Modeling medulloblastoma in vivo and with human cerebellar organoids

Claudio Ballabio; Marica Anderle; Matteo Gianesello; Chiara Lago; Evelina Miele; Marina Cardano; Giuseppe Aiello; Silvano Piazza; Davide Caron; Francesca Gianno; Andrea Ciolfi; Lucia Pedace; Angela Mastronuzzi; Marco Tartaglia; Franco Locatelli; Elisabetta Ferretti; Felice Giangaspero; Luca Tiberi

doi:10.1038/s41467-019-13989-3

Modeling medulloblastoma in vivo and with human cerebellar organoids

Claudio Ballabio, Marica Anderle, Matteo Gianesello, Chiara Lago, Evelina Miele, Marina Cardano, Giuseppe Aiello, Silvano Piazza, Davide Caron, Francesca Gianno, Andrea Ciolfi, Lucia Pedace, Angela Mastronuzzi, Marco Tartaglia, Franco Locatelli, Elisabetta Ferretti, Felice Giangaspero, Luca Tiberi

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Medulloblastoma (MB) is the most common malignant brain tumor in children and among the subtypes, Group 3 MB has the worst outcome. Here, we perform an in vivo, patient-specific screen leading to the identification of Otx2 and c-MYC as strong Group 3 MB inducers. We validated our findings in human cerebellar organoids where Otx2/c-MYC give rise to MB-like organoids harboring a DNA methylation signature that clusters with human Group 3 tumors. Furthermore, we show that SMARCA4 is able to reduce Otx2/c-MYC tumorigenic activity in vivo and in human cerebellar organoids while SMARCA4 T910M, a mutant form found in human MB patients, inhibits the wild-type protein function. Finally, treatment with Tazemetostat, a EZH2-specific inhibitor, reduces Otx2/c-MYC tumorigenesis in ex vivo culture and human cerebellar organoids. In conclusion, human cerebellar organoids can be efficiently used to understand the role of genes found altered in cancer patients and represent a reliable tool for developing personalized therapies.

Lingua originale	English
pagine (da-a)	1-18
Numero di pagine	18
Rivista	Nature Communications
Volume	11
DOI	https://doi.org/10.1038/s41467-019-13989-3
Stato di pubblicazione	Pubblicato - 2020

Keywords

medulloblastoma
organoids

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Ballabio, C., Anderle, M., Gianesello, M., Lago, C., Miele, E., Cardano, M., Aiello, G., Piazza, S., Caron, D., Gianno, F., Ciolfi, A., Pedace, L., Mastronuzzi, A., Tartaglia, M., Locatelli, F., Ferretti, E., Giangaspero, F., & Tiberi, L. (2020). Modeling medulloblastoma in vivo and with human cerebellar organoids. Nature Communications, 11, 1-18. https://doi.org/10.1038/s41467-019-13989-3

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title = "Modeling medulloblastoma in vivo and with human cerebellar organoids",

abstract = "Medulloblastoma (MB) is the most common malignant brain tumor in children and among the subtypes, Group 3 MB has the worst outcome. Here, we perform an in vivo, patient-specific screen leading to the identification of Otx2 and c-MYC as strong Group 3 MB inducers. We validated our findings in human cerebellar organoids where Otx2/c-MYC give rise to MB-like organoids harboring a DNA methylation signature that clusters with human Group 3 tumors. Furthermore, we show that SMARCA4 is able to reduce Otx2/c-MYC tumorigenic activity in vivo and in human cerebellar organoids while SMARCA4 T910M, a mutant form found in human MB patients, inhibits the wild-type protein function. Finally, treatment with Tazemetostat, a EZH2-specific inhibitor, reduces Otx2/c-MYC tumorigenesis in ex vivo culture and human cerebellar organoids. In conclusion, human cerebellar organoids can be efficiently used to understand the role of genes found altered in cancer patients and represent a reliable tool for developing personalized therapies.",

keywords = "medulloblastoma, organoids, medulloblastoma, organoids",

author = "Claudio Ballabio and Marica Anderle and Matteo Gianesello and Chiara Lago and Evelina Miele and Marina Cardano and Giuseppe Aiello and Silvano Piazza and Davide Caron and Francesca Gianno and Andrea Ciolfi and Lucia Pedace and Angela Mastronuzzi and Marco Tartaglia and Franco Locatelli and Elisabetta Ferretti and Felice Giangaspero and Luca Tiberi",

year = "2020",

doi = "10.1038/s41467-019-13989-3",

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Ballabio, C, Anderle, M, Gianesello, M, Lago, C, Miele, E, Cardano, M, Aiello, G, Piazza, S, Caron, D, Gianno, F, Ciolfi, A, Pedace, L, Mastronuzzi, A, Tartaglia, M, Locatelli, F, Ferretti, E, Giangaspero, F & Tiberi, L 2020, 'Modeling medulloblastoma in vivo and with human cerebellar organoids', Nature Communications, vol. 11, pagg. 1-18. https://doi.org/10.1038/s41467-019-13989-3

TY - JOUR

T1 - Modeling medulloblastoma in vivo and with human cerebellar organoids

AU - Ballabio, Claudio

AU - Anderle, Marica

AU - Gianesello, Matteo

AU - Lago, Chiara

AU - Miele, Evelina

AU - Cardano, Marina

AU - Aiello, Giuseppe

AU - Piazza, Silvano

AU - Caron, Davide

AU - Gianno, Francesca

AU - Ciolfi, Andrea

AU - Pedace, Lucia

AU - Mastronuzzi, Angela

AU - Tartaglia, Marco

AU - Locatelli, Franco

AU - Ferretti, Elisabetta

AU - Giangaspero, Felice

AU - Tiberi, Luca

PY - 2020

Y1 - 2020

N2 - Medulloblastoma (MB) is the most common malignant brain tumor in children and among the subtypes, Group 3 MB has the worst outcome. Here, we perform an in vivo, patient-specific screen leading to the identification of Otx2 and c-MYC as strong Group 3 MB inducers. We validated our findings in human cerebellar organoids where Otx2/c-MYC give rise to MB-like organoids harboring a DNA methylation signature that clusters with human Group 3 tumors. Furthermore, we show that SMARCA4 is able to reduce Otx2/c-MYC tumorigenic activity in vivo and in human cerebellar organoids while SMARCA4 T910M, a mutant form found in human MB patients, inhibits the wild-type protein function. Finally, treatment with Tazemetostat, a EZH2-specific inhibitor, reduces Otx2/c-MYC tumorigenesis in ex vivo culture and human cerebellar organoids. In conclusion, human cerebellar organoids can be efficiently used to understand the role of genes found altered in cancer patients and represent a reliable tool for developing personalized therapies.

AB - Medulloblastoma (MB) is the most common malignant brain tumor in children and among the subtypes, Group 3 MB has the worst outcome. Here, we perform an in vivo, patient-specific screen leading to the identification of Otx2 and c-MYC as strong Group 3 MB inducers. We validated our findings in human cerebellar organoids where Otx2/c-MYC give rise to MB-like organoids harboring a DNA methylation signature that clusters with human Group 3 tumors. Furthermore, we show that SMARCA4 is able to reduce Otx2/c-MYC tumorigenic activity in vivo and in human cerebellar organoids while SMARCA4 T910M, a mutant form found in human MB patients, inhibits the wild-type protein function. Finally, treatment with Tazemetostat, a EZH2-specific inhibitor, reduces Otx2/c-MYC tumorigenesis in ex vivo culture and human cerebellar organoids. In conclusion, human cerebellar organoids can be efficiently used to understand the role of genes found altered in cancer patients and represent a reliable tool for developing personalized therapies.

KW - medulloblastoma

KW - organoids

KW - medulloblastoma

KW - organoids

UR - http://hdl.handle.net/10807/228208

U2 - 10.1038/s41467-019-13989-3

DO - 10.1038/s41467-019-13989-3

M3 - Article

SN - 2041-1723

VL - 11

SP - 1

EP - 18

JO - Nature Communications

JF - Nature Communications

ER -

Modeling medulloblastoma in vivo and with human cerebellar organoids

Abstract

Keywords

OSS delle Nazioni Unite

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