Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control

Dimitri Belenki; Paulina Richter-Pechanska; Zhiting Shao; Animesh Bhattacharya; Andrea Lau; José Américo Nabuco Leva Ferreira de Freitas; Gregor Kandler; Timon Hick; Xiurong Cai; Eva Scharnagl; Aitomi Bittner; Martin Schönlein; Julia Kase; Katharina Pardon; Bernadette Brzezicha; Nina Thiessen; Oliver Bischof; JR. Dörr; Maurice Reimann; Maja Milanovic; Jing Du; Yong Yu; Björn Chapuy; Soyoung Lee; U. Leser; C. Scheidereit; Jana Wolf; Dorothy N. Y. Fan; Clemens Schmitt

doi:10.1038/s41467-025-57429-x

Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control

Dimitri Belenki
, Paulina Richter-Pechanska
, Zhiting Shao
, Animesh Bhattacharya
, Andrea Lau
, José Américo Nabuco Leva Ferreira de Freitas
, Gregor Kandler
, Timon Hick
, Xiurong Cai
, Eva Scharnagl
, Aitomi Bittner
, Martin Schönlein
, Julia Kase
, Katharina Pardon
, Bernadette Brzezicha
, Nina Thiessen
, Oliver Bischof
, JR. Dörr
, Maurice Reimann
, Maja Milanovic

Jing Du, Yong Yu, Björn Chapuy, Soyoung Lee, U. Leser, C. Scheidereit, Jana Wolf, Dorothy N. Y. Fan, Clemens Schmitt^*

^*Corresponding author for this work

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

Abstract

Cellular senescence is a stress-inducible state switch relevant in aging, tumorigenesis and cancer therapy. Beyond a lasting arrest, senescent cells are characterized by profound chromatin remodeling and transcriptional reprogramming. We show here myeloid-skewed aberrant lineage plasticity and its immunological ramifications in therapy-induced senescence (TIS) of primary human and murine B-cell lymphoma. We find myeloid transcription factor (TF) networks, specifically AP-1-, C/EBPβ- and PU.1-governed transcriptional programs, enriched in TIS but not in equally chemotherapy-exposed senescence-incapable cancer cells. Dependent on these master TF, TIS lymphoma cells adopt a lineage-promiscuous state with properties of monocytic-dendritic cell (DC) differentiation. TIS lymphoma cells are preferentially lysed by T-cells in vitro, and mice harboring DC-skewed Eμ-myc lymphoma experience significantly longer tumor-free survival. Consistently, superior long-term outcome is also achieved in diffuse large B-cell lymphoma patients with high expression of a TIS-related DC signature. In essence, these data demonstrate a therapeutically exploitable, prognostically favorable immunogenic role of senescence-dependent aberrant myeloid plasticity in B-cell lymphoma.

Original language	English
Article number	3079
Number of pages	20
Journal	nature communications
Volume	16
DOIs	https://doi.org/10.1038/s41467-025-57429-x
Publication status	Published - 31 Mar 2025

UN SDGs

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

SDG 3 Good Health and Well-being

Fields of science

301904 Cancer research
302024 Haematology
302055 Oncology
303 Health Sciences
304 Medical Biotechnology
305 Other Human Medicine, Health Sciences
302 Clinical Medicine
301 Medical-Theoretical Sciences, Pharmacy

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10.1038/s41467-025-57429-x

https://www.nature.com/articles/s41467-025-57429-x#data-availability

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Belenki, D., Richter-Pechanska, P., Shao, Z., Bhattacharya, A., Lau, A., Nabuco Leva Ferreira de Freitas, J. A., Kandler, G., Hick, T., Cai, X., Scharnagl, E., Bittner, A., Schönlein, M., Kase, J., Pardon, K., Brzezicha, B., Thiessen, N., Bischof, O., Dörr, JR., Reimann, M., ... Schmitt, C. (2025). Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control. nature communications, 16, Article 3079. https://doi.org/10.1038/s41467-025-57429-x

@article{917c2e59e5104411ada8ceffe763c7ed,

title = "Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control",

abstract = "Cellular senescence is a stress-inducible state switch relevant in aging, tumorigenesis and cancer therapy. Beyond a lasting arrest, senescent cells are characterized by profound chromatin remodeling and transcriptional reprogramming. We show here myeloid-skewed aberrant lineage plasticity and its immunological ramifications in therapy-induced senescence (TIS) of primary human and murine B-cell lymphoma. We find myeloid transcription factor (TF) networks, specifically AP-1-, C/EBPβ- and PU.1-governed transcriptional programs, enriched in TIS but not in equally chemotherapy-exposed senescence-incapable cancer cells. Dependent on these master TF, TIS lymphoma cells adopt a lineage-promiscuous state with properties of monocytic-dendritic cell (DC) differentiation. TIS lymphoma cells are preferentially lysed by T-cells in vitro, and mice harboring DC-skewed Eμ-myc lymphoma experience significantly longer tumor-free survival. Consistently, superior long-term outcome is also achieved in diffuse large B-cell lymphoma patients with high expression of a TIS-related DC signature. In essence, these data demonstrate a therapeutically exploitable, prognostically favorable immunogenic role of senescence-dependent aberrant myeloid plasticity in B-cell lymphoma.",

