Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma

Rajappa S. Kenchappa; Panagiotis Mistriotis; Emily Wisniewski; Santanu Bhattacharya; Tanmay Kulkarni; Rita West; Amanda Luu; Meghan Conlon; Ernest Heimsath; James F. Crish; Hannah S. Picariello; Athanassios Dovas; Natanael Zarco; Montserrat Lara-Velazquez; Alfredo Quiñones-Hinojosa; John A. Hammer; Debrabrata Mukhopadhyay; Richard E. Cheney; Konstantinos Konstantopoulos; Peter Canoll; Steven S. Rosenfeld

doi:10.1016/j.isci.2020.101802

Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma

Rajappa S. Kenchappa, Panagiotis Mistriotis, Emily Wisniewski, Santanu Bhattacharya, Tanmay Kulkarni, Rita West, Amanda Luu, Meghan Conlon, Ernest Heimsath, James F. Crish, Hannah S. Picariello, Athanassios Dovas, Natanael Zarco, Montserrat Lara-Velazquez, Alfredo Quiñones-Hinojosa, John A. Hammer, Debrabrata Mukhopadhyay, Richard E. Cheney, Konstantinos Konstantopoulos, Peter CanollSteven S. Rosenfeld

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

Abstract

Invasion and proliferation are defining phenotypes of cancer, and in glioblastoma blocking one stimulates the other, implying that effective therapy must inhibit both, ideally through a single target that is also dispensable for normal tissue function. The molecular motor myosin 10 meets these criteria. Myosin 10 knockout mice can survive to adulthood, implying that normal cells can compensate for its loss; its deletion impairs invasion, slows proliferation, and prolongs survival in murine models of glioblastoma. Myosin 10 deletion also enhances tumor dependency on the DNA damage and the metabolic stress responses and induces synthetic lethality when combined with inhibitors of these processes. Our results thus demonstrate that targeting myosin 10 is active against glioblastoma by itself, synergizes with other clinically available therapeutics, may have acceptable side effects in normal tissues, and has potential as a heretofore unexplored therapeutic approach for this disease.

Original language	English (US)
Article number	101802
Journal	iScience
Volume	23
Issue number	12
DOIs	https://doi.org/10.1016/j.isci.2020.101802
State	Published - Dec 18 2020

Keywords

Cancer
Cell Biology

ASJC Scopus subject areas

General

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10.1016/j.isci.2020.101802

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Kenchappa, R. S., Mistriotis, P., Wisniewski, E., Bhattacharya, S., Kulkarni, T., West, R., Luu, A., Conlon, M., Heimsath, E., Crish, J. F., Picariello, H. S., Dovas, A., Zarco, N., Lara-Velazquez, M., Quiñones-Hinojosa, A., Hammer, J. A., Mukhopadhyay, D., Cheney, R. E., Konstantopoulos, K., ... Rosenfeld, S. S. (2020). Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma. iScience, 23(12), Article 101802. https://doi.org/10.1016/j.isci.2020.101802

Kenchappa, RS, Mistriotis, P, Wisniewski, E, Bhattacharya, S, Kulkarni, T, West, R, Luu, A, Conlon, M, Heimsath, E, Crish, JF, Picariello, HS, Dovas, A, Zarco, N, Lara-Velazquez, M, Quiñones-Hinojosa, A, Hammer, JA, Mukhopadhyay, D, Cheney, RE, Konstantopoulos, K, Canoll, P & Rosenfeld, SS 2020, 'Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma', iScience, vol. 23, no. 12, 101802. https://doi.org/10.1016/j.isci.2020.101802

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title = "Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma",

abstract = "Invasion and proliferation are defining phenotypes of cancer, and in glioblastoma blocking one stimulates the other, implying that effective therapy must inhibit both, ideally through a single target that is also dispensable for normal tissue function. The molecular motor myosin 10 meets these criteria. Myosin 10 knockout mice can survive to adulthood, implying that normal cells can compensate for its loss; its deletion impairs invasion, slows proliferation, and prolongs survival in murine models of glioblastoma. Myosin 10 deletion also enhances tumor dependency on the DNA damage and the metabolic stress responses and induces synthetic lethality when combined with inhibitors of these processes. Our results thus demonstrate that targeting myosin 10 is active against glioblastoma by itself, synergizes with other clinically available therapeutics, may have acceptable side effects in normal tissues, and has potential as a heretofore unexplored therapeutic approach for this disease.",

