Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy

Katie Maurer; Cameron Y. Park; Shouvik Mani; Mehdi Borji; Florian Raths; Kenneth H. Gouin; Livius Penter; Yinuo Jin; Jia Yi Zhang; Crystal Shin; James R. Brenner; Jackson Southard; Sachi Krishna; Wesley Lu; Haoxiang Lyu; Domenic Abbondanza; Chanell Mangum; Lars Rønn Olsen; Michael J. Lawson; Martin Fabani; Donna S. Neuberg; Pavan Bachireddy; Eli N. Glezer; Samouil L. Farhi; Shuqiang Li; Kenneth J. Livak; Jerome Ritz; Robert J. Soiffer; Catherine J. Wu; Elham Azizi

doi:10.1126/sciimmunol.adr0782

Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy

Katie Maurer
, Cameron Y. Park
, Shouvik Mani
, Mehdi Borji
, Florian Raths
, Kenneth H. Gouin
, Livius Penter
, Yinuo Jin
, Jia Yi Zhang
, Crystal Shin
, James R. Brenner
, Jackson Southard
, Sachi Krishna
, Wesley Lu
, Haoxiang Lyu
, Domenic Abbondanza
, Chanell Mangum
, Lars Rønn Olsen
, Michael J. Lawson
, Martin Fabani

Donna S. Neuberg, Pavan Bachireddy, Eli N. Glezer, Samouil L. Farhi, Shuqiang Li, Kenneth J. Livak, Jerome Ritz, Robert J. Soiffer, Catherine J. Wu^*, Elham Azizi^*

^*Corresponding author for this work

Harvard University
Columbia University
Dana-Farber Cancer Institute
Singular Genomics Inc.
Broad Institute of Harvard University and Massachusetts Institute of Technology
The University of Chicago
University of Texas MD Anderson Cancer Center

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Understanding how intratumoral immune populations coordinate antitumor responses after therapy can guide treatment prioritization. We systematically analyzed an established immunotherapy, donor lymphocyte infusion (DLI), by assessing 348,905 single-cell transcriptomes from 74 longitudinal bone marrow samples of 25 patients with relapsed leukemia; a subset was evaluated by both protein- and transcriptome-based spatial analysis. In acute myeloid leukemia (AML) DLI responders, we identified clonally expanded ZNF683⁺ CD8⁺ cytotoxic T lymphocytes with in vitro specificity for patient-matched AML. These cells originated primarily from the DLI product and appeared to coordinate antitumor immune responses through interaction with diverse immune cell types within the marrow microenvironment. Nonresponders lacked this cross-talk and had cytotoxic T lymphocytes with elevated TIGIT expression. Our study identifies recipient bone marrow microenvironment differences as a determinant of an effective antileukemia response and opens opportunities to modulate cellular therapy.

Original language	English
Article number	eadr0782
Journal	Science immunology
Volume	10
Issue number	103
DOIs	https://doi.org/10.1126/sciimmunol.adr0782
Publication status	Published - 2025

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Maurer, K., Park, C. Y., Mani, S., Borji, M., Raths, F., Gouin, K. H., Penter, L., Jin, Y., Zhang, J. Y., Shin, C., Brenner, J. R., Southard, J., Krishna, S., Lu, W., Lyu, H., Abbondanza, D., Mangum, C., Olsen, L. R., Lawson, M. J., ... Azizi, E. (2025). Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy. Science immunology, 10(103), Article eadr0782. https://doi.org/10.1126/sciimmunol.adr0782

@article{666a5624b6034dd78ced8998a0469222,

title = "Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy",

abstract = "Understanding how intratumoral immune populations coordinate antitumor responses after therapy can guide treatment prioritization. We systematically analyzed an established immunotherapy, donor lymphocyte infusion (DLI), by assessing 348,905 single-cell transcriptomes from 74 longitudinal bone marrow samples of 25 patients with relapsed leukemia; a subset was evaluated by both protein- and transcriptome-based spatial analysis. In acute myeloid leukemia (AML) DLI responders, we identified clonally expanded ZNF683+ CD8+ cytotoxic T lymphocytes with in vitro specificity for patient-matched AML. These cells originated primarily from the DLI product and appeared to coordinate antitumor immune responses through interaction with diverse immune cell types within the marrow microenvironment. Nonresponders lacked this cross-talk and had cytotoxic T lymphocytes with elevated TIGIT expression. Our study identifies recipient bone marrow microenvironment differences as a determinant of an effective antileukemia response and opens opportunities to modulate cellular therapy.",

