.D., and Tartaglia M.

Subjects
medicine.medical_specialty, Indoles, Mutation, Missense, LOOSE-ANAGEN-HAIR, Biology, medicine.disease_cause, Myristic Acid, Article, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Genetics, medicine, Humans, Missense mutation, Fluorescent Antibody Technique, Indirect, Cytoskeleton, Germ-Line Mutation, Caenorhabditis elegans, Fluorescent Dyes, 030304 developmental biology, Cell Nucleus, 0303 health sciences, Mutation, Noonan Syndrome, Intracellular Signaling Peptides and Proteins, N-Myristoylation, SHOC2 MUTATION, medicine.disease, biology.organism_classification, Phenotype, Actins, Cell biology, Endocrinology, NOONAN-LIKE SYNDROME, Lipid modification, Fatty acylation, 030217 neurology & neurosurgery, Noonan Syndrome with Multiple Lentigines, Hair
Abstract

N-myristoylation is a common form of co-translational protein fatty acylation resulting from the attachment of myristate to a required N-terminal glycine residue(1,2). We show that aberrantly acquired N-myristoylation of SHOC2, a leucine-rich repeat-containing protein that positively modulates RAS-MAPK signal flow(3-6), underlies a clinically distinctive condition of the neuro-cardio-facial-cutaneous disorders family. Twenty-five subjects with a relatively consistent phenotype previously termed Noonan-like syndrome with loose anagen hair (MIM607721)(7) shared the 4A>G missense change in SHOC2 (producing an S2G amino acid substitution) that introduces an N-myristoylation site, resulting in aberrant targeting of SHOC2 to the plasma membrane and impaired translocation to the nucleus upon growth factor stimulation. Expression of SHOC2(S2G) in vitro enhanced MAPK activation in a cell typespecific fashion. Induction of SHOC2(S2G) in Caenorhabditis elegans engendered protruding vulva, a neomorphic phenotype previously associated with aberrant signaling. These results document the first example of an acquired N-terminal lipid modification of a protein causing human disease.

Published
2009

44. Gain-of-function RAF1 mutations cause Noonan and LEOPARD syndromes with hypertrophic cardiomyopathy

Author

Giorgia Esposito, Christian Faul, Michael J. Ackerman, Simone Martinelli, Isabella Torrente, Francesca Romana Lepri, Kimihiko Oishi, Wendy Schackwitz, Edgar A. Pogna, Bruno Dallapiccola, Bruce D. Gelb, Bruno Marino, Juan Pedro López Siguero, Andrew P. Landstrom, Marco Tartaglia, Romano Tenconi, J. Martijn Bos, Maria Cristina Digilio, Anna Ustaszewska, Laura Mazzanti, Bhaswati Pandit, Giuseppe Zampino, Steve R. Ommen, Claudio Carta, Peter Mundel, Anna Sarkozy, Len A. Pennacchio, Angelo Selicorni, Cesare Rossi, Pandit B., Sarkozy A., Pennacchio L.A., Carta C., Oishi K., Martinelli S., Pogna E.A., Schackwitz W, Ustaszewska A., Landstrom A., Bos J.M., Ommen S.R., Esposito G., Lepri F., Faul C., Mundel P., Lòpez Siguero J.P., Tenconi ., Selicorni A., Rossi C., Mazzanti L., Torrente I., Marino B., Digilio M.C., Zampino G., Ackerman M.J., Dallapiccola B., Tartaglia M., and Gelb B.D.

Subjects
musculoskeletal diseases, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Mutation, Missense, Protein Tyrosine Phosphatase, Non-Receptor Type 11, Biology, Cardiofaciocutaneous syndrome, Transfection, CARDIAC-HYPERTROPHY, PHENOTYPE CORRELATION, GERMLINE MUTATIONS, SIGNALING PATHWAY, COSTELLO-SYNDROME, PTPN11 MUTATIONS, TRANSGENIC MICE, HUMAN CANCER, C-RAF, B-RAF, LEOPARD Syndrome, Costello syndrome, Internal medicine, Chlorocebus aethiops, Genetics, medicine, Animals, Humans, cardiovascular diseases, Kinase activity, Noonan Syndrome, Intracellular Signaling Peptides and Proteins, Cardiomyopathy, Hypertrophic, medicine.disease, Protein Structure, Tertiary, PTPN11, Proto-Oncogene Proteins c-raf, Endocrinology, COS Cells, SOS1, ras Proteins, Noonan syndrome, Protein Tyrosine Phosphatases, Noonan Syndrome with Multiple Lentigines, Signal Transduction
Abstract