keywords = "Cancer, Cell Biology",

author = "Kenchappa, {Rajappa S.} and Panagiotis Mistriotis and Emily Wisniewski and Santanu Bhattacharya and Tanmay Kulkarni and Rita West and Amanda Luu and Meghan Conlon and Ernest Heimsath and Crish, {James F.} and Picariello, {Hannah S.} and Athanassios Dovas and Natanael Zarco and Montserrat Lara-Velazquez and Alfredo Qui{\~n}ones-Hinojosa and Hammer, {John A.} and Debrabrata Mukhopadhyay and Cheney, {Richard E.} and Konstantinos Konstantopoulos and Peter Canoll and Rosenfeld, {Steven S.}",

note = "Funding Information: This work was supported by NIH grants R01NS073610 and U54CA210910 to S.S.R.; R01NS103473 and R01NS052738 to P.C.; R01CA184803 and U54CA210173 to K.K.; R01CA200399 , R01CA195503 , and R01CA216855 to A.Q.H.; R01GM134531 to R.C.; R01CA78383 and R01CA150190 to D.M.; T32CA009156 to the Lineberger Cancer Center for E.G.H.; and NSF grant DGE-1746891 to E.W. We wish to thank Dr. Justin D. Lathia (Cleveland Clinic) for the gift of the L1 cell line and Ms. Trine Giaever for illustrations. Publisher Copyright: {\textcopyright} 2020 The Author(s)",

year = "2020",

month = dec,

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doi = "10.1016/j.isci.2020.101802",

language = "English (US)",

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T1 - Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma

AU - Kenchappa, Rajappa S.

AU - Mistriotis, Panagiotis

AU - Wisniewski, Emily

AU - Bhattacharya, Santanu

AU - Kulkarni, Tanmay

AU - West, Rita

AU - Luu, Amanda

AU - Conlon, Meghan

AU - Heimsath, Ernest

AU - Crish, James F.

AU - Picariello, Hannah S.

AU - Dovas, Athanassios

AU - Zarco, Natanael

AU - Lara-Velazquez, Montserrat

AU - Quiñones-Hinojosa, Alfredo

AU - Hammer, John A.

AU - Mukhopadhyay, Debrabrata

AU - Cheney, Richard E.

AU - Konstantopoulos, Konstantinos

AU - Canoll, Peter

AU - Rosenfeld, Steven S.

N1 - Funding Information: This work was supported by NIH grants R01NS073610 and U54CA210910 to S.S.R.; R01NS103473 and R01NS052738 to P.C.; R01CA184803 and U54CA210173 to K.K.; R01CA200399 , R01CA195503 , and R01CA216855 to A.Q.H.; R01GM134531 to R.C.; R01CA78383 and R01CA150190 to D.M.; T32CA009156 to the Lineberger Cancer Center for E.G.H.; and NSF grant DGE-1746891 to E.W. We wish to thank Dr. Justin D. Lathia (Cleveland Clinic) for the gift of the L1 cell line and Ms. Trine Giaever for illustrations. Publisher Copyright: © 2020 The Author(s)

PY - 2020/12/18

Y1 - 2020/12/18

N2 - Invasion and proliferation are defining phenotypes of cancer, and in glioblastoma blocking one stimulates the other, implying that effective therapy must inhibit both, ideally through a single target that is also dispensable for normal tissue function. The molecular motor myosin 10 meets these criteria. Myosin 10 knockout mice can survive to adulthood, implying that normal cells can compensate for its loss; its deletion impairs invasion, slows proliferation, and prolongs survival in murine models of glioblastoma. Myosin 10 deletion also enhances tumor dependency on the DNA damage and the metabolic stress responses and induces synthetic lethality when combined with inhibitors of these processes. Our results thus demonstrate that targeting myosin 10 is active against glioblastoma by itself, synergizes with other clinically available therapeutics, may have acceptable side effects in normal tissues, and has potential as a heretofore unexplored therapeutic approach for this disease.

AB - Invasion and proliferation are defining phenotypes of cancer, and in glioblastoma blocking one stimulates the other, implying that effective therapy must inhibit both, ideally through a single target that is also dispensable for normal tissue function. The molecular motor myosin 10 meets these criteria. Myosin 10 knockout mice can survive to adulthood, implying that normal cells can compensate for its loss; its deletion impairs invasion, slows proliferation, and prolongs survival in murine models of glioblastoma. Myosin 10 deletion also enhances tumor dependency on the DNA damage and the metabolic stress responses and induces synthetic lethality when combined with inhibitors of these processes. Our results thus demonstrate that targeting myosin 10 is active against glioblastoma by itself, synergizes with other clinically available therapeutics, may have acceptable side effects in normal tissues, and has potential as a heretofore unexplored therapeutic approach for this disease.

KW - Cancer

KW - Cell Biology

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DO - 10.1016/j.isci.2020.101802

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VL - 23

JO - iScience

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M1 - 101802

ER -

Myosin 10 Regulates Invasion, Mitosis, and Metabolic Signaling in Glioblastoma

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