G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma

Maxine S.Y. Lam; Jose Antonio Reales-Calderon; Jin Rong Ow; Joey J.Y. Aw; Damien Tan; Ragavi Vijayakumar; Erica Ceccarello; Tommaso Tabaglio; Yan Ting Lim; Wang Loo Chien; Fritz Lai; Anthony Tan Tanoto; Qingfeng Chen; Radoslaw M. Sobota; Giulia Adriani; Antonio Bertoletti; Ernesto Guccione; Andrea Pavesi

doi:10.1038/s41467-023-36160-5

G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma

Maxine S.Y. Lam, Jose Antonio Reales-Calderon, Jin Rong Ow, Joey J.Y. Aw, Damien Tan, Ragavi Vijayakumar, Erica Ceccarello, Tommaso Tabaglio, Yan Ting Lim, Wang Loo Chien, Fritz Lai, Anthony Tan Tanoto, Qingfeng Chen, Radoslaw M. Sobota, Giulia Adriani, Antonio Bertoletti, Ernesto Guccione, Andrea Pavesi

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

Abstract

Engineered T cells transiently expressing tumor-targeting receptors are an attractive form of engineered T cell therapy as they carry no risk of insertional mutagenesis or long-term adverse side-effects. However, multiple rounds of treatment are often required, increasing patient discomfort and cost. To mitigate this, we sought to improve the antitumor activity of transient engineered T cells by screening a panel of small molecules targeting epigenetic regulators for their effect on T cell cytotoxicity. Using a model for engineered T cells targetting hepatocellular carcinoma, we find that short-term inhibition of G9a/GLP increases T cell antitumor activity in in vitro models and an orthotopic mouse model. G9a/GLP inhibition increases granzyme expression without terminal T cell differentiation or exhaustion and results in specific changes in expression of genes and proteins involved in pro-inflammatory pathways, T cell activation and cytotoxicity.

Original language	English
Article number	563
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-36160-5
State	Published - Dec 2023

Access to Document

10.1038/s41467-023-36160-5

Cite this

Lam, M. S. Y., Reales-Calderon, J. A., Ow, J. R., Aw, J. J. Y., Tan, D., Vijayakumar, R., Ceccarello, E., Tabaglio, T., Lim, Y. T., Chien, W. L., Lai, F., Tanoto, A. T., Chen, Q., Sobota, R. M., Adriani, G., Bertoletti, A., Guccione, E., & Pavesi, A. (2023). G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma. Nature Communications, 14(1), [563]. https://doi.org/10.1038/s41467-023-36160-5

@article{ea0c65b7d49d4728869e7a602aa46a86,

title = "G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma",

abstract = "Engineered T cells transiently expressing tumor-targeting receptors are an attractive form of engineered T cell therapy as they carry no risk of insertional mutagenesis or long-term adverse side-effects. However, multiple rounds of treatment are often required, increasing patient discomfort and cost. To mitigate this, we sought to improve the antitumor activity of transient engineered T cells by screening a panel of small molecules targeting epigenetic regulators for their effect on T cell cytotoxicity. Using a model for engineered T cells targetting hepatocellular carcinoma, we find that short-term inhibition of G9a/GLP increases T cell antitumor activity in in vitro models and an orthotopic mouse model. G9a/GLP inhibition increases granzyme expression without terminal T cell differentiation or exhaustion and results in specific changes in expression of genes and proteins involved in pro-inflammatory pathways, T cell activation and cytotoxicity.",

author = "Lam, {Maxine S.Y.} and Reales-Calderon, {Jose Antonio} and Ow, {Jin Rong} and Aw, {Joey J.Y.} and Damien Tan and Ragavi Vijayakumar and Erica Ceccarello and Tommaso Tabaglio and Lim, {Yan Ting} and Chien, {Wang Loo} and Fritz Lai and Tanoto, {Anthony Tan} and Qingfeng Chen and Sobota, {Radoslaw M.} and Giulia Adriani and Antonio Bertoletti and Ernesto Guccione and Andrea Pavesi",

note = "Funding Information: We want to thank Alrina Shin Min Tan for her help with the Seahorse experiments and Winnie Teo for supporting the mRNA production. Also, we want to thank Ginny Xiaohe Li for the support with the proteomic analysis and thanks to Christine Tham for her support with the Nanostring experiments. We want to thank Jyothsna Vasudevan for her help with figure illustrations. This work was supported by the Open Fund - Young Individual Research Grant (OF-YIRG) - OFYIRG18nov-0002 awarded to AP and GA; the Competitive research programme (CRP) by the National Research Foundation Singapore (NRF) NRF-CRP17-2017-06 awarded to A.P., E.G., A.B., and Q.C.; Singapore National Research Foundation, NRF-SIS “SingMass” grant to RMS awarded to R.S.; and by the Institute of Molecular and Cell Biology, Agency for Science Technology and Research (A*STAR), Singapore. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-36160-5",