author = "Katie Maurer and Park, \{Cameron Y.\} and Shouvik Mani and Mehdi Borji and Florian Raths and Gouin, \{Kenneth H.\} and Livius Penter and Yinuo Jin and Zhang, \{Jia Yi\} and Crystal Shin and Brenner, \{James R.\} and Jackson Southard and Sachi Krishna and Wesley Lu and Haoxiang Lyu and Domenic Abbondanza and Chanell Mangum and Olsen, \{Lars R{\o}nn\} and Lawson, \{Michael J.\} and Martin Fabani and Neuberg, \{Donna S.\} and Pavan Bachireddy and Glezer, \{Eli N.\} and Farhi, \{Samouil L.\} and Shuqiang Li and Livak, \{Kenneth J.\} and Jerome Ritz and Soiffer, \{Robert J.\} and Wu, \{Catherine J.\} and Elham Azizi",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors, some rights reserved.",

year = "2025",

doi = "10.1126/sciimmunol.adr0782",

language = "English",

volume = "10",

journal = "Science immunology",

issn = "2470-9468",

publisher = "American Association for the Advancement of Science",

number = "103",

}

Maurer, K, Park, CY, Mani, S, Borji, M, Raths, F, Gouin, KH, Penter, L, Jin, Y, Zhang, JY, Shin, C, Brenner, JR, Southard, J, Krishna, S, Lu, W, Lyu, H, Abbondanza, D, Mangum, C, Olsen, LR, Lawson, MJ, Fabani, M, Neuberg, DS, Bachireddy, P, Glezer, EN, Farhi, SL, Li, S, Livak, KJ, Ritz, J, Soiffer, RJ, Wu, CJ & Azizi, E 2025, 'Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy', Science immunology, vol. 10, no. 103, eadr0782. https://doi.org/10.1126/sciimmunol.adr0782

TY - JOUR

T1 - Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy

AU - Maurer, Katie

AU - Park, Cameron Y.

AU - Mani, Shouvik

AU - Borji, Mehdi

AU - Raths, Florian

AU - Gouin, Kenneth H.

AU - Penter, Livius

AU - Jin, Yinuo

AU - Zhang, Jia Yi

AU - Shin, Crystal

AU - Brenner, James R.

AU - Southard, Jackson

AU - Krishna, Sachi

AU - Lu, Wesley

AU - Lyu, Haoxiang

AU - Abbondanza, Domenic

AU - Mangum, Chanell

AU - Olsen, Lars Rønn

AU - Lawson, Michael J.

AU - Fabani, Martin

AU - Neuberg, Donna S.

AU - Bachireddy, Pavan

AU - Glezer, Eli N.

AU - Farhi, Samouil L.

AU - Li, Shuqiang

AU - Livak, Kenneth J.

AU - Ritz, Jerome

AU - Soiffer, Robert J.

AU - Wu, Catherine J.

AU - Azizi, Elham

PY - 2025

Y1 - 2025

N2 - Understanding how intratumoral immune populations coordinate antitumor responses after therapy can guide treatment prioritization. We systematically analyzed an established immunotherapy, donor lymphocyte infusion (DLI), by assessing 348,905 single-cell transcriptomes from 74 longitudinal bone marrow samples of 25 patients with relapsed leukemia; a subset was evaluated by both protein- and transcriptome-based spatial analysis. In acute myeloid leukemia (AML) DLI responders, we identified clonally expanded ZNF683+ CD8+ cytotoxic T lymphocytes with in vitro specificity for patient-matched AML. These cells originated primarily from the DLI product and appeared to coordinate antitumor immune responses through interaction with diverse immune cell types within the marrow microenvironment. Nonresponders lacked this cross-talk and had cytotoxic T lymphocytes with elevated TIGIT expression. Our study identifies recipient bone marrow microenvironment differences as a determinant of an effective antileukemia response and opens opportunities to modulate cellular therapy.

AB - Understanding how intratumoral immune populations coordinate antitumor responses after therapy can guide treatment prioritization. We systematically analyzed an established immunotherapy, donor lymphocyte infusion (DLI), by assessing 348,905 single-cell transcriptomes from 74 longitudinal bone marrow samples of 25 patients with relapsed leukemia; a subset was evaluated by both protein- and transcriptome-based spatial analysis. In acute myeloid leukemia (AML) DLI responders, we identified clonally expanded ZNF683+ CD8+ cytotoxic T lymphocytes with in vitro specificity for patient-matched AML. These cells originated primarily from the DLI product and appeared to coordinate antitumor immune responses through interaction with diverse immune cell types within the marrow microenvironment. Nonresponders lacked this cross-talk and had cytotoxic T lymphocytes with elevated TIGIT expression. Our study identifies recipient bone marrow microenvironment differences as a determinant of an effective antileukemia response and opens opportunities to modulate cellular therapy.

U2 - 10.1126/sciimmunol.adr0782

DO - 10.1126/sciimmunol.adr0782

M3 - Journal article

C2 - 39854478

AN - SCOPUS:85216825576

SN - 2470-9468

VL - 10

JO - Science immunology

JF - Science immunology

IS - 103

M1 - eadr0782

ER -

Coordinated immune networks in leukemia bone marrow microenvironments distinguish response to cellular therapy

Abstract

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