Noonan and LEOPARD syndromes are developmental disorders with overlapping features, including cardiac abnormalities, short stature and facial dysmorphia. Increased RAS signaling owing to PTPN11, SOS1 and KRAS mutations causes approximately 60% of Noonan syndrome cases, and PTPN11 mutations cause 90% of LEOPARD syndrome cases. Here, we report that 18 of 231 individuals with Noonan syndrome without known mutations (corresponding to 3% of all affected individuals) and two of six individuals with LEOPARD syndrome without PTPN11 mutations have missense mutations in RAF1, which encodes a serine-threonine kinase that activates MEK1 and MEK2. Most mutations altered a motif flanking Ser259, a residue critical for autoinhibition of RAF1 through 14-3-3 binding. Of 19 subjects with a RAF1 mutation in two hotspots, 18 (or 95%) showed hypertrophic cardiomyopathy (HCM), compared with the 18% prevalence of HCM among individuals with Noonan syndrome in general. Ectopically expressed RAF1 mutants from the two HCM hotspots had increased kinase activity and enhanced ERK activation, whereas non-HCM-associated mutants were kinase impaired. Our findings further implicate increased RAS signaling in pathological cardiomyocyte hypertrophy.

Published
2007

45. Heterozygosity for loss-of-function variants in LZTR1 is associated with isolated multiple café-au-lait macules.

Author

Mastromoro G, Santoro C, Motta M, Sorrentino U, Daniele P, Peduto C, Petrizzelli F, Tripodi M, Pinna V, Zanobio M, Rotundo G, Bellacchio E, Lepri F, Farina A, D'Asdia MC, Piceci-Sparascio F, Biagini T, Petracca A, Castori M, Melis D, Accadia M, Traficante G, Tarani L, Fontana P, Sirchia F, Paparella R, Currò A, Benedicenti F, Scala I, Dentici ML, Leoni C, Trevisan V, Cecconi A, Giustini S, Pizzuti A, Salviati L, Novelli A, Zampino G, Zenker M, Genuardi M, Digilio MC, Papi L, Perrotta S, Nigro V, Castellanos E, Mazza T, Trevisson E, Tartaglia M, Piluso G, and De Luca A

Subjects
Humans, Male, Female, Adult, Child, Adolescent, Loss of Function Mutation genetics, Middle Aged, Neurilemmoma genetics, Neurilemmoma pathology, Child, Preschool, Young Adult, Pedigree, Alleles, Phenotype, Skin Neoplasms, Neurofibromatoses, Cafe-au-Lait Spots genetics, Cafe-au-Lait Spots pathology, Heterozygote, Transcription Factors genetics
Abstract

Purpose: Pathogenic LZTR1 variants cause schwannomatosis and dominant/recessive Noonan syndrome (NS). We aim to establish an association between heterozygous loss-of-function LZTR1 alleles and isolated multiple café-au-lait macules (CaLMs)., Methods: A total of 849 unrelated participants with multiple CaLMs, lacking pathogenic/likely pathogenic NF1 and SPRED1 variants, underwent RASopathy gene panel sequencing. Data on 125 individuals with heterozygous LZTR1 variants were collected for characterizing their clinical features and the associated molecular spectrum. In vitro functional assessment was performed on a representative panel of missense variants and small in-frame deletions., Results: Analysis revealed heterozygous LZTR1 variants in 6.0% (51/849) of participants, exceeding the general population prevalence. LZTR1-related CaLMs varied in number, displayed sharp or irregular borders, and were generally isolated but occasionally associated with features recurring in RASopathies. In 2 families, CaLMs and schwannomas co-occurred. The molecular spectrum mainly consisted of truncating variants, indicating loss-of-function. These variants substantially overlapped with those occurring in schwannomatosis and recessive NS. Functional characterization showed accelerated protein degradation or mislocalization, and failure to downregulate mitogen-activated protein kinase signaling., Conclusion: Our findings expand the phenotypic variability associated with LZTR1 variants, which, in addition to conferring susceptibility to schwannomatosis and causing dominant and recessive NS, occur in individuals with isolated multiple CaLMs., Competing Interests: Conflict of Interest The authors declare no conflicts of interest., (Copyright © 2024 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published
2024
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46. Monitoring motor traits of young athletes in Tuscany: a perspective from the first phase of the project "I ragazzi della Toscana 30 anni dopo".