language = "English",

volume = "14",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Publishing Group",

number = "1",

}

Lam, MSY, Reales-Calderon, JA, Ow, JR, Aw, JJY, Tan, D, Vijayakumar, R, Ceccarello, E, Tabaglio, T, Lim, YT, Chien, WL, Lai, F, Tanoto, AT, Chen, Q, Sobota, RM, Adriani, G, Bertoletti, A, Guccione, E & Pavesi, A 2023, 'G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma', Nature Communications, vol. 14, no. 1, 563. https://doi.org/10.1038/s41467-023-36160-5

TY - JOUR

T1 - G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma

AU - Lam, Maxine S.Y.

AU - Reales-Calderon, Jose Antonio

AU - Ow, Jin Rong

AU - Aw, Joey J.Y.

AU - Tan, Damien

AU - Vijayakumar, Ragavi

AU - Ceccarello, Erica

AU - Tabaglio, Tommaso

AU - Lim, Yan Ting

AU - Chien, Wang Loo

AU - Lai, Fritz

AU - Tanoto, Anthony Tan

AU - Chen, Qingfeng

AU - Sobota, Radoslaw M.

AU - Adriani, Giulia

AU - Bertoletti, Antonio

AU - Guccione, Ernesto

AU - Pavesi, Andrea

N1 - Funding Information: We want to thank Alrina Shin Min Tan for her help with the Seahorse experiments and Winnie Teo for supporting the mRNA production. Also, we want to thank Ginny Xiaohe Li for the support with the proteomic analysis and thanks to Christine Tham for her support with the Nanostring experiments. We want to thank Jyothsna Vasudevan for her help with figure illustrations. This work was supported by the Open Fund - Young Individual Research Grant (OF-YIRG) - OFYIRG18nov-0002 awarded to AP and GA; the Competitive research programme (CRP) by the National Research Foundation Singapore (NRF) NRF-CRP17-2017-06 awarded to A.P., E.G., A.B., and Q.C.; Singapore National Research Foundation, NRF-SIS “SingMass” grant to RMS awarded to R.S.; and by the Institute of Molecular and Cell Biology, Agency for Science Technology and Research (A*STAR), Singapore. Publisher Copyright: © 2023, The Author(s).

PY - 2023/12

Y1 - 2023/12

N2 - Engineered T cells transiently expressing tumor-targeting receptors are an attractive form of engineered T cell therapy as they carry no risk of insertional mutagenesis or long-term adverse side-effects. However, multiple rounds of treatment are often required, increasing patient discomfort and cost. To mitigate this, we sought to improve the antitumor activity of transient engineered T cells by screening a panel of small molecules targeting epigenetic regulators for their effect on T cell cytotoxicity. Using a model for engineered T cells targetting hepatocellular carcinoma, we find that short-term inhibition of G9a/GLP increases T cell antitumor activity in in vitro models and an orthotopic mouse model. G9a/GLP inhibition increases granzyme expression without terminal T cell differentiation or exhaustion and results in specific changes in expression of genes and proteins involved in pro-inflammatory pathways, T cell activation and cytotoxicity.

AB - Engineered T cells transiently expressing tumor-targeting receptors are an attractive form of engineered T cell therapy as they carry no risk of insertional mutagenesis or long-term adverse side-effects. However, multiple rounds of treatment are often required, increasing patient discomfort and cost. To mitigate this, we sought to improve the antitumor activity of transient engineered T cells by screening a panel of small molecules targeting epigenetic regulators for their effect on T cell cytotoxicity. Using a model for engineered T cells targetting hepatocellular carcinoma, we find that short-term inhibition of G9a/GLP increases T cell antitumor activity in in vitro models and an orthotopic mouse model. G9a/GLP inhibition increases granzyme expression without terminal T cell differentiation or exhaustion and results in specific changes in expression of genes and proteins involved in pro-inflammatory pathways, T cell activation and cytotoxicity.

UR - http://www.scopus.com/inward/record.url?scp=85147319660&partnerID=8YFLogxK

U2 - 10.1038/s41467-023-36160-5

DO - 10.1038/s41467-023-36160-5

M3 - Article

C2 - 36732506

AN - SCOPUS:85147319660

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 563

ER -

G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma

Abstract

Access to Document

Fingerprint

Cite this