Protein kinase Cι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities

Rajappa S. Kenchappa; Yi Liu; Michael G. Argenziano; Matei A. Banu; Ann C. Mladek; Rita West; Amanda Luu; Alfredo Quiñones-Hinojosa; Dolores Hambardzumyan; Verline Justilien; Michael Leitges; Jann N. Sarkaria; Peter A. Sims; Peter Canoll; Nicole R. Murray; Alan P. Fields; Steven S. Rosenfeld

doi:10.1016/j.celrep.2021.110054

Protein kinase C_ι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities

Rajappa S. Kenchappa, Yi Liu, Michael G. Argenziano, Matei A. Banu, Ann C. Mladek, Rita West, Amanda Luu, Alfredo Quiñones-Hinojosa, Dolores Hambardzumyan, Verline Justilien, Michael Leitges, Jann N. Sarkaria, Peter A. Sims, Peter Canoll, Nicole R. Murray, Alan P. Fields, Steven S. Rosenfeld

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

Abstract

We report that atypical protein kinase Cι (PKCι) is an oncogenic driver of glioblastoma (GBM). Deletion or inhibition of PKCι significantly impairs tumor growth and prolongs survival in murine GBM models. GBM cells expressing elevated PKCι signaling are sensitive to PKCι inhibitors, whereas those expressing low PKCι signaling exhibit active SRC signaling and sensitivity to SRC inhibitors. Resistance to the PKCι inhibitor auranofin is associated with activated SRC signaling and response to a SRC inhibitor, whereas resistance to a SRC inhibitor is associated with activated PKCι signaling and sensitivity to auranofin. Interestingly, PKCι- and SRC-dependent cells often co-exist in individual GBM tumors, and treatment of GBM-bearing mice with combined auranofin and SRC inhibitor prolongs survival beyond either drug alone. Thus, we identify PKCι and SRC signaling as distinct therapeutic vulnerabilities that are directly translatable into an improved treatment for GBM.

Original language	English (US)
Article number	110054
Journal	Cell reports
Volume	37
Issue number	8
DOIs	https://doi.org/10.1016/j.celrep.2021.110054
State	Published - Nov 23 2021

Keywords

SRC
glioblastoma
kinase inhibitor
protein kinase C iota

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

Access to Document

10.1016/j.celrep.2021.110054

Cite this

Kenchappa, R. S., Liu, Y., Argenziano, M. G., Banu, M. A., Mladek, A. C., West, R., Luu, A., Quiñones-Hinojosa, A., Hambardzumyan, D., Justilien, V., Leitges, M., Sarkaria, J. N., Sims, P. A., Canoll, P., Murray, N. R., Fields, A. P., & Rosenfeld, S. S. (2021). Protein kinase C_ι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities. Cell reports, 37(8), Article 110054. https://doi.org/10.1016/j.celrep.2021.110054

Kenchappa, RS, Liu, Y, Argenziano, MG, Banu, MA, Mladek, AC, West, R, Luu, A, Quiñones-Hinojosa, A, Hambardzumyan, D, Justilien, V, Leitges, M, Sarkaria, JN, Sims, PA, Canoll, P, Murray, NR , Fields, AP & Rosenfeld, SS 2021, 'Protein kinase C_ι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities', Cell reports, vol. 37, no. 8, 110054. https://doi.org/10.1016/j.celrep.2021.110054

@article{f449dd65469f4e7f8ee307a6f8fdb23b,

title = "Protein kinase Cι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities",

abstract = "We report that atypical protein kinase Cι (PKCι) is an oncogenic driver of glioblastoma (GBM). Deletion or inhibition of PKCι significantly impairs tumor growth and prolongs survival in murine GBM models. GBM cells expressing elevated PKCι signaling are sensitive to PKCι inhibitors, whereas those expressing low PKCι signaling exhibit active SRC signaling and sensitivity to SRC inhibitors. Resistance to the PKCι inhibitor auranofin is associated with activated SRC signaling and response to a SRC inhibitor, whereas resistance to a SRC inhibitor is associated with activated PKCι signaling and sensitivity to auranofin. Interestingly, PKCι- and SRC-dependent cells often co-exist in individual GBM tumors, and treatment of GBM-bearing mice with combined auranofin and SRC inhibitor prolongs survival beyond either drug alone. Thus, we identify PKCι and SRC signaling as distinct therapeutic vulnerabilities that are directly translatable into an improved treatment for GBM.",

keywords = "SRC, glioblastoma, kinase inhibitor, protein kinase C iota",

author = "Kenchappa, {Rajappa S.} and Yi Liu and Argenziano, {Michael G.} and Banu, {Matei A.} and Mladek, {Ann C.} and Rita West and Amanda Luu and Alfredo Qui{\~n}ones-Hinojosa and Dolores Hambardzumyan and Verline Justilien and Michael Leitges and Sarkaria, {Jann N.} and Sims, {Peter A.} and Peter Canoll and Murray, {Nicole R.} and Fields, {Alan P.} and Rosenfeld, {Steven S.}",