Author

Raugei L, Chetoni G, Lepri F, Lanzini V, Balducci F, and Bondi D

Subjects
Adolescent, Aged, Athletes, Child, Exercise, Female, Humans, Italy, Male, Middle Aged, Sports, Youth Sports
Abstract

Background: The current study represents the preliminary report of an Italian regional project aimed to monitor the status of young athletes in modern times and linking it to the monitoring started in the nineties., Methods: After the preparatory stage, data were analyzed and discussed with coaches and researchers. Next, for the main stage, the coaches performed the tests and the supervisors reported them in a database. A total number of 173 participants (age: 10.64±2.42 years, BMI=18.43±3.49 kg/m 2 ) were tested for standing long jump, sit and reach, 10×4 Shuttle Run, 3 kg-medical ball throw, and Sergeant Test. Nine sports disciplines were represented., Results: 46.5% of the participants trained more than twice a week and 15.8% of the participants played more than 1 discipline. Girls were more flexible than boys, and differences emerged in the Sergeant and Shuttle Run Test, with boys outperforming girls in older ages., Conclusions: The "sentinel" role of sports societies, in terms of health and developmental risks, should represent valuable accountability. Authors advocate a specific focus shall be directed to the risks of youth sports specialization, gender-related developmental trajectories, long-life physical activity, and sport engagement.

Published
2021
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47. The clinical significance of A2ML1 variants in Noonan syndrome has to be reconsidered.

Author

Brinkmann J, Lissewski C, Pinna V, Vial Y, Pantaleoni F, Lepri F, Daniele P, Burnyte B, Cuturilo G, Fauth C, Gezdirici A, Kotzot D, Güleç EY, Iotova V, Schanze D, Ramond F, Havlovicová M, Utine GE, Simsek-Kiper PO, Stoyanova M, Verloes A, De Luca A, Tartaglia M, Cavé H, and Zenker M

Subjects
Genetic Testing standards, Humans, Noonan Syndrome pathology, Mutation, Noonan Syndrome genetics, Phenotype, alpha-Macroglobulins genetics
Abstract

The RASopathies are a group of clinically and genetically heterogeneous developmental disorders caused by dysregulation of the RAS/MAPK signalling pathway. Variants in several components and regulators of this pathway have been identified as the pathogenetic cause. In 2015, missense variants in A2ML1 were reported in three unrelated families with clinical diagnosis of Noonan syndrome (NS) and a zebrafish model was presented showing heart and craniofacial defects similar to those caused by a NS-associated Shp2 variant. However, a causal role of A2ML1 variants in NS has not been confirmed since. Herein, we report on 15 individuals who underwent screening of RASopathy-associated genes and were found to carry rare variants in A2ML1, including variants previously proposed to be causative for NS. In cases where parental DNA was available, the respective A2ML1 variant was found to be inherited from an unaffected parent. Seven index patients carrying an A2ML1 variant presented with an alternate disease-causing genetic aberration. These findings underscore that current evidence is insufficient to support a causal relation between variants in A2ML1 and NS, questioning the inclusion of A2ML1 screening in diagnostic RASopathy testing.

Published
2021
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48. Variants of SOS2 are a rare cause of Noonan syndrome with particular predisposition for lymphatic complications.

Author

Lissewski C, Chune V, Pantaleoni F, De Luca A, Capri Y, Brinkmann J, Lepri F, Daniele P, Leenders E, Mazzanti L, Scarano E, Radio FC, Kutsche K, Kuechler A, Gérard M, Ranguin K, Legendre M, Vial Y, van der Burgt I, Rinne T, Andreucci E, Mastromoro G, Digilio MC, Cave H, Tartaglia M, and Zenker M

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, Humans, Infant, Male, Mutation, Noonan Syndrome pathology, Lymphatic System pathology, Noonan Syndrome genetics, Phenotype, Son of Sevenless Proteins genetics
Abstract

RASopathies are caused by variants in genes encoding components or modulators of the RAS/MAPK signaling pathway. Noonan syndrome is the most common entity among this group of disorders and is characterized by heart defects, short stature, variable developmental delay, and typical facial features. Heterozygous variants in SOS2, encoding a guanine nucleotide exchange factor for RAS, have recently been identified in patients with Noonan syndrome. The number of published cases with SOS2-related Noonan syndrome is still limited and little is known about genotype-phenotype correlations. We collected previously unpublished clinical and genotype data from 17 individuals carrying a disease-causing SOS2 variant. Most individuals had one of the previously reported dominant pathogenic variants; only four had novel changes at the established hotspots for variants that affect protein function. The overall phenotype of the 17 patients fits well into the spectrum of Noonan syndrome and is most similar to the phenotype observed in patients with SOS1-related Noonan syndrome, with ectodermal anomalies as common features and short stature and learning disabilities as relatively infrequent findings compared to the average Noonan syndrome phenotype. The spectrum of heart defects in SOS2-related Noonan syndrome was consistent with the known spectrum of cardiac anomalies in RASopathies, but no specific heart defect was particularly predominating. Notably, lymphatic anomalies were extraordinarily frequent, affecting more than half of the patients. We therefore conclude that SOS2-related Noonan syndrome is associated with a particularly high risk of lymphatic complications that may have a significant impact on morbidity and quality of life.

