Whole-exome analysis in osteosarcoma to identify a personalized therapy

Whole-exome analysis in osteosarcoma to identify a personalized therapy

Osteosarcoma is the most common pediatric primary non-hematopoietic bone tumor. Survival of these young patients is related to the response to chemotherapy and development of metastases. Despite many advances in cancer research, chemotherapy regimens for osteosarcoma are still based on non-selective...

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Veröffentlicht in:Oncotarget 2017-10, Vol.8 (46), p.80416-80428
Hauptverfasser: Chiappetta, Caterina, Mancini, Massimiliano, Lessi, Francesca, Aretini, Paolo, De Gregorio, Veronica, Puggioni, Chiara, Carletti, Raffaella, Petrozza, Vincenzo, Civita, Prospero, Franceschi, Sara, Naccarato, Antonio G, Rocca, Carlo Della, Mazzanti, Chiara M, Di Cristofano, Claudio
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container_end_page 80428
container_issue 46
container_start_page 80416
container_title Oncotarget
container_volume 8
creator Chiappetta, Caterina
Mancini, Massimiliano
Lessi, Francesca
Aretini, Paolo
De Gregorio, Veronica
Puggioni, Chiara
Carletti, Raffaella
Petrozza, Vincenzo
Civita, Prospero
Franceschi, Sara
Naccarato, Antonio G
Rocca, Carlo Della
Mazzanti, Chiara M
Di Cristofano, Claudio
description Osteosarcoma is the most common pediatric primary non-hematopoietic bone tumor. Survival of these young patients is related to the response to chemotherapy and development of metastases. Despite many advances in cancer research, chemotherapy regimens for osteosarcoma are still based on non-selective cytotoxic drugs. It is essential to investigate new specific molecular therapies for osteosarcoma to increase the survival rate of these patients. We performed exomic sequence analyses of 8 diagnostic biopsies of patients with conventional high grade osteosarcoma to advance our understanding of their genetic underpinnings and to correlate the genetic alteration with the clinical and pathological features of each patient to identify a personalized therapy. We identified 18,275 somatic variations in 8,247 genes and we found three mutated genes in 7/8 (87%) samples (KIF1B, NEB and KMT2C). KMT2C showed the highest number of variations; it is an important component of a histone H3 lysine 4 methyltransferase complex and it is one of the histone modifiers previously implicated in carcinogenesis, never studied in osteosarcoma. Moreover, we found a group of 15 genes that showed variations only in patients that did not respond to therapy and developed metastasis and some of these genes are involved in carcinogenesis and tumor progression in other tumors. These data could offer the opportunity to get a key molecular target to identify possible new strategies for early diagnosis and new therapeutic approaches for osteosarcoma and to provide a tailored treatment for each patient based on their genetic profile.
doi_str_mv 10.18632/oncotarget.19010
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Survival of these young patients is related to the response to chemotherapy and development of metastases. Despite many advances in cancer research, chemotherapy regimens for osteosarcoma are still based on non-selective cytotoxic drugs. It is essential to investigate new specific molecular therapies for osteosarcoma to increase the survival rate of these patients. We performed exomic sequence analyses of 8 diagnostic biopsies of patients with conventional high grade osteosarcoma to advance our understanding of their genetic underpinnings and to correlate the genetic alteration with the clinical and pathological features of each patient to identify a personalized therapy. We identified 18,275 somatic variations in 8,247 genes and we found three mutated genes in 7/8 (87%) samples (KIF1B, NEB and KMT2C). 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title Whole-exome analysis in osteosarcoma to identify a personalized therapy
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