Identification of nonsense-mediated decay inhibitors that alter the tumor immune landscape

Ashley L. Cook; Surojit Sur; Laura Dobbyn; Evangeline Watson; Joshua D. Cohen; Blair Ptak; Bum Seok Lee; Suman Paul; Emily Hsiue; Maria Popoli; Bert Vogelstein; Nickolas Papadopoulos; Chetan Bettegowda; Kathy Gabrielson; Shibin Zhou; Kenneth W. Kinzler; Nicolas Wyhs

doi:10.7554/eLife.95952

Identification of nonsense-mediated decay inhibitors that alter the tumor immune landscape

Ashley L. Cook, Surojit Sur, Laura Dobbyn, Evangeline Watson, Joshua D. Cohen, Blair Ptak, Bum Seok Lee, Suman Paul, Emily Hsiue, Maria Popoli, Bert Vogelstein, Nickolas Papadopoulos, Chetan Bettegowda, Kathy Gabrielson, Shibin Zhou, Kenneth W. Kinzler, Nicolas Wyhs

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

Abstract

Despite exciting developments in cancer immunotherapy, its broad application is limited by the paucity of targetable antigens on the tumor cell surface. As an intrinsic cellular pathway, nonsense-mediated decay (NMD) conceals neoantigens through the destruction of the RNA products from genes harboring truncating mutations. We developed and conducted a high-throughput screen, based on the ratiometric analysis of transcripts, to identify critical mediators of NMD in human cells. This screen implicated disruption of kinase SMG1's phosphorylation of UPF1 as a potential disruptor of NMD. This led us to design a novel SMG1 inhibitor, KVS0001, that elevates the expression of transcripts and proteins resulting from human and murine truncating mutations in vitro and murine cells in vivo. Most importantly, KVS0001 concomitantly increased the presentation of immune-targetable human leukocyte antigens (HLA) class I-associated peptides from NMD-downregulated proteins on the surface of human cancer cells. KVS0001 provides new opportunities for studying NMD and the diseases in which NMD plays a role, including cancer and inherited diseases.

Original language	English (US)
Journal	eLife
Volume	13
DOIs	https://doi.org/10.7554/eLife.95952
State	Published - Feb 17 2025

Keywords

cancer biology
chromosomes
drug repurposing
gene expression
high-throughput screen
human
immunotherapy
mouse
next-generation sequencing
nonsense-mediated decay

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.7554/eLife.95952

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title = "Identification of nonsense-mediated decay inhibitors that alter the tumor immune landscape",

abstract = "Despite exciting developments in cancer immunotherapy, its broad application is limited by the paucity of targetable antigens on the tumor cell surface. As an intrinsic cellular pathway, nonsense-mediated decay (NMD) conceals neoantigens through the destruction of the RNA products from genes harboring truncating mutations. We developed and conducted a high-throughput screen, based on the ratiometric analysis of transcripts, to identify critical mediators of NMD in human cells. This screen implicated disruption of kinase SMG1's phosphorylation of UPF1 as a potential disruptor of NMD. This led us to design a novel SMG1 inhibitor, KVS0001, that elevates the expression of transcripts and proteins resulting from human and murine truncating mutations in vitro and murine cells in vivo. Most importantly, KVS0001 concomitantly increased the presentation of immune-targetable human leukocyte antigens (HLA) class I-associated peptides from NMD-downregulated proteins on the surface of human cancer cells. KVS0001 provides new opportunities for studying NMD and the diseases in which NMD plays a role, including cancer and inherited diseases.",

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author = "Cook, {Ashley L.} and Surojit Sur and Laura Dobbyn and Evangeline Watson and Cohen, {Joshua D.} and Blair Ptak and Lee, {Bum Seok} and Suman Paul and Emily Hsiue and Maria Popoli and Bert Vogelstein and Nickolas Papadopoulos and Chetan Bettegowda and Kathy Gabrielson and Shibin Zhou and Kinzler, {Kenneth W.} and Nicolas Wyhs",

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doi = "10.7554/eLife.95952",

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AU - Cook, Ashley L.

AU - Sur, Surojit

AU - Dobbyn, Laura

AU - Watson, Evangeline

AU - Cohen, Joshua D.

AU - Ptak, Blair

AU - Lee, Bum Seok

AU - Paul, Suman

AU - Hsiue, Emily

AU - Popoli, Maria

AU - Vogelstein, Bert

AU - Papadopoulos, Nickolas

AU - Bettegowda, Chetan

AU - Gabrielson, Kathy

AU - Zhou, Shibin

AU - Kinzler, Kenneth W.

AU - Wyhs, Nicolas

PY - 2025/2/17

Y1 - 2025/2/17

N2 - Despite exciting developments in cancer immunotherapy, its broad application is limited by the paucity of targetable antigens on the tumor cell surface. As an intrinsic cellular pathway, nonsense-mediated decay (NMD) conceals neoantigens through the destruction of the RNA products from genes harboring truncating mutations. We developed and conducted a high-throughput screen, based on the ratiometric analysis of transcripts, to identify critical mediators of NMD in human cells. This screen implicated disruption of kinase SMG1's phosphorylation of UPF1 as a potential disruptor of NMD. This led us to design a novel SMG1 inhibitor, KVS0001, that elevates the expression of transcripts and proteins resulting from human and murine truncating mutations in vitro and murine cells in vivo. Most importantly, KVS0001 concomitantly increased the presentation of immune-targetable human leukocyte antigens (HLA) class I-associated peptides from NMD-downregulated proteins on the surface of human cancer cells. KVS0001 provides new opportunities for studying NMD and the diseases in which NMD plays a role, including cancer and inherited diseases.

AB - Despite exciting developments in cancer immunotherapy, its broad application is limited by the paucity of targetable antigens on the tumor cell surface. As an intrinsic cellular pathway, nonsense-mediated decay (NMD) conceals neoantigens through the destruction of the RNA products from genes harboring truncating mutations. We developed and conducted a high-throughput screen, based on the ratiometric analysis of transcripts, to identify critical mediators of NMD in human cells. This screen implicated disruption of kinase SMG1's phosphorylation of UPF1 as a potential disruptor of NMD. This led us to design a novel SMG1 inhibitor, KVS0001, that elevates the expression of transcripts and proteins resulting from human and murine truncating mutations in vitro and murine cells in vivo. Most importantly, KVS0001 concomitantly increased the presentation of immune-targetable human leukocyte antigens (HLA) class I-associated peptides from NMD-downregulated proteins on the surface of human cancer cells. KVS0001 provides new opportunities for studying NMD and the diseases in which NMD plays a role, including cancer and inherited diseases.

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KW - drug repurposing

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KW - high-throughput screen

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KW - mouse

KW - next-generation sequencing

KW - nonsense-mediated decay

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ER -

Identification of nonsense-mediated decay inhibitors that alter the tumor immune landscape

Abstract

Keywords

ASJC Scopus subject areas

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