Pharmacologic modulation of RNA splicing enhances anti-tumor immunity

Sydney X. Lu; Emma De Neef; James D. Thomas; Erich Sabio; Benoit Rousseau; Mathieu Gigoux; David A. Knorr; Benjamin Greenbaum; Yuval Elhanati; Simon J. Hogg; Andrew Chow; Arnab Ghosh; Abigail Xie; Dmitriy Zamarin; Daniel Cui; Caroline Erickson; Michael Singer; Hana Cho; Eric Wang; Bin Lu; Benjamin H. Durham; Harshal Shah; Diego Chowell; Austin M. Gabel; Yudao Shen; Jing Liu; Jian Jin; Matthew C. Rhodes; Richard E. Taylor; Henrik Molina; Jedd D. Wolchok; Taha Merghoub; Luis A. Diaz; Omar Abdel-Wahab; Robert K. Bradley

doi:10.1016/j.cell.2021.05.038

Pharmacologic modulation of RNA splicing enhances anti-tumor immunity

Sydney X. Lu, Emma De Neef, James D. Thomas, Erich Sabio, Benoit Rousseau, Mathieu Gigoux, David A. Knorr, Benjamin Greenbaum, Yuval Elhanati, Simon J. Hogg, Andrew Chow, Arnab Ghosh, Abigail Xie, Dmitriy Zamarin, Daniel Cui, Caroline Erickson, Michael Singer, Hana Cho, Eric Wang, Bin LuBenjamin H. Durham, Harshal Shah, Diego Chowell, Austin M. Gabel, Yudao Shen, Jing Liu, Jian Jin, Matthew C. Rhodes, Richard E. Taylor, Henrik Molina, Jedd D. Wolchok, Taha Merghoub, Luis A. Diaz, Omar Abdel-Wahab, Robert K. Bradley

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

189 Scopus citations

Abstract

Although mutations in DNA are the best-studied source of neoantigens that determine response to immune checkpoint blockade, alterations in RNA splicing within cancer cells could similarly result in neoepitope production. However, the endogenous antigenicity and clinical potential of such splicing-derived epitopes have not been tested. Here, we demonstrate that pharmacologic modulation of splicing via specific drug classes generates bona fide neoantigens and elicits anti-tumor immunity, augmenting checkpoint immunotherapy. Splicing modulation inhibited tumor growth and enhanced checkpoint blockade in a manner dependent on host T cells and peptides presented on tumor MHC class I. Splicing modulation induced stereotyped splicing changes across tumor types, altering the MHC I-bound immunopeptidome to yield splicing-derived neoepitopes that trigger an anti-tumor T cell response in vivo. These data definitively identify splicing modulation as an untapped source of immunogenic peptides and provide a means to enhance response to checkpoint blockade that is readily translatable to the clinic.

Original language	English (US)
Pages (from-to)	4032-4047.e31
Journal	Cell
Volume	184
Issue number	15
DOIs	https://doi.org/10.1016/j.cell.2021.05.038
State	Published - Jul 22 2021
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Biochemistry, Genetics and Molecular Biology

Keywords

PD1
PRMTs
RBM39
RNA splicing
immune checkpoint blockade
immunopeptidome
immunotherapy
neoantigens
neoepitopes
splicing

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10.1016/j.cell.2021.05.038

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Lu, S. X., De Neef, E., Thomas, J. D., Sabio, E., Rousseau, B., Gigoux, M., Knorr, D. A., Greenbaum, B., Elhanati, Y., Hogg, S. J., Chow, A., Ghosh, A., Xie, A., Zamarin, D., Cui, D., Erickson, C., Singer, M., Cho, H., Wang, E., ... Bradley, R. K. (2021). Pharmacologic modulation of RNA splicing enhances anti-tumor immunity. Cell, 184(15), 4032-4047.e31. https://doi.org/10.1016/j.cell.2021.05.038

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title = "Pharmacologic modulation of RNA splicing enhances anti-tumor immunity",

abstract = "Although mutations in DNA are the best-studied source of neoantigens that determine response to immune checkpoint blockade, alterations in RNA splicing within cancer cells could similarly result in neoepitope production. However, the endogenous antigenicity and clinical potential of such splicing-derived epitopes have not been tested. Here, we demonstrate that pharmacologic modulation of splicing via specific drug classes generates bona fide neoantigens and elicits anti-tumor immunity, augmenting checkpoint immunotherapy. Splicing modulation inhibited tumor growth and enhanced checkpoint blockade in a manner dependent on host T cells and peptides presented on tumor MHC class I. Splicing modulation induced stereotyped splicing changes across tumor types, altering the MHC I-bound immunopeptidome to yield splicing-derived neoepitopes that trigger an anti-tumor T cell response in vivo. These data definitively identify splicing modulation as an untapped source of immunogenic peptides and provide a means to enhance response to checkpoint blockade that is readily translatable to the clinic.",

keywords = "PD1, PRMTs, RBM39, RNA splicing, immune checkpoint blockade, immunopeptidome, immunotherapy, neoantigens, neoepitopes, splicing",