Published
2021
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49. Nocturnal enteral nutrition is therapeutic for growth failure in Fanconi-Bickel syndrome.

Author

Pennisi A, Maranda B, Benoist JF, Baudouin V, Rigal O, Pichard S, Santer R, Romana Lepri F, Novelli A, Ogier de Baulny H, Dionisi-Vici C, and Schiff M

Subjects
Adolescent, Adult, Child, Child, Preschool, Fanconi Syndrome genetics, Female, Glucose Transporter Type 2 genetics, Humans, Male, Pilot Projects, Treatment Outcome, Young Adult, Enteral Nutrition methods, Failure to Thrive diet therapy, Fanconi Syndrome complications
Abstract

Fanconi-Bickel syndrome (FBS) is a rare autosomal recessive disorder characterised by impaired glucose liver homeostasis and proximal renal tubular dysfunction. It is caused by pathogenic variants in SLC2A2 coding for the glucose transporter GLUT2. Main clinical features include hepatomegaly, fasting hypoglycaemia, postprandial hyperglycaemia, Fanconi-type tubulopathy occasionally with rickets, and a severe growth disorder. While treatment for renal tubular dysfunction is well established, data regarding optimal nutritional therapy are scarce. Similarly, detailed clinical evaluation of treated FBS patients is lacking. These unmet needs were an incentive to conduct the present pilot study. We present clinical findings, laboratory parameters and molecular genetic data on 11 FBS patients with emphasis on clinical outcome under various nutritional interventions. At diagnosis, the patients' phenotypic severity could be classified into two categories: a first group with severe growth failure and rickets, and a second group with milder signs and symptoms. Three patients were diagnosed early and treated because of family history. All patients exhibited massive glucosuria at diagnosis and some in both groups had fasting hypoglycaemic episodes. Growth retardation improved drastically in all five patients treated by intensive nutritional intervention (nocturnal enteral nutrition) and uncooked cornstarch with final growth parameters in the normal range. The four severely affected patients who were treated with uncooked cornstarch alone did not catch up growth. All patients received electrolytes and l-carnitine supplementation to compensate for the tubulopathy. This is one of the largest series of FBS on therapeutic management with evidence that nocturnal enteral nutrition rescues growth failure., (© 2019 SSIEM.)

Published
2020
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50. Providing more evidence on LZTR1 variants in Noonan syndrome patients.

Author

Chinton J, Huckstadt V, Mucciolo M, Lepri F, Novelli A, Gravina LP, and Obregon MG

Subjects
Adolescent, Adult, Argentina epidemiology, Child, Child, Preschool, Facies, Female, Heart Defects, Congenital pathology, Humans, Infant, Male, Middle Aged, Mutation, Noonan Syndrome epidemiology, Noonan Syndrome pathology, Pedigree, Phenotype, Proto-Oncogene Proteins c-raf genetics, Proto-Oncogene Proteins p21(ras) genetics, Young Adult, Genetic Predisposition to Disease, Heart Defects, Congenital genetics, Noonan Syndrome genetics, Transcription Factors genetics
Abstract

Noonan syndrome (NS, OMIM 163950) is a common autosomal dominant RASopathy caused mainly by gain-of-function germline pathogenic variants in genes involved in the RAS/MAPK signaling pathway. LZTR1 gene has been associated with both dominant and recessive NS. Here, we present seven patients with NS and variants in the LZTR1 gene from seven unrelated families, 14 individuals in total. The detection rAte of LZTR1 variants in our NS cohort was 4% similar to RAF1 and KRAS genes, indicating that variants in this gene might be frequent among our population. Three different variants were detected, c.742G>A (p.Gly248Arg), c.360C>A (p.His120Gln), and c.2245T>C (p.Tyr749His). The pathogenic variant c.742G>A (p.Gly248Arg) was found in five/seven patients. In our cohort 50% of patients presented heart defects and neurodevelopment delay or learning disabilities, short stature was present in 21% of them and one patient had acute lymphoblastic leukemia. This study broadens the spectrum of variants in the LZTR1 gene and provides increased knowledge of the clinical phenotypes observed in Argentinean NS patients., (© 2019 Wiley Periodicals, Inc.)

Published
2020
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