author = "Dimitri Belenki and Paulina Richter-Pechanska and Zhiting Shao and Animesh Bhattacharya and Andrea Lau and \{Nabuco Leva Ferreira de Freitas\}, \{Jos{\'e} Am{\'e}rico\} and Gregor Kandler and Timon Hick and Xiurong Cai and Eva Scharnagl and Aitomi Bittner and Martin Sch{\"o}nlein and Julia Kase and Katharina Pardon and Bernadette Brzezicha and Nina Thiessen and Oliver Bischof and JR. D{\"o}rr and Maurice Reimann and Maja Milanovic and Jing Du and Yong Yu and Bj{\"o}rn Chapuy and Soyoung Lee and U. Leser and C. Scheidereit and Jana Wolf and Fan, \{Dorothy N. Y.\} and Clemens Schmitt",

year = "2025",

month = mar,

day = "31",

doi = "10.1038/s41467-025-57429-x",

language = "English",

volume = "16",

journal = "nature communications",

issn = "2041-1723",

publisher = "Springer Nature Limited",

}

Belenki, D, Richter-Pechanska, P, Shao, Z, Bhattacharya, A, Lau, A, Nabuco Leva Ferreira de Freitas, JA, Kandler, G, Hick, T, Cai, X, Scharnagl, E, Bittner, A, Schönlein, M, Kase, J, Pardon, K, Brzezicha, B, Thiessen, N, Bischof, O, Dörr, JR, Reimann, M, Milanovic, M, Du, J, Yu, Y, Chapuy, B, Lee, S, Leser, U, Scheidereit, C, Wolf, J, Fan, DNY & Schmitt, C 2025, 'Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control', nature communications, vol. 16, 3079. https://doi.org/10.1038/s41467-025-57429-x

TY - JOUR

T1 - Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control

AU - Belenki, Dimitri

AU - Richter-Pechanska, Paulina

AU - Shao, Zhiting

AU - Bhattacharya, Animesh

AU - Lau, Andrea

AU - Nabuco Leva Ferreira de Freitas, José Américo

AU - Kandler, Gregor

AU - Hick, Timon

AU - Cai, Xiurong

AU - Scharnagl, Eva

AU - Bittner, Aitomi

AU - Schönlein, Martin

AU - Kase, Julia

AU - Pardon, Katharina

AU - Brzezicha, Bernadette

AU - Thiessen, Nina

AU - Bischof, Oliver

AU - Dörr, JR.

AU - Reimann, Maurice

AU - Milanovic, Maja

AU - Du, Jing

AU - Yu, Yong

AU - Chapuy, Björn

AU - Lee, Soyoung

AU - Leser, U.

AU - Scheidereit, C.

AU - Wolf, Jana

AU - Fan, Dorothy N. Y.

AU - Schmitt, Clemens

PY - 2025/3/31

Y1 - 2025/3/31

N2 - Cellular senescence is a stress-inducible state switch relevant in aging, tumorigenesis and cancer therapy. Beyond a lasting arrest, senescent cells are characterized by profound chromatin remodeling and transcriptional reprogramming. We show here myeloid-skewed aberrant lineage plasticity and its immunological ramifications in therapy-induced senescence (TIS) of primary human and murine B-cell lymphoma. We find myeloid transcription factor (TF) networks, specifically AP-1-, C/EBPβ- and PU.1-governed transcriptional programs, enriched in TIS but not in equally chemotherapy-exposed senescence-incapable cancer cells. Dependent on these master TF, TIS lymphoma cells adopt a lineage-promiscuous state with properties of monocytic-dendritic cell (DC) differentiation. TIS lymphoma cells are preferentially lysed by T-cells in vitro, and mice harboring DC-skewed Eμ-myc lymphoma experience significantly longer tumor-free survival. Consistently, superior long-term outcome is also achieved in diffuse large B-cell lymphoma patients with high expression of a TIS-related DC signature. In essence, these data demonstrate a therapeutically exploitable, prognostically favorable immunogenic role of senescence-dependent aberrant myeloid plasticity in B-cell lymphoma.

AB - Cellular senescence is a stress-inducible state switch relevant in aging, tumorigenesis and cancer therapy. Beyond a lasting arrest, senescent cells are characterized by profound chromatin remodeling and transcriptional reprogramming. We show here myeloid-skewed aberrant lineage plasticity and its immunological ramifications in therapy-induced senescence (TIS) of primary human and murine B-cell lymphoma. We find myeloid transcription factor (TF) networks, specifically AP-1-, C/EBPβ- and PU.1-governed transcriptional programs, enriched in TIS but not in equally chemotherapy-exposed senescence-incapable cancer cells. Dependent on these master TF, TIS lymphoma cells adopt a lineage-promiscuous state with properties of monocytic-dendritic cell (DC) differentiation. TIS lymphoma cells are preferentially lysed by T-cells in vitro, and mice harboring DC-skewed Eμ-myc lymphoma experience significantly longer tumor-free survival. Consistently, superior long-term outcome is also achieved in diffuse large B-cell lymphoma patients with high expression of a TIS-related DC signature. In essence, these data demonstrate a therapeutically exploitable, prognostically favorable immunogenic role of senescence-dependent aberrant myeloid plasticity in B-cell lymphoma.

UR - https://www.scopus.com/pages/publications/105001572247

U2 - 10.1038/s41467-025-57429-x

DO - 10.1038/s41467-025-57429-x

M3 - Article

SN - 2041-1723

VL - 16

JO - nature communications

JF - nature communications

M1 - 3079

ER -

Senescence-associated lineage-aberrant plasticity evokes T-cell-mediated tumor control

Abstract

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