Your search keyword '"Anna Rita Virzì"' showing total 4 results

1. RON tyrosine kinase mutations in brain metastases from lung cancer

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Author

Melissa Milan, Silvia Benvenuti, Alice Maria Balderacchi, Anna Rita Virzì, Alessandra Gentile, Rebecca Senetta, Paola Cassoni, Paolo Maria Comoglio, and Giulia Maria Stella

Subjects

Medicine

Published

2018

2. Whole exome sequencing identifies a germline MET mutation in two siblings with hereditary wild-type RET medullary thyroid cancer

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Author

Antonella Verrienti, Ferdinando Marandino, Diego Russo, Paolo Fortina, Anna Rita Virzì, Valeria Pecce, Marialuisa Appetecchia, Alessandra Gentile, Francesca Rosignolo, Melissa Milan, Cosimo Durante, Silvia Benvenuti, Eric Londin, Paolo M. Comoglio, Agnese Barnabei, Marialuisa Sponziello, and Sebastiano Filetti more...

Subjects

Male, 0301 basic medicine, Proband, endocrine system diseases, RET proto-oncogene, Biology, medicine.disease_cause, medullary thyroid cancer, Proto-Oncogene Mas, Germline, whole exome sequencing, familial medullary thyroid cancer, MET proto-oncogene, Genetics, Genetics (clinical), 03 medical and health sciences, 0302 clinical medicine, Germline mutation, Exome Sequencing, Genotype, medicine, Humans, Thyroid Neoplasms, Exome sequencing, Mutation, Base Sequence, Siblings, Proto-Oncogene Proteins c-ret, Medullary thyroid cancer, Proto-Oncogene Proteins c-met, medicine.disease, Carcinoma, Neuroendocrine, Pedigree, Germ Cells, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer research, Female

Abstract

Whole exome sequencing (WES) was used to investigate two Italian siblings with wild-type RET genotype, who developed medullary thyroid cancers (MTCs) and, later, primary prostate and breast cancers, respectively. The proband's MTC harbored a p.Met918Thr RET mutation; his sister's MTC was RET/RAS wild-type. Both siblings had a germline mutation (p.Arg417Gln) in the extracellular Sema domain of the proto-oncogene MET. Experiments involving ectopic expression of MET p.Arg417Gln in MET-negative T47D breast cancer cells documented the mutant receptor's functionality and its ability to enhance cell migration and invasion. Our findings highlight a possible link between MET germline mutations and MTCs and suggest that MET p. Arg417Gln may promote an invasive malignant phenotype. The possibility that MTC can be driven/co-driven by a MET mutation has potential management implications, since the tyrosine-kinase inhibitor cabozantinib-approved for treating advanced MTCs-is a specific MET inhibitor. more...

Published

2017

3. Reviving oncogenic addiction to MET bypassed by BRAF (G469A) mutation

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Author

Alessandra Gentile, Anna Rita Virzì, Paolo M. Comoglio, and Silvia Benvenuti

Subjects

0301 basic medicine, Proto-Oncogene Proteins B-raf, Mutation, Missense, Context (language use), Mice, SCID, Biology, medicine.disease_cause, SCID, Somatic evolution in cancer, BRAF, 03 medical and health sciences, Mice, 0302 clinical medicine, Mice, Inbred NOD, Neoplasms, medicine, Animals, Humans, Protein Phosphatase 2, Kinase activity, Mutation, Multidisciplinary, Oncogene, MET target therapy, Kinase, Protein phosphatase 2, Cell Biology, Proto-Oncogene Proteins c-met, Biological Sciences, MET amplification, A549 Cells, Amino Acid Substitution, Pyrazoles, Pyridazines, Xenograft Model Antitumor Assays, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Inbred NOD, Missense

Abstract

Significance Genetic alterations of two oncogenes occur frequently in cancers; however, silencing of an oncogenic driver by activation of a second oncogene has never been described. Here we report the case of a cancer carrying alterations of two oncogenes residing on the same pathway; namely, MET amplification and BRAF mutation. Surprisingly, the pharmacological blockade of BRAF had no effect, as it was followed by MET reactivation: Mechanistic studies unraveled the existence of a previously unknown negative feedback inhibition of MET by BRAF. This phenomenon provides evidence for a mechanism of resistance to therapy against a single-target oncogene., Cancer clonal evolution is based on accrual of driving genetic alterations that are expected to cooperate and progressively increase malignancy. Little is known on whether any genetic alteration can hinder the oncogenic function of a coexisting alteration, so that therapeutic targeting of the one can, paradoxically, revive the function of the other. We report the case of a driver oncogene (MET) that is not only bypassed, but also disabled by the mutation of a downstream transducer (BRAF), and reignited by inhibition of the latter. In a metastasis originated from a cancer of unknown primary (CUP), the MET oncogene was amplified eightfold, but unexpectedly, the kinase was dephosphorylated and inactive. As result, specific drugs targeting MET (JNJ-38877605) failed to inhibit growth of xenografts derived from the patient. In addition to MET amplification, the patient harbored, as sole proliferative driver, a mutation hyperactivating BRAF (G469A). Surprisingly, specific blockade of the BRAF pathway was equally ineffective, and it was accompanied by rephosphorylation of the amplified MET oncoprotein and by revived addiction to MET. Mechanistically, MET inactivation in the context of the BRAF-activating mutation is driven through a negative feedback loop involving inactivation of PP2A phosphatase, which in turn leads to phosphorylation on MET inhibitory Ser985. Disruption of this feedback loop allows PP2A reactivation, removing the inhibitory phosphorylation from Ser985 and thereby unleashing MET kinase activity. Evidence is provided for a mechanism of therapeutic resistance to single-oncoprotein targeting, based on reactivation of a genetic alteration functionally dormant in targeted cancer cells. more...

Published

2018

4. Agnostos precision medicine project in patients (PTS) with cancer of unknown primary (CUP)

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Author

Salvatore Siena, Rebecca Senetta, Giulia Maria Stella, A. Nuzzo, F. Verginelli, Alessandra Gentile, Anna Sapino, Paola Cassoni, Silvia Benvenuti, D. Galizia, Paolo M. Comoglio, Melissa Milan, Antonio D'Ambrosio, Anna Rita Virzì, S. Marsoni, A. Balsamo, E. Geuna, M. Spione, Filippo Montemurro, and C. Boccaccio more...

Subjects

medicine.medical_specialty, Oncology, Cancer of unknown primary, business.industry, General surgery, medicine, In patient, Hematology, business, Precision medicine, Surgery

Published

2016