Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma

Martyna W. Sroka; Damianos Skopelitis; Marit W. Vermunt; Jonathan B. Preall; Osama El Demerdash; Larissa M.N. de Almeida; Kenneth Chang; Raditya Utama; Berkley Gryder; Giuseppina Caligiuri; Diqiu Ren; Benan Nalbant; Joseph P. Milazzo; David A. Tuveson; Alexander Dobin; Scott W. Hiebert; Kristy R. Stengel; Roberto Mantovani; Javed Khan; Rahul M. Kohli; Junwei Shi; Gerd A. Blobel; Christopher R. Vakoc

doi:10.1073/pnas.2303859120

Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma

Martyna W. Sroka, Damianos Skopelitis, Marit W. Vermunt, Jonathan B. Preall, Osama El Demerdash, Larissa M.N. de Almeida, Kenneth Chang, Raditya Utama, Berkley Gryder, Giuseppina Caligiuri, Diqiu Ren, Benan Nalbant, Joseph P. Milazzo, David A. Tuveson, Alexander Dobin, Scott W. Hiebert, Kristy R. Stengel, Roberto Mantovani, Javed Khan, Rahul M. KohliJunwei Shi, Gerd A. Blobel, Christopher R. Vakoc

Cell Biology

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Recurrent chromosomal rearrangements found in rhabdomyosarcoma (RMS) produce the PAX3–FOXO1 fusion protein, which is an oncogenic driver and a dependency in this disease. One important function of PAX3–FOXO1 is to arrest myogenic differentiation, which is linked to the ability of RMS cells to gain an unlimited proliferation potential. Here, we developed a phenotypic screening strategy for identifying factors that collaborate with PAX3–FOXO1 to block myo-differentiation in RMS. Unlike most genes evaluated in our screen, we found that loss of any of the three subunits of the Nuclear Factor Y (NF-Y) complex leads to a myo-differentiation phenotype that resembles the effect of inactivating PAX3–FOXO1. While the transcriptomes of NF-Y- and PAX3–FOXO1-deficient RMS cells bear remarkable similarity to one another, we found that these two transcription factors occupy nonoverlapping sites along the genome: NF-Y preferentially occupies promoters, whereas PAX3–FOXO1 primarily binds to distal enhancers. By integrating multiple functional approaches, we map the PAX3 promoter as the point of intersection between these two regulators. We show that NF-Y occupies CCAAT motifs present upstream of PAX3 to function as a transcriptional activator of PAX3–FOXO1 expression in RMS. These findings reveal a critical upstream role of NF-Y in the oncogenic PAX3–FOXO1 pathway, highlighting how a broadly essential transcription factor can perform tumor-specific roles in governing cellular state.

Original language	English (US)
Article number	e2303859120
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	120
Issue number	36
DOIs	https://doi.org/10.1073/pnas.2303859120
State	Published - 2023

Keywords

NF-Y
PAX3–FOXO1
muscle
myo-differentiation
rhabdomyosarcoma

ASJC Scopus subject areas

General

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10.1073/pnas.2303859120

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Sroka, M. W., Skopelitis, D., Vermunt, M. W., Preall, J. B., El Demerdash, O., de Almeida, L. M. N., Chang, K., Utama, R., Gryder, B., Caligiuri, G., Ren, D., Nalbant, B., Milazzo, J. P., Tuveson, D. A., Dobin, A., Hiebert, S. W., Stengel, K. R., Mantovani, R., Khan, J., ... Vakoc, C. R. (2023). Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma. Proceedings of the National Academy of Sciences of the United States of America, 120(36), Article e2303859120. https://doi.org/10.1073/pnas.2303859120

Sroka, MW, Skopelitis, D, Vermunt, MW, Preall, JB, El Demerdash, O, de Almeida, LMN, Chang, K, Utama, R, Gryder, B, Caligiuri, G, Ren, D, Nalbant, B, Milazzo, JP, Tuveson, DA, Dobin, A, Hiebert, SW, Stengel, KR, Mantovani, R, Khan, J, Kohli, RM, Shi, J, Blobel, GA & Vakoc, CR 2023, 'Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 36, e2303859120. https://doi.org/10.1073/pnas.2303859120

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title = "Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma",

abstract = "Recurrent chromosomal rearrangements found in rhabdomyosarcoma (RMS) produce the PAX3–FOXO1 fusion protein, which is an oncogenic driver and a dependency in this disease. One important function of PAX3–FOXO1 is to arrest myogenic differentiation, which is linked to the ability of RMS cells to gain an unlimited proliferation potential. Here, we developed a phenotypic screening strategy for identifying factors that collaborate with PAX3–FOXO1 to block myo-differentiation in RMS. Unlike most genes evaluated in our screen, we found that loss of any of the three subunits of the Nuclear Factor Y (NF-Y) complex leads to a myo-differentiation phenotype that resembles the effect of inactivating PAX3–FOXO1. While the transcriptomes of NF-Y- and PAX3–FOXO1-deficient RMS cells bear remarkable similarity to one another, we found that these two transcription factors occupy nonoverlapping sites along the genome: NF-Y preferentially occupies promoters, whereas PAX3–FOXO1 primarily binds to distal enhancers. By integrating multiple functional approaches, we map the PAX3 promoter as the point of intersection between these two regulators. We show that NF-Y occupies CCAAT motifs present upstream of PAX3 to function as a transcriptional activator of PAX3–FOXO1 expression in RMS. These findings reveal a critical upstream role of NF-Y in the oncogenic PAX3–FOXO1 pathway, highlighting how a broadly essential transcription factor can perform tumor-specific roles in governing cellular state.",

keywords = "NF-Y, PAX3–FOXO1, muscle, myo-differentiation, rhabdomyosarcoma",

author = "Sroka, {Martyna W.} and Damianos Skopelitis and Vermunt, {Marit W.} and Preall, {Jonathan B.} and {El Demerdash}, Osama and {de Almeida}, {Larissa M.N.} and Kenneth Chang and Raditya Utama and Berkley Gryder and Giuseppina Caligiuri and Diqiu Ren and Benan Nalbant and Milazzo, {Joseph P.} and Tuveson, {David A.} and Alexander Dobin and Hiebert, {Scott W.} and Stengel, {Kristy R.} and Roberto Mantovani and Javed Khan and Kohli, {Rahul M.} and Junwei Shi and Blobel, {Gerd A.} and Vakoc, {Christopher R.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2023 the Author(s).",

year = "2023",

doi = "10.1073/pnas.2303859120",

language = "English (US)",

volume = "120",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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T1 - Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma

AU - Sroka, Martyna W.

AU - Skopelitis, Damianos

AU - Vermunt, Marit W.

AU - Preall, Jonathan B.

AU - El Demerdash, Osama

AU - de Almeida, Larissa M.N.

AU - Chang, Kenneth

AU - Utama, Raditya

AU - Gryder, Berkley

AU - Caligiuri, Giuseppina

AU - Ren, Diqiu

AU - Nalbant, Benan

AU - Milazzo, Joseph P.

AU - Tuveson, David A.

AU - Dobin, Alexander

AU - Hiebert, Scott W.

AU - Stengel, Kristy R.

AU - Mantovani, Roberto

AU - Khan, Javed

AU - Kohli, Rahul M.

AU - Shi, Junwei

AU - Blobel, Gerd A.

AU - Vakoc, Christopher R.

PY - 2023

Y1 - 2023

N2 - Recurrent chromosomal rearrangements found in rhabdomyosarcoma (RMS) produce the PAX3–FOXO1 fusion protein, which is an oncogenic driver and a dependency in this disease. One important function of PAX3–FOXO1 is to arrest myogenic differentiation, which is linked to the ability of RMS cells to gain an unlimited proliferation potential. Here, we developed a phenotypic screening strategy for identifying factors that collaborate with PAX3–FOXO1 to block myo-differentiation in RMS. Unlike most genes evaluated in our screen, we found that loss of any of the three subunits of the Nuclear Factor Y (NF-Y) complex leads to a myo-differentiation phenotype that resembles the effect of inactivating PAX3–FOXO1. While the transcriptomes of NF-Y- and PAX3–FOXO1-deficient RMS cells bear remarkable similarity to one another, we found that these two transcription factors occupy nonoverlapping sites along the genome: NF-Y preferentially occupies promoters, whereas PAX3–FOXO1 primarily binds to distal enhancers. By integrating multiple functional approaches, we map the PAX3 promoter as the point of intersection between these two regulators. We show that NF-Y occupies CCAAT motifs present upstream of PAX3 to function as a transcriptional activator of PAX3–FOXO1 expression in RMS. These findings reveal a critical upstream role of NF-Y in the oncogenic PAX3–FOXO1 pathway, highlighting how a broadly essential transcription factor can perform tumor-specific roles in governing cellular state.

AB - Recurrent chromosomal rearrangements found in rhabdomyosarcoma (RMS) produce the PAX3–FOXO1 fusion protein, which is an oncogenic driver and a dependency in this disease. One important function of PAX3–FOXO1 is to arrest myogenic differentiation, which is linked to the ability of RMS cells to gain an unlimited proliferation potential. Here, we developed a phenotypic screening strategy for identifying factors that collaborate with PAX3–FOXO1 to block myo-differentiation in RMS. Unlike most genes evaluated in our screen, we found that loss of any of the three subunits of the Nuclear Factor Y (NF-Y) complex leads to a myo-differentiation phenotype that resembles the effect of inactivating PAX3–FOXO1. While the transcriptomes of NF-Y- and PAX3–FOXO1-deficient RMS cells bear remarkable similarity to one another, we found that these two transcription factors occupy nonoverlapping sites along the genome: NF-Y preferentially occupies promoters, whereas PAX3–FOXO1 primarily binds to distal enhancers. By integrating multiple functional approaches, we map the PAX3 promoter as the point of intersection between these two regulators. We show that NF-Y occupies CCAAT motifs present upstream of PAX3 to function as a transcriptional activator of PAX3–FOXO1 expression in RMS. These findings reveal a critical upstream role of NF-Y in the oncogenic PAX3–FOXO1 pathway, highlighting how a broadly essential transcription factor can perform tumor-specific roles in governing cellular state.

KW - NF-Y

KW - PAX3–FOXO1

KW - muscle

KW - myo-differentiation

KW - rhabdomyosarcoma

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DO - 10.1073/pnas.2303859120

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AN - SCOPUS:85168927597

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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M1 - e2303859120

ER -

Myo-differentiation reporter screen reveals NF-Y as an activator of PAX3–FOXO1 in rhabdomyosarcoma

Abstract

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