note = "Funding Information: S.S.R. was supported by NIH grants R01NS073610, R01NS118513, R61NS119714, and U54CA210910 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation. A.P.F. was supported by NIH grants R01CA081436 and R01CA206367, by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation, and by the Monica Flynn Jacoby Professorship. A.Q.-H. was supported by NIH grants R01CA200399, R01CA195503, and R01CA216855. R.S.K. was supported by grant SUB00002520 from the Florida Center for Brain Tumor Research and NIH grant R01NS118513. P.C. was supported by NIH grants R01NS073610 and R01NS118513. Y.L. was supported by an Edward C. Kendall Fellowship in Biochemistry from the Mayo Clinic. D.H. was supported by NIH grants R01NS100864 and R21NS106554. V.J. was supported by grant RSG-18-201-01 from the American Cancer Society. J.N.S. was supported by NIH grants U54 CA210180 and U01CA227954 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation. We wish to thank Dr. Justin D. Lathia (Lerner Research Institute of the Cleveland Clinic Foundation) for his gift of L0 and L1 cells, Brandy Edenfield (Mayo Clinic Histology Facility) for excellent technical assistance, and Trine Gaever for the graphical abstract and Figure 4A. Conception and design: R.S.K. S.S.R. P.C. P.A.S. A.P.F. and N.R.M.; development of methodology: R.S.K. S.S.R. V.J. A.P.F. N.R.M. P.C. and P.A.S.; acquisition of data: R.S.K. Y.L. R.W. A.L. M.G.A. M.A.B. and V.J.; analysis and interpretation of data: R.S.K. Y.L. S.S.R. A.P.F. N.R.M. P.C. P.A.S. M.G.A. and M.A.B.; administrative, technical, or material support: A.C.M. A.Q.-H. D.H. M.L. and J.N.S. The authors declare no competing interests. Funding Information: S.S.R. was supported by NIH grants R01NS073610 , R01NS118513 , R61NS119714 , and U54CA210910 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation . A.P.F. was supported by NIH grants R01CA081436 and R01CA206367 , by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation , and by the Monica Flynn Jacoby Professorship . A.Q.-H. was supported by NIH grants R01CA200399 , R01CA195503 , and R01CA216855 . R.S.K. was supported by grant SUB00002520 from the Florida Center for Brain Tumor Research and NIH grant R01NS118513 . P.C. was supported by NIH grants R01NS073610 and R01NS118513 . Y.L. was supported by an Edward C. Kendall Fellowship in Biochemistry from the Mayo Clinic . D.H. was supported by NIH grants R01NS100864 and R21NS106554 . V.J. was supported by grant RSG-18-201-01 from the American Cancer Society . J.N.S. was supported by NIH grants U54 CA210180 and U01CA227954 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation . We wish to thank Dr. Justin D. Lathia (Lerner Research Institute of the Cleveland Clinic Foundation) for his gift of L0 and L1 cells, Brandy Edenfield (Mayo Clinic Histology Facility) for excellent technical assistance, and Trine Gaever for the graphical abstract and Figure 4 A. Publisher Copyright: {\textcopyright} 2021 The Author(s)",

year = "2021",

month = nov,

day = "23",

doi = "10.1016/j.celrep.2021.110054",

language = "English (US)",

volume = "37",

journal = "Cell reports",

issn = "2211-1247",

publisher = "Cell Press",

number = "8",

}

TY - JOUR

T1 - Protein kinase Cι and SRC signaling define reciprocally related subgroups of glioblastoma with distinct therapeutic vulnerabilities

AU - Kenchappa, Rajappa S.

AU - Liu, Yi

AU - Argenziano, Michael G.

AU - Banu, Matei A.

AU - Mladek, Ann C.

AU - West, Rita

AU - Luu, Amanda

AU - Quiñones-Hinojosa, Alfredo

AU - Hambardzumyan, Dolores

AU - Justilien, Verline

AU - Leitges, Michael

AU - Sarkaria, Jann N.

AU - Sims, Peter A.

AU - Canoll, Peter

AU - Murray, Nicole R.

AU - Fields, Alan P.

AU - Rosenfeld, Steven S.

