Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer

Priya S. Hibshman; Clint A. Stalnecker; Jeffrey A. Klomp; Kristina Drizyte-Miller; Jennifer E. Klomp; A. Cole Edwards; Lily M. Pita; Richard G. Hodge; J. Nathaniel Diehl; Ryan D. Mouery; Brandon L. Mouery; Kayla R. Snare; Andrew M. Waters; Sen Peng; Natalie K. Barker; Mariaelena Pierobon; Naim U. Rashid; Nhan L. Tran; Laura A. Herring; Lee M. Graves; Emanuel F. Petricoin; Kirsten L. Bryant; Adrienne D. Cox; Channing J. Der

doi:10.1126/scisignal.adu7145

Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer

Priya S. Hibshman, Clint A. Stalnecker, Jeffrey A. Klomp, Kristina Drizyte-Miller, Jennifer E. Klomp, A. Cole Edwards, Lily M. Pita, Richard G. Hodge, J. Nathaniel Diehl, Ryan D. Mouery, Brandon L. Mouery, Kayla R. Snare, Andrew M. Waters, Sen Peng, Natalie K. Barker, Mariaelena Pierobon, Naim U. Rashid, Nhan L. Tran, Laura A. Herring, Lee M. GravesEmanuel F. Petricoin, Kirsten L. Bryant, Adrienne D. Cox, Channing J. Der^*

^*Corresponding author for this work

Surgery

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

Abstract

Of the thousands of genes and substrates identified in KRAS-mutant signaling networks in pancreatic ductal adenocarcinoma (PDAC), more than 200 are transcription factors, implying extensive and complex transcriptional regulation. However, we observed that genetic suppression of the transcription factor MYC alone was sufficient to phenocopy the effect of KRAS suppression in signaling, growth, and metabolic processes in PDAC cells. We determined the gene transcription changes caused by acute suppression of MYC function in KRAS-mutant PDAC cell lines and performed dependency map and pathway analyses on the affected gene sets. The expression of 1685 genes was increased upon suppression of MYC, and this gene set may comprise the bulk of the MYC-regulated genes essential for PDAC growth. In contrast, the 1325 genes whose expression was inhibited may comprise a compensatory response to oncogenic stress, mediated in part by the GTPase RHO. MYC-dependent transcriptional activity was largely ERK dependent, and almost one-third of ERK-regulated genes were also regulated by MYC in PDAC cells. Furthermore, chemical proteomic profiling revealed MYC-regulated protein kinases that can be targeted therapeutically. Together, these data provide a molecular portrait of MYC-dependent signaling that encompasses potentially exploitable mechanisms for treating PDAC.

Original language	English
Article number	eadu7145
Journal	Science Signaling
Volume	18
Issue number	906
DOIs	https://doi.org/10.1126/scisignal.adu7145
State	Published - 30 Sep 2025

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Hibshman, P. S., Stalnecker, C. A., Klomp, J. A., Drizyte-Miller, K., Klomp, J. E., Cole Edwards, A., Pita, L. M., Hodge, R. G., Nathaniel Diehl, J., Mouery, R. D., Mouery, B. L., Snare, K. R., Waters, A. M., Peng, S., Barker, N. K., Pierobon, M., Rashid, N. U., Tran, N. L., Herring, L. A., ... Der, C. J. (2025). Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer. Science Signaling, 18(906), Article eadu7145. https://doi.org/10.1126/scisignal.adu7145

@article{1c1cc5d92dab4c20b767e51fb50da45b,

title = "Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer",

abstract = "Of the thousands of genes and substrates identified in KRAS-mutant signaling networks in pancreatic ductal adenocarcinoma (PDAC), more than 200 are transcription factors, implying extensive and complex transcriptional regulation. However, we observed that genetic suppression of the transcription factor MYC alone was sufficient to phenocopy the effect of KRAS suppression in signaling, growth, and metabolic processes in PDAC cells. We determined the gene transcription changes caused by acute suppression of MYC function in KRAS-mutant PDAC cell lines and performed dependency map and pathway analyses on the affected gene sets. The expression of 1685 genes was increased upon suppression of MYC, and this gene set may comprise the bulk of the MYC-regulated genes essential for PDAC growth. In contrast, the 1325 genes whose expression was inhibited may comprise a compensatory response to oncogenic stress, mediated in part by the GTPase RHO. MYC-dependent transcriptional activity was largely ERK dependent, and almost one-third of ERK-regulated genes were also regulated by MYC in PDAC cells. Furthermore, chemical proteomic profiling revealed MYC-regulated protein kinases that can be targeted therapeutically. Together, these data provide a molecular portrait of MYC-dependent signaling that encompasses potentially exploitable mechanisms for treating PDAC.",

author = "Hibshman, {Priya S.} and Stalnecker, {Clint A.} and Klomp, {Jeffrey A.} and Kristina Drizyte-Miller and Klomp, {Jennifer E.} and {Cole Edwards}, A. and Pita, {Lily M.} and Hodge, {Richard G.} and {Nathaniel Diehl}, J. and Mouery, {Ryan D.} and Mouery, {Brandon L.} and Snare, {Kayla R.} and Waters, {Andrew M.} and Sen Peng and Barker, {Natalie K.} and Mariaelena Pierobon and Rashid, {Naim U.} and Tran, {Nhan L.} and Herring, {Laura A.} and Graves, {Lee M.} and Petricoin, {Emanuel F.} and Bryant, {Kirsten L.} and Cox, {Adrienne D.} and Der, {Channing J.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors, some rights reserved;.",

year = "2025",

month = sep,

day = "30",

doi = "10.1126/scisignal.adu7145",

language = "English",

volume = "18",

journal = "Science Signaling",

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Hibshman, PS, Stalnecker, CA, Klomp, JA, Drizyte-Miller, K, Klomp, JE, Cole Edwards, A, Pita, LM, Hodge, RG, Nathaniel Diehl, J, Mouery, RD, Mouery, BL, Snare, KR, Waters, AM, Peng, S, Barker, NK, Pierobon, M, Rashid, NU, Tran, NL, Herring, LA, Graves, LM, Petricoin, EF, Bryant, KL, Cox, AD & Der, CJ 2025, 'Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer', Science Signaling, vol. 18, no. 906, eadu7145. https://doi.org/10.1126/scisignal.adu7145

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T1 - Defining the MYC-regulated transcriptome and kinome that support KRAS-and ERK-dependent growth of pancreatic cancer

AU - Hibshman, Priya S.

AU - Stalnecker, Clint A.

AU - Klomp, Jeffrey A.

AU - Drizyte-Miller, Kristina

AU - Klomp, Jennifer E.

AU - Cole Edwards, A.

AU - Pita, Lily M.

AU - Hodge, Richard G.

AU - Nathaniel Diehl, J.

AU - Mouery, Ryan D.

AU - Mouery, Brandon L.

AU - Snare, Kayla R.

AU - Waters, Andrew M.

AU - Peng, Sen

AU - Barker, Natalie K.

AU - Pierobon, Mariaelena

AU - Rashid, Naim U.

AU - Tran, Nhan L.

AU - Herring, Laura A.

AU - Graves, Lee M.

AU - Petricoin, Emanuel F.

AU - Bryant, Kirsten L.

AU - Cox, Adrienne D.

AU - Der, Channing J.

PY - 2025/9/30

Y1 - 2025/9/30

N2 - Of the thousands of genes and substrates identified in KRAS-mutant signaling networks in pancreatic ductal adenocarcinoma (PDAC), more than 200 are transcription factors, implying extensive and complex transcriptional regulation. However, we observed that genetic suppression of the transcription factor MYC alone was sufficient to phenocopy the effect of KRAS suppression in signaling, growth, and metabolic processes in PDAC cells. We determined the gene transcription changes caused by acute suppression of MYC function in KRAS-mutant PDAC cell lines and performed dependency map and pathway analyses on the affected gene sets. The expression of 1685 genes was increased upon suppression of MYC, and this gene set may comprise the bulk of the MYC-regulated genes essential for PDAC growth. In contrast, the 1325 genes whose expression was inhibited may comprise a compensatory response to oncogenic stress, mediated in part by the GTPase RHO. MYC-dependent transcriptional activity was largely ERK dependent, and almost one-third of ERK-regulated genes were also regulated by MYC in PDAC cells. Furthermore, chemical proteomic profiling revealed MYC-regulated protein kinases that can be targeted therapeutically. Together, these data provide a molecular portrait of MYC-dependent signaling that encompasses potentially exploitable mechanisms for treating PDAC.

AB - Of the thousands of genes and substrates identified in KRAS-mutant signaling networks in pancreatic ductal adenocarcinoma (PDAC), more than 200 are transcription factors, implying extensive and complex transcriptional regulation. However, we observed that genetic suppression of the transcription factor MYC alone was sufficient to phenocopy the effect of KRAS suppression in signaling, growth, and metabolic processes in PDAC cells. We determined the gene transcription changes caused by acute suppression of MYC function in KRAS-mutant PDAC cell lines and performed dependency map and pathway analyses on the affected gene sets. The expression of 1685 genes was increased upon suppression of MYC, and this gene set may comprise the bulk of the MYC-regulated genes essential for PDAC growth. In contrast, the 1325 genes whose expression was inhibited may comprise a compensatory response to oncogenic stress, mediated in part by the GTPase RHO. MYC-dependent transcriptional activity was largely ERK dependent, and almost one-third of ERK-regulated genes were also regulated by MYC in PDAC cells. Furthermore, chemical proteomic profiling revealed MYC-regulated protein kinases that can be targeted therapeutically. Together, these data provide a molecular portrait of MYC-dependent signaling that encompasses potentially exploitable mechanisms for treating PDAC.

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