Phosphoprotein dynamics of interacting T cells and tumor cells by HySic

Sofía Ibáñez-Molero; Joannes T.M. Pruijs; Alisha Atmopawiro; Fujia Wang; Alexandra M. Terry; Maarten Altelaar; Daniel S. Peeper; Kelly E. Stecker

doi:10.1016/j.celrep.2023.113598

Phosphoprotein dynamics of interacting T cells and tumor cells by HySic

Sofía Ibáñez-Molero
, Joannes T.M. Pruijs
, Alisha Atmopawiro
, Fujia Wang
, Alexandra M. Terry
, Maarten Altelaar^*
, Daniel S. Peeper^*
, Kelly E. Stecker

^*Corresponding author for this work

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

Abstract

Functional interactions between cytotoxic T cells and tumor cells are central to anti-cancer immunity. However, our understanding of the proteins involved is limited. Here, we present HySic (hybrid quantification of stable isotope labeling by amino acids in cell culture [SILAC]-labeled interacting cells) as a method to quantify protein and phosphorylation dynamics between and within physically interacting cells. Using co-cultured T cells and tumor cells, we directly measure the proteome and phosphoproteome of engaged cells without the need for physical separation. We identify proteins whose abundance or activation status changes upon T cell:tumor cell interaction and validate our method with established signal transduction pathways including interferon γ (IFNγ) and tumor necrosis factor (TNF). Furthermore, we identify the RHO/RAC/PAK1 signaling pathway to be activated upon cell engagement and show that pharmacologic inhibition of PAK1 sensitizes tumor cells to T cell killing. Thus, HySic is a simple method to study rapid protein signaling dynamics in physically interacting cells that is easily extended to other biological systems.

Original language	English
Article number	113598
Journal	Cell Reports
Volume	43
Issue number	1
DOIs	https://doi.org/10.1016/j.celrep.2023.113598
Publication status	Published - 23 Jan 2024

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Funding

We would like to thank the Schumacher lab for sharing the MART-1 TCR system. We thank our colleagues in the lab and division for valuable input and discussion and Nils Visser for technical support. We would also like to thank the flow cytometry facility in NKI-AVL for contributing to this work. This work received support from the Horizon 2020 program INFRAIA project Epic-XS ( Project 823839 ) and the NWO-funded Netherlands Proteomics Center through the National Road Map for Large-scale Infrastructures program X-Omics ( Project 184.034.019 ). F.W. is partially funded by the China Scholarship Council no. 202009370061 . D.S.P. is funded by, and is a member of, the Oncode Institute , which is partly financed by the Dutch Cancer Society .

Funders	Funder number
Horizon 2020 program INFRAIA project Epic-XS
NWO-funded Netherlands Proteomics Center through the National Road Map for Large-scale Infrastructures program X- Omics
China Scholarship Council
Dutch Cancer Society
???publication-publication-funding-organisation-not-added???	823839
???publication-publication-funding-organisation-not-added???	184.034.019
???publication-publication-funding-organisation-not-added???	202009370061

Keywords

cancer
cell-cell interaction
CP: Cancer
CP: Immunology
immunology
phosphoproteomics
proteomics
T cell

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

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title = "Phosphoprotein dynamics of interacting T cells and tumor cells by HySic",

abstract = "Functional interactions between cytotoxic T cells and tumor cells are central to anti-cancer immunity. However, our understanding of the proteins involved is limited. Here, we present HySic (hybrid quantification of stable isotope labeling by amino acids in cell culture [SILAC]-labeled interacting cells) as a method to quantify protein and phosphorylation dynamics between and within physically interacting cells. Using co-cultured T cells and tumor cells, we directly measure the proteome and phosphoproteome of engaged cells without the need for physical separation. We identify proteins whose abundance or activation status changes upon T cell:tumor cell interaction and validate our method with established signal transduction pathways including interferon γ (IFNγ) and tumor necrosis factor (TNF). Furthermore, we identify the RHO/RAC/PAK1 signaling pathway to be activated upon cell engagement and show that pharmacologic inhibition of PAK1 sensitizes tumor cells to T cell killing. Thus, HySic is a simple method to study rapid protein signaling dynamics in physically interacting cells that is easily extended to other biological systems.",

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doi = "10.1016/j.celrep.2023.113598",

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AU - Ibáñez-Molero, Sofía

AU - Pruijs, Joannes T.M.

AU - Atmopawiro, Alisha

AU - Wang, Fujia

AU - Terry, Alexandra M.

AU - Altelaar, Maarten

AU - Peeper, Daniel S.

AU - Stecker, Kelly E.

PY - 2024/1/23

Y1 - 2024/1/23

N2 - Functional interactions between cytotoxic T cells and tumor cells are central to anti-cancer immunity. However, our understanding of the proteins involved is limited. Here, we present HySic (hybrid quantification of stable isotope labeling by amino acids in cell culture [SILAC]-labeled interacting cells) as a method to quantify protein and phosphorylation dynamics between and within physically interacting cells. Using co-cultured T cells and tumor cells, we directly measure the proteome and phosphoproteome of engaged cells without the need for physical separation. We identify proteins whose abundance or activation status changes upon T cell:tumor cell interaction and validate our method with established signal transduction pathways including interferon γ (IFNγ) and tumor necrosis factor (TNF). Furthermore, we identify the RHO/RAC/PAK1 signaling pathway to be activated upon cell engagement and show that pharmacologic inhibition of PAK1 sensitizes tumor cells to T cell killing. Thus, HySic is a simple method to study rapid protein signaling dynamics in physically interacting cells that is easily extended to other biological systems.

AB - Functional interactions between cytotoxic T cells and tumor cells are central to anti-cancer immunity. However, our understanding of the proteins involved is limited. Here, we present HySic (hybrid quantification of stable isotope labeling by amino acids in cell culture [SILAC]-labeled interacting cells) as a method to quantify protein and phosphorylation dynamics between and within physically interacting cells. Using co-cultured T cells and tumor cells, we directly measure the proteome and phosphoproteome of engaged cells without the need for physical separation. We identify proteins whose abundance or activation status changes upon T cell:tumor cell interaction and validate our method with established signal transduction pathways including interferon γ (IFNγ) and tumor necrosis factor (TNF). Furthermore, we identify the RHO/RAC/PAK1 signaling pathway to be activated upon cell engagement and show that pharmacologic inhibition of PAK1 sensitizes tumor cells to T cell killing. Thus, HySic is a simple method to study rapid protein signaling dynamics in physically interacting cells that is easily extended to other biological systems.

KW - cancer

KW - cell-cell interaction

KW - CP: Cancer

KW - CP: Immunology

KW - immunology

KW - phosphoproteomics

KW - proteomics

KW - T cell

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SN - 2211-1247

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JO - Cell Reports

JF - Cell Reports

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ER -

Phosphoprotein dynamics of interacting T cells and tumor cells by HySic

Abstract

Bibliographical note

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Keywords

UN SDGs

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