author = "Lu, {Sydney X.} and {De Neef}, Emma and Thomas, {James D.} and Erich Sabio and Benoit Rousseau and Mathieu Gigoux and Knorr, {David A.} and Benjamin Greenbaum and Yuval Elhanati and Hogg, {Simon J.} and Andrew Chow and Arnab Ghosh and Abigail Xie and Dmitriy Zamarin and Daniel Cui and Caroline Erickson and Michael Singer and Hana Cho and Eric Wang and Bin Lu and Durham, {Benjamin H.} and Harshal Shah and Diego Chowell and Gabel, {Austin M.} and Yudao Shen and Jing Liu and Jian Jin and Rhodes, {Matthew C.} and Taylor, {Richard E.} and Henrik Molina and Wolchok, {Jedd D.} and Taha Merghoub and Diaz, {Luis A.} and Omar Abdel-Wahab and Bradley, {Robert K.}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2021",

month = jul,

day = "22",

doi = "10.1016/j.cell.2021.05.038",

language = "English (US)",

volume = "184",

pages = "4032--4047.e31",

journal = "Cell",

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Lu, SX, De Neef, E, Thomas, JD, Sabio, E, Rousseau, B, Gigoux, M, Knorr, DA, Greenbaum, B, Elhanati, Y, Hogg, SJ, Chow, A, Ghosh, A, Xie, A, Zamarin, D, Cui, D, Erickson, C, Singer, M, Cho, H, Wang, E, Lu, B, Durham, BH, Shah, H, Chowell, D, Gabel, AM, Shen, Y, Liu, J, Jin, J, Rhodes, MC, Taylor, RE, Molina, H, Wolchok, JD, Merghoub, T, Diaz, LA, Abdel-Wahab, O & Bradley, RK 2021, 'Pharmacologic modulation of RNA splicing enhances anti-tumor immunity', Cell, vol. 184, no. 15, pp. 4032-4047.e31. https://doi.org/10.1016/j.cell.2021.05.038

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T1 - Pharmacologic modulation of RNA splicing enhances anti-tumor immunity

AU - Lu, Sydney X.

AU - De Neef, Emma

AU - Thomas, James D.

AU - Sabio, Erich

AU - Rousseau, Benoit

AU - Gigoux, Mathieu

AU - Knorr, David A.

AU - Greenbaum, Benjamin

AU - Elhanati, Yuval

AU - Hogg, Simon J.

AU - Chow, Andrew

AU - Ghosh, Arnab

AU - Xie, Abigail

AU - Zamarin, Dmitriy

AU - Cui, Daniel

AU - Erickson, Caroline

AU - Singer, Michael

AU - Cho, Hana

AU - Wang, Eric

AU - Lu, Bin

AU - Durham, Benjamin H.

AU - Shah, Harshal

AU - Chowell, Diego

AU - Gabel, Austin M.

AU - Shen, Yudao

AU - Liu, Jing

AU - Jin, Jian

AU - Rhodes, Matthew C.

AU - Taylor, Richard E.

AU - Molina, Henrik

AU - Wolchok, Jedd D.

AU - Merghoub, Taha

AU - Diaz, Luis A.

AU - Abdel-Wahab, Omar

AU - Bradley, Robert K.

PY - 2021/7/22

Y1 - 2021/7/22

N2 - Although mutations in DNA are the best-studied source of neoantigens that determine response to immune checkpoint blockade, alterations in RNA splicing within cancer cells could similarly result in neoepitope production. However, the endogenous antigenicity and clinical potential of such splicing-derived epitopes have not been tested. Here, we demonstrate that pharmacologic modulation of splicing via specific drug classes generates bona fide neoantigens and elicits anti-tumor immunity, augmenting checkpoint immunotherapy. Splicing modulation inhibited tumor growth and enhanced checkpoint blockade in a manner dependent on host T cells and peptides presented on tumor MHC class I. Splicing modulation induced stereotyped splicing changes across tumor types, altering the MHC I-bound immunopeptidome to yield splicing-derived neoepitopes that trigger an anti-tumor T cell response in vivo. These data definitively identify splicing modulation as an untapped source of immunogenic peptides and provide a means to enhance response to checkpoint blockade that is readily translatable to the clinic.

AB - Although mutations in DNA are the best-studied source of neoantigens that determine response to immune checkpoint blockade, alterations in RNA splicing within cancer cells could similarly result in neoepitope production. However, the endogenous antigenicity and clinical potential of such splicing-derived epitopes have not been tested. Here, we demonstrate that pharmacologic modulation of splicing via specific drug classes generates bona fide neoantigens and elicits anti-tumor immunity, augmenting checkpoint immunotherapy. Splicing modulation inhibited tumor growth and enhanced checkpoint blockade in a manner dependent on host T cells and peptides presented on tumor MHC class I. Splicing modulation induced stereotyped splicing changes across tumor types, altering the MHC I-bound immunopeptidome to yield splicing-derived neoepitopes that trigger an anti-tumor T cell response in vivo. These data definitively identify splicing modulation as an untapped source of immunogenic peptides and provide a means to enhance response to checkpoint blockade that is readily translatable to the clinic.

KW - PD1

KW - PRMTs

KW - RBM39

KW - RNA splicing

KW - immune checkpoint blockade

KW - immunopeptidome

KW - immunotherapy

KW - neoantigens

KW - neoepitopes

KW - splicing

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U2 - 10.1016/j.cell.2021.05.038

DO - 10.1016/j.cell.2021.05.038

M3 - Article

C2 - 34171309

AN - SCOPUS:85110593691

SN - 0092-8674

VL - 184

SP - 4032-4047.e31

JO - Cell

JF - Cell

IS - 15

ER -

Pharmacologic modulation of RNA splicing enhances anti-tumor immunity

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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