N1 - Funding Information: S.S.R. was supported by NIH grants R01NS073610, R01NS118513, R61NS119714, and U54CA210910 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation. A.P.F. was supported by NIH grants R01CA081436 and R01CA206367, by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation, and by the Monica Flynn Jacoby Professorship. A.Q.-H. was supported by NIH grants R01CA200399, R01CA195503, and R01CA216855. R.S.K. was supported by grant SUB00002520 from the Florida Center for Brain Tumor Research and NIH grant R01NS118513. P.C. was supported by NIH grants R01NS073610 and R01NS118513. Y.L. was supported by an Edward C. Kendall Fellowship in Biochemistry from the Mayo Clinic. D.H. was supported by NIH grants R01NS100864 and R21NS106554. V.J. was supported by grant RSG-18-201-01 from the American Cancer Society. J.N.S. was supported by NIH grants U54 CA210180 and U01CA227954 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation. We wish to thank Dr. Justin D. Lathia (Lerner Research Institute of the Cleveland Clinic Foundation) for his gift of L0 and L1 cells, Brandy Edenfield (Mayo Clinic Histology Facility) for excellent technical assistance, and Trine Gaever for the graphical abstract and Figure 4A. Conception and design: R.S.K. S.S.R. P.C. P.A.S. A.P.F. and N.R.M.; development of methodology: R.S.K. S.S.R. V.J. A.P.F. N.R.M. P.C. and P.A.S.; acquisition of data: R.S.K. Y.L. R.W. A.L. M.G.A. M.A.B. and V.J.; analysis and interpretation of data: R.S.K. Y.L. S.S.R. A.P.F. N.R.M. P.C. P.A.S. M.G.A. and M.A.B.; administrative, technical, or material support: A.C.M. A.Q.-H. D.H. M.L. and J.N.S. The authors declare no competing interests. Funding Information: S.S.R. was supported by NIH grants R01NS073610 , R01NS118513 , R61NS119714 , and U54CA210910 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation . A.P.F. was supported by NIH grants R01CA081436 and R01CA206367 , by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation , and by the Monica Flynn Jacoby Professorship . A.Q.-H. was supported by NIH grants R01CA200399 , R01CA195503 , and R01CA216855 . R.S.K. was supported by grant SUB00002520 from the Florida Center for Brain Tumor Research and NIH grant R01NS118513 . P.C. was supported by NIH grants R01NS073610 and R01NS118513 . Y.L. was supported by an Edward C. Kendall Fellowship in Biochemistry from the Mayo Clinic . D.H. was supported by NIH grants R01NS100864 and R21NS106554 . V.J. was supported by grant RSG-18-201-01 from the American Cancer Society . J.N.S. was supported by NIH grants U54 CA210180 and U01CA227954 and by a Translational Adult Glioma Award from the Ben and Catherine Ivy Foundation . We wish to thank Dr. Justin D. Lathia (Lerner Research Institute of the Cleveland Clinic Foundation) for his gift of L0 and L1 cells, Brandy Edenfield (Mayo Clinic Histology Facility) for excellent technical assistance, and Trine Gaever for the graphical abstract and Figure 4 A. Publisher Copyright: © 2021 The Author(s)

PY - 2021/11/23

Y1 - 2021/11/23

N2 - We report that atypical protein kinase Cι (PKCι) is an oncogenic driver of glioblastoma (GBM). Deletion or inhibition of PKCι significantly impairs tumor growth and prolongs survival in murine GBM models. GBM cells expressing elevated PKCι signaling are sensitive to PKCι inhibitors, whereas those expressing low PKCι signaling exhibit active SRC signaling and sensitivity to SRC inhibitors. Resistance to the PKCι inhibitor auranofin is associated with activated SRC signaling and response to a SRC inhibitor, whereas resistance to a SRC inhibitor is associated with activated PKCι signaling and sensitivity to auranofin. Interestingly, PKCι- and SRC-dependent cells often co-exist in individual GBM tumors, and treatment of GBM-bearing mice with combined auranofin and SRC inhibitor prolongs survival beyond either drug alone. Thus, we identify PKCι and SRC signaling as distinct therapeutic vulnerabilities that are directly translatable into an improved treatment for GBM.

AB - We report that atypical protein kinase Cι (PKCι) is an oncogenic driver of glioblastoma (GBM). Deletion or inhibition of PKCι significantly impairs tumor growth and prolongs survival in murine GBM models. GBM cells expressing elevated PKCι signaling are sensitive to PKCι inhibitors, whereas those expressing low PKCι signaling exhibit active SRC signaling and sensitivity to SRC inhibitors. Resistance to the PKCι inhibitor auranofin is associated with activated SRC signaling and response to a SRC inhibitor, whereas resistance to a SRC inhibitor is associated with activated PKCι signaling and sensitivity to auranofin. Interestingly, PKCι- and SRC-dependent cells often co-exist in individual GBM tumors, and treatment of GBM-bearing mice with combined auranofin and SRC inhibitor prolongs survival beyond either drug alone. Thus, we identify PKCι and SRC signaling as distinct therapeutic vulnerabilities that are directly translatable into an improved treatment for GBM.

KW - SRC

KW - glioblastoma

KW - kinase inhibitor

KW - protein kinase C iota

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