Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors

Lena Blümel; Nan Qin; Johannes Berlandi; Eunice Paisana; Rita Cascão; Carlos Custódia; David Pauck; Daniel Picard; Maike Langini; Kai Stühler; Frauke Dorothee Meyer; Sarah Göbbels; Bastian Malzkorn; Max C. Liebau; João T. Barata; Astrid Jeibmann; Kornelius Kerl; Serap Erkek; Marcel Kool; Stefan M. Pfister; Pascal D. Johann; Michael C. Frühwald; Arndt Borkhardt; Guido Reifenberger; Claudia C. Faria; Ute Fischer; Martin Hasselblatt; Jasmin Bartl; Marc Remke

doi:10.1038/s41419-022-05243-4

Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors

Lena Blümel, Nan Qin, Johannes Berlandi, Eunice Paisana, Rita Cascão, Carlos Custódia, David Pauck, Daniel Picard, Maike Langini, Kai Stühler, Frauke Dorothee Meyer, Sarah Göbbels, Bastian Malzkorn, Max C. Liebau, João T. Barata, Astrid Jeibmann, Kornelius Kerl, Serap Erkek, Marcel Kool, Stefan M. PfisterPascal D. Johann, Michael C. Frühwald, Arndt Borkhardt, Guido Reifenberger, Claudia C. Faria, Ute Fischer, Martin Hasselblatt, Jasmin Bartl, Marc Remke

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Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel › peer review

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Atypical teratoid/rhabdoid tumor (AT/RT) is a highly malignant brain tumor in infants that is characterized by loss of nuclear expression of SMARCB1 or SMARCA4 proteins. Recent studies show that AT/RTs comprise three molecular subgroups, namely AT/RT-TYR, AT/RT-MYC and AT/RT-SHH. The subgroups show distinct expression patterns of genes involved in ciliogenesis, however, little is known about the functional roles of primary cilia in the biology of AT/RT. Here, we show that primary cilia are present across all AT/RT subgroups with specific enrichment in AT/RT-TYR patient samples. Furthermore, we demonstrate that primary ciliogenesis contributes to AT/RT biology in vitro and in vivo. Specifically, we observed a significant decrease in proliferation and clonogenicity following disruption of primary ciliogenesis in AT/RT cell line models. Additionally, apoptosis was significantly increased via the induction of STAT1 and DR5 signaling, as detected by proteogenomic profiling. In a Drosophila model of SMARCB1 deficiency, concomitant knockdown of several cilia-associated genes resulted in a substantial shift of the lethal phenotype with more than 20% of flies reaching adulthood. We also found significantly extended survival in an orthotopic xenograft mouse model of AT/RT upon disruption of primary ciliogenesis. Taken together, our findings indicate that primary ciliogenesis or its downstream signaling contributes to the aggressiveness of AT/RT and, therefore, may constitute a novel therapeutic target.

Originele taal-2	Engels
Artikelnummer	806
Pagina's (van-tot)	806
Tijdschrift	Cell Death and Disease
Volume	13
Nummer van het tijdschrift	9
DOI's	https://doi.org/10.1038/s41419-022-05243-4
Status	Gepubliceerd - 20 sep. 2022

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10.1038/s41419-022-05243-4

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Blümel, L., Qin, N., Berlandi, J., Paisana, E., Cascão, R., Custódia, C., Pauck, D., Picard, D., Langini, M., Stühler, K., Meyer, F. D., Göbbels, S., Malzkorn, B., Liebau, M. C., Barata, J. T., Jeibmann, A., Kerl, K., Erkek, S., Kool, M., ... Remke, M. (2022). Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors. Cell Death and Disease, 13(9), 806. Artikel 806. https://doi.org/10.1038/s41419-022-05243-4

@article{951bd311f32545f78f8dab8472ca6e9a,

title = "Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors",

abstract = "Atypical teratoid/rhabdoid tumor (AT/RT) is a highly malignant brain tumor in infants that is characterized by loss of nuclear expression of SMARCB1 or SMARCA4 proteins. Recent studies show that AT/RTs comprise three molecular subgroups, namely AT/RT-TYR, AT/RT-MYC and AT/RT-SHH. The subgroups show distinct expression patterns of genes involved in ciliogenesis, however, little is known about the functional roles of primary cilia in the biology of AT/RT. Here, we show that primary cilia are present across all AT/RT subgroups with specific enrichment in AT/RT-TYR patient samples. Furthermore, we demonstrate that primary ciliogenesis contributes to AT/RT biology in vitro and in vivo. Specifically, we observed a significant decrease in proliferation and clonogenicity following disruption of primary ciliogenesis in AT/RT cell line models. Additionally, apoptosis was significantly increased via the induction of STAT1 and DR5 signaling, as detected by proteogenomic profiling. In a Drosophila model of SMARCB1 deficiency, concomitant knockdown of several cilia-associated genes resulted in a substantial shift of the lethal phenotype with more than 20% of flies reaching adulthood. We also found significantly extended survival in an orthotopic xenograft mouse model of AT/RT upon disruption of primary ciliogenesis. Taken together, our findings indicate that primary ciliogenesis or its downstream signaling contributes to the aggressiveness of AT/RT and, therefore, may constitute a novel therapeutic target.",

keywords = "Animals, Brain Neoplasms/genetics, Cilia/metabolism, DNA Helicases/metabolism, Humans, Mice, Nuclear Proteins/metabolism, Rhabdoid Tumor/genetics, Signal Transduction, Teratoma/genetics, Transcription Factors/genetics",

author = "Lena Bl{\"u}mel and Nan Qin and Johannes Berlandi and Eunice Paisana and Rita Casc{\~a}o and Carlos Cust{\'o}dia and David Pauck and Daniel Picard and Maike Langini and Kai St{\"u}hler and Meyer, {Frauke Dorothee} and Sarah G{\"o}bbels and Bastian Malzkorn and Liebau, {Max C.} and Barata, {Jo{\~a}o T.} and Astrid Jeibmann and Kornelius Kerl and Serap Erkek and Marcel Kool and Pfister, {Stefan M.} and Johann, {Pascal D.} and Fr{\"u}hwald, {Michael C.} and Arndt Borkhardt and Guido Reifenberger and Faria, {Claudia C.} and Ute Fischer and Martin Hasselblatt and Jasmin Bartl and Marc Remke",

note = "{\textcopyright} 2022. The Author(s).",

year = "2022",

month = sep,

day = "20",

doi = "10.1038/s41419-022-05243-4",

language = "English",

volume = "13",

pages = "806",

journal = "Cell Death and Disease",

issn = "2041-4889",

publisher = "Springer Nature",

number = "9",

}

Blümel, L, Qin, N, Berlandi, J, Paisana, E, Cascão, R, Custódia, C, Pauck, D, Picard, D, Langini, M, Stühler, K, Meyer, FD, Göbbels, S, Malzkorn, B, Liebau, MC, Barata, JT, Jeibmann, A, Kerl, K, Erkek, S, Kool, M, Pfister, SM, Johann, PD, Frühwald, MC, Borkhardt, A, Reifenberger, G, Faria, CC, Fischer, U, Hasselblatt, M, Bartl, J & Remke, M 2022, 'Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors', Cell Death and Disease, vol. 13, nr. 9, 806, blz. 806. https://doi.org/10.1038/s41419-022-05243-4

TY - JOUR

T1 - Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors

AU - Blümel, Lena

AU - Qin, Nan

AU - Berlandi, Johannes

AU - Paisana, Eunice

AU - Cascão, Rita

AU - Custódia, Carlos

AU - Pauck, David

AU - Picard, Daniel

AU - Langini, Maike

AU - Stühler, Kai

AU - Meyer, Frauke Dorothee

AU - Göbbels, Sarah

AU - Malzkorn, Bastian

AU - Liebau, Max C.

AU - Barata, João T.

AU - Jeibmann, Astrid

AU - Kerl, Kornelius

AU - Erkek, Serap

AU - Kool, Marcel

AU - Pfister, Stefan M.

AU - Johann, Pascal D.

AU - Frühwald, Michael C.

AU - Borkhardt, Arndt

AU - Reifenberger, Guido

AU - Faria, Claudia C.

AU - Fischer, Ute

AU - Hasselblatt, Martin

AU - Bartl, Jasmin

AU - Remke, Marc

PY - 2022/9/20

Y1 - 2022/9/20

N2 - Atypical teratoid/rhabdoid tumor (AT/RT) is a highly malignant brain tumor in infants that is characterized by loss of nuclear expression of SMARCB1 or SMARCA4 proteins. Recent studies show that AT/RTs comprise three molecular subgroups, namely AT/RT-TYR, AT/RT-MYC and AT/RT-SHH. The subgroups show distinct expression patterns of genes involved in ciliogenesis, however, little is known about the functional roles of primary cilia in the biology of AT/RT. Here, we show that primary cilia are present across all AT/RT subgroups with specific enrichment in AT/RT-TYR patient samples. Furthermore, we demonstrate that primary ciliogenesis contributes to AT/RT biology in vitro and in vivo. Specifically, we observed a significant decrease in proliferation and clonogenicity following disruption of primary ciliogenesis in AT/RT cell line models. Additionally, apoptosis was significantly increased via the induction of STAT1 and DR5 signaling, as detected by proteogenomic profiling. In a Drosophila model of SMARCB1 deficiency, concomitant knockdown of several cilia-associated genes resulted in a substantial shift of the lethal phenotype with more than 20% of flies reaching adulthood. We also found significantly extended survival in an orthotopic xenograft mouse model of AT/RT upon disruption of primary ciliogenesis. Taken together, our findings indicate that primary ciliogenesis or its downstream signaling contributes to the aggressiveness of AT/RT and, therefore, may constitute a novel therapeutic target.

AB - Atypical teratoid/rhabdoid tumor (AT/RT) is a highly malignant brain tumor in infants that is characterized by loss of nuclear expression of SMARCB1 or SMARCA4 proteins. Recent studies show that AT/RTs comprise three molecular subgroups, namely AT/RT-TYR, AT/RT-MYC and AT/RT-SHH. The subgroups show distinct expression patterns of genes involved in ciliogenesis, however, little is known about the functional roles of primary cilia in the biology of AT/RT. Here, we show that primary cilia are present across all AT/RT subgroups with specific enrichment in AT/RT-TYR patient samples. Furthermore, we demonstrate that primary ciliogenesis contributes to AT/RT biology in vitro and in vivo. Specifically, we observed a significant decrease in proliferation and clonogenicity following disruption of primary ciliogenesis in AT/RT cell line models. Additionally, apoptosis was significantly increased via the induction of STAT1 and DR5 signaling, as detected by proteogenomic profiling. In a Drosophila model of SMARCB1 deficiency, concomitant knockdown of several cilia-associated genes resulted in a substantial shift of the lethal phenotype with more than 20% of flies reaching adulthood. We also found significantly extended survival in an orthotopic xenograft mouse model of AT/RT upon disruption of primary ciliogenesis. Taken together, our findings indicate that primary ciliogenesis or its downstream signaling contributes to the aggressiveness of AT/RT and, therefore, may constitute a novel therapeutic target.

KW - Animals

KW - Brain Neoplasms/genetics

KW - Cilia/metabolism

KW - DNA Helicases/metabolism

KW - Humans

KW - Mice

KW - Nuclear Proteins/metabolism

KW - Rhabdoid Tumor/genetics

KW - Signal Transduction

KW - Teratoma/genetics

KW - Transcription Factors/genetics

UR - http://www.scopus.com/inward/record.url?scp=85138156474&partnerID=8YFLogxK

U2 - 10.1038/s41419-022-05243-4

DO - 10.1038/s41419-022-05243-4

M3 - Article

C2 - 36127323

AN - SCOPUS:85138156474

SN - 2041-4889

VL - 13

SP - 806

JO - Cell Death and Disease

JF - Cell Death and Disease

IS - 9

M1 - 806

ER -

Primary cilia contribute to the aggressiveness of atypical teratoid/rhabdoid